use crate::{decode_config, encode::encoded_size, encode_config_buf, CharacterSet, Config}; use std::str; use rand::{ distributions::{Distribution, Uniform}, seq::SliceRandom, FromEntropy, Rng, }; #[test] fn roundtrip_random_config_short() { // exercise the slower encode/decode routines that operate on shorter buffers more vigorously roundtrip_random_config(Uniform::new(0, 50), 10_000); } #[test] fn roundtrip_random_config_long() { roundtrip_random_config(Uniform::new(0, 1000), 10_000); } pub fn assert_encode_sanity(encoded: &str, config: Config, input_len: usize) { let input_rem = input_len % 3; let expected_padding_len = if input_rem > 0 { if config.pad { 3 - input_rem } else { 0 } } else { 0 }; let expected_encoded_len = encoded_size(input_len, config).unwrap(); assert_eq!(expected_encoded_len, encoded.len()); let padding_len = encoded.chars().filter(|&c| c == '=').count(); assert_eq!(expected_padding_len, padding_len); let _ = str::from_utf8(encoded.as_bytes()).expect("Base64 should be valid utf8"); } fn roundtrip_random_config(input_len_range: Uniform, iterations: u32) { let mut input_buf: Vec = Vec::new(); let mut encoded_buf = String::new(); let mut rng = rand::rngs::SmallRng::from_entropy(); for _ in 0..iterations { input_buf.clear(); encoded_buf.clear(); let input_len = input_len_range.sample(&mut rng); let config = random_config(&mut rng); for _ in 0..input_len { input_buf.push(rng.gen()); } encode_config_buf(&input_buf, config, &mut encoded_buf); assert_encode_sanity(&encoded_buf, config, input_len); assert_eq!(input_buf, decode_config(&encoded_buf, config).unwrap()); } } pub fn random_config(rng: &mut R) -> Config { const CHARSETS: &[CharacterSet] = &[ CharacterSet::UrlSafe, CharacterSet::Standard, CharacterSet::Crypt, CharacterSet::ImapMutf7, CharacterSet::BinHex, ]; let charset = *CHARSETS.choose(rng).unwrap(); Config::new(charset, rng.gen()) }