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// Copyright Yahoo. Licensed under the terms of the Apache 2.0 license. See LICENSE in the project root.
package com.yahoo.security;
import org.junit.jupiter.api.Test;
import java.math.BigInteger;
import static com.yahoo.security.ArrayUtils.hex;
import static com.yahoo.security.ArrayUtils.toUtf8Bytes;
import static com.yahoo.security.ArrayUtils.unhex;
import static org.junit.jupiter.api.Assertions.assertEquals;
import static org.junit.jupiter.api.Assertions.assertThrows;
/**
* @author vekterli
*/
public class BaseNCodecTest {
private static void verifyRoundtrip(BaseNCodec codec, byte[] bytes, String expectedEncoded) {
String enc = codec.encode(bytes);
assertEquals(expectedEncoded, enc);
byte[] dec = codec.decode(enc);
assertEquals(hex(bytes), hex(dec));
}
private static void verifyRoundtrip(BaseNCodec codec, String str, String expectedEncoded) {
verifyRoundtrip(codec, toUtf8Bytes(str), expectedEncoded);
}
@Test
void decoding_chars_not_in_alphabet_throws() {
var b58 = Base58.codec();
// [0OIl] are not in Base58 alphabet, but within the alphabet LUT range
assertThrows(IllegalArgumentException.class, () -> b58.decode("233QC0"));
// '{' is one beyond 'z', which is the highest char in the LUT range
assertThrows(IllegalArgumentException.class, () -> b58.decode("233QC{"));
}
@Test
void alphabet_char_duplication_during_codec_setup_throws() {
assertThrows(IllegalArgumentException.class, () -> BaseNCodec.of("abcda"));
}
@Test
void base58_codec_test_cases_pass() {
var b58 = Base58.codec();
assertEquals(58, b58.base());
// https://datatracker.ietf.org/doc/html/draft-msporny-base58-03 test vectors:
verifyRoundtrip(b58, "Hello World!", "2NEpo7TZRRrLZSi2U");
verifyRoundtrip(b58, "The quick brown fox jumps over the lazy dog.",
"USm3fpXnKG5EUBx2ndxBDMPVciP5hGey2Jh4NDv6gmeo1LkMeiKrLJUUBk6Z");
verifyRoundtrip(b58, unhex("0000287fb4cd"), "11233QC4");
// Values that have been cross-referenced with other encoder implementations:
verifyRoundtrip(b58, "", "");
verifyRoundtrip(b58, unhex("00"), "1");
verifyRoundtrip(b58, unhex("0000"), "11");
verifyRoundtrip(b58, unhex("ff"), "5Q");
verifyRoundtrip(b58, unhex("00ff"), "15Q");
verifyRoundtrip(b58, unhex("ff00"), "LQX");
verifyRoundtrip(b58, unhex("ffffff"), "2UzHL");
verifyRoundtrip(b58, unhex("287fb4cd"), "233QC4");
}
@Test
void base62_codec_test_cases_pass() {
var b62 = Base62.codec();
assertEquals(62, b62.base());
verifyRoundtrip(b62, "Hello World!", "T8dgcjRGkZ3aysdN");
verifyRoundtrip(b62, "\0\0Hello World!", "00T8dgcjRGkZ3aysdN");
verifyRoundtrip(b62, "", "");
verifyRoundtrip(b62, unhex("00"), "0");
verifyRoundtrip(b62, unhex("0000"), "00");
verifyRoundtrip(b62, unhex("00000000ffffffff"), "00004gfFC3");
verifyRoundtrip(b62, unhex("ffffffff00000000"), "LygHZwPV2MC");
}
// Test with some common bases that are easier to reason about:
@Test
void codec_generalizes_down_to_base_10() {
var b10 = BaseNCodec.of("0123456789");
verifyRoundtrip(b10, unhex("00"), "0");
verifyRoundtrip(b10, unhex("000f"), "015");
verifyRoundtrip(b10, unhex("ffff"), "65535");
// A large prime number: 2^252 + 27742317777372353535851937790883648493 (Curve25519 order)
var numStr = "7237005577332262213973186563042994240857116359379907606001950938285454250989";
var numBN = new BigInteger(numStr);
verifyRoundtrip(b10, numBN.toByteArray(), numStr);
}
// Possibly world's most inefficient hex conversion?
@Test
void codec_generalizes_down_to_base_16() {
var b2 = BaseNCodec.of("0123456789ABCDEF");
assertEquals(16, b2.base());
verifyRoundtrip(b2, unhex(""), "");
verifyRoundtrip(b2, unhex("00"), "0");
verifyRoundtrip(b2, unhex("80"), "80");
verifyRoundtrip(b2, unhex("01"), "1");
verifyRoundtrip(b2, unhex("F0"), "F0");
verifyRoundtrip(b2, unhex("0F"), "F");
verifyRoundtrip(b2, unhex("F00F"), "F00F");
verifyRoundtrip(b2, unhex("5FAF"), "5FAF");
}
// Very likely genuinely the world's most inefficient binary conversion.
@Test
void codec_generalizes_down_to_base_2() {
var b2 = BaseNCodec.of("01");
assertEquals(2, b2.base());
verifyRoundtrip(b2, unhex(""), "");
verifyRoundtrip(b2, unhex("00"), "0");
verifyRoundtrip(b2, unhex("000000"), "000"); // note: prefix zero byte sentinels!
verifyRoundtrip(b2, unhex("80"), "10000000");
verifyRoundtrip(b2, unhex("01"), "1");
verifyRoundtrip(b2, unhex("F0"), "11110000");
verifyRoundtrip(b2, unhex("0F"), "1111");
}
}
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