package tlv_test import ( "bytes" "reflect" "testing" "github.com/btcsuite/btcd/btcec" "github.com/lightningnetwork/lnd/tlv" ) var testPK, _ = btcec.ParsePubKey([]byte{0x02, 0x3d, 0xa0, 0x92, 0xf6, 0x98, 0x0e, 0x58, 0xd2, 0xc0, 0x37, 0x17, 0x31, 0x80, 0xe9, 0xa4, 0x65, 0x47, 0x60, 0x26, 0xee, 0x50, 0xf9, 0x66, 0x95, 0x96, 0x3e, 0x8e, 0xfe, 0x43, 0x6f, 0x54, 0xeb, }, btcec.S256()) type primitive struct { u8 byte u16 uint16 u32 uint32 u64 uint64 b32 [32]byte b33 [33]byte b64 [64]byte pk *btcec.PublicKey bytes []byte } // TestWrongEncodingType asserts that all primitives encoders will fail with a // ErrTypeForEncoding when an incorrect type is provided. func TestWrongEncodingType(t *testing.T) { encoders := []tlv.Encoder{ tlv.EUint8, tlv.EUint16, tlv.EUint32, tlv.EUint64, tlv.EBytes32, tlv.EBytes33, tlv.EBytes64, tlv.EPubKey, tlv.EVarBytes, } // We'll use an int32 since it is not a primitive type, which should // cause the primitive encoders to fail with an ErrTypeForEncoding // failure. var ( value int32 buf [8]byte b bytes.Buffer ) for _, encoder := range encoders { err := encoder(&b, &value, &buf) if _, ok := err.(tlv.ErrTypeForEncoding); !ok { t.Fatalf("expected error of type ErrTypeForEncoding, "+ "got %T", err) } } } // TestWrongDecodingType asserts that all primitives decoders will fail with a // ErrTypeForDecoding when an incorrect type is provided. func TestWrongDecodingType(t *testing.T) { decoders := []tlv.Decoder{ tlv.DUint8, tlv.DUint16, tlv.DUint32, tlv.DUint64, tlv.DBytes32, tlv.DBytes33, tlv.DBytes64, tlv.DPubKey, tlv.DVarBytes, } // We'll use an int32 since it is not a primitive type, which should // cause the primitive decoders to fail with an ErrTypeForDecoding // failure. var ( value int32 buf [8]byte b bytes.Buffer ) for _, decoder := range decoders { err := decoder(&b, &value, &buf, 0) if _, ok := err.(tlv.ErrTypeForDecoding); !ok { t.Fatalf("expected error of type ErrTypeForDecoding, "+ "got %T", err) } } } type fieldEncoder struct { val interface{} encoder tlv.Encoder } type fieldDecoder struct { val interface{} decoder tlv.Decoder size uint64 } // TestPrimitiveEncodings tests that we are able to serialize all known // primitive field types. After successfully encoding, we check that we are able // to decode the output and arrive at the same fields. func TestPrimitiveEncodings(t *testing.T) { prim := primitive{ u8: 0x01, u16: 0x0201, u32: 0x02000001, u64: 0x0200000000000001, b32: [32]byte{0x02, 0x01}, b33: [33]byte{0x03, 0x01}, b64: [64]byte{0x02, 0x01}, pk: testPK, bytes: []byte{0xaa, 0xbb}, } encoders := []fieldEncoder{ { val: &prim.u8, encoder: tlv.EUint8, }, { val: &prim.u16, encoder: tlv.EUint16, }, { val: &prim.u32, encoder: tlv.EUint32, }, { val: &prim.u64, encoder: tlv.EUint64, }, { val: &prim.b32, encoder: tlv.EBytes32, }, { val: &prim.b33, encoder: tlv.EBytes33, }, { val: &prim.b64, encoder: tlv.EBytes64, }, { val: &prim.pk, encoder: tlv.EPubKey, }, { val: &prim.bytes, encoder: tlv.EVarBytes, }, } // First we'll encode the primitive fields into a buffer. var ( b bytes.Buffer buf [8]byte ) for _, field := range encoders { err := field.encoder(&b, field.val, &buf) if err != nil { t.Fatalf("unable to encode %T: %v", field.val, err) } } // Next, we'll attempt to decode the primitive fields into a separate // primitive struct. r := bytes.NewReader(b.Bytes()) var prim2 primitive decoders := []fieldDecoder{ { val: &prim2.u8, decoder: tlv.DUint8, size: 1, }, { val: &prim2.u16, decoder: tlv.DUint16, size: 2, }, { val: &prim2.u32, decoder: tlv.DUint32, size: 4, }, { val: &prim2.u64, decoder: tlv.DUint64, size: 8, }, { val: &prim2.b32, decoder: tlv.DBytes32, size: 32, }, { val: &prim2.b33, decoder: tlv.DBytes33, size: 33, }, { val: &prim2.b64, decoder: tlv.DBytes64, size: 64, }, { val: &prim2.pk, decoder: tlv.DPubKey, size: 33, }, { val: &prim2.bytes, decoder: tlv.DVarBytes, size: 2, }, } for _, field := range decoders { err := field.decoder(r, field.val, &buf, field.size) if err != nil { t.Fatalf("unable to decode %T: %v", field.val, err) } } // Finally, we'll compare that the original and the decode structs are // equal. if !reflect.DeepEqual(prim, prim2) { t.Fatalf("primitive mismatch, "+ "expected: %v, got: %v", prim, prim2) } }