package zpay32 import ( "testing" "github.com/lightningnetwork/lnd/lnwire" ) // TestDecodeAmount ensures that the amount string in the hrp of the Invoice // properly gets decoded into millisatoshis. func TestDecodeAmount(t *testing.T) { t.Parallel() tests := []struct { amount string valid bool result lnwire.MilliSatoshi }{ { amount: "", valid: false, }, { amount: "20n00", valid: false, }, { amount: "2000y", valid: false, }, { amount: "2000mm", valid: false, }, { amount: "2000nm", valid: false, }, { amount: "m", valid: false, }, { amount: "1p", // pBTC valid: false, // too small }, { amount: "1109p", // pBTC valid: false, // not divisible by 10 }, { amount: "10p", // pBTC valid: true, result: 1, // mSat }, { amount: "1000p", // pBTC valid: true, result: 100, // mSat }, { amount: "1n", // nBTC valid: true, result: 100, // mSat }, { amount: "9000n", // nBTC valid: true, result: 900000, // mSat }, { amount: "9u", // uBTC valid: true, result: 900000, // mSat }, { amount: "2000u", // uBTC valid: true, result: 200000000, // mSat }, { amount: "2m", // mBTC valid: true, result: 200000000, // mSat }, { amount: "2000m", // mBTC valid: true, result: 200000000000, // mSat }, { amount: "2", // BTC valid: true, result: 200000000000, // mSat }, { amount: "2000", // BTC valid: true, result: 200000000000000, // mSat }, { amount: "2009", // BTC valid: true, result: 200900000000000, // mSat }, { amount: "1234", // BTC valid: true, result: 123400000000000, // mSat }, { amount: "21000000", // BTC valid: true, result: 2100000000000000000, // mSat }, } for i, test := range tests { sat, err := decodeAmount(test.amount) if (err == nil) != test.valid { t.Errorf("Amount decoding test %d failed: %v", i, err) return } if test.valid && sat != test.result { t.Fatalf("%d) failed decoding amount, expected %v, "+ "got %v", i, test.result, sat) } } } // TestEncodeAmount checks that the given amount in millisatoshis gets encoded // into the shortest possible amount string. func TestEncodeAmount(t *testing.T) { t.Parallel() tests := []struct { msat lnwire.MilliSatoshi valid bool result string }{ { msat: 1, // mSat valid: true, result: "10p", // pBTC }, { msat: 120, // mSat valid: true, result: "1200p", // pBTC }, { msat: 100, // mSat valid: true, result: "1n", // nBTC }, { msat: 900000, // mSat valid: true, result: "9u", // uBTC }, { msat: 200000000, // mSat valid: true, result: "2m", // mBTC }, { msat: 200000000000, // mSat valid: true, result: "2", // BTC }, { msat: 200000000000000, // mSat valid: true, result: "2000", // BTC }, { msat: 200900000000000, // mSat valid: true, result: "2009", // BTC }, { msat: 123400000000000, // mSat valid: true, result: "1234", // BTC }, { msat: 2100000000000000000, // mSat valid: true, result: "21000000", // BTC }, } for i, test := range tests { shortened, err := encodeAmount(test.msat) if (err == nil) != test.valid { t.Errorf("Amount encoding test %d failed: %v", i, err) return } if test.valid && shortened != test.result { t.Fatalf("%d) failed encoding amount, expected %v, "+ "got %v", i, test.result, shortened) } } } // TestParseTimestamp checks that the 35 bit timestamp is properly parsed. func TestParseTimestamp(t *testing.T) { t.Parallel() tests := []struct { data []byte valid bool result uint64 }{ { data: []byte(""), valid: false, // empty data }, { data: []byte{0x00, 0x00, 0x00, 0x00, 0x00, 0x00}, valid: false, // data too short }, { data: []byte{0x01, 0x0c, 0x12, 0x1f, 0x1c, 0x19, 0x02}, valid: true, // timestamp 1496314658 result: 1496314658, }, } for i, test := range tests { time, err := parseTimestamp(test.data) if (err == nil) != test.valid { t.Errorf("Data decoding test %d failed: %v", i, err) return } if test.valid && time != test.result { t.Errorf("Timestamp decoding test %d failed: expected "+ "timestamp %d, got %d", i, test.result, time) return } } }