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use std::convert::TryInto;
use std::borrow::{Borrow, BorrowMut};
use sha2::Sha256;
use hmac::{Hmac, Mac};
use crate::secure::{base64, Key};
use crate::{Cookie, CookieJar};
// Keep these in sync, and keep the key len synced with the `signed` docs as
// well as the `KEYS_INFO` const in secure::Key.
pub(crate) const BASE64_DIGEST_LEN: usize = 44;
pub(crate) const KEY_LEN: usize = 32;
/// A child cookie jar that authenticates its cookies.
///
/// A _signed_ child jar signs all the cookies added to it and verifies cookies
/// retrieved from it. Any cookies stored in a `SignedJar` are provided
/// integrity and authenticity. In other words, clients cannot tamper with the
/// contents of a cookie nor can they fabricate cookie values, but the data is
/// visible in plaintext.
#[cfg_attr(all(nightly, doc), doc(cfg(feature = "signed")))]
pub struct SignedJar<J> {
parent: J,
key: [u8; KEY_LEN],
}
impl<J> SignedJar<J> {
/// Creates a new child `SignedJar` with parent `parent` and key `key`. This
/// method is typically called indirectly via the `signed{_mut}` methods of
/// `CookieJar`.
pub(crate) fn new(parent: J, key: &Key) -> SignedJar<J> {
SignedJar { parent, key: key.signing().try_into().expect("sign key len") }
}
/// Signs the cookie's value providing integrity and authenticity.
fn sign_cookie(&self, cookie: &mut Cookie) {
// Compute HMAC-SHA256 of the cookie's value.
let mut mac = Hmac::<Sha256>::new_from_slice(&self.key).expect("good key");
mac.update(cookie.value().as_bytes());
// Cookie's new value is [MAC | original-value].
let mut new_value = base64::encode(&mac.finalize().into_bytes());
new_value.push_str(cookie.value());
cookie.set_value(new_value);
}
/// Given a signed value `str` where the signature is prepended to `value`,
/// verifies the signed value and returns it. If there's a problem, returns
/// an `Err` with a string describing the issue.
fn _verify(&self, cookie_value: &str) -> Result<String, &'static str> {
if !cookie_value.is_char_boundary(BASE64_DIGEST_LEN) {
return Err("missing or invalid digest");
}
// Split [MAC | original-value] into its two parts.
let (digest_str, value) = cookie_value.split_at(BASE64_DIGEST_LEN);
let digest = base64::decode(digest_str).map_err(|_| "bad base64 digest")?;
// Perform the verification.
let mut mac = Hmac::<Sha256>::new_from_slice(&self.key).expect("good key");
mac.update(value.as_bytes());
mac.verify_slice(&digest)
.map(|_| value.to_string())
.map_err(|_| "value did not verify")
}
/// Verifies the authenticity and integrity of `cookie`, returning the
/// plaintext version if verification succeeds or `None` otherwise.
/// Verification _always_ succeeds if `cookie` was generated by a
/// `SignedJar` with the same key as `self`.
///
/// # Example
///
/// ```rust
/// use cookie::{CookieJar, Cookie, Key};
///
/// let key = Key::generate();
/// let mut jar = CookieJar::new();
/// assert!(jar.signed(&key).get("name").is_none());
///
/// jar.signed_mut(&key).add(Cookie::new("name", "value"));
/// assert_eq!(jar.signed(&key).get("name").unwrap().value(), "value");
///
/// let plain = jar.get("name").cloned().unwrap();
/// assert_ne!(plain.value(), "value");
/// let verified = jar.signed(&key).verify(plain).unwrap();
/// assert_eq!(verified.value(), "value");
///
/// let plain = Cookie::new("plaintext", "hello");
/// assert!(jar.signed(&key).verify(plain).is_none());
/// ```
pub fn verify(&self, mut cookie: Cookie<'static>) -> Option<Cookie<'static>> {
if let Ok(value) = self._verify(cookie.value()) {
cookie.set_value(value);
return Some(cookie);
}
None
}
}
impl<J: Borrow<CookieJar>> SignedJar<J> {
/// Returns a reference to the `Cookie` inside this jar with the name `name`
/// and verifies the authenticity and integrity of the cookie's value,
/// returning a `Cookie` with the authenticated value. If the cookie cannot
/// be found, or the cookie fails to verify, `None` is returned.
///
/// # Example
///
/// ```rust
/// use cookie::{CookieJar, Cookie, Key};
///
/// let key = Key::generate();
/// let jar = CookieJar::new();
/// assert!(jar.signed(&key).get("name").is_none());
///
/// let mut jar = jar;
/// let mut signed_jar = jar.signed_mut(&key);
/// signed_jar.add(Cookie::new("name", "value"));
/// assert_eq!(signed_jar.get("name").unwrap().value(), "value");
/// ```
pub fn get(&self, name: &str) -> Option<Cookie<'static>> {
self.parent.borrow().get(name).and_then(|c| self.verify(c.clone()))
}
}
impl<J: BorrowMut<CookieJar>> SignedJar<J> {
/// Adds `cookie` to the parent jar. The cookie's value is signed assuring
/// integrity and authenticity.
///
/// # Example
///
/// ```rust
/// use cookie::{CookieJar, Cookie, Key};
///
/// let key = Key::generate();
/// let mut jar = CookieJar::new();
/// jar.signed_mut(&key).add(Cookie::new("name", "value"));
///
/// assert_ne!(jar.get("name").unwrap().value(), "value");
/// assert!(jar.get("name").unwrap().value().contains("value"));
/// assert_eq!(jar.signed(&key).get("name").unwrap().value(), "value");
/// ```
pub fn add(&mut self, mut cookie: Cookie<'static>) {
self.sign_cookie(&mut cookie);
self.parent.borrow_mut().add(cookie);
}
/// Adds an "original" `cookie` to this jar. The cookie's value is signed
/// assuring integrity and authenticity. Adding an original cookie does not
/// affect the [`CookieJar::delta()`] computation. This method is intended
/// to be used to seed the cookie jar with cookies received from a client's
/// HTTP message.
///
/// For accurate `delta` computations, this method should not be called
/// after calling `remove`.
///
/// # Example
///
/// ```rust
/// use cookie::{CookieJar, Cookie, Key};
///
/// let key = Key::generate();
/// let mut jar = CookieJar::new();
/// jar.signed_mut(&key).add_original(Cookie::new("name", "value"));
///
/// assert_eq!(jar.iter().count(), 1);
/// assert_eq!(jar.delta().count(), 0);
/// ```
pub fn add_original(&mut self, mut cookie: Cookie<'static>) {
self.sign_cookie(&mut cookie);
self.parent.borrow_mut().add_original(cookie);
}
/// Removes `cookie` from the parent jar.
///
/// For correct removal, the passed in `cookie` must contain the same `path`
/// and `domain` as the cookie that was initially set.
///
/// This is identical to [`CookieJar::remove()`]. See the method's
/// documentation for more details.
///
/// # Example
///
/// ```rust
/// use cookie::{CookieJar, Cookie, Key};
///
/// let key = Key::generate();
/// let mut jar = CookieJar::new();
/// let mut signed_jar = jar.signed_mut(&key);
///
/// signed_jar.add(Cookie::new("name", "value"));
/// assert!(signed_jar.get("name").is_some());
///
/// signed_jar.remove(Cookie::named("name"));
/// assert!(signed_jar.get("name").is_none());
/// ```
pub fn remove(&mut self, cookie: Cookie<'static>) {
self.parent.borrow_mut().remove(cookie);
}
}
#[cfg(test)]
mod test {
use crate::{CookieJar, Cookie, Key};
#[test]
fn simple() {
let key = Key::generate();
let mut jar = CookieJar::new();
assert_simple_behaviour!(jar, jar.signed_mut(&key));
}
#[test]
fn private() {
let key = Key::generate();
let mut jar = CookieJar::new();
assert_secure_behaviour!(jar, jar.signed_mut(&key));
}
#[test]
fn roundtrip() {
// Secret is SHA-256 hash of 'Super secret!' passed through HKDF-SHA256.
let key = Key::from(&[89, 202, 200, 125, 230, 90, 197, 245, 166, 249,
34, 169, 135, 31, 20, 197, 94, 154, 254, 79, 60, 26, 8, 143, 254,
24, 116, 138, 92, 225, 159, 60, 157, 41, 135, 129, 31, 226, 196, 16,
198, 168, 134, 4, 42, 1, 196, 24, 57, 103, 241, 147, 201, 185, 233,
10, 180, 170, 187, 89, 252, 137, 110, 107]);
let mut jar = CookieJar::new();
jar.add(Cookie::new("signed_with_ring014",
"3tdHXEQ2kf6fxC7dWzBGmpSLMtJenXLKrZ9cHkSsl1w=Tamper-proof"));
jar.add(Cookie::new("signed_with_ring016",
"3tdHXEQ2kf6fxC7dWzBGmpSLMtJenXLKrZ9cHkSsl1w=Tamper-proof"));
let signed = jar.signed(&key);
assert_eq!(signed.get("signed_with_ring014").unwrap().value(), "Tamper-proof");
assert_eq!(signed.get("signed_with_ring016").unwrap().value(), "Tamper-proof");
}
#[test]
fn issue_178() {
let data = "x=yyyyyyyyyyyyyyyyyyyyyyyyyyyyyyyyyyyyyyyyyyy£";
let c = Cookie::parse(data).expect("failed to parse cookie");
let key = Key::from(&[0u8; 64]);
let mut jar = CookieJar::new();
let signed = jar.signed_mut(&key);
assert!(signed.verify(c).is_none());
}
}