third_party/rust_crates/vendor/rustls/src/prf.rs - fuchsia - Git at Google

 use ring::digest;
 use ring::hmac;

 use std::io::Write;

 fn convert_digest_to_hmac_alg(hash: &'static digest::Algorithm) -> hmac::Algorithm {
     if hash == &digest::SHA256 {
         hmac::HMAC_SHA256
     } else if hash == &digest::SHA384 {
         hmac::HMAC_SHA384
     } else if hash == &digest::SHA512 {
         hmac::HMAC_SHA512
     } else {
         panic!("bad digest for prf");
     }
 }

 fn concat_sign(key: &hmac::Key, a: &[u8], b: &[u8]) -> hmac::Tag {
     let mut ctx = hmac::Context::with_key(key);
     ctx.update(a);
     ctx.update(b);
     ctx.sign()
 }

 fn p(out: &mut [u8], hashalg: &'static digest::Algorithm, secret: &[u8], seed: &[u8]) {
     let hmac_key = hmac::Key::new(convert_digest_to_hmac_alg(hashalg), secret);

     // A(1)
     let mut current_a = hmac::sign(&hmac_key, seed);

     let mut offs = 0;

     while offs < out.len() {
         // P_hash[i] = HMAC_hash(secret, A(i) + seed)
         let p_term = concat_sign(&hmac_key, current_a.as_ref(), seed);
         offs += out[offs..].as_mut().write(p_term.as_ref()).unwrap();

         // A(i+1) = HMAC_hash(secret, A(i))
         current_a = hmac::sign(&hmac_key, current_a.as_ref());
     }
 }

 fn concat(a: &[u8], b: &[u8]) -> Vec<u8> {
     let mut ret = Vec::new();
     ret.extend_from_slice(a);
     ret.extend_from_slice(b);
     ret
 }

 pub fn prf(out: &mut [u8],
            hashalg: &'static digest::Algorithm,
            secret: &[u8],
            label: &[u8],
            seed: &[u8]) {
     let joined_seed = concat(label, seed);
     p(out, hashalg, secret, &joined_seed);
 }

 #[cfg(test)]
 mod tests {
     use ring::digest::{SHA256, SHA512};

     #[test]
     fn check_sha256() {
         let secret = b"\x9b\xbe\x43\x6b\xa9\x40\xf0\x17\xb1\x76\x52\x84\x9a\x71\xdb\x35";
         let seed = b"\xa0\xba\x9f\x93\x6c\xda\x31\x18\x27\xa6\xf7\x96\xff\xd5\x19\x8c";
         let label = b"test label";
         let expect = include_bytes!("testdata/prf-result.1.bin");
         let mut output = [0u8; 100];

         super::prf(&mut output, &SHA256, secret, label, seed);
         assert_eq!(expect.len(), output.len());
         assert_eq!(expect.to_vec(), output.to_vec());
     }

     #[test]
     fn check_sha512() {
         let secret = b"\xb0\x32\x35\x23\xc1\x85\x35\x99\x58\x4d\x88\x56\x8b\xbb\x05\xeb";
         let seed = b"\xd4\x64\x0e\x12\xe4\xbc\xdb\xfb\x43\x7f\x03\xe6\xae\x41\x8e\xe5";
         let label = b"test label";
         let expect = include_bytes!("testdata/prf-result.2.bin");
         let mut output = [0u8; 196];

         super::prf(&mut output, &SHA512, secret, label, seed);
         assert_eq!(expect.len(), output.len());
         assert_eq!(expect.to_vec(), output.to_vec());
     }
 }
	use ring::digest;
	use ring::hmac;

	use std::io::Write;

	fn convert_digest_to_hmac_alg(hash: &'static digest::Algorithm) -> hmac::Algorithm {
	if hash == &digest::SHA256 {
	hmac::HMAC_SHA256
	} else if hash == &digest::SHA384 {
	hmac::HMAC_SHA384
	} else if hash == &digest::SHA512 {
	hmac::HMAC_SHA512
	} else {
	panic!("bad digest for prf");
	}
	}

	fn concat_sign(key: &hmac::Key, a: &[u8], b: &[u8]) -> hmac::Tag {
	let mut ctx = hmac::Context::with_key(key);
	ctx.update(a);
	ctx.update(b);
	ctx.sign()
	}

	fn p(out: &mut [u8], hashalg: &'static digest::Algorithm, secret: &[u8], seed: &[u8]) {
	let hmac_key = hmac::Key::new(convert_digest_to_hmac_alg(hashalg), secret);

	// A(1)
	let mut current_a = hmac::sign(&hmac_key, seed);

	let mut offs = 0;

	while offs < out.len() {
	// P_hash[i] = HMAC_hash(secret, A(i) + seed)
	let p_term = concat_sign(&hmac_key, current_a.as_ref(), seed);
	offs += out[offs..].as_mut().write(p_term.as_ref()).unwrap();

	// A(i+1) = HMAC_hash(secret, A(i))
	current_a = hmac::sign(&hmac_key, current_a.as_ref());
	}
	}

	fn concat(a: &[u8], b: &[u8]) -> Vec<u8> {
	let mut ret = Vec::new();
	ret.extend_from_slice(a);
	ret.extend_from_slice(b);
	ret
	}

	pub fn prf(out: &mut [u8],
	hashalg: &'static digest::Algorithm,
	secret: &[u8],
	label: &[u8],
	seed: &[u8]) {
	let joined_seed = concat(label, seed);
	p(out, hashalg, secret, &joined_seed);
	}

	#[cfg(test)]
	mod tests {
	use ring::digest::{SHA256, SHA512};

	#[test]
	fn check_sha256() {
	let secret = b"\x9b\xbe\x43\x6b\xa9\x40\xf0\x17\xb1\x76\x52\x84\x9a\x71\xdb\x35";
	let seed = b"\xa0\xba\x9f\x93\x6c\xda\x31\x18\x27\xa6\xf7\x96\xff\xd5\x19\x8c";
	let label = b"test label";
	let expect = include_bytes!("testdata/prf-result.1.bin");
	let mut output = [0u8; 100];

	super::prf(&mut output, &SHA256, secret, label, seed);
	assert_eq!(expect.len(), output.len());
	assert_eq!(expect.to_vec(), output.to_vec());
	}

	#[test]
	fn check_sha512() {
	let secret = b"\xb0\x32\x35\x23\xc1\x85\x35\x99\x58\x4d\x88\x56\x8b\xbb\x05\xeb";
	let seed = b"\xd4\x64\x0e\x12\xe4\xbc\xdb\xfb\x43\x7f\x03\xe6\xae\x41\x8e\xe5";
	let label = b"test label";
	let expect = include_bytes!("testdata/prf-result.2.bin");
	let mut output = [0u8; 196];

	super::prf(&mut output, &SHA512, secret, label, seed);
	assert_eq!(expect.len(), output.len());
	assert_eq!(expect.to_vec(), output.to_vec());
	}
	}