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244 lines
7.8 KiB
Go
244 lines
7.8 KiB
Go
// Copyright (c) Tailscale Inc & AUTHORS
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// SPDX-License-Identifier: BSD-3-Clause
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package tka
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import (
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"bytes"
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"crypto/ed25519"
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"errors"
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"fmt"
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"github.com/fxamacker/cbor/v2"
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"github.com/hdevalence/ed25519consensus"
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"golang.org/x/crypto/blake2s"
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"tailscale.com/types/key"
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"tailscale.com/types/tkatype"
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)
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// SigKind describes valid NodeKeySignature types.
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type SigKind uint8
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const (
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SigInvalid SigKind = iota
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// SigDirect describes a signature over a specific node key, signed
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// by a key in the tailnet key authority referenced by the specified keyID.
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SigDirect
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// SigRotation describes a signature over a specific node key, signed
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// by the rotation key authorized by a nested NodeKeySignature structure.
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//
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// While it is possible to nest rotations multiple times up to the CBOR
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// nesting limit, it is intended that nodes simply regenerate their outer
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// SigRotation signature and sign it again with their rotation key. That
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// way, SigRotation nesting should only be 2 deep in the common case.
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SigRotation
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// SigCredential describes a signature over a specific public key, signed
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// by a key in the tailnet key authority referenced by the specified keyID.
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// In effect, SigCredential delegates the ability to make a signature to
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// a different public/private key pair.
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//
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// It is intended that a different public/private key pair be generated
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// for each different SigCredential that is created. Implementors must
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// take care that the private side is only known to the entity that needs
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// to generate the wrapping SigRotation signature, and it is immediately
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// discarded after use.
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//
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// SigCredential is expected to be nested in a SigRotation signature.
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SigCredential
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)
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func (s SigKind) String() string {
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switch s {
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case SigInvalid:
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return "invalid"
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case SigDirect:
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return "direct"
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case SigRotation:
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return "rotation"
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case SigCredential:
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return "credential"
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default:
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return fmt.Sprintf("Sig?<%d>", int(s))
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}
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}
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// NodeKeySignature encapsulates a signature that authorizes a specific
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// node key, based on verification from keys in the tailnet key authority.
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type NodeKeySignature struct {
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// SigKind identifies the variety of signature.
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SigKind SigKind `cbor:"1,keyasint"`
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// Pubkey identifies the key.NodePublic which is being authorized.
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// SigCredential signatures do not use this field.
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Pubkey []byte `cbor:"2,keyasint,omitempty"`
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// KeyID identifies which key in the tailnet key authority should
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// be used to verify this signature. Only set for SigDirect and
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// SigCredential signature kinds.
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KeyID []byte `cbor:"3,keyasint,omitempty"`
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// Signature is the packed (R, S) ed25519 signature over all other
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// fields of the structure.
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Signature []byte `cbor:"4,keyasint,omitempty"`
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// Nested describes a NodeKeySignature which authorizes the node-key
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// used as Pubkey. Only used for SigRotation signatures.
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Nested *NodeKeySignature `cbor:"5,keyasint,omitempty"`
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// WrappingPubkey specifies the ed25519 public key which must be used
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// to sign a Signature which embeds this one.
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//
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// For SigRotation signatures multiple levels deep, intermediate
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// signatures may omit this value, in which case the parent WrappingPubkey
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// is used.
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//
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// SigCredential signatures use this field to specify the public key
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// they are certifying, following the usual semanticsfor WrappingPubkey.
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WrappingPubkey []byte `cbor:"6,keyasint,omitempty"`
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}
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// wrappingPublic returns the public key which must sign a signature which
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// embeds this one, if any.
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func (s NodeKeySignature) wrappingPublic() (pub ed25519.PublicKey, ok bool) {
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if len(s.WrappingPubkey) > 0 {
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return ed25519.PublicKey(s.WrappingPubkey), true
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}
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switch s.SigKind {
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case SigRotation:
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if s.Nested == nil {
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return nil, false
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}
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return s.Nested.wrappingPublic()
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default:
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return nil, false
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}
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}
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// authorizingKeyID returns the KeyID of the key trusted by network-lock which authorizes
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// this signature.
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func (s NodeKeySignature) authorizingKeyID() (tkatype.KeyID, error) {
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switch s.SigKind {
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case SigDirect, SigCredential:
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if len(s.KeyID) == 0 {
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return tkatype.KeyID{}, errors.New("invalid signature: no keyID present")
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}
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return tkatype.KeyID(s.KeyID), nil
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case SigRotation:
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if s.Nested == nil {
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return tkatype.KeyID{}, errors.New("invalid signature: rotation signature missing nested signature")
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}
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return s.Nested.authorizingKeyID()
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default:
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return tkatype.KeyID{}, fmt.Errorf("unhandled signature type: %v", s.SigKind)
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}
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}
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// SigHash returns the cryptographic digest which a signature
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// is over.
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//
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// This is a hash of the serialized structure, sans the signature.
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// Without this exclusion, the hash used for the signature
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// would be circularly dependent on the signature.
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func (s NodeKeySignature) SigHash() [blake2s.Size]byte {
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dupe := s
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dupe.Signature = nil
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return blake2s.Sum256(dupe.Serialize())
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}
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// Serialize returns the given NKS in a serialized format.
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//
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// We would implement encoding.BinaryMarshaler, except that would
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// unfortunately get called by the cbor marshaller resulting in infinite
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// recursion.
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func (s *NodeKeySignature) Serialize() tkatype.MarshaledSignature {
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out := bytes.NewBuffer(make([]byte, 0, 128)) // 64byte sig + 32byte keyID + 32byte headroom
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encoder, err := cbor.CTAP2EncOptions().EncMode()
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if err != nil {
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// Deterministic validation of encoding options, should
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// never fail.
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panic(err)
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}
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if err := encoder.NewEncoder(out).Encode(s); err != nil {
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// Writing to a bytes.Buffer should never fail.
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panic(err)
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}
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return out.Bytes()
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}
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// Unserialize decodes bytes representing a marshaled NKS.
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//
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// We would implement encoding.BinaryUnmarshaler, except that would
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// unfortunately get called by the cbor unmarshaller resulting in infinite
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// recursion.
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func (s *NodeKeySignature) Unserialize(data []byte) error {
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dec, _ := cborDecOpts.DecMode()
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return dec.Unmarshal(data, s)
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}
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// verifySignature checks that the NodeKeySignature is authentic & certified
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// by the given verificationKey. Additionally, SigDirect and SigRotation
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// signatures are checked to ensure they authorize the given nodeKey.
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func (s *NodeKeySignature) verifySignature(nodeKey key.NodePublic, verificationKey Key) error {
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if s.SigKind != SigCredential {
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nodeBytes, err := nodeKey.MarshalBinary()
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if err != nil {
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return fmt.Errorf("marshalling pubkey: %v", err)
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}
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if !bytes.Equal(nodeBytes, s.Pubkey) {
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return errors.New("signature does not authorize nodeKey")
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}
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}
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sigHash := s.SigHash()
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switch s.SigKind {
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case SigRotation:
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if s.Nested == nil {
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return errors.New("nested signatures must nest a signature")
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}
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// Verify the signature using the nested rotation key.
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verifyPub, ok := s.Nested.wrappingPublic()
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if !ok {
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return errors.New("missing rotation key")
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}
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if !ed25519.Verify(ed25519.PublicKey(verifyPub[:]), sigHash[:], s.Signature) {
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return errors.New("invalid signature")
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}
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// Recurse to verify the signature on the nested structure.
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var nestedPub key.NodePublic
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// SigCredential signatures certify an indirection key rather than a node
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// key, so theres no need to check the node key.
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if s.Nested.SigKind != SigCredential {
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if err := nestedPub.UnmarshalBinary(s.Nested.Pubkey); err != nil {
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return fmt.Errorf("nested pubkey: %v", err)
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}
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}
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if err := s.Nested.verifySignature(nestedPub, verificationKey); err != nil {
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return fmt.Errorf("nested: %v", err)
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}
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return nil
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case SigDirect, SigCredential:
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if s.Nested != nil {
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return fmt.Errorf("invalid signature: signatures of type %v cannot nest another signature", s.SigKind)
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}
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switch verificationKey.Kind {
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case Key25519:
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if ed25519consensus.Verify(ed25519.PublicKey(verificationKey.Public), sigHash[:], s.Signature) {
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return nil
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}
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return errors.New("invalid signature")
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default:
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return fmt.Errorf("unhandled key type: %v", verificationKey.Kind)
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}
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default:
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return fmt.Errorf("unhandled signature type: %v", s.SigKind)
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}
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}
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