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| <span id="523">523</span> |
| <span id="524">524</span> |
| <span id="525">525</span> |
| <span id="526">526</span> |
| <span id="527">527</span> |
| <span id="528">528</span> |
| <span id="529">529</span> |
| <span id="530">530</span> |
| <span id="531">531</span> |
| </pre><pre class="rust"><code><span class="comment">// Copyright 2018 Developers of the Rand project. |
| // Copyright 2017-2018 The Rust Project Developers. |
| // |
| // Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or |
| // https://www.apache.org/licenses/LICENSE-2.0> or the MIT license |
| // <LICENSE-MIT or https://opensource.org/licenses/MIT>, at your |
| // option. This file may not be copied, modified, or distributed |
| // except according to those terms. |
| |
| </span><span class="doccomment">//! Random number generation traits |
| //! |
| //! This crate is mainly of interest to crates publishing implementations of |
| //! [`RngCore`]. Other users are encouraged to use the [`rand`] crate instead |
| //! which re-exports the main traits and error types. |
| //! |
| //! [`RngCore`] is the core trait implemented by algorithmic pseudo-random number |
| //! generators and external random-number sources. |
| //! |
| //! [`SeedableRng`] is an extension trait for construction from fixed seeds and |
| //! other random number generators. |
| //! |
| //! [`Error`] is provided for error-handling. It is safe to use in `no_std` |
| //! environments. |
| //! |
| //! The [`impls`] and [`le`] sub-modules include a few small functions to assist |
| //! implementation of [`RngCore`]. |
| //! |
| //! [`rand`]: https://docs.rs/rand |
| |
| </span><span class="attribute">#![doc( |
| html_logo_url = <span class="string">"https://www.rust-lang.org/logos/rust-logo-128x128-blk.png"</span>, |
| html_favicon_url = <span class="string">"https://www.rust-lang.org/favicon.ico"</span>, |
| html_root_url = <span class="string">"https://rust-random.github.io/rand/" |
| </span>)] |
| #![deny(missing_docs)] |
| #![deny(missing_debug_implementations)] |
| #![doc(test(attr(allow(unused_variables), deny(warnings))))] |
| #![cfg_attr(doc_cfg, feature(doc_cfg))] |
| #![no_std] |
| |
| </span><span class="kw">use </span>core::convert::AsMut; |
| <span class="kw">use </span>core::default::Default; |
| |
| <span class="attribute">#[cfg(feature = <span class="string">"std"</span>)] </span><span class="kw">extern crate </span>std; |
| <span class="attribute">#[cfg(feature = <span class="string">"alloc"</span>)] </span><span class="kw">extern crate </span>alloc; |
| <span class="attribute">#[cfg(feature = <span class="string">"alloc"</span>)] </span><span class="kw">use </span>alloc::boxed::Box; |
| |
| <span class="kw">pub use </span>error::Error; |
| <span class="attribute">#[cfg(feature = <span class="string">"getrandom"</span>)] </span><span class="kw">pub use </span>os::OsRng; |
| |
| |
| <span class="kw">pub mod </span>block; |
| <span class="kw">mod </span>error; |
| <span class="kw">pub mod </span>impls; |
| <span class="kw">pub mod </span>le; |
| <span class="attribute">#[cfg(feature = <span class="string">"getrandom"</span>)] </span><span class="kw">mod </span>os; |
| |
| |
| <span class="doccomment">/// The core of a random number generator. |
| /// |
| /// This trait encapsulates the low-level functionality common to all |
| /// generators, and is the "back end", to be implemented by generators. |
| /// End users should normally use the `Rng` trait from the [`rand`] crate, |
| /// which is automatically implemented for every type implementing `RngCore`. |
| /// |
| /// Three different methods for generating random data are provided since the |
| /// optimal implementation of each is dependent on the type of generator. There |
| /// is no required relationship between the output of each; e.g. many |
| /// implementations of [`fill_bytes`] consume a whole number of `u32` or `u64` |
| /// values and drop any remaining unused bytes. The same can happen with the |
| /// [`next_u32`] and [`next_u64`] methods, implementations may discard some |
| /// random bits for efficiency. |
| /// |
| /// The [`try_fill_bytes`] method is a variant of [`fill_bytes`] allowing error |
| /// handling; it is not deemed sufficiently useful to add equivalents for |
| /// [`next_u32`] or [`next_u64`] since the latter methods are almost always used |
| /// with algorithmic generators (PRNGs), which are normally infallible. |
| /// |
| /// Implementers should produce bits uniformly. Pathological RNGs (e.g. always |
| /// returning the same value, or never setting certain bits) can break rejection |
| /// sampling used by random distributions, and also break other RNGs when |
| /// seeding them via [`SeedableRng::from_rng`]. |
| /// |
| /// Algorithmic generators implementing [`SeedableRng`] should normally have |
| /// *portable, reproducible* output, i.e. fix Endianness when converting values |
| /// to avoid platform differences, and avoid making any changes which affect |
| /// output (except by communicating that the release has breaking changes). |
| /// |
| /// Typically an RNG will implement only one of the methods available |
| /// in this trait directly, then use the helper functions from the |
| /// [`impls`] module to implement the other methods. |
| /// |
| /// It is recommended that implementations also implement: |
| /// |
| /// - `Debug` with a custom implementation which *does not* print any internal |
| /// state (at least, [`CryptoRng`]s should not risk leaking state through |
| /// `Debug`). |
| /// - `Serialize` and `Deserialize` (from Serde), preferably making Serde |
| /// support optional at the crate level in PRNG libs. |
| /// - `Clone`, if possible. |
| /// - *never* implement `Copy` (accidental copies may cause repeated values). |
| /// - *do not* implement `Default` for pseudorandom generators, but instead |
| /// implement [`SeedableRng`], to guide users towards proper seeding. |
| /// External / hardware RNGs can choose to implement `Default`. |
| /// - `Eq` and `PartialEq` could be implemented, but are probably not useful. |
| /// |
| /// # Example |
| /// |
| /// A simple example, obviously not generating very *random* output: |
| /// |
| /// ``` |
| /// #![allow(dead_code)] |
| /// use rand_core::{RngCore, Error, impls}; |
| /// |
| /// struct CountingRng(u64); |
| /// |
| /// impl RngCore for CountingRng { |
| /// fn next_u32(&mut self) -> u32 { |
| /// self.next_u64() as u32 |
| /// } |
| /// |
| /// fn next_u64(&mut self) -> u64 { |
| /// self.0 += 1; |
| /// self.0 |
| /// } |
| /// |
| /// fn fill_bytes(&mut self, dest: &mut [u8]) { |
| /// impls::fill_bytes_via_next(self, dest) |
| /// } |
| /// |
| /// fn try_fill_bytes(&mut self, dest: &mut [u8]) -> Result<(), Error> { |
| /// Ok(self.fill_bytes(dest)) |
| /// } |
| /// } |
| /// ``` |
| /// |
| /// [`rand`]: https://docs.rs/rand |
| /// [`try_fill_bytes`]: RngCore::try_fill_bytes |
| /// [`fill_bytes`]: RngCore::fill_bytes |
| /// [`next_u32`]: RngCore::next_u32 |
| /// [`next_u64`]: RngCore::next_u64 |
| </span><span class="kw">pub trait </span>RngCore { |
| <span class="doccomment">/// Return the next random `u32`. |
| /// |
| /// RNGs must implement at least one method from this trait directly. In |
| /// the case this method is not implemented directly, it can be implemented |
| /// using `self.next_u64() as u32` or via [`impls::next_u32_via_fill`]. |
| </span><span class="kw">fn </span>next_u32(<span class="kw-2">&mut </span><span class="self">self</span>) -> u32; |
| |
| <span class="doccomment">/// Return the next random `u64`. |
| /// |
| /// RNGs must implement at least one method from this trait directly. In |
| /// the case this method is not implemented directly, it can be implemented |
| /// via [`impls::next_u64_via_u32`] or via [`impls::next_u64_via_fill`]. |
| </span><span class="kw">fn </span>next_u64(<span class="kw-2">&mut </span><span class="self">self</span>) -> u64; |
| |
| <span class="doccomment">/// Fill `dest` with random data. |
| /// |
| /// RNGs must implement at least one method from this trait directly. In |
| /// the case this method is not implemented directly, it can be implemented |
| /// via [`impls::fill_bytes_via_next`] or |
| /// via [`RngCore::try_fill_bytes`]; if this generator can |
| /// fail the implementation must choose how best to handle errors here |
| /// (e.g. panic with a descriptive message or log a warning and retry a few |
| /// times). |
| /// |
| /// This method should guarantee that `dest` is entirely filled |
| /// with new data, and may panic if this is impossible |
| /// (e.g. reading past the end of a file that is being used as the |
| /// source of randomness). |
| </span><span class="kw">fn </span>fill_bytes(<span class="kw-2">&mut </span><span class="self">self</span>, dest: <span class="kw-2">&mut </span>[u8]); |
| |
| <span class="doccomment">/// Fill `dest` entirely with random data. |
| /// |
| /// This is the only method which allows an RNG to report errors while |
| /// generating random data thus making this the primary method implemented |
| /// by external (true) RNGs (e.g. `OsRng`) which can fail. It may be used |
| /// directly to generate keys and to seed (infallible) PRNGs. |
| /// |
| /// Other than error handling, this method is identical to [`RngCore::fill_bytes`]; |
| /// thus this may be implemented using `Ok(self.fill_bytes(dest))` or |
| /// `fill_bytes` may be implemented with |
| /// `self.try_fill_bytes(dest).unwrap()` or more specific error handling. |
| </span><span class="kw">fn </span>try_fill_bytes(<span class="kw-2">&mut </span><span class="self">self</span>, dest: <span class="kw-2">&mut </span>[u8]) -> <span class="prelude-ty">Result</span><(), Error>; |
| } |
| |
| <span class="doccomment">/// A marker trait used to indicate that an [`RngCore`] or [`BlockRngCore`] |
| /// implementation is supposed to be cryptographically secure. |
| /// |
| /// *Cryptographically secure generators*, also known as *CSPRNGs*, should |
| /// satisfy an additional properties over other generators: given the first |
| /// *k* bits of an algorithm's output |
| /// sequence, it should not be possible using polynomial-time algorithms to |
| /// predict the next bit with probability significantly greater than 50%. |
| /// |
| /// Some generators may satisfy an additional property, however this is not |
| /// required by this trait: if the CSPRNG's state is revealed, it should not be |
| /// computationally-feasible to reconstruct output prior to this. Some other |
| /// generators allow backwards-computation and are considered *reversible*. |
| /// |
| /// Note that this trait is provided for guidance only and cannot guarantee |
| /// suitability for cryptographic applications. In general it should only be |
| /// implemented for well-reviewed code implementing well-regarded algorithms. |
| /// |
| /// Note also that use of a `CryptoRng` does not protect against other |
| /// weaknesses such as seeding from a weak entropy source or leaking state. |
| /// |
| /// [`BlockRngCore`]: block::BlockRngCore |
| </span><span class="kw">pub trait </span>CryptoRng {} |
| |
| <span class="doccomment">/// An extension trait that is automatically implemented for any type |
| /// implementing [`RngCore`] and [`CryptoRng`]. |
| /// |
| /// It may be used as a trait object, and supports upcasting to [`RngCore`] via |
| /// the [`CryptoRngCore::as_rngcore`] method. |
| /// |
| /// # Example |
| /// |
| /// ``` |
| /// use rand_core::CryptoRngCore; |
| /// |
| /// #[allow(unused)] |
| /// fn make_token(rng: &mut dyn CryptoRngCore) -> [u8; 32] { |
| /// let mut buf = [0u8; 32]; |
| /// rng.fill_bytes(&mut buf); |
| /// buf |
| /// } |
| /// ``` |
| </span><span class="kw">pub trait </span>CryptoRngCore: CryptoRng + RngCore { |
| <span class="doccomment">/// Upcast to an [`RngCore`] trait object. |
| </span><span class="kw">fn </span>as_rngcore(<span class="kw-2">&mut </span><span class="self">self</span>) -> <span class="kw-2">&mut </span><span class="kw">dyn </span>RngCore; |
| } |
| |
| <span class="kw">impl</span><T: CryptoRng + RngCore> CryptoRngCore <span class="kw">for </span>T { |
| <span class="kw">fn </span>as_rngcore(<span class="kw-2">&mut </span><span class="self">self</span>) -> <span class="kw-2">&mut </span><span class="kw">dyn </span>RngCore { |
| <span class="self">self |
| </span>} |
| } |
| |
| <span class="doccomment">/// A random number generator that can be explicitly seeded. |
| /// |
| /// This trait encapsulates the low-level functionality common to all |
| /// pseudo-random number generators (PRNGs, or algorithmic generators). |
| /// |
| /// [`rand`]: https://docs.rs/rand |
| </span><span class="kw">pub trait </span>SeedableRng: Sized { |
| <span class="doccomment">/// Seed type, which is restricted to types mutably-dereferenceable as `u8` |
| /// arrays (we recommend `[u8; N]` for some `N`). |
| /// |
| /// It is recommended to seed PRNGs with a seed of at least circa 100 bits, |
| /// which means an array of `[u8; 12]` or greater to avoid picking RNGs with |
| /// partially overlapping periods. |
| /// |
| /// For cryptographic RNG's a seed of 256 bits is recommended, `[u8; 32]`. |
| /// |
| /// |
| /// # Implementing `SeedableRng` for RNGs with large seeds |
| /// |
| /// Note that the required traits `core::default::Default` and |
| /// `core::convert::AsMut<u8>` are not implemented for large arrays |
| /// `[u8; N]` with `N` > 32. To be able to implement the traits required by |
| /// `SeedableRng` for RNGs with such large seeds, the newtype pattern can be |
| /// used: |
| /// |
| /// ``` |
| /// use rand_core::SeedableRng; |
| /// |
| /// const N: usize = 64; |
| /// pub struct MyRngSeed(pub [u8; N]); |
| /// pub struct MyRng(MyRngSeed); |
| /// |
| /// impl Default for MyRngSeed { |
| /// fn default() -> MyRngSeed { |
| /// MyRngSeed([0; N]) |
| /// } |
| /// } |
| /// |
| /// impl AsMut<[u8]> for MyRngSeed { |
| /// fn as_mut(&mut self) -> &mut [u8] { |
| /// &mut self.0 |
| /// } |
| /// } |
| /// |
| /// impl SeedableRng for MyRng { |
| /// type Seed = MyRngSeed; |
| /// |
| /// fn from_seed(seed: MyRngSeed) -> MyRng { |
| /// MyRng(seed) |
| /// } |
| /// } |
| /// ``` |
| </span><span class="kw">type </span>Seed: Sized + Default + AsMut<[u8]>; |
| |
| <span class="doccomment">/// Create a new PRNG using the given seed. |
| /// |
| /// PRNG implementations are allowed to assume that bits in the seed are |
| /// well distributed. That means usually that the number of one and zero |
| /// bits are roughly equal, and values like 0, 1 and (size - 1) are unlikely. |
| /// Note that many non-cryptographic PRNGs will show poor quality output |
| /// if this is not adhered to. If you wish to seed from simple numbers, use |
| /// `seed_from_u64` instead. |
| /// |
| /// All PRNG implementations should be reproducible unless otherwise noted: |
| /// given a fixed `seed`, the same sequence of output should be produced |
| /// on all runs, library versions and architectures (e.g. check endianness). |
| /// Any "value-breaking" changes to the generator should require bumping at |
| /// least the minor version and documentation of the change. |
| /// |
| /// It is not required that this function yield the same state as a |
| /// reference implementation of the PRNG given equivalent seed; if necessary |
| /// another constructor replicating behaviour from a reference |
| /// implementation can be added. |
| /// |
| /// PRNG implementations should make sure `from_seed` never panics. In the |
| /// case that some special values (like an all zero seed) are not viable |
| /// seeds it is preferable to map these to alternative constant value(s), |
| /// for example `0xBAD5EEDu32` or `0x0DDB1A5E5BAD5EEDu64` ("odd biases? bad |
| /// seed"). This is assuming only a small number of values must be rejected. |
| </span><span class="kw">fn </span>from_seed(seed: <span class="self">Self</span>::Seed) -> <span class="self">Self</span>; |
| |
| <span class="doccomment">/// Create a new PRNG using a `u64` seed. |
| /// |
| /// This is a convenience-wrapper around `from_seed` to allow construction |
| /// of any `SeedableRng` from a simple `u64` value. It is designed such that |
| /// low Hamming Weight numbers like 0 and 1 can be used and should still |
| /// result in good, independent seeds to the PRNG which is returned. |
| /// |
| /// This **is not suitable for cryptography**, as should be clear given that |
| /// the input size is only 64 bits. |
| /// |
| /// Implementations for PRNGs *may* provide their own implementations of |
| /// this function, but the default implementation should be good enough for |
| /// all purposes. *Changing* the implementation of this function should be |
| /// considered a value-breaking change. |
| </span><span class="kw">fn </span>seed_from_u64(<span class="kw-2">mut </span>state: u64) -> <span class="self">Self </span>{ |
| <span class="comment">// We use PCG32 to generate a u32 sequence, and copy to the seed |
| </span><span class="kw">fn </span>pcg32(state: <span class="kw-2">&mut </span>u64) -> [u8; <span class="number">4</span>] { |
| <span class="kw">const </span>MUL: u64 = <span class="number">6364136223846793005</span>; |
| <span class="kw">const </span>INC: u64 = <span class="number">11634580027462260723</span>; |
| |
| <span class="comment">// We advance the state first (to get away from the input value, |
| // in case it has low Hamming Weight). |
| </span><span class="kw-2">*</span>state = state.wrapping_mul(MUL).wrapping_add(INC); |
| <span class="kw">let </span>state = <span class="kw-2">*</span>state; |
| |
| <span class="comment">// Use PCG output function with to_le to generate x: |
| </span><span class="kw">let </span>xorshifted = (((state >> <span class="number">18</span>) ^ state) >> <span class="number">27</span>) <span class="kw">as </span>u32; |
| <span class="kw">let </span>rot = (state >> <span class="number">59</span>) <span class="kw">as </span>u32; |
| <span class="kw">let </span>x = xorshifted.rotate_right(rot); |
| x.to_le_bytes() |
| } |
| |
| <span class="kw">let </span><span class="kw-2">mut </span>seed = <span class="self">Self</span>::Seed::default(); |
| <span class="kw">let </span><span class="kw-2">mut </span>iter = seed.as_mut().chunks_exact_mut(<span class="number">4</span>); |
| <span class="kw">for </span>chunk <span class="kw">in </span><span class="kw-2">&mut </span>iter { |
| chunk.copy_from_slice(<span class="kw-2">&</span>pcg32(<span class="kw-2">&mut </span>state)); |
| } |
| <span class="kw">let </span>rem = iter.into_remainder(); |
| <span class="kw">if </span>!rem.is_empty() { |
| rem.copy_from_slice(<span class="kw-2">&</span>pcg32(<span class="kw-2">&mut </span>state)[..rem.len()]); |
| } |
| |
| <span class="self">Self</span>::from_seed(seed) |
| } |
| |
| <span class="doccomment">/// Create a new PRNG seeded from another `Rng`. |
| /// |
| /// This may be useful when needing to rapidly seed many PRNGs from a master |
| /// PRNG, and to allow forking of PRNGs. It may be considered deterministic. |
| /// |
| /// The master PRNG should be at least as high quality as the child PRNGs. |
| /// When seeding non-cryptographic child PRNGs, we recommend using a |
| /// different algorithm for the master PRNG (ideally a CSPRNG) to avoid |
| /// correlations between the child PRNGs. If this is not possible (e.g. |
| /// forking using small non-crypto PRNGs) ensure that your PRNG has a good |
| /// mixing function on the output or consider use of a hash function with |
| /// `from_seed`. |
| /// |
| /// Note that seeding `XorShiftRng` from another `XorShiftRng` provides an |
| /// extreme example of what can go wrong: the new PRNG will be a clone |
| /// of the parent. |
| /// |
| /// PRNG implementations are allowed to assume that a good RNG is provided |
| /// for seeding, and that it is cryptographically secure when appropriate. |
| /// As of `rand` 0.7 / `rand_core` 0.5, implementations overriding this |
| /// method should ensure the implementation satisfies reproducibility |
| /// (in prior versions this was not required). |
| /// |
| /// [`rand`]: https://docs.rs/rand |
| </span><span class="kw">fn </span>from_rng<R: RngCore>(<span class="kw-2">mut </span>rng: R) -> <span class="prelude-ty">Result</span><<span class="self">Self</span>, Error> { |
| <span class="kw">let </span><span class="kw-2">mut </span>seed = <span class="self">Self</span>::Seed::default(); |
| rng.try_fill_bytes(seed.as_mut())<span class="question-mark">?</span>; |
| <span class="prelude-val">Ok</span>(<span class="self">Self</span>::from_seed(seed)) |
| } |
| |
| <span class="doccomment">/// Creates a new instance of the RNG seeded via [`getrandom`]. |
| /// |
| /// This method is the recommended way to construct non-deterministic PRNGs |
| /// since it is convenient and secure. |
| /// |
| /// In case the overhead of using [`getrandom`] to seed *many* PRNGs is an |
| /// issue, one may prefer to seed from a local PRNG, e.g. |
| /// `from_rng(thread_rng()).unwrap()`. |
| /// |
| /// # Panics |
| /// |
| /// If [`getrandom`] is unable to provide secure entropy this method will panic. |
| /// |
| /// [`getrandom`]: https://docs.rs/getrandom |
| </span><span class="attribute">#[cfg(feature = <span class="string">"getrandom"</span>)] |
| #[cfg_attr(doc_cfg, doc(cfg(feature = <span class="string">"getrandom"</span>)))] |
| </span><span class="kw">fn </span>from_entropy() -> <span class="self">Self </span>{ |
| <span class="kw">let </span><span class="kw-2">mut </span>seed = <span class="self">Self</span>::Seed::default(); |
| <span class="kw">if let </span><span class="prelude-val">Err</span>(err) = getrandom::getrandom(seed.as_mut()) { |
| <span class="macro">panic!</span>(<span class="string">"from_entropy failed: {}"</span>, err); |
| } |
| <span class="self">Self</span>::from_seed(seed) |
| } |
| } |
| |
| <span class="comment">// Implement `RngCore` for references to an `RngCore`. |
| // Force inlining all functions, so that it is up to the `RngCore` |
| // implementation and the optimizer to decide on inlining. |
| </span><span class="kw">impl</span><<span class="lifetime">'a</span>, R: RngCore + <span class="question-mark">?</span>Sized> RngCore <span class="kw">for </span><span class="kw-2">&</span><span class="lifetime">'a </span><span class="kw-2">mut </span>R { |
| <span class="attribute">#[inline(always)] |
| </span><span class="kw">fn </span>next_u32(<span class="kw-2">&mut </span><span class="self">self</span>) -> u32 { |
| (<span class="kw-2">**</span><span class="self">self</span>).next_u32() |
| } |
| |
| <span class="attribute">#[inline(always)] |
| </span><span class="kw">fn </span>next_u64(<span class="kw-2">&mut </span><span class="self">self</span>) -> u64 { |
| (<span class="kw-2">**</span><span class="self">self</span>).next_u64() |
| } |
| |
| <span class="attribute">#[inline(always)] |
| </span><span class="kw">fn </span>fill_bytes(<span class="kw-2">&mut </span><span class="self">self</span>, dest: <span class="kw-2">&mut </span>[u8]) { |
| (<span class="kw-2">**</span><span class="self">self</span>).fill_bytes(dest) |
| } |
| |
| <span class="attribute">#[inline(always)] |
| </span><span class="kw">fn </span>try_fill_bytes(<span class="kw-2">&mut </span><span class="self">self</span>, dest: <span class="kw-2">&mut </span>[u8]) -> <span class="prelude-ty">Result</span><(), Error> { |
| (<span class="kw-2">**</span><span class="self">self</span>).try_fill_bytes(dest) |
| } |
| } |
| |
| <span class="comment">// Implement `RngCore` for boxed references to an `RngCore`. |
| // Force inlining all functions, so that it is up to the `RngCore` |
| // implementation and the optimizer to decide on inlining. |
| </span><span class="attribute">#[cfg(feature = <span class="string">"alloc"</span>)] |
| </span><span class="kw">impl</span><R: RngCore + <span class="question-mark">?</span>Sized> RngCore <span class="kw">for </span>Box<R> { |
| <span class="attribute">#[inline(always)] |
| </span><span class="kw">fn </span>next_u32(<span class="kw-2">&mut </span><span class="self">self</span>) -> u32 { |
| (<span class="kw-2">**</span><span class="self">self</span>).next_u32() |
| } |
| |
| <span class="attribute">#[inline(always)] |
| </span><span class="kw">fn </span>next_u64(<span class="kw-2">&mut </span><span class="self">self</span>) -> u64 { |
| (<span class="kw-2">**</span><span class="self">self</span>).next_u64() |
| } |
| |
| <span class="attribute">#[inline(always)] |
| </span><span class="kw">fn </span>fill_bytes(<span class="kw-2">&mut </span><span class="self">self</span>, dest: <span class="kw-2">&mut </span>[u8]) { |
| (<span class="kw-2">**</span><span class="self">self</span>).fill_bytes(dest) |
| } |
| |
| <span class="attribute">#[inline(always)] |
| </span><span class="kw">fn </span>try_fill_bytes(<span class="kw-2">&mut </span><span class="self">self</span>, dest: <span class="kw-2">&mut </span>[u8]) -> <span class="prelude-ty">Result</span><(), Error> { |
| (<span class="kw-2">**</span><span class="self">self</span>).try_fill_bytes(dest) |
| } |
| } |
| |
| <span class="attribute">#[cfg(feature = <span class="string">"std"</span>)] |
| </span><span class="kw">impl </span>std::io::Read <span class="kw">for dyn </span>RngCore { |
| <span class="kw">fn </span>read(<span class="kw-2">&mut </span><span class="self">self</span>, buf: <span class="kw-2">&mut </span>[u8]) -> <span class="prelude-ty">Result</span><usize, std::io::Error> { |
| <span class="self">self</span>.try_fill_bytes(buf)<span class="question-mark">?</span>; |
| <span class="prelude-val">Ok</span>(buf.len()) |
| } |
| } |
| |
| <span class="comment">// Implement `CryptoRng` for references to a `CryptoRng`. |
| </span><span class="kw">impl</span><<span class="lifetime">'a</span>, R: CryptoRng + <span class="question-mark">?</span>Sized> CryptoRng <span class="kw">for </span><span class="kw-2">&</span><span class="lifetime">'a </span><span class="kw-2">mut </span>R {} |
| |
| <span class="comment">// Implement `CryptoRng` for boxed references to a `CryptoRng`. |
| </span><span class="attribute">#[cfg(feature = <span class="string">"alloc"</span>)] |
| </span><span class="kw">impl</span><R: CryptoRng + <span class="question-mark">?</span>Sized> CryptoRng <span class="kw">for </span>Box<R> {} |
| |
| <span class="attribute">#[cfg(test)] |
| </span><span class="kw">mod </span>test { |
| <span class="kw">use super</span>::<span class="kw-2">*</span>; |
| |
| <span class="attribute">#[test] |
| </span><span class="kw">fn </span>test_seed_from_u64() { |
| <span class="kw">struct </span>SeedableNum(u64); |
| <span class="kw">impl </span>SeedableRng <span class="kw">for </span>SeedableNum { |
| <span class="kw">type </span>Seed = [u8; <span class="number">8</span>]; |
| |
| <span class="kw">fn </span>from_seed(seed: <span class="self">Self</span>::Seed) -> <span class="self">Self </span>{ |
| <span class="kw">let </span><span class="kw-2">mut </span>x = [<span class="number">0u64</span>; <span class="number">1</span>]; |
| le::read_u64_into(<span class="kw-2">&</span>seed, <span class="kw-2">&mut </span>x); |
| SeedableNum(x[<span class="number">0</span>]) |
| } |
| } |
| |
| <span class="kw">const </span>N: usize = <span class="number">8</span>; |
| <span class="kw">const </span>SEEDS: [u64; N] = [<span class="number">0u64</span>, <span class="number">1</span>, <span class="number">2</span>, <span class="number">3</span>, <span class="number">4</span>, <span class="number">8</span>, <span class="number">16</span>, -<span class="number">1i64 </span><span class="kw">as </span>u64]; |
| <span class="kw">let </span><span class="kw-2">mut </span>results = [<span class="number">0u64</span>; N]; |
| <span class="kw">for </span>(i, seed) <span class="kw">in </span>SEEDS.iter().enumerate() { |
| <span class="kw">let </span>SeedableNum(x) = SeedableNum::seed_from_u64(<span class="kw-2">*</span>seed); |
| results[i] = x; |
| } |
| |
| <span class="kw">for </span>(i1, r1) <span class="kw">in </span>results.iter().enumerate() { |
| <span class="kw">let </span>weight = r1.count_ones(); |
| <span class="comment">// This is the binomial distribution B(64, 0.5), so chance of |
| // weight < 20 is binocdf(19, 64, 0.5) = 7.8e-4, and same for |
| // weight > 44. |
| </span><span class="macro">assert!</span>((<span class="number">20</span>..=<span class="number">44</span>).contains(<span class="kw-2">&</span>weight)); |
| |
| <span class="kw">for </span>(i2, r2) <span class="kw">in </span>results.iter().enumerate() { |
| <span class="kw">if </span>i1 == i2 { |
| <span class="kw">continue</span>; |
| } |
| <span class="kw">let </span>diff_weight = (r1 ^ r2).count_ones(); |
| <span class="macro">assert!</span>(diff_weight >= <span class="number">20</span>); |
| } |
| } |
| |
| <span class="comment">// value-breakage test: |
| </span><span class="macro">assert_eq!</span>(results[<span class="number">0</span>], <span class="number">5029875928683246316</span>); |
| } |
| } |
| </code></pre></div> |
| </section></div></main><div id="rustdoc-vars" data-root-path="../../" data-current-crate="rand_core" data-themes="ayu,dark,light" data-resource-suffix="" data-rustdoc-version="1.66.0-nightly (5c8bff74b 2022-10-21)" ></div></body></html> |