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use rand::{Rng, SeedableRng};
use base64::engine::{general_purpose::STANDARD, Engine};
use base64::*;
use base64::engine::general_purpose::{GeneralPurpose, NO_PAD};
// generate random contents of the specified length and test encode/decode roundtrip
fn roundtrip_random<E: Engine>(
byte_buf: &mut Vec<u8>,
str_buf: &mut String,
engine: &E,
byte_len: usize,
approx_values_per_byte: u8,
max_rounds: u64,
) {
// let the short ones be short but don't let it get too crazy large
let num_rounds = calculate_number_of_rounds(byte_len, approx_values_per_byte, max_rounds);
let mut r = rand::rngs::SmallRng::from_entropy();
let mut decode_buf = Vec::new();
for _ in 0..num_rounds {
byte_buf.clear();
str_buf.clear();
decode_buf.clear();
while byte_buf.len() < byte_len {
byte_buf.push(r.gen::<u8>());
}
engine.encode_string(&byte_buf, str_buf);
engine.decode_vec(&str_buf, &mut decode_buf).unwrap();
assert_eq!(byte_buf, &decode_buf);
}
}
fn calculate_number_of_rounds(byte_len: usize, approx_values_per_byte: u8, max: u64) -> u64 {
// don't overflow
let mut prod = approx_values_per_byte as u64;
for _ in 0..byte_len {
if prod > max {
return max;
}
prod = prod.saturating_mul(prod);
}
prod
}
#[test]
fn roundtrip_random_short_standard() {
let mut byte_buf: Vec<u8> = Vec::new();
let mut str_buf = String::new();
for input_len in 0..40 {
roundtrip_random(&mut byte_buf, &mut str_buf, &STANDARD, input_len, 4, 10000);
}
}
#[test]
fn roundtrip_random_with_fast_loop_standard() {
let mut byte_buf: Vec<u8> = Vec::new();
let mut str_buf = String::new();
for input_len in 40..100 {
roundtrip_random(&mut byte_buf, &mut str_buf, &STANDARD, input_len, 4, 1000);
}
}
#[test]
fn roundtrip_random_short_no_padding() {
let mut byte_buf: Vec<u8> = Vec::new();
let mut str_buf = String::new();
let engine = GeneralPurpose::new(&alphabet::STANDARD, NO_PAD);
for input_len in 0..40 {
roundtrip_random(&mut byte_buf, &mut str_buf, &engine, input_len, 4, 10000);
}
}
#[test]
fn roundtrip_random_no_padding() {
let mut byte_buf: Vec<u8> = Vec::new();
let mut str_buf = String::new();
let engine = GeneralPurpose::new(&alphabet::STANDARD, NO_PAD);
for input_len in 40..100 {
roundtrip_random(&mut byte_buf, &mut str_buf, &engine, input_len, 4, 1000);
}
}
#[test]
fn roundtrip_decode_trailing_10_bytes() {
// This is a special case because we decode 8 byte blocks of input at a time as much as we can,
// ideally unrolled to 32 bytes at a time, in stages 1 and 2. Since we also write a u64's worth
// of bytes (8) to the output, we always write 2 garbage bytes that then will be overwritten by
// the NEXT block. However, if the next block only contains 2 bytes, it will decode to 1 byte,
// and therefore be too short to cover up the trailing 2 garbage bytes. Thus, we have stage 3
// to handle that case.
for num_quads in 0..25 {
let mut s: String = "ABCD".repeat(num_quads);
s.push_str("EFGHIJKLZg");
let engine = GeneralPurpose::new(&alphabet::STANDARD, NO_PAD);
let decoded = engine.decode(&s).unwrap();
assert_eq!(num_quads * 3 + 7, decoded.len());
assert_eq!(s, engine.encode(&decoded));
}
}
#[test]
fn display_wrapper_matches_normal_encode() {
let mut bytes = Vec::<u8>::with_capacity(256);
for i in 0..255 {
bytes.push(i);
}
bytes.push(255);
assert_eq!(
STANDARD.encode(&bytes),
format!("{}", display::Base64Display::new(&bytes, &STANDARD))
);
}
#[test]
fn encode_engine_slice_error_when_buffer_too_small() {
for num_triples in 1..100 {
let input = "AAA".repeat(num_triples);
let mut vec = vec![0; (num_triples - 1) * 4];
assert_eq!(
EncodeSliceError::OutputSliceTooSmall,
STANDARD.encode_slice(&input, &mut vec).unwrap_err()
);
vec.push(0);
assert_eq!(
EncodeSliceError::OutputSliceTooSmall,
STANDARD.encode_slice(&input, &mut vec).unwrap_err()
);
vec.push(0);
assert_eq!(
EncodeSliceError::OutputSliceTooSmall,
STANDARD.encode_slice(&input, &mut vec).unwrap_err()
);
vec.push(0);
assert_eq!(
EncodeSliceError::OutputSliceTooSmall,
STANDARD.encode_slice(&input, &mut vec).unwrap_err()
);
vec.push(0);
assert_eq!(
num_triples * 4,
STANDARD.encode_slice(&input, &mut vec).unwrap()
);
}
}