rand_os/src/wasm32_bindgen.rs - third_party/rust-mirrors/rand - Git at Google

 use rand_core::{Error, ErrorKind};
 use super::OsRngImpl;

 use wasm_bindgen::prelude::*;

 #[wasm_bindgen]
 extern "C" {
     pub type Function;
     #[wasm_bindgen(constructor)]
     pub fn new(s: &str) -> Function;
     #[wasm_bindgen(method)]
     pub fn call(this: &Function, self_: &JsValue) -> JsValue;

     pub type This;
     #[wasm_bindgen(method, getter, structural, js_name = self)]
     pub fn self_(me: &This) -> JsValue;
     #[wasm_bindgen(method, getter, structural)]
     pub fn crypto(me: &This) -> JsValue;

     #[derive(Clone, Debug)]
     pub type BrowserCrypto;

     // TODO: these `structural` annotations here ideally wouldn't be here to
     // avoid a JS shim, but for now with feature detection they're
     // unavoidable.
     #[wasm_bindgen(method, js_name = getRandomValues, structural, getter)]
     pub fn get_random_values_fn(me: &BrowserCrypto) -> JsValue;
     #[wasm_bindgen(method, js_name = getRandomValues, structural)]
     pub fn get_random_values(me: &BrowserCrypto, buf: &mut [u8]);

     #[wasm_bindgen(js_name = require)]
     pub fn node_require(s: &str) -> NodeCrypto;

     #[derive(Clone, Debug)]
     pub type NodeCrypto;

     #[wasm_bindgen(method, js_name = randomFillSync, structural)]
     pub fn random_fill_sync(me: &NodeCrypto, buf: &mut [u8]);
 }

 #[derive(Clone, Debug)]
 pub enum OsRng {
     Node(NodeCrypto),
     Browser(BrowserCrypto),
 }

 impl OsRngImpl for OsRng {
     fn new() -> Result<OsRng, Error> {
         // First up we need to detect if we're running in node.js or a
         // browser. To do this we get ahold of the `this` object (in a bit
         // of a roundabout fashion).
         //
         // Once we have `this` we look at its `self` property, which is
         // only defined on the web (either a main window or web worker).
         let this = Function::new("return this").call(&JsValue::undefined());
         assert!(this != JsValue::undefined());
         let this = This::from(this);
         let is_browser = this.self_() != JsValue::undefined();

         if !is_browser {
             return Ok(OsRng::Node(node_require("crypto")))
         }

         // If `self` is defined then we're in a browser somehow (main window
         // or web worker). Here we want to try to use
         // `crypto.getRandomValues`, but if `crypto` isn't defined we assume
         // we're in an older web browser and the OS RNG isn't available.
         let crypto = this.crypto();
         if crypto.is_undefined() {
             let msg = "self.crypto is undefined";
             return Err(Error::new(ErrorKind::Unavailable, msg))
         }

         // Test if `crypto.getRandomValues` is undefined as well
         let crypto: BrowserCrypto = crypto.into();
         if crypto.get_random_values_fn().is_undefined() {
             let msg = "crypto.getRandomValues is undefined";
             return Err(Error::new(ErrorKind::Unavailable, msg))
         }

         // Ok! `self.crypto.getRandomValues` is a defined value, so let's
         // assume we can do browser crypto.
         Ok(OsRng::Browser(crypto))
     }

     fn fill_chunk(&mut self, dest: &mut [u8]) -> Result<(), Error> {
         match *self {
             OsRng::Node(ref n) => n.random_fill_sync(dest),
             OsRng::Browser(ref n) => n.get_random_values(dest),
         }
         Ok(())
     }

     fn max_chunk_size(&self) -> usize {
         match *self {
             OsRng::Node(_) => usize::max_value(),
             OsRng::Browser(_) => {
                 // see https://developer.mozilla.org/en-US/docs/Web/API/Crypto/getRandomValues
                 //
                 // where it says:
                 //
                 // > A QuotaExceededError DOMException is thrown if the
                 // > requested length is greater than 65536 bytes.
                 65536
             }
         }
     }

     fn method_str(&self) -> &'static str {
         match *self {
             OsRng::Node(_) => "crypto.randomFillSync",
             OsRng::Browser(_) => "crypto.getRandomValues",
         }
     }
 }
	use rand_core::{Error, ErrorKind};
	use super::OsRngImpl;

	use wasm_bindgen::prelude::*;

	#[wasm_bindgen]
	extern "C" {
	pub type Function;
	#[wasm_bindgen(constructor)]
	pub fn new(s: &str) -> Function;
	#[wasm_bindgen(method)]
	pub fn call(this: &Function, self_: &JsValue) -> JsValue;

	pub type This;
	#[wasm_bindgen(method, getter, structural, js_name = self)]
	pub fn self_(me: &This) -> JsValue;
	#[wasm_bindgen(method, getter, structural)]
	pub fn crypto(me: &This) -> JsValue;

	#[derive(Clone, Debug)]
	pub type BrowserCrypto;

	// TODO: these `structural` annotations here ideally wouldn't be here to
	// avoid a JS shim, but for now with feature detection they're
	// unavoidable.
	#[wasm_bindgen(method, js_name = getRandomValues, structural, getter)]
	pub fn get_random_values_fn(me: &BrowserCrypto) -> JsValue;
	#[wasm_bindgen(method, js_name = getRandomValues, structural)]
	pub fn get_random_values(me: &BrowserCrypto, buf: &mut [u8]);

	#[wasm_bindgen(js_name = require)]
	pub fn node_require(s: &str) -> NodeCrypto;

	#[derive(Clone, Debug)]
	pub type NodeCrypto;

	#[wasm_bindgen(method, js_name = randomFillSync, structural)]
	pub fn random_fill_sync(me: &NodeCrypto, buf: &mut [u8]);
	}

	#[derive(Clone, Debug)]
	pub enum OsRng {
	Node(NodeCrypto),
	Browser(BrowserCrypto),
	}

	impl OsRngImpl for OsRng {
	fn new() -> Result<OsRng, Error> {
	// First up we need to detect if we're running in node.js or a
	// browser. To do this we get ahold of the `this` object (in a bit
	// of a roundabout fashion).
	//
	// Once we have `this` we look at its `self` property, which is
	// only defined on the web (either a main window or web worker).
	let this = Function::new("return this").call(&JsValue::undefined());
	assert!(this != JsValue::undefined());
	let this = This::from(this);
	let is_browser = this.self_() != JsValue::undefined();

	if !is_browser {
	return Ok(OsRng::Node(node_require("crypto")))
	}

	// If `self` is defined then we're in a browser somehow (main window
	// or web worker). Here we want to try to use
	// `crypto.getRandomValues`, but if `crypto` isn't defined we assume
	// we're in an older web browser and the OS RNG isn't available.
	let crypto = this.crypto();
	if crypto.is_undefined() {
	let msg = "self.crypto is undefined";
	return Err(Error::new(ErrorKind::Unavailable, msg))
	}

	// Test if `crypto.getRandomValues` is undefined as well
	let crypto: BrowserCrypto = crypto.into();
	if crypto.get_random_values_fn().is_undefined() {
	let msg = "crypto.getRandomValues is undefined";
	return Err(Error::new(ErrorKind::Unavailable, msg))
	}

	// Ok! `self.crypto.getRandomValues` is a defined value, so let's
	// assume we can do browser crypto.
	Ok(OsRng::Browser(crypto))
	}

	fn fill_chunk(&mut self, dest: &mut [u8]) -> Result<(), Error> {
	match *self {
	OsRng::Node(ref n) => n.random_fill_sync(dest),
	OsRng::Browser(ref n) => n.get_random_values(dest),
	}
	Ok(())
	}

	fn max_chunk_size(&self) -> usize {
	match *self {
	OsRng::Node(_) => usize::max_value(),
	OsRng::Browser(_) => {
	// see https://developer.mozilla.org/en-US/docs/Web/API/Crypto/getRandomValues
	//
	// where it says:
	//
	// > A QuotaExceededError DOMException is thrown if the
	// > requested length is greater than 65536 bytes.
	65536
	}
	}
	}

	fn method_str(&self) -> &'static str {
	match *self {
	OsRng::Node(_) => "crypto.randomFillSync",
	OsRng::Browser(_) => "crypto.getRandomValues",
	}
	}
	}