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302 lines
10 KiB
Go
302 lines
10 KiB
Go
// Copyright (c) 2022 Tailscale Inc & AUTHORS All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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package tka
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import (
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"crypto/ed25519"
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"testing"
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"github.com/google/go-cmp/cmp"
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"tailscale.com/types/key"
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)
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func TestSigDirect(t *testing.T) {
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node := key.NewNode()
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nodeKeyPub, _ := node.Public().MarshalBinary()
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// Verification key (the key used to sign)
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pub, priv := testingKey25519(t, 1)
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k := Key{Kind: Key25519, Public: pub, Votes: 2}
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sig := NodeKeySignature{
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SigKind: SigDirect,
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KeyID: k.MustID(),
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Pubkey: nodeKeyPub,
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}
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sigHash := sig.SigHash()
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sig.Signature = ed25519.Sign(priv, sigHash[:])
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if sig.SigHash() != sigHash {
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t.Errorf("sigHash changed after signing: %x != %x", sig.SigHash(), sigHash)
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}
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if err := sig.verifySignature(node.Public(), k); err != nil {
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t.Fatalf("verifySignature() failed: %v", err)
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}
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// Test verification fails when verifying for a different node
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if err := sig.verifySignature(key.NewNode().Public(), k); err == nil {
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t.Error("verifySignature() did not error for different nodekey")
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}
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// Test verification fails if the wrong verification key is provided
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copy(k.Public, []byte{1, 2, 3, 4})
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if err := sig.verifySignature(node.Public(), k); err == nil {
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t.Error("verifySignature() did not error for wrong verification key")
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}
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}
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func TestSigNested(t *testing.T) {
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// Network-lock key (the key used to sign the nested sig)
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pub, priv := testingKey25519(t, 1)
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k := Key{Kind: Key25519, Public: pub, Votes: 2}
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// Rotation key (the key used to sign the outer sig)
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rPub, rPriv := testingKey25519(t, 2)
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// The old node key which is being rotated out
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oldNode := key.NewNode()
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oldPub, _ := oldNode.Public().MarshalBinary()
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// The new node key that is being rotated in
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node := key.NewNode()
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nodeKeyPub, _ := node.Public().MarshalBinary()
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// The original signature for the old node key, signed by
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// the network-lock key.
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nestedSig := NodeKeySignature{
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SigKind: SigDirect,
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KeyID: k.MustID(),
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Pubkey: oldPub,
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WrappingPubkey: rPub,
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}
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sigHash := nestedSig.SigHash()
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nestedSig.Signature = ed25519.Sign(priv, sigHash[:])
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if err := nestedSig.verifySignature(oldNode.Public(), k); err != nil {
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t.Fatalf("verifySignature(oldNode) failed: %v", err)
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}
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// The signature authorizing the rotation, signed by the
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// rotation key & embedding the original signature.
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sig := NodeKeySignature{
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SigKind: SigRotation,
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Pubkey: nodeKeyPub,
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Nested: &nestedSig,
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}
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sigHash = sig.SigHash()
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sig.Signature = ed25519.Sign(rPriv, sigHash[:])
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if err := sig.verifySignature(node.Public(), k); err != nil {
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t.Fatalf("verifySignature(node) failed: %v", err)
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}
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// Test verification fails if the wrong verification key is provided
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kBad := Key{Kind: Key25519, Public: []byte{1, 2, 3, 4}, Votes: 2}
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if err := sig.verifySignature(node.Public(), kBad); err == nil {
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t.Error("verifySignature() did not error for wrong verification key")
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}
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// Test verification fails if the inner signature is invalid
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tmp := make([]byte, ed25519.SignatureSize)
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copy(tmp, nestedSig.Signature)
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copy(nestedSig.Signature, []byte{1, 2, 3, 4})
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if err := sig.verifySignature(node.Public(), k); err == nil {
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t.Error("verifySignature(node) succeeded with bad inner signature")
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}
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copy(nestedSig.Signature, tmp)
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// Test verification fails if the outer signature is invalid
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copy(sig.Signature, []byte{1, 2, 3, 4})
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if err := sig.verifySignature(node.Public(), k); err == nil {
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t.Error("verifySignature(node) succeeded with bad outer signature")
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}
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// Test verification fails if the outer signature is signed with a
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// different public key to whats specified in WrappingPubkey
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sig.Signature = ed25519.Sign(priv, sigHash[:])
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if err := sig.verifySignature(node.Public(), k); err == nil {
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t.Error("verifySignature(node) succeeded with different signature")
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}
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}
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func TestSigNested_DeepNesting(t *testing.T) {
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// Network-lock key (the key used to sign the nested sig)
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pub, priv := testingKey25519(t, 1)
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k := Key{Kind: Key25519, Public: pub, Votes: 2}
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// Rotation key (the key used to sign the outer sig)
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rPub, rPriv := testingKey25519(t, 2)
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// The old node key which is being rotated out
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oldNode := key.NewNode()
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oldPub, _ := oldNode.Public().MarshalBinary()
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// The original signature for the old node key, signed by
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// the network-lock key.
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nestedSig := NodeKeySignature{
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SigKind: SigDirect,
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KeyID: k.MustID(),
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Pubkey: oldPub,
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WrappingPubkey: rPub,
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}
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sigHash := nestedSig.SigHash()
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nestedSig.Signature = ed25519.Sign(priv, sigHash[:])
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if err := nestedSig.verifySignature(oldNode.Public(), k); err != nil {
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t.Fatalf("verifySignature(oldNode) failed: %v", err)
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}
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outer := nestedSig
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var lastNodeKey key.NodePrivate
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for i := 0; i < 15; i++ { // 15 = max nesting level for CBOR
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lastNodeKey = key.NewNode()
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nodeKeyPub, _ := lastNodeKey.Public().MarshalBinary()
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tmp := outer
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sig := NodeKeySignature{
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SigKind: SigRotation,
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Pubkey: nodeKeyPub,
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Nested: &tmp,
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}
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sigHash = sig.SigHash()
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sig.Signature = ed25519.Sign(rPriv, sigHash[:])
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outer = sig
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}
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if err := outer.verifySignature(lastNodeKey.Public(), k); err != nil {
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t.Fatalf("verifySignature(lastNodeKey) failed: %v", err)
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}
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// Test this works with our public API
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a, _ := Open(newTestchain(t, "G1\nG1.template = genesis",
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optTemplate("genesis", AUM{MessageKind: AUMCheckpoint, State: &State{
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Keys: []Key{k},
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DisablementSecrets: [][]byte{DisablementKDF([]byte{1, 2, 3})},
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}})).Chonk())
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if err := a.NodeKeyAuthorized(lastNodeKey.Public(), outer.Serialize()); err != nil {
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t.Errorf("NodeKeyAuthorized(lastNodeKey) failed: %v", err)
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}
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// Test verification fails if the inner signature is invalid
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tmp := make([]byte, ed25519.SignatureSize)
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copy(tmp, nestedSig.Signature)
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copy(nestedSig.Signature, []byte{1, 2, 3, 4})
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if err := outer.verifySignature(lastNodeKey.Public(), k); err == nil {
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t.Error("verifySignature(lastNodeKey) succeeded with bad inner signature")
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}
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copy(nestedSig.Signature, tmp)
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// Test verification fails if an intermediate signature is invalid
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copy(outer.Nested.Nested.Signature, []byte{1, 2, 3, 4})
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if err := outer.verifySignature(lastNodeKey.Public(), k); err == nil {
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t.Error("verifySignature(lastNodeKey) succeeded with bad outer signature")
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}
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}
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func TestSigCredential(t *testing.T) {
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// Network-lock key (the key used to sign the nested sig)
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pub, priv := testingKey25519(t, 1)
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k := Key{Kind: Key25519, Public: pub, Votes: 2}
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// 'credential' key (the one being delegated to)
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cPub, cPriv := testingKey25519(t, 2)
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// The node key being certified
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node := key.NewNode()
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nodeKeyPub, _ := node.Public().MarshalBinary()
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// The signature certifying delegated trust to another
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// public key.
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nestedSig := NodeKeySignature{
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SigKind: SigCredential,
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KeyID: k.MustID(),
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WrappingPubkey: cPub,
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}
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sigHash := nestedSig.SigHash()
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nestedSig.Signature = ed25519.Sign(priv, sigHash[:])
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// The signature authorizing the node key, signed by the
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// delegated key & embedding the original signature.
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sig := NodeKeySignature{
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SigKind: SigRotation,
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Pubkey: nodeKeyPub,
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Nested: &nestedSig,
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}
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sigHash = sig.SigHash()
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sig.Signature = ed25519.Sign(cPriv, sigHash[:])
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if err := sig.verifySignature(node.Public(), k); err != nil {
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t.Fatalf("verifySignature(node) failed: %v", err)
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}
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// Test verification fails if the wrong verification key is provided
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kBad := Key{Kind: Key25519, Public: []byte{1, 2, 3, 4}, Votes: 2}
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if err := sig.verifySignature(node.Public(), kBad); err == nil {
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t.Error("verifySignature() did not error for wrong verification key")
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}
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// Test someone can't misuse our public API for verifying node-keys
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a, _ := Open(newTestchain(t, "G1\nG1.template = genesis",
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optTemplate("genesis", AUM{MessageKind: AUMCheckpoint, State: &State{
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Keys: []Key{k},
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DisablementSecrets: [][]byte{DisablementKDF([]byte{1, 2, 3})},
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}})).Chonk())
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if err := a.NodeKeyAuthorized(node.Public(), nestedSig.Serialize()); err == nil {
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t.Error("NodeKeyAuthorized(SigCredential, node) did not fail")
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}
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// but that they can use it properly (nested in a SigRotation)
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if err := a.NodeKeyAuthorized(node.Public(), sig.Serialize()); err != nil {
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t.Errorf("NodeKeyAuthorized(SigRotation{SigCredential}, node) failed: %v", err)
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}
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// Test verification fails if the inner signature is invalid
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tmp := make([]byte, ed25519.SignatureSize)
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copy(tmp, nestedSig.Signature)
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copy(nestedSig.Signature, []byte{1, 2, 3, 4})
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if err := sig.verifySignature(node.Public(), k); err == nil {
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t.Error("verifySignature(node) succeeded with bad inner signature")
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}
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copy(nestedSig.Signature, tmp)
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// Test verification fails if the outer signature is invalid
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copy(tmp, sig.Signature)
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copy(sig.Signature, []byte{1, 2, 3, 4})
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if err := sig.verifySignature(node.Public(), k); err == nil {
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t.Error("verifySignature(node) succeeded with bad outer signature")
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}
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copy(sig.Signature, tmp)
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// Test verification fails if we attempt to check a different node-key
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otherNode := key.NewNode()
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if err := sig.verifySignature(otherNode.Public(), k); err == nil {
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t.Error("verifySignature(otherNode) succeeded with different principal")
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}
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// Test verification fails if the outer signature is signed with a
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// different public key to whats specified in WrappingPubkey
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sig.Signature = ed25519.Sign(priv, sigHash[:])
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if err := sig.verifySignature(node.Public(), k); err == nil {
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t.Error("verifySignature(node) succeeded with different signature")
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}
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}
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func TestSigSerializeUnserialize(t *testing.T) {
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nodeKeyPub := []byte{1, 2, 3, 4}
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pub, priv := testingKey25519(t, 1)
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key := Key{Kind: Key25519, Public: pub, Votes: 2}
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sig := NodeKeySignature{
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SigKind: SigDirect,
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KeyID: key.MustID(),
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Pubkey: nodeKeyPub,
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Nested: &NodeKeySignature{
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SigKind: SigDirect,
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KeyID: key.MustID(),
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Pubkey: nodeKeyPub,
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},
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}
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sigHash := sig.SigHash()
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sig.Signature = ed25519.Sign(priv, sigHash[:])
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var decoded NodeKeySignature
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if err := decoded.Unserialize(sig.Serialize()); err != nil {
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t.Fatalf("Unserialize() failed: %v", err)
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}
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if diff := cmp.Diff(sig, decoded); diff != "" {
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t.Errorf("unmarshalled version differs (-want, +got):\n%s", diff)
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}
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}
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