// This file is part of the uutils procps package. // // For the full copyright and license information, please view the LICENSE // file that was distributed with this source code. use rand::distributions::{Distribution, Uniform}; use rand::{thread_rng, Rng}; /// Samples alphanumeric characters `[A-Za-z0-9]` including newline `\n` /// /// # Examples /// /// ```rust,ignore /// use rand::{Rng, thread_rng}; /// /// let vec = thread_rng() /// .sample_iter(AlphanumericNewline) /// .take(10) /// .collect::>(); /// println!("Random chars: {}", String::from_utf8(vec).unwrap()); /// ``` #[derive(Clone, Copy, Debug)] pub struct AlphanumericNewline; impl AlphanumericNewline { /// The charset to act upon const CHARSET: &'static [u8] = b"ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789\n"; /// Generate a random byte from [`Self::CHARSET`] and return it as `u8`. /// /// # Arguments /// /// * `rng`: A [`rand::Rng`] /// /// returns: u8 fn random(rng: &mut R) -> u8 where R: Rng + ?Sized, { let idx = rng.gen_range(0..Self::CHARSET.len()); Self::CHARSET[idx] } } impl Distribution for AlphanumericNewline { fn sample(&self, rng: &mut R) -> u8 { Self::random(rng) } } /// Generate a random string from a [`Distribution`] /// /// # Examples /// /// ```rust,ignore /// use crate::common::random::{AlphanumericNewline, RandomString}; /// use rand::distributions::Alphanumeric; /// /// // generates a 100 byte string with characters from AlphanumericNewline /// let random_string = RandomString::generate(AlphanumericNewline, 100); /// assert_eq!(100, random_string.len()); /// /// // generates a 100 byte string with 10 newline characters not ending with a newline /// let string = RandomString::generate_with_delimiter(Alphanumeric, b'\n', 10, false, 100); /// assert_eq!(100, random_string.len()); /// ``` pub struct RandomString; impl RandomString { /// Generate a random string from the given [`Distribution`] with the given `length` in bytes. /// /// # Arguments /// /// * `dist`: A u8 [`Distribution`] /// * `length`: the length of the resulting string in bytes /// /// returns: String pub fn generate(dist: D, length: usize) -> String where D: Distribution, { thread_rng() .sample_iter(dist) .take(length) .map(|b| b as char) .collect() } /// Generate a random string from the [`Distribution`] with the given `length` in bytes. The /// function takes a `delimiter`, which is randomly distributed in the string, such that exactly /// `num_delimiter` amount of `delimiter`s occur. If `end_with_delimiter` is set, then the /// string ends with the delimiter, else the string does not end with the delimiter. /// /// # Arguments /// /// * `dist`: A `u8` [`Distribution`] /// * `delimiter`: A `u8` delimiter, which does not need to be included in the `Distribution` /// * `num_delimiter`: The number of `delimiter`s contained in the resulting string /// * `end_with_delimiter`: If the string shall end with the given delimiter /// * `length`: the length of the resulting string in bytes /// /// returns: String /// /// # Examples /// /// ```rust,ignore /// use crate::common::random::{AlphanumericNewline, RandomString}; /// /// // generates a 100 byte string with 10 '\0' byte characters not ending with a '\0' byte /// let string = RandomString::generate_with_delimiter(AlphanumericNewline, 0, 10, false, 100); /// assert_eq!(100, random_string.len()); /// assert_eq!( /// 10, /// random_string.as_bytes().iter().filter(|p| **p == 0).count() /// ); /// assert!(!random_string.as_bytes().ends_with(&[0])); /// ``` pub fn generate_with_delimiter( dist: D, delimiter: u8, num_delimiter: usize, end_with_delimiter: bool, length: usize, ) -> String where D: Distribution, { if length == 0 { return String::new(); } else if length == 1 { return if num_delimiter > 0 { String::from(delimiter as char) } else { String::from(thread_rng().sample(&dist) as char) }; } let samples = length - 1; let mut result: Vec = thread_rng().sample_iter(&dist).take(samples).collect(); if num_delimiter == 0 { result.push(thread_rng().sample(&dist)); return String::from_utf8(result).unwrap(); } let num_delimiter = if end_with_delimiter { num_delimiter - 1 } else { num_delimiter }; let between = Uniform::new(0, samples); for _ in 0..num_delimiter { let mut pos = between.sample(&mut thread_rng()); let turn = pos; while result[pos] == delimiter { pos += 1; if pos >= samples { pos = 0; } if pos == turn { break; } } result[pos] = delimiter; } if end_with_delimiter { result.push(delimiter); } else { result.push(thread_rng().sample(&dist)); } String::from_utf8(result).unwrap() } } #[cfg(test)] mod tests { use super::*; use rand::distributions::Alphanumeric; #[test] fn test_random_string_generate() { let random_string = RandomString::generate(AlphanumericNewline, 0); assert_eq!(0, random_string.len()); let random_string = RandomString::generate(AlphanumericNewline, 1); assert_eq!(1, random_string.len()); let random_string = RandomString::generate(AlphanumericNewline, 100); assert_eq!(100, random_string.len()); } #[test] fn test_random_string_generate_with_delimiter_when_length_is_zero() { let random_string = RandomString::generate_with_delimiter(Alphanumeric, 0, 0, false, 0); assert_eq!(0, random_string.len()); } #[test] fn test_random_string_generate_with_delimiter_when_num_delimiter_is_greater_than_length() { let random_string = RandomString::generate_with_delimiter(Alphanumeric, 0, 2, false, 1); assert_eq!(1, random_string.len()); assert!(random_string.as_bytes().contains(&0)); assert!(random_string.as_bytes().ends_with(&[0])); } #[test] fn test_random_string_generate_with_delimiter_should_end_with_delimiter() { let random_string = RandomString::generate_with_delimiter(Alphanumeric, 0, 1, true, 1); assert_eq!(1, random_string.len()); assert_eq!( 1, random_string.as_bytes().iter().filter(|p| **p == 0).count() ); assert!(random_string.as_bytes().ends_with(&[0])); let random_string = RandomString::generate_with_delimiter(Alphanumeric, 0, 1, false, 1); assert_eq!(1, random_string.len()); assert_eq!( 1, random_string.as_bytes().iter().filter(|p| **p == 0).count() ); assert!(random_string.as_bytes().ends_with(&[0])); let random_string = RandomString::generate_with_delimiter(Alphanumeric, 0, 1, true, 2); assert_eq!(2, random_string.len()); assert_eq!( 1, random_string.as_bytes().iter().filter(|p| **p == 0).count() ); assert!(random_string.as_bytes().ends_with(&[0])); let random_string = RandomString::generate_with_delimiter(Alphanumeric, 0, 2, true, 2); assert_eq!(2, random_string.len()); assert_eq!( 2, random_string.as_bytes().iter().filter(|p| **p == 0).count() ); assert!(random_string.as_bytes().ends_with(&[0])); let random_string = RandomString::generate_with_delimiter(Alphanumeric, 0, 1, true, 3); assert_eq!(3, random_string.len()); assert_eq!( 1, random_string.as_bytes().iter().filter(|p| **p == 0).count() ); assert!(random_string.as_bytes().ends_with(&[0])); } #[test] fn test_random_string_generate_with_delimiter_should_not_end_with_delimiter() { let random_string = RandomString::generate_with_delimiter(Alphanumeric, 0, 0, false, 1); assert_eq!(1, random_string.len()); assert_eq!( 0, random_string.as_bytes().iter().filter(|p| **p == 0).count() ); let random_string = RandomString::generate_with_delimiter(Alphanumeric, 0, 0, true, 1); assert_eq!(1, random_string.len()); assert_eq!( 0, random_string.as_bytes().iter().filter(|p| **p == 0).count() ); let random_string = RandomString::generate_with_delimiter(Alphanumeric, 0, 1, false, 2); assert_eq!(2, random_string.len()); assert_eq!( 1, random_string.as_bytes().iter().filter(|p| **p == 0).count() ); assert!(!random_string.as_bytes().ends_with(&[0])); let random_string = RandomString::generate_with_delimiter(Alphanumeric, 0, 1, false, 3); assert_eq!(3, random_string.len()); assert_eq!( 1, random_string.as_bytes().iter().filter(|p| **p == 0).count() ); assert!(!random_string.as_bytes().ends_with(&[0])); let random_string = RandomString::generate_with_delimiter(Alphanumeric, 0, 2, false, 3); assert_eq!(3, random_string.len()); assert_eq!( 2, random_string.as_bytes().iter().filter(|p| **p == 0).count() ); assert!(!random_string.as_bytes().ends_with(&[0])); } #[test] fn test_generate_with_delimiter_with_greater_length() { let random_string = RandomString::generate_with_delimiter(Alphanumeric, 0, 100, false, 1000); assert_eq!(1000, random_string.len()); assert_eq!( 100, random_string.as_bytes().iter().filter(|p| **p == 0).count() ); assert!(!random_string.as_bytes().ends_with(&[0])); let random_string = RandomString::generate_with_delimiter(Alphanumeric, 0, 100, true, 1000); assert_eq!(1000, random_string.len()); assert_eq!( 100, random_string.as_bytes().iter().filter(|p| **p == 0).count() ); assert!(random_string.as_bytes().ends_with(&[0])); } /// Originally used to exclude an error within the `random` module. The two /// affected tests timed out on windows, but only in the ci. These tests are /// also the source for the concrete numbers. The timed out tests are /// `test_tail.rs::test_pipe_when_lines_option_given_input_size_has_multiple_size_of_buffer_size` /// `test_tail.rs::test_pipe_when_bytes_option_given_input_size_has_multiple_size_of_buffer_size`. #[test] fn test_generate_random_strings_when_length_is_around_critical_buffer_sizes() { let length = 8192 * 3; let random_string = RandomString::generate(AlphanumericNewline, length); assert_eq!(length, random_string.len()); let length = 8192 * 3 + 1; let random_string = RandomString::generate_with_delimiter(Alphanumeric, b'\n', 100, true, length); assert_eq!(length, random_string.len()); assert_eq!( 100, random_string .as_bytes() .iter() .filter(|p| **p == b'\n') .count() ); assert!(!random_string.as_bytes().ends_with(&[0])); } }