zolfa
/
tendermint


								package cryptoAmino


								import (

									"os"

									"testing"


									"github.com/stretchr/testify/assert"

									"github.com/stretchr/testify/require"

									"github.com/tendermint/tendermint/crypto"

									"github.com/tendermint/tendermint/crypto/ed25519"

									"github.com/tendermint/tendermint/crypto/multisig"

									"github.com/tendermint/tendermint/crypto/secp256k1"

								)


								type byter interface {

									Bytes() []byte

								}


								func checkAminoBinary(t *testing.T, src, dst interface{}, size int) {

									// Marshal to binary bytes.

									bz, err := cdc.MarshalBinaryBare(src)

									require.Nil(t, err, "%+v", err)

									if byterSrc, ok := src.(byter); ok {

										// Make sure this is compatible with current (Bytes()) encoding.

										assert.Equal(t, byterSrc.Bytes(), bz, "Amino binary vs Bytes() mismatch")

									}

									// Make sure we have the expected length.

									if size != -1 {

										assert.Equal(t, size, len(bz), "Amino binary size mismatch")

									}

									// Unmarshal.

									err = cdc.UnmarshalBinaryBare(bz, dst)

									require.Nil(t, err, "%+v", err)

								}


								func checkAminoJSON(t *testing.T, src interface{}, dst interface{}, isNil bool) {

									// Marshal to JSON bytes.

									js, err := cdc.MarshalJSON(src)

									require.Nil(t, err, "%+v", err)

									if isNil {

										assert.Equal(t, string(js), `null`)

									} else {

										assert.Contains(t, string(js), `"type":`)

										assert.Contains(t, string(js), `"value":`)

									}

									// Unmarshal.

									err = cdc.UnmarshalJSON(js, dst)

									require.Nil(t, err, "%+v", err)

								}


								func ExamplePrintRegisteredTypes() {

									cdc.PrintTypes(os.Stdout)

									// Output: | Type | Name | Prefix | Length | Notes |

									//| ---- | ---- | ------ | ----- | ------ |

									//| PubKeyEd25519 | tendermint/PubKeyEd25519 | 0x1624DE64 | 0x20 |  |

									//| PubKeySecp256k1 | tendermint/PubKeySecp256k1 | 0xEB5AE987 | 0x21 |  |

									//| PubKeyMultisigThreshold | tendermint/PubKeyMultisigThreshold | 0x22C1F7E2 | variable |  |

									//| PrivKeyEd25519 | tendermint/PrivKeyEd25519 | 0xA3288910 | 0x40 |  |

									//| PrivKeySecp256k1 | tendermint/PrivKeySecp256k1 | 0xE1B0F79B | 0x20 |  |

								}


								func TestKeyEncodings(t *testing.T) {

									cases := []struct {

										privKey                    crypto.PrivKey

										privSize, pubSize, sigSize int // binary sizes

									}{

										{

											privKey:  ed25519.GenPrivKey(),

											privSize: 69,

											pubSize:  37,

											sigSize:  65,

										},

										{

											privKey:  secp256k1.GenPrivKey(),

											privSize: 37,

											pubSize:  38,

											sigSize:  65,

										},

									}


									for tcIndex, tc := range cases {


										// Check (de/en)codings of PrivKeys.

										var priv2, priv3 crypto.PrivKey

										checkAminoBinary(t, tc.privKey, &priv2, tc.privSize)

										assert.EqualValues(t, tc.privKey, priv2, "tc #%d", tcIndex)

										checkAminoJSON(t, tc.privKey, &priv3, false) // TODO also check Prefix bytes.

										assert.EqualValues(t, tc.privKey, priv3, "tc #%d", tcIndex)


										// Check (de/en)codings of Signatures.

										var sig1, sig2 []byte

										sig1, err := tc.privKey.Sign([]byte("something"))

										assert.NoError(t, err, "tc #%d", tcIndex)

										checkAminoBinary(t, sig1, &sig2, tc.sigSize)

										assert.EqualValues(t, sig1, sig2, "tc #%d", tcIndex)


										// Check (de/en)codings of PubKeys.

										pubKey := tc.privKey.PubKey()

										var pub2, pub3 crypto.PubKey

										checkAminoBinary(t, pubKey, &pub2, tc.pubSize)

										assert.EqualValues(t, pubKey, pub2, "tc #%d", tcIndex)

										checkAminoJSON(t, pubKey, &pub3, false) // TODO also check Prefix bytes.

										assert.EqualValues(t, pubKey, pub3, "tc #%d", tcIndex)

									}

								}


								func TestNilEncodings(t *testing.T) {


									// Check nil Signature.

									var a, b []byte

									checkAminoJSON(t, &a, &b, true)

									assert.EqualValues(t, a, b)


									// Check nil PubKey.

									var c, d crypto.PubKey

									checkAminoJSON(t, &c, &d, true)

									assert.EqualValues(t, c, d)


									// Check nil PrivKey.

									var e, f crypto.PrivKey

									checkAminoJSON(t, &e, &f, true)

									assert.EqualValues(t, e, f)

								}


								func TestPubKeyInvalidDataProperReturnsEmpty(t *testing.T) {

									pk, err := PubKeyFromBytes([]byte("foo"))

									require.NotNil(t, err)

									require.Nil(t, pk)

								}


								func TestPubkeyAminoRoute(t *testing.T) {

									tests := []struct {

										key   crypto.PubKey

										want  string

										found bool

									}{

										{ed25519.PubKeyEd25519{}, ed25519.PubKeyAminoRoute, true},

										{secp256k1.PubKeySecp256k1{}, secp256k1.PubKeyAminoRoute, true},

										{&multisig.PubKeyMultisigThreshold{}, multisig.PubKeyMultisigThresholdAminoRoute, true},

									}

									for i, tc := range tests {

										got, found := PubkeyAminoRoute(cdc, tc.key)

										require.Equal(t, tc.found, found, "not equal on tc %d", i)

										if tc.found {

											require.Equal(t, tc.want, got, "not equal on tc %d", i)

										}

									}

								}