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sign_verify_test.go
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sign_verify_test.go
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package cose
import (
"crypto"
"crypto/ecdsa"
"crypto/elliptic"
"crypto/rand"
"fmt"
"github.com/stretchr/testify/assert"
"testing"
)
func TestSignErrors(t *testing.T) {
assert := assert.New(t)
msg := NewSignMessage()
msg.Payload = []byte("payload to sign")
signer, err := NewSigner(ES256, nil)
assert.Nil(err, fmt.Sprintf("Error creating signer %s", err))
sig := NewSignature()
sig.Headers.Protected[algTag] = -41 // RSAES-OAEP w/ SHA-256 from [RFC8230]
sig.Headers.Protected[kidTag] = 1
msg.Signatures = []Signature{}
err = msg.Sign(rand.Reader, []byte(""), []Signer{*signer})
assert.Equal(ErrNoSignatures, err)
msg.Signatures = nil
err = msg.Sign(rand.Reader, []byte(""), []Signer{*signer})
assert.Equal(ErrNilSignatures, err)
// check that it creates the signatures array from nil
msg.AddSignature(sig)
assert.Equal(len(msg.Signatures), 1)
msg.Signatures[0].Headers = nil
err = msg.Sign(rand.Reader, []byte(""), []Signer{*signer})
assert.Equal(ErrNilSigHeader, err)
msg.Signatures = nil
msg.AddSignature(sig)
msg.Signatures[0].Headers.Protected = nil
err = msg.Sign(rand.Reader, []byte(""), []Signer{*signer})
assert.Equal(ErrNilSigProtectedHeaders, err)
msg.Signatures = nil
sig.Headers.Protected = map[interface{}]interface{}{}
sig.Headers.Protected[algTag] = -41 // RSAES-OAEP w/ SHA-256 from [RFC8230]
sig.Headers.Protected[kidTag] = 1
sig.SignatureBytes = []byte("already signed")
msg.AddSignature(sig)
assert.Equal(len(msg.Signatures), 1)
assert.NotNil(msg.Signatures[0].Headers)
err = msg.Sign(rand.Reader, []byte(""), []Signer{})
assert.Equal("0 signers for 1 signatures", err.Error())
err = msg.Sign(rand.Reader, []byte(""), []Signer{*signer})
assert.Equal("SignMessage signature 0 already has signature bytes", err.Error())
msg.Signatures[0].SignatureBytes = nil
err = msg.Sign(rand.Reader, []byte(""), []Signer{*signer})
assert.Equal(ErrUnavailableHashFunc, err)
msg.Signatures[0].Headers.Protected[algTag] = ES256.Value
signer.alg = ES256
signer.PrivateKey = dsaPrivateKey
err = msg.Sign(rand.Reader, []byte(""), []Signer{*signer})
assert.Equal(ErrUnknownPrivateKeyType, err)
signer.alg = PS256
err = msg.Sign(rand.Reader, []byte(""), []Signer{*signer})
assert.Equal("Signer of type PS256 cannot generate a signature of type ES256", err.Error())
msg.Signatures[0].Headers.Protected[algTag] = -9000
err = msg.Sign(rand.Reader, []byte(""), []Signer{*signer})
assert.Equal("Algorithm with value -9000 not found", err.Error())
msg.Signatures[0].Headers.Protected[algTag] = 1
err = msg.Sign(rand.Reader, []byte(""), []Signer{*signer})
assert.Equal(ErrInvalidAlg, err)
delete(msg.Signatures[0].Headers.Protected, algTag)
err = msg.Sign(rand.Reader, []byte(""), []Signer{*signer})
assert.Equal(ErrAlgNotFound, err)
}
func TestSignatureEqual(t *testing.T) {
assert := assert.New(t)
var s1, s2 *Signature = nil, nil
assert.Equal(s1.Equal(s2), true)
s1 = &Signature{}
s2 = s1
assert.Equal(s1.Equal(s2), true)
s1.SignatureBytes = []byte("123")
assert.Equal(s1.Equal(s2), true)
s2 = &Signature{SignatureBytes: []byte("000")}
assert.Equal(s1.Equal(s2), false)
s2.SignatureBytes = s1.SignatureBytes
assert.Equal(s1.Equal(s2), true)
s1.Headers = &Headers{
Protected: map[interface{}]interface{}{algTag: -41}, // RSAES-OAEP w/ SHA-256 from [RFC8230]
}
assert.Equal(s1.Equal(s2), false)
s2.Headers = s1.Headers
assert.Equal(s1.Equal(s2), true)
}
func TestSignatureDecodeErrors(t *testing.T) {
assert := assert.New(t)
var (
s *Signature = nil
result interface{}
)
assert.Panics(func () { s.Decode(result) })
s = &Signature{}
result = 5
assert.Panics(func () { s.Decode(result) })
s = &Signature{}
result = []interface{}{1, 2}
assert.Panics(func () { s.Decode(result) })
s = &Signature{}
result = []interface{}{
[]byte("\xA0"),
map[interface{}]interface{}{},
[]byte(""),
}
assert.Panics(func () { s.Decode(result) })
s.Headers = &Headers{}
result = []interface{}{
[]byte("\xA0"),
map[interface{}]interface{}{},
-1,
}
assert.Panics(func () { s.Decode(result) })
}
func TestSignMessageSignatureDigest(t *testing.T) {
assert := assert.New(t)
var (
external = []byte("")
hashFunc = crypto.SHA256
signature *Signature = nil
msg *SignMessage = nil
digest []byte
err error
)
digest, err = msg.signatureDigest(external, signature, hashFunc)
assert.Equal(err.Error(), "Cannot compute signatureDigest on nil SignMessage")
assert.Equal(len(digest), 0)
msg = &SignMessage{}
digest, err = msg.signatureDigest(external, signature, hashFunc)
assert.Equal(err.Error(), "Cannot compute signatureDigest on nil SignMessage.Signatures")
assert.Equal(len(digest), 0)
msg.AddSignature(&Signature{
Headers: nil,
SignatureBytes: []byte("123"),
})
signature = &Signature{
Headers: nil,
SignatureBytes: nil,
}
digest, err = msg.signatureDigest(external, signature, hashFunc)
assert.Equal(err.Error(), "SignMessage.Signatures does not include the signature to digest")
assert.Equal(len(digest), 0)
msg = NewSignMessage()
signature = NewSignature()
signature.Headers.Protected[algTag] = ES256
msg.Signatures = []Signature{*signature}
digest, err = msg.signatureDigest(nil, signature, hashFunc)
assert.Equal(err, nil, "signatureDigest does not accept nil external")
}
func TestVerifyErrors(t *testing.T) {
assert := assert.New(t)
msg := NewSignMessage()
msg.Payload = []byte("payload to sign")
sig := NewSignature()
sig.Headers.Protected[algTag] = -41 // RSAES-OAEP w/ SHA-256 from [RFC8230]
sig.Headers.Protected[kidTag] = 1
signer, err := NewSigner(ES256, nil)
assert.Nil(err, "Error creating signer")
verifier := signer.Verifier()
verifiers := []Verifier{*verifier}
payload := []byte("")
msg.Signatures = []Signature{}
assert.Nil(msg.Verify(payload, verifiers))
msg.Signatures = nil
assert.Nil(msg.Verify(payload, verifiers))
msg.AddSignature(sig)
msg.Signatures[0].Headers.Protected = nil
assert.Equal(ErrNilSigProtectedHeaders, msg.Verify(payload, verifiers))
msg.Signatures[0].Headers = nil
assert.Equal(ErrNilSigHeader, msg.Verify(payload, verifiers))
sig = NewSignature()
sig.Headers.Protected[algTag] = -41 // RSAES-OAEP w/ SHA-256 from [RFC8230]
sig.Headers.Protected[kidTag] = 1
msg.Signatures[0] = *sig
assert.Equal("SignMessage signature 0 missing signature bytes to verify", msg.Verify(payload, verifiers).Error())
msg.Signatures[0].Headers.Protected[algTag] = -41 // RSAES-OAEP w/ SHA-256 from [RFC8230]
msg.Signatures[0].Headers.Protected[kidTag] = 1
msg.Signatures[0].SignatureBytes = []byte("already signed")
assert.Equal(ErrUnavailableHashFunc, msg.Verify(payload, verifiers))
msg.Signatures[0].Headers.Protected[algTag] = 1
assert.Equal(ErrInvalidAlg, msg.Verify(payload, verifiers))
msg.Signatures[0].Headers.Protected[algTag] = -7 // ECDSA w/ SHA-256 from [RFC8152]
assert.Equal("Wrong number of signatures 1 and verifiers 0", msg.Verify(payload, []Verifier{}).Error())
verifiers = []Verifier{
Verifier{
PublicKey: &ecdsa.PublicKey{
Curve: elliptic.P384(),
X: FromBase64Int("usWxHK2PmfnHKwXPS54m0kTcGJ90UiglWiGahtagnv8"),
Y: FromBase64Int("IBOL-C3BttVivg-lSreASjpkttcsz-1rb7btKLv8EX4"),
},
Alg: ES256,
},
}
assert.Equal("Expected 256 bit key, got 384 bits instead", msg.Verify(payload, verifiers).Error())
verifiers = []Verifier{
Verifier{
PublicKey: ecdsaPrivateKey.Public(),
Alg: ES256,
},
}
assert.Equal("invalid signature length: 14", msg.Verify(payload, verifiers).Error())
}