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-rw-r--r--third_party/rust/base64/src/engine/tests.rs1430
1 files changed, 1430 insertions, 0 deletions
diff --git a/third_party/rust/base64/src/engine/tests.rs b/third_party/rust/base64/src/engine/tests.rs
new file mode 100644
index 0000000000..906bba04d8
--- /dev/null
+++ b/third_party/rust/base64/src/engine/tests.rs
@@ -0,0 +1,1430 @@
+// rstest_reuse template functions have unused variables
+#![allow(unused_variables)]
+
+use rand::{
+ self,
+ distributions::{self, Distribution as _},
+ rngs, Rng as _, SeedableRng as _,
+};
+use rstest::rstest;
+use rstest_reuse::{apply, template};
+use std::{collections, fmt};
+
+use crate::{
+ alphabet::{Alphabet, STANDARD},
+ encode::add_padding,
+ encoded_len,
+ engine::{general_purpose, naive, Config, DecodeEstimate, DecodePaddingMode, Engine},
+ tests::{assert_encode_sanity, random_alphabet, random_config},
+ DecodeError, PAD_BYTE,
+};
+
+// the case::foo syntax includes the "foo" in the generated test method names
+#[template]
+#[rstest(engine_wrapper,
+case::general_purpose(GeneralPurposeWrapper {}),
+case::naive(NaiveWrapper {}),
+)]
+fn all_engines<E: EngineWrapper>(engine_wrapper: E) {}
+
+#[apply(all_engines)]
+fn rfc_test_vectors_std_alphabet<E: EngineWrapper>(engine_wrapper: E) {
+ let data = vec![
+ ("", ""),
+ ("f", "Zg=="),
+ ("fo", "Zm8="),
+ ("foo", "Zm9v"),
+ ("foob", "Zm9vYg=="),
+ ("fooba", "Zm9vYmE="),
+ ("foobar", "Zm9vYmFy"),
+ ];
+
+ let engine = E::standard();
+ let engine_no_padding = E::standard_unpadded();
+
+ for (orig, encoded) in &data {
+ let encoded_without_padding = encoded.trim_end_matches('=');
+
+ // unpadded
+ {
+ let mut encode_buf = [0_u8; 8];
+ let mut decode_buf = [0_u8; 6];
+
+ let encode_len =
+ engine_no_padding.internal_encode(orig.as_bytes(), &mut encode_buf[..]);
+ assert_eq!(
+ &encoded_without_padding,
+ &std::str::from_utf8(&encode_buf[0..encode_len]).unwrap()
+ );
+ let decode_len = engine_no_padding
+ .decode_slice_unchecked(encoded_without_padding.as_bytes(), &mut decode_buf[..])
+ .unwrap();
+ assert_eq!(orig.len(), decode_len);
+
+ assert_eq!(
+ orig,
+ &std::str::from_utf8(&decode_buf[0..decode_len]).unwrap()
+ );
+
+ // if there was any padding originally, the no padding engine won't decode it
+ if encoded.as_bytes().contains(&PAD_BYTE) {
+ assert_eq!(
+ Err(DecodeError::InvalidPadding),
+ engine_no_padding.decode(encoded)
+ )
+ }
+ }
+
+ // padded
+ {
+ let mut encode_buf = [0_u8; 8];
+ let mut decode_buf = [0_u8; 6];
+
+ let encode_len = engine.internal_encode(orig.as_bytes(), &mut encode_buf[..]);
+ assert_eq!(
+ // doesn't have padding added yet
+ &encoded_without_padding,
+ &std::str::from_utf8(&encode_buf[0..encode_len]).unwrap()
+ );
+ let pad_len = add_padding(orig.len(), &mut encode_buf[encode_len..]);
+ assert_eq!(encoded.as_bytes(), &encode_buf[..encode_len + pad_len]);
+
+ let decode_len = engine
+ .decode_slice_unchecked(encoded.as_bytes(), &mut decode_buf[..])
+ .unwrap();
+ assert_eq!(orig.len(), decode_len);
+
+ assert_eq!(
+ orig,
+ &std::str::from_utf8(&decode_buf[0..decode_len]).unwrap()
+ );
+
+ // if there was (canonical) padding, and we remove it, the standard engine won't decode
+ if encoded.as_bytes().contains(&PAD_BYTE) {
+ assert_eq!(
+ Err(DecodeError::InvalidPadding),
+ engine.decode(encoded_without_padding)
+ )
+ }
+ }
+ }
+}
+
+#[apply(all_engines)]
+fn roundtrip_random<E: EngineWrapper>(engine_wrapper: E) {
+ let mut rng = seeded_rng();
+
+ let mut orig_data = Vec::<u8>::new();
+ let mut encode_buf = Vec::<u8>::new();
+ let mut decode_buf = Vec::<u8>::new();
+
+ let len_range = distributions::Uniform::new(1, 1_000);
+
+ for _ in 0..10_000 {
+ let engine = E::random(&mut rng);
+
+ orig_data.clear();
+ encode_buf.clear();
+ decode_buf.clear();
+
+ let (orig_len, _, encoded_len) = generate_random_encoded_data(
+ &engine,
+ &mut orig_data,
+ &mut encode_buf,
+ &mut rng,
+ &len_range,
+ );
+
+ // exactly the right size
+ decode_buf.resize(orig_len, 0);
+
+ let dec_len = engine
+ .decode_slice_unchecked(&encode_buf[0..encoded_len], &mut decode_buf[..])
+ .unwrap();
+
+ assert_eq!(orig_len, dec_len);
+ assert_eq!(&orig_data[..], &decode_buf[..dec_len]);
+ }
+}
+
+#[apply(all_engines)]
+fn encode_doesnt_write_extra_bytes<E: EngineWrapper>(engine_wrapper: E) {
+ let mut rng = seeded_rng();
+
+ let mut orig_data = Vec::<u8>::new();
+ let mut encode_buf = Vec::<u8>::new();
+ let mut encode_buf_backup = Vec::<u8>::new();
+
+ let input_len_range = distributions::Uniform::new(0, 1000);
+
+ for _ in 0..10_000 {
+ let engine = E::random(&mut rng);
+ let padded = engine.config().encode_padding();
+
+ orig_data.clear();
+ encode_buf.clear();
+ encode_buf_backup.clear();
+
+ let orig_len = fill_rand(&mut orig_data, &mut rng, &input_len_range);
+
+ let prefix_len = 1024;
+ // plenty of prefix and suffix
+ fill_rand_len(&mut encode_buf, &mut rng, prefix_len * 2 + orig_len * 2);
+ encode_buf_backup.extend_from_slice(&encode_buf[..]);
+
+ let expected_encode_len_no_pad = encoded_len(orig_len, false).unwrap();
+
+ let encoded_len_no_pad =
+ engine.internal_encode(&orig_data[..], &mut encode_buf[prefix_len..]);
+ assert_eq!(expected_encode_len_no_pad, encoded_len_no_pad);
+
+ // no writes past what it claimed to write
+ assert_eq!(&encode_buf_backup[..prefix_len], &encode_buf[..prefix_len]);
+ assert_eq!(
+ &encode_buf_backup[(prefix_len + encoded_len_no_pad)..],
+ &encode_buf[(prefix_len + encoded_len_no_pad)..]
+ );
+
+ let encoded_data = &encode_buf[prefix_len..(prefix_len + encoded_len_no_pad)];
+ assert_encode_sanity(
+ std::str::from_utf8(encoded_data).unwrap(),
+ // engines don't pad
+ false,
+ orig_len,
+ );
+
+ // pad so we can decode it in case our random engine requires padding
+ let pad_len = if padded {
+ add_padding(orig_len, &mut encode_buf[prefix_len + encoded_len_no_pad..])
+ } else {
+ 0
+ };
+
+ assert_eq!(
+ orig_data,
+ engine
+ .decode(&encode_buf[prefix_len..(prefix_len + encoded_len_no_pad + pad_len)],)
+ .unwrap()
+ );
+ }
+}
+
+#[apply(all_engines)]
+fn encode_engine_slice_fits_into_precisely_sized_slice<E: EngineWrapper>(engine_wrapper: E) {
+ let mut orig_data = Vec::new();
+ let mut encoded_data = Vec::new();
+ let mut decoded = Vec::new();
+
+ let input_len_range = distributions::Uniform::new(0, 1000);
+
+ let mut rng = rngs::SmallRng::from_entropy();
+
+ for _ in 0..10_000 {
+ orig_data.clear();
+ encoded_data.clear();
+ decoded.clear();
+
+ let input_len = input_len_range.sample(&mut rng);
+
+ for _ in 0..input_len {
+ orig_data.push(rng.gen());
+ }
+
+ let engine = E::random(&mut rng);
+
+ let encoded_size = encoded_len(input_len, engine.config().encode_padding()).unwrap();
+
+ encoded_data.resize(encoded_size, 0);
+
+ assert_eq!(
+ encoded_size,
+ engine.encode_slice(&orig_data, &mut encoded_data).unwrap()
+ );
+
+ assert_encode_sanity(
+ std::str::from_utf8(&encoded_data[0..encoded_size]).unwrap(),
+ engine.config().encode_padding(),
+ input_len,
+ );
+
+ engine
+ .decode_vec(&encoded_data[0..encoded_size], &mut decoded)
+ .unwrap();
+ assert_eq!(orig_data, decoded);
+ }
+}
+
+#[apply(all_engines)]
+fn decode_doesnt_write_extra_bytes<E>(engine_wrapper: E)
+where
+ E: EngineWrapper,
+ <<E as EngineWrapper>::Engine as Engine>::Config: fmt::Debug,
+{
+ let mut rng = seeded_rng();
+
+ let mut orig_data = Vec::<u8>::new();
+ let mut encode_buf = Vec::<u8>::new();
+ let mut decode_buf = Vec::<u8>::new();
+ let mut decode_buf_backup = Vec::<u8>::new();
+
+ let len_range = distributions::Uniform::new(1, 1_000);
+
+ for _ in 0..10_000 {
+ let engine = E::random(&mut rng);
+
+ orig_data.clear();
+ encode_buf.clear();
+ decode_buf.clear();
+ decode_buf_backup.clear();
+
+ let orig_len = fill_rand(&mut orig_data, &mut rng, &len_range);
+ encode_buf.resize(orig_len * 2 + 100, 0);
+
+ let encoded_len = engine
+ .encode_slice(&orig_data[..], &mut encode_buf[..])
+ .unwrap();
+ encode_buf.truncate(encoded_len);
+
+ // oversize decode buffer so we can easily tell if it writes anything more than
+ // just the decoded data
+ let prefix_len = 1024;
+ // plenty of prefix and suffix
+ fill_rand_len(&mut decode_buf, &mut rng, prefix_len * 2 + orig_len * 2);
+ decode_buf_backup.extend_from_slice(&decode_buf[..]);
+
+ let dec_len = engine
+ .decode_slice_unchecked(&encode_buf, &mut decode_buf[prefix_len..])
+ .unwrap();
+
+ assert_eq!(orig_len, dec_len);
+ assert_eq!(
+ &orig_data[..],
+ &decode_buf[prefix_len..prefix_len + dec_len]
+ );
+ assert_eq!(&decode_buf_backup[..prefix_len], &decode_buf[..prefix_len]);
+ assert_eq!(
+ &decode_buf_backup[prefix_len + dec_len..],
+ &decode_buf[prefix_len + dec_len..]
+ );
+ }
+}
+
+#[apply(all_engines)]
+fn decode_detect_invalid_last_symbol<E: EngineWrapper>(engine_wrapper: E) {
+ // 0xFF -> "/w==", so all letters > w, 0-9, and '+', '/' should get InvalidLastSymbol
+ let engine = E::standard();
+
+ assert_eq!(Ok(vec![0x89, 0x85]), engine.decode("iYU="));
+ assert_eq!(Ok(vec![0xFF]), engine.decode("/w=="));
+
+ for (suffix, offset) in vec![
+ // suffix, offset of bad byte from start of suffix
+ ("/x==", 1_usize),
+ ("/z==", 1_usize),
+ ("/0==", 1_usize),
+ ("/9==", 1_usize),
+ ("/+==", 1_usize),
+ ("//==", 1_usize),
+ // trailing 01
+ ("iYV=", 2_usize),
+ // trailing 10
+ ("iYW=", 2_usize),
+ // trailing 11
+ ("iYX=", 2_usize),
+ ] {
+ for prefix_quads in 0..256 {
+ let mut encoded = "AAAA".repeat(prefix_quads);
+ encoded.push_str(suffix);
+
+ assert_eq!(
+ Err(DecodeError::InvalidLastSymbol(
+ encoded.len() - 4 + offset,
+ suffix.as_bytes()[offset],
+ )),
+ engine.decode(encoded.as_str())
+ );
+ }
+ }
+}
+
+#[apply(all_engines)]
+fn decode_detect_invalid_last_symbol_when_length_is_also_invalid<E: EngineWrapper>(
+ engine_wrapper: E,
+) {
+ let mut rng = seeded_rng();
+
+ // check across enough lengths that it would likely cover any implementation's various internal
+ // small/large input division
+ for len in (0_usize..256).map(|len| len * 4 + 1) {
+ let engine = E::random_alphabet(&mut rng, &STANDARD);
+
+ let mut input = vec![b'A'; len];
+
+ // with a valid last char, it's InvalidLength
+ assert_eq!(Err(DecodeError::InvalidLength), engine.decode(&input));
+ // after mangling the last char, it's InvalidByte
+ input[len - 1] = b'"';
+ assert_eq!(
+ Err(DecodeError::InvalidByte(len - 1, b'"')),
+ engine.decode(&input)
+ );
+ }
+}
+
+#[apply(all_engines)]
+fn decode_detect_invalid_last_symbol_every_possible_two_symbols<E: EngineWrapper>(
+ engine_wrapper: E,
+) {
+ let engine = E::standard();
+
+ let mut base64_to_bytes = collections::HashMap::new();
+
+ for b in 0_u8..=255 {
+ let mut b64 = vec![0_u8; 4];
+ assert_eq!(2, engine.internal_encode(&[b], &mut b64[..]));
+ let _ = add_padding(1, &mut b64[2..]);
+
+ assert!(base64_to_bytes.insert(b64, vec![b]).is_none());
+ }
+
+ // every possible combination of trailing symbols must either decode to 1 byte or get InvalidLastSymbol, with or without any leading chunks
+
+ let mut prefix = Vec::new();
+ for _ in 0..256 {
+ let mut clone = prefix.clone();
+
+ let mut symbols = [0_u8; 4];
+ for &s1 in STANDARD.symbols.iter() {
+ symbols[0] = s1;
+ for &s2 in STANDARD.symbols.iter() {
+ symbols[1] = s2;
+ symbols[2] = PAD_BYTE;
+ symbols[3] = PAD_BYTE;
+
+ // chop off previous symbols
+ clone.truncate(prefix.len());
+ clone.extend_from_slice(&symbols[..]);
+ let decoded_prefix_len = prefix.len() / 4 * 3;
+
+ match base64_to_bytes.get(&symbols[..]) {
+ Some(bytes) => {
+ let res = engine
+ .decode(&clone)
+ // remove prefix
+ .map(|decoded| decoded[decoded_prefix_len..].to_vec());
+
+ assert_eq!(Ok(bytes.clone()), res);
+ }
+ None => assert_eq!(
+ Err(DecodeError::InvalidLastSymbol(1, s2)),
+ engine.decode(&symbols[..])
+ ),
+ }
+ }
+ }
+
+ prefix.extend_from_slice(b"AAAA");
+ }
+}
+
+#[apply(all_engines)]
+fn decode_detect_invalid_last_symbol_every_possible_three_symbols<E: EngineWrapper>(
+ engine_wrapper: E,
+) {
+ let engine = E::standard();
+
+ let mut base64_to_bytes = collections::HashMap::new();
+
+ let mut bytes = [0_u8; 2];
+ for b1 in 0_u8..=255 {
+ bytes[0] = b1;
+ for b2 in 0_u8..=255 {
+ bytes[1] = b2;
+ let mut b64 = vec![0_u8; 4];
+ assert_eq!(3, engine.internal_encode(&bytes, &mut b64[..]));
+ let _ = add_padding(2, &mut b64[3..]);
+
+ let mut v = Vec::with_capacity(2);
+ v.extend_from_slice(&bytes[..]);
+
+ assert!(base64_to_bytes.insert(b64, v).is_none());
+ }
+ }
+
+ // every possible combination of symbols must either decode to 2 bytes or get InvalidLastSymbol, with or without any leading chunks
+
+ let mut prefix = Vec::new();
+ for _ in 0..256 {
+ let mut input = prefix.clone();
+
+ let mut symbols = [0_u8; 4];
+ for &s1 in STANDARD.symbols.iter() {
+ symbols[0] = s1;
+ for &s2 in STANDARD.symbols.iter() {
+ symbols[1] = s2;
+ for &s3 in STANDARD.symbols.iter() {
+ symbols[2] = s3;
+ symbols[3] = PAD_BYTE;
+
+ // chop off previous symbols
+ input.truncate(prefix.len());
+ input.extend_from_slice(&symbols[..]);
+ let decoded_prefix_len = prefix.len() / 4 * 3;
+
+ match base64_to_bytes.get(&symbols[..]) {
+ Some(bytes) => {
+ let res = engine
+ .decode(&input)
+ // remove prefix
+ .map(|decoded| decoded[decoded_prefix_len..].to_vec());
+
+ assert_eq!(Ok(bytes.clone()), res);
+ }
+ None => assert_eq!(
+ Err(DecodeError::InvalidLastSymbol(2, s3)),
+ engine.decode(&symbols[..])
+ ),
+ }
+ }
+ }
+ }
+ prefix.extend_from_slice(b"AAAA");
+ }
+}
+
+#[apply(all_engines)]
+fn decode_invalid_trailing_bits_ignored_when_configured<E: EngineWrapper>(engine_wrapper: E) {
+ let strict = E::standard();
+ let forgiving = E::standard_allow_trailing_bits();
+
+ fn assert_tolerant_decode<E: Engine>(
+ engine: &E,
+ input: &mut String,
+ b64_prefix_len: usize,
+ expected_decode_bytes: Vec<u8>,
+ data: &str,
+ ) {
+ let prefixed = prefixed_data(input, b64_prefix_len, data);
+ let decoded = engine.decode(prefixed);
+ // prefix is always complete chunks
+ let decoded_prefix_len = b64_prefix_len / 4 * 3;
+ assert_eq!(
+ Ok(expected_decode_bytes),
+ decoded.map(|v| v[decoded_prefix_len..].to_vec())
+ );
+ }
+
+ let mut prefix = String::new();
+ for _ in 0..256 {
+ let mut input = prefix.clone();
+
+ // example from https://github.com/marshallpierce/rust-base64/issues/75
+ assert!(strict
+ .decode(prefixed_data(&mut input, prefix.len(), "/w=="))
+ .is_ok());
+ assert!(strict
+ .decode(prefixed_data(&mut input, prefix.len(), "iYU="))
+ .is_ok());
+ // trailing 01
+ assert_tolerant_decode(&forgiving, &mut input, prefix.len(), vec![255], "/x==");
+ assert_tolerant_decode(&forgiving, &mut input, prefix.len(), vec![137, 133], "iYV=");
+ // trailing 10
+ assert_tolerant_decode(&forgiving, &mut input, prefix.len(), vec![255], "/y==");
+ assert_tolerant_decode(&forgiving, &mut input, prefix.len(), vec![137, 133], "iYW=");
+ // trailing 11
+ assert_tolerant_decode(&forgiving, &mut input, prefix.len(), vec![255], "/z==");
+ assert_tolerant_decode(&forgiving, &mut input, prefix.len(), vec![137, 133], "iYX=");
+
+ prefix.push_str("AAAA");
+ }
+}
+
+#[apply(all_engines)]
+fn decode_invalid_byte_error<E: EngineWrapper>(engine_wrapper: E) {
+ let mut rng = seeded_rng();
+
+ let mut orig_data = Vec::<u8>::new();
+ let mut encode_buf = Vec::<u8>::new();
+ let mut decode_buf = Vec::<u8>::new();
+
+ let len_range = distributions::Uniform::new(1, 1_000);
+
+ for _ in 0..10_000 {
+ let alphabet = random_alphabet(&mut rng);
+ let engine = E::random_alphabet(&mut rng, alphabet);
+
+ orig_data.clear();
+ encode_buf.clear();
+ decode_buf.clear();
+
+ let (orig_len, encoded_len_just_data, encoded_len_with_padding) =
+ generate_random_encoded_data(
+ &engine,
+ &mut orig_data,
+ &mut encode_buf,
+ &mut rng,
+ &len_range,
+ );
+
+ // exactly the right size
+ decode_buf.resize(orig_len, 0);
+
+ // replace one encoded byte with an invalid byte
+ let invalid_byte: u8 = loop {
+ let byte: u8 = rng.gen();
+
+ if alphabet.symbols.contains(&byte) {
+ continue;
+ } else {
+ break byte;
+ }
+ };
+
+ let invalid_range = distributions::Uniform::new(0, orig_len);
+ let invalid_index = invalid_range.sample(&mut rng);
+ encode_buf[invalid_index] = invalid_byte;
+
+ assert_eq!(
+ Err(DecodeError::InvalidByte(invalid_index, invalid_byte)),
+ engine.decode_slice_unchecked(
+ &encode_buf[0..encoded_len_with_padding],
+ &mut decode_buf[..],
+ )
+ );
+ }
+}
+
+/// Any amount of padding anywhere before the final non padding character = invalid byte at first
+/// pad byte.
+/// From this, we know padding must extend to the end of the input.
+#[apply(all_engines)]
+fn decode_padding_before_final_non_padding_char_error_invalid_byte<E: EngineWrapper>(
+ engine_wrapper: E,
+) {
+ let mut rng = seeded_rng();
+
+ // the different amounts of proper padding, w/ offset from end for the last non-padding char
+ let suffixes = vec![("/w==", 2), ("iYu=", 1), ("zzzz", 0)];
+
+ let prefix_quads_range = distributions::Uniform::from(0..=256);
+
+ for mode in all_pad_modes() {
+ // we don't encode so we don't care about encode padding
+ let engine = E::standard_with_pad_mode(true, mode);
+
+ for _ in 0..100_000 {
+ for (suffix, offset) in suffixes.iter() {
+ let mut s = "ABCD".repeat(prefix_quads_range.sample(&mut rng));
+ s.push_str(suffix);
+ let mut encoded = s.into_bytes();
+
+ // calculate a range to write padding into that leaves at least one non padding char
+ let last_non_padding_offset = encoded.len() - 1 - offset;
+
+ // don't include last non padding char as it must stay not padding
+ let padding_end = rng.gen_range(0..last_non_padding_offset);
+
+ // don't use more than 100 bytes of padding, but also use shorter lengths when
+ // padding_end is near the start of the encoded data to avoid biasing to padding
+ // the entire prefix on short lengths
+ let padding_len = rng.gen_range(1..=usize::min(100, padding_end + 1));
+ let padding_start = padding_end.saturating_sub(padding_len);
+
+ encoded[padding_start..=padding_end].fill(PAD_BYTE);
+
+ assert_eq!(
+ Err(DecodeError::InvalidByte(padding_start, PAD_BYTE)),
+ engine.decode(&encoded),
+ );
+ }
+ }
+ }
+}
+
+/// Any amount of padding before final chunk that crosses over into final chunk with 1-4 bytes =
+/// invalid byte at first pad byte (except for 1 byte suffix = invalid length).
+/// From this we know the padding must start in the final chunk.
+#[apply(all_engines)]
+fn decode_padding_starts_before_final_chunk_error_invalid_byte<E: EngineWrapper>(
+ engine_wrapper: E,
+) {
+ let mut rng = seeded_rng();
+
+ // must have at least one prefix quad
+ let prefix_quads_range = distributions::Uniform::from(1..256);
+ // including 1 just to make sure that it really does produce invalid length
+ let suffix_pad_len_range = distributions::Uniform::from(1..=4);
+ for mode in all_pad_modes() {
+ // we don't encode so we don't care about encode padding
+ let engine = E::standard_with_pad_mode(true, mode);
+ for _ in 0..100_000 {
+ let suffix_len = suffix_pad_len_range.sample(&mut rng);
+ let mut encoded = "ABCD"
+ .repeat(prefix_quads_range.sample(&mut rng))
+ .into_bytes();
+ encoded.resize(encoded.len() + suffix_len, PAD_BYTE);
+
+ // amount of padding must be long enough to extend back from suffix into previous
+ // quads
+ let padding_len = rng.gen_range(suffix_len + 1..encoded.len());
+ // no non-padding after padding in this test, so padding goes to the end
+ let padding_start = encoded.len() - padding_len;
+ encoded[padding_start..].fill(PAD_BYTE);
+
+ if suffix_len == 1 {
+ assert_eq!(Err(DecodeError::InvalidLength), engine.decode(&encoded),);
+ } else {
+ assert_eq!(
+ Err(DecodeError::InvalidByte(padding_start, PAD_BYTE)),
+ engine.decode(&encoded),
+ );
+ }
+ }
+ }
+}
+
+/// 0-1 bytes of data before any amount of padding in final chunk = invalid byte, since padding
+/// is not valid data (consistent with error for pad bytes in earlier chunks).
+/// From this we know there must be 2-3 bytes of data before padding
+#[apply(all_engines)]
+fn decode_too_little_data_before_padding_error_invalid_byte<E: EngineWrapper>(engine_wrapper: E) {
+ let mut rng = seeded_rng();
+
+ // want to test no prefix quad case, so start at 0
+ let prefix_quads_range = distributions::Uniform::from(0_usize..256);
+ let suffix_data_len_range = distributions::Uniform::from(0_usize..=1);
+ for mode in all_pad_modes() {
+ // we don't encode so we don't care about encode padding
+ let engine = E::standard_with_pad_mode(true, mode);
+ for _ in 0..100_000 {
+ let suffix_data_len = suffix_data_len_range.sample(&mut rng);
+ let prefix_quad_len = prefix_quads_range.sample(&mut rng);
+
+ // ensure there is a suffix quad
+ let min_padding = usize::from(suffix_data_len == 0);
+
+ // for all possible padding lengths
+ for padding_len in min_padding..=(4 - suffix_data_len) {
+ let mut encoded = "ABCD".repeat(prefix_quad_len).into_bytes();
+ encoded.resize(encoded.len() + suffix_data_len, b'A');
+ encoded.resize(encoded.len() + padding_len, PAD_BYTE);
+
+ if suffix_data_len + padding_len == 1 {
+ assert_eq!(Err(DecodeError::InvalidLength), engine.decode(&encoded),);
+ } else {
+ assert_eq!(
+ Err(DecodeError::InvalidByte(
+ prefix_quad_len * 4 + suffix_data_len,
+ PAD_BYTE,
+ )),
+ engine.decode(&encoded),
+ "suffix data len {} pad len {}",
+ suffix_data_len,
+ padding_len
+ );
+ }
+ }
+ }
+ }
+}
+
+// https://eprint.iacr.org/2022/361.pdf table 2, test 1
+#[apply(all_engines)]
+fn decode_malleability_test_case_3_byte_suffix_valid<E: EngineWrapper>(engine_wrapper: E) {
+ assert_eq!(
+ b"Hello".as_slice(),
+ &E::standard().decode("SGVsbG8=").unwrap()
+ );
+}
+
+// https://eprint.iacr.org/2022/361.pdf table 2, test 2
+#[apply(all_engines)]
+fn decode_malleability_test_case_3_byte_suffix_invalid_trailing_symbol<E: EngineWrapper>(
+ engine_wrapper: E,
+) {
+ assert_eq!(
+ DecodeError::InvalidLastSymbol(6, 0x39),
+ E::standard().decode("SGVsbG9=").unwrap_err()
+ );
+}
+
+// https://eprint.iacr.org/2022/361.pdf table 2, test 3
+#[apply(all_engines)]
+fn decode_malleability_test_case_3_byte_suffix_no_padding<E: EngineWrapper>(engine_wrapper: E) {
+ assert_eq!(
+ DecodeError::InvalidPadding,
+ E::standard().decode("SGVsbG9").unwrap_err()
+ );
+}
+
+// https://eprint.iacr.org/2022/361.pdf table 2, test 4
+#[apply(all_engines)]
+fn decode_malleability_test_case_2_byte_suffix_valid_two_padding_symbols<E: EngineWrapper>(
+ engine_wrapper: E,
+) {
+ assert_eq!(
+ b"Hell".as_slice(),
+ &E::standard().decode("SGVsbA==").unwrap()
+ );
+}
+
+// https://eprint.iacr.org/2022/361.pdf table 2, test 5
+#[apply(all_engines)]
+fn decode_malleability_test_case_2_byte_suffix_short_padding<E: EngineWrapper>(engine_wrapper: E) {
+ assert_eq!(
+ DecodeError::InvalidPadding,
+ E::standard().decode("SGVsbA=").unwrap_err()
+ );
+}
+
+// https://eprint.iacr.org/2022/361.pdf table 2, test 6
+#[apply(all_engines)]
+fn decode_malleability_test_case_2_byte_suffix_no_padding<E: EngineWrapper>(engine_wrapper: E) {
+ assert_eq!(
+ DecodeError::InvalidPadding,
+ E::standard().decode("SGVsbA").unwrap_err()
+ );
+}
+
+// https://eprint.iacr.org/2022/361.pdf table 2, test 7
+#[apply(all_engines)]
+fn decode_malleability_test_case_2_byte_suffix_too_much_padding<E: EngineWrapper>(
+ engine_wrapper: E,
+) {
+ assert_eq!(
+ DecodeError::InvalidByte(6, PAD_BYTE),
+ E::standard().decode("SGVsbA====").unwrap_err()
+ );
+}
+
+/// Requires canonical padding -> accepts 2 + 2, 3 + 1, 4 + 0 final quad configurations
+#[apply(all_engines)]
+fn decode_pad_mode_requires_canonical_accepts_canonical<E: EngineWrapper>(engine_wrapper: E) {
+ assert_all_suffixes_ok(
+ E::standard_with_pad_mode(true, DecodePaddingMode::RequireCanonical),
+ vec!["/w==", "iYU=", "AAAA"],
+ );
+}
+
+/// Requires canonical padding -> rejects 2 + 0-1, 3 + 0 final chunk configurations
+#[apply(all_engines)]
+fn decode_pad_mode_requires_canonical_rejects_non_canonical<E: EngineWrapper>(engine_wrapper: E) {
+ let engine = E::standard_with_pad_mode(true, DecodePaddingMode::RequireCanonical);
+
+ let suffixes = vec!["/w", "/w=", "iYU"];
+ for num_prefix_quads in 0..256 {
+ for &suffix in suffixes.iter() {
+ let mut encoded = "AAAA".repeat(num_prefix_quads);
+ encoded.push_str(suffix);
+
+ let res = engine.decode(&encoded);
+
+ assert_eq!(Err(DecodeError::InvalidPadding), res);
+ }
+ }
+}
+
+/// Requires no padding -> accepts 2 + 0, 3 + 0, 4 + 0 final chunk configuration
+#[apply(all_engines)]
+fn decode_pad_mode_requires_no_padding_accepts_no_padding<E: EngineWrapper>(engine_wrapper: E) {
+ assert_all_suffixes_ok(
+ E::standard_with_pad_mode(true, DecodePaddingMode::RequireNone),
+ vec!["/w", "iYU", "AAAA"],
+ );
+}
+
+/// Requires no padding -> rejects 2 + 1-2, 3 + 1 final chunk configuration
+#[apply(all_engines)]
+fn decode_pad_mode_requires_no_padding_rejects_any_padding<E: EngineWrapper>(engine_wrapper: E) {
+ let engine = E::standard_with_pad_mode(true, DecodePaddingMode::RequireNone);
+
+ let suffixes = vec!["/w=", "/w==", "iYU="];
+ for num_prefix_quads in 0..256 {
+ for &suffix in suffixes.iter() {
+ let mut encoded = "AAAA".repeat(num_prefix_quads);
+ encoded.push_str(suffix);
+
+ let res = engine.decode(&encoded);
+
+ assert_eq!(Err(DecodeError::InvalidPadding), res);
+ }
+ }
+}
+
+/// Indifferent padding accepts 2 + 0-2, 3 + 0-1, 4 + 0 final chunk configuration
+#[apply(all_engines)]
+fn decode_pad_mode_indifferent_padding_accepts_anything<E: EngineWrapper>(engine_wrapper: E) {
+ assert_all_suffixes_ok(
+ E::standard_with_pad_mode(true, DecodePaddingMode::Indifferent),
+ vec!["/w", "/w=", "/w==", "iYU", "iYU=", "AAAA"],
+ );
+}
+
+//this is a MAY in the rfc: https://tools.ietf.org/html/rfc4648#section-3.3
+#[apply(all_engines)]
+fn decode_pad_byte_in_penultimate_quad_error<E: EngineWrapper>(engine_wrapper: E) {
+ for mode in all_pad_modes() {
+ // we don't encode so we don't care about encode padding
+ let engine = E::standard_with_pad_mode(true, mode);
+
+ for num_prefix_quads in 0..256 {
+ // leave room for at least one pad byte in penultimate quad
+ for num_valid_bytes_penultimate_quad in 0..4 {
+ // can't have 1 or it would be invalid length
+ for num_pad_bytes_in_final_quad in 2..=4 {
+ let mut s: String = "ABCD".repeat(num_prefix_quads);
+
+ // varying amounts of padding in the penultimate quad
+ for _ in 0..num_valid_bytes_penultimate_quad {
+ s.push('A');
+ }
+ // finish penultimate quad with padding
+ for _ in num_valid_bytes_penultimate_quad..4 {
+ s.push('=');
+ }
+ // and more padding in the final quad
+ for _ in 0..num_pad_bytes_in_final_quad {
+ s.push('=');
+ }
+
+ // padding should be an invalid byte before the final quad.
+ // Could argue that the *next* padding byte (in the next quad) is technically the first
+ // erroneous one, but reporting that accurately is more complex and probably nobody cares
+ assert_eq!(
+ DecodeError::InvalidByte(
+ num_prefix_quads * 4 + num_valid_bytes_penultimate_quad,
+ b'=',
+ ),
+ engine.decode(&s).unwrap_err()
+ );
+ }
+ }
+ }
+ }
+}
+
+#[apply(all_engines)]
+fn decode_bytes_after_padding_in_final_quad_error<E: EngineWrapper>(engine_wrapper: E) {
+ for mode in all_pad_modes() {
+ // we don't encode so we don't care about encode padding
+ let engine = E::standard_with_pad_mode(true, mode);
+
+ for num_prefix_quads in 0..256 {
+ // leave at least one byte in the quad for padding
+ for bytes_after_padding in 1..4 {
+ let mut s: String = "ABCD".repeat(num_prefix_quads);
+
+ // every invalid padding position with a 3-byte final quad: 1 to 3 bytes after padding
+ for _ in 0..(3 - bytes_after_padding) {
+ s.push('A');
+ }
+ s.push('=');
+ for _ in 0..bytes_after_padding {
+ s.push('A');
+ }
+
+ // First (and only) padding byte is invalid.
+ assert_eq!(
+ DecodeError::InvalidByte(
+ num_prefix_quads * 4 + (3 - bytes_after_padding),
+ b'='
+ ),
+ engine.decode(&s).unwrap_err()
+ );
+ }
+ }
+ }
+}
+
+#[apply(all_engines)]
+fn decode_absurd_pad_error<E: EngineWrapper>(engine_wrapper: E) {
+ for mode in all_pad_modes() {
+ // we don't encode so we don't care about encode padding
+ let engine = E::standard_with_pad_mode(true, mode);
+
+ for num_prefix_quads in 0..256 {
+ let mut s: String = "ABCD".repeat(num_prefix_quads);
+ s.push_str("==Y=Wx===pY=2U=====");
+
+ // first padding byte
+ assert_eq!(
+ DecodeError::InvalidByte(num_prefix_quads * 4, b'='),
+ engine.decode(&s).unwrap_err()
+ );
+ }
+ }
+}
+
+#[apply(all_engines)]
+fn decode_too_much_padding_returns_error<E: EngineWrapper>(engine_wrapper: E) {
+ for mode in all_pad_modes() {
+ // we don't encode so we don't care about encode padding
+ let engine = E::standard_with_pad_mode(true, mode);
+
+ for num_prefix_quads in 0..256 {
+ // add enough padding to ensure that we'll hit all decode stages at the different lengths
+ for pad_bytes in 1..=64 {
+ let mut s: String = "ABCD".repeat(num_prefix_quads);
+ let padding: String = "=".repeat(pad_bytes);
+ s.push_str(&padding);
+
+ if pad_bytes % 4 == 1 {
+ assert_eq!(DecodeError::InvalidLength, engine.decode(&s).unwrap_err());
+ } else {
+ assert_eq!(
+ DecodeError::InvalidByte(num_prefix_quads * 4, b'='),
+ engine.decode(&s).unwrap_err()
+ );
+ }
+ }
+ }
+ }
+}
+
+#[apply(all_engines)]
+fn decode_padding_followed_by_non_padding_returns_error<E: EngineWrapper>(engine_wrapper: E) {
+ for mode in all_pad_modes() {
+ // we don't encode so we don't care about encode padding
+ let engine = E::standard_with_pad_mode(true, mode);
+
+ for num_prefix_quads in 0..256 {
+ for pad_bytes in 0..=32 {
+ let mut s: String = "ABCD".repeat(num_prefix_quads);
+ let padding: String = "=".repeat(pad_bytes);
+ s.push_str(&padding);
+ s.push('E');
+
+ if pad_bytes % 4 == 0 {
+ assert_eq!(DecodeError::InvalidLength, engine.decode(&s).unwrap_err());
+ } else {
+ assert_eq!(
+ DecodeError::InvalidByte(num_prefix_quads * 4, b'='),
+ engine.decode(&s).unwrap_err()
+ );
+ }
+ }
+ }
+ }
+}
+
+#[apply(all_engines)]
+fn decode_one_char_in_final_quad_with_padding_error<E: EngineWrapper>(engine_wrapper: E) {
+ for mode in all_pad_modes() {
+ // we don't encode so we don't care about encode padding
+ let engine = E::standard_with_pad_mode(true, mode);
+
+ for num_prefix_quads in 0..256 {
+ let mut s: String = "ABCD".repeat(num_prefix_quads);
+ s.push_str("E=");
+
+ assert_eq!(
+ DecodeError::InvalidByte(num_prefix_quads * 4 + 1, b'='),
+ engine.decode(&s).unwrap_err()
+ );
+
+ // more padding doesn't change the error
+ s.push('=');
+ assert_eq!(
+ DecodeError::InvalidByte(num_prefix_quads * 4 + 1, b'='),
+ engine.decode(&s).unwrap_err()
+ );
+
+ s.push('=');
+ assert_eq!(
+ DecodeError::InvalidByte(num_prefix_quads * 4 + 1, b'='),
+ engine.decode(&s).unwrap_err()
+ );
+ }
+ }
+}
+
+#[apply(all_engines)]
+fn decode_too_few_symbols_in_final_quad_error<E: EngineWrapper>(engine_wrapper: E) {
+ for mode in all_pad_modes() {
+ // we don't encode so we don't care about encode padding
+ let engine = E::standard_with_pad_mode(true, mode);
+
+ for num_prefix_quads in 0..256 {
+ // <2 is invalid
+ for final_quad_symbols in 0..2 {
+ for padding_symbols in 0..=(4 - final_quad_symbols) {
+ let mut s: String = "ABCD".repeat(num_prefix_quads);
+
+ for _ in 0..final_quad_symbols {
+ s.push('A');
+ }
+ for _ in 0..padding_symbols {
+ s.push('=');
+ }
+
+ match final_quad_symbols + padding_symbols {
+ 0 => continue,
+ 1 => {
+ assert_eq!(DecodeError::InvalidLength, engine.decode(&s).unwrap_err());
+ }
+ _ => {
+ // error reported at first padding byte
+ assert_eq!(
+ DecodeError::InvalidByte(
+ num_prefix_quads * 4 + final_quad_symbols,
+ b'=',
+ ),
+ engine.decode(&s).unwrap_err()
+ );
+ }
+ }
+ }
+ }
+ }
+ }
+}
+
+#[apply(all_engines)]
+fn decode_invalid_trailing_bytes<E: EngineWrapper>(engine_wrapper: E) {
+ for mode in all_pad_modes() {
+ // we don't encode so we don't care about encode padding
+ let engine = E::standard_with_pad_mode(true, mode);
+
+ for num_prefix_quads in 0..256 {
+ let mut s: String = "ABCD".repeat(num_prefix_quads);
+ s.push_str("Cg==\n");
+
+ // The case of trailing newlines is common enough to warrant a test for a good error
+ // message.
+ assert_eq!(
+ Err(DecodeError::InvalidByte(num_prefix_quads * 4 + 4, b'\n')),
+ engine.decode(&s)
+ );
+
+ // extra padding, however, is still InvalidLength
+ let s = s.replace('\n', "=");
+ assert_eq!(Err(DecodeError::InvalidLength), engine.decode(s));
+ }
+ }
+}
+
+#[apply(all_engines)]
+fn decode_wrong_length_error<E: EngineWrapper>(engine_wrapper: E) {
+ let engine = E::standard_with_pad_mode(true, DecodePaddingMode::Indifferent);
+
+ for num_prefix_quads in 0..256 {
+ // at least one token, otherwise it wouldn't be a final quad
+ for num_tokens_final_quad in 1..=4 {
+ for num_padding in 0..=(4 - num_tokens_final_quad) {
+ let mut s: String = "IIII".repeat(num_prefix_quads);
+ for _ in 0..num_tokens_final_quad {
+ s.push('g');
+ }
+ for _ in 0..num_padding {
+ s.push('=');
+ }
+
+ let res = engine.decode(&s);
+ if num_tokens_final_quad >= 2 {
+ assert!(res.is_ok());
+ } else if num_tokens_final_quad == 1 && num_padding > 0 {
+ // = is invalid if it's too early
+ assert_eq!(
+ Err(DecodeError::InvalidByte(
+ num_prefix_quads * 4 + num_tokens_final_quad,
+ 61
+ )),
+ res
+ );
+ } else if num_padding > 2 {
+ assert_eq!(Err(DecodeError::InvalidPadding), res);
+ } else {
+ assert_eq!(Err(DecodeError::InvalidLength), res);
+ }
+ }
+ }
+ }
+}
+
+#[apply(all_engines)]
+fn decode_into_slice_fits_in_precisely_sized_slice<E: EngineWrapper>(engine_wrapper: E) {
+ let mut orig_data = Vec::new();
+ let mut encoded_data = String::new();
+ let mut decode_buf = Vec::new();
+
+ let input_len_range = distributions::Uniform::new(0, 1000);
+ let mut rng = rngs::SmallRng::from_entropy();
+
+ for _ in 0..10_000 {
+ orig_data.clear();
+ encoded_data.clear();
+ decode_buf.clear();
+
+ let input_len = input_len_range.sample(&mut rng);
+
+ for _ in 0..input_len {
+ orig_data.push(rng.gen());
+ }
+
+ let engine = E::random(&mut rng);
+ engine.encode_string(&orig_data, &mut encoded_data);
+ assert_encode_sanity(&encoded_data, engine.config().encode_padding(), input_len);
+
+ decode_buf.resize(input_len, 0);
+
+ // decode into the non-empty buf
+ let decode_bytes_written = engine
+ .decode_slice_unchecked(encoded_data.as_bytes(), &mut decode_buf[..])
+ .unwrap();
+
+ assert_eq!(orig_data.len(), decode_bytes_written);
+ assert_eq!(orig_data, decode_buf);
+ }
+}
+
+#[apply(all_engines)]
+fn decode_length_estimate_delta<E: EngineWrapper>(engine_wrapper: E) {
+ for engine in [E::standard(), E::standard_unpadded()] {
+ for &padding in &[true, false] {
+ for orig_len in 0..1000 {
+ let encoded_len = encoded_len(orig_len, padding).unwrap();
+
+ let decoded_estimate = engine
+ .internal_decoded_len_estimate(encoded_len)
+ .decoded_len_estimate();
+ assert!(decoded_estimate >= orig_len);
+ assert!(
+ decoded_estimate - orig_len < 3,
+ "estimate: {}, encoded: {}, orig: {}",
+ decoded_estimate,
+ encoded_len,
+ orig_len
+ );
+ }
+ }
+ }
+}
+
+/// Returns a tuple of the original data length, the encoded data length (just data), and the length including padding.
+///
+/// Vecs provided should be empty.
+fn generate_random_encoded_data<E: Engine, R: rand::Rng, D: distributions::Distribution<usize>>(
+ engine: &E,
+ orig_data: &mut Vec<u8>,
+ encode_buf: &mut Vec<u8>,
+ rng: &mut R,
+ length_distribution: &D,
+) -> (usize, usize, usize) {
+ let padding: bool = engine.config().encode_padding();
+
+ let orig_len = fill_rand(orig_data, rng, length_distribution);
+ let expected_encoded_len = encoded_len(orig_len, padding).unwrap();
+ encode_buf.resize(expected_encoded_len, 0);
+
+ let base_encoded_len = engine.internal_encode(&orig_data[..], &mut encode_buf[..]);
+
+ let enc_len_with_padding = if padding {
+ base_encoded_len + add_padding(orig_len, &mut encode_buf[base_encoded_len..])
+ } else {
+ base_encoded_len
+ };
+
+ assert_eq!(expected_encoded_len, enc_len_with_padding);
+
+ (orig_len, base_encoded_len, enc_len_with_padding)
+}
+
+// fill to a random length
+fn fill_rand<R: rand::Rng, D: distributions::Distribution<usize>>(
+ vec: &mut Vec<u8>,
+ rng: &mut R,
+ length_distribution: &D,
+) -> usize {
+ let len = length_distribution.sample(rng);
+ for _ in 0..len {
+ vec.push(rng.gen());
+ }
+
+ len
+}
+
+fn fill_rand_len<R: rand::Rng>(vec: &mut Vec<u8>, rng: &mut R, len: usize) {
+ for _ in 0..len {
+ vec.push(rng.gen());
+ }
+}
+
+fn prefixed_data<'i, 'd>(
+ input_with_prefix: &'i mut String,
+ prefix_len: usize,
+ data: &'d str,
+) -> &'i str {
+ input_with_prefix.truncate(prefix_len);
+ input_with_prefix.push_str(data);
+ input_with_prefix.as_str()
+}
+
+/// A wrapper to make using engines in rstest fixtures easier.
+/// The functions don't need to be instance methods, but rstest does seem
+/// to want an instance, so instances are passed to test functions and then ignored.
+trait EngineWrapper {
+ type Engine: Engine;
+
+ /// Return an engine configured for RFC standard base64
+ fn standard() -> Self::Engine;
+
+ /// Return an engine configured for RFC standard base64, except with no padding appended on
+ /// encode, and required no padding on decode.
+ fn standard_unpadded() -> Self::Engine;
+
+ /// Return an engine configured for RFC standard alphabet with the provided encode and decode
+ /// pad settings
+ fn standard_with_pad_mode(encode_pad: bool, decode_pad_mode: DecodePaddingMode)
+ -> Self::Engine;
+
+ /// Return an engine configured for RFC standard base64 that allows invalid trailing bits
+ fn standard_allow_trailing_bits() -> Self::Engine;
+
+ /// Return an engine configured with a randomized alphabet and config
+ fn random<R: rand::Rng>(rng: &mut R) -> Self::Engine;
+
+ /// Return an engine configured with the specified alphabet and randomized config
+ fn random_alphabet<R: rand::Rng>(rng: &mut R, alphabet: &Alphabet) -> Self::Engine;
+}
+
+struct GeneralPurposeWrapper {}
+
+impl EngineWrapper for GeneralPurposeWrapper {
+ type Engine = general_purpose::GeneralPurpose;
+
+ fn standard() -> Self::Engine {
+ general_purpose::GeneralPurpose::new(&STANDARD, general_purpose::PAD)
+ }
+
+ fn standard_unpadded() -> Self::Engine {
+ general_purpose::GeneralPurpose::new(&STANDARD, general_purpose::NO_PAD)
+ }
+
+ fn standard_with_pad_mode(
+ encode_pad: bool,
+ decode_pad_mode: DecodePaddingMode,
+ ) -> Self::Engine {
+ general_purpose::GeneralPurpose::new(
+ &STANDARD,
+ general_purpose::GeneralPurposeConfig::new()
+ .with_encode_padding(encode_pad)
+ .with_decode_padding_mode(decode_pad_mode),
+ )
+ }
+
+ fn standard_allow_trailing_bits() -> Self::Engine {
+ general_purpose::GeneralPurpose::new(
+ &STANDARD,
+ general_purpose::GeneralPurposeConfig::new().with_decode_allow_trailing_bits(true),
+ )
+ }
+
+ fn random<R: rand::Rng>(rng: &mut R) -> Self::Engine {
+ let alphabet = random_alphabet(rng);
+
+ Self::random_alphabet(rng, alphabet)
+ }
+
+ fn random_alphabet<R: rand::Rng>(rng: &mut R, alphabet: &Alphabet) -> Self::Engine {
+ general_purpose::GeneralPurpose::new(alphabet, random_config(rng))
+ }
+}
+
+struct NaiveWrapper {}
+
+impl EngineWrapper for NaiveWrapper {
+ type Engine = naive::Naive;
+
+ fn standard() -> Self::Engine {
+ naive::Naive::new(
+ &STANDARD,
+ naive::NaiveConfig {
+ encode_padding: true,
+ decode_allow_trailing_bits: false,
+ decode_padding_mode: DecodePaddingMode::RequireCanonical,
+ },
+ )
+ }
+
+ fn standard_unpadded() -> Self::Engine {
+ naive::Naive::new(
+ &STANDARD,
+ naive::NaiveConfig {
+ encode_padding: false,
+ decode_allow_trailing_bits: false,
+ decode_padding_mode: DecodePaddingMode::RequireNone,
+ },
+ )
+ }
+
+ fn standard_with_pad_mode(
+ encode_pad: bool,
+ decode_pad_mode: DecodePaddingMode,
+ ) -> Self::Engine {
+ naive::Naive::new(
+ &STANDARD,
+ naive::NaiveConfig {
+ encode_padding: false,
+ decode_allow_trailing_bits: false,
+ decode_padding_mode: decode_pad_mode,
+ },
+ )
+ }
+
+ fn standard_allow_trailing_bits() -> Self::Engine {
+ naive::Naive::new(
+ &STANDARD,
+ naive::NaiveConfig {
+ encode_padding: true,
+ decode_allow_trailing_bits: true,
+ decode_padding_mode: DecodePaddingMode::RequireCanonical,
+ },
+ )
+ }
+
+ fn random<R: rand::Rng>(rng: &mut R) -> Self::Engine {
+ let alphabet = random_alphabet(rng);
+
+ Self::random_alphabet(rng, alphabet)
+ }
+
+ fn random_alphabet<R: rand::Rng>(rng: &mut R, alphabet: &Alphabet) -> Self::Engine {
+ let mode = rng.gen();
+
+ let config = naive::NaiveConfig {
+ encode_padding: match mode {
+ DecodePaddingMode::Indifferent => rng.gen(),
+ DecodePaddingMode::RequireCanonical => true,
+ DecodePaddingMode::RequireNone => false,
+ },
+ decode_allow_trailing_bits: rng.gen(),
+ decode_padding_mode: mode,
+ };
+
+ naive::Naive::new(alphabet, config)
+ }
+}
+
+fn seeded_rng() -> impl rand::Rng {
+ rngs::SmallRng::from_entropy()
+}
+
+fn all_pad_modes() -> Vec<DecodePaddingMode> {
+ vec![
+ DecodePaddingMode::Indifferent,
+ DecodePaddingMode::RequireCanonical,
+ DecodePaddingMode::RequireNone,
+ ]
+}
+
+fn assert_all_suffixes_ok<E: Engine>(engine: E, suffixes: Vec<&str>) {
+ for num_prefix_quads in 0..256 {
+ for &suffix in suffixes.iter() {
+ let mut encoded = "AAAA".repeat(num_prefix_quads);
+ encoded.push_str(suffix);
+
+ let res = &engine.decode(&encoded);
+ assert!(res.is_ok());
+ }
+ }
+}