Struct cookie::CookieJar [−][src]
pub struct CookieJar { /* fields omitted */ }
Expand description
A collection of cookies that tracks its modifications.
A CookieJar
provides storage for any number of cookies. Any changes made
to the jar are tracked; the changes can be retrieved via the
delta method which returns an interator over the changes.
Usage
A jar’s life begins via new and calls to
add_original
:
use cookie::{Cookie, CookieJar};
let mut jar = CookieJar::new();
jar.add_original(Cookie::new("name", "value"));
jar.add_original(Cookie::new("second", "another"));
Cookies can be added via add and removed via remove. Finally, cookies can be looked up via get:
let mut jar = CookieJar::new();
jar.add(Cookie::new("a", "one"));
jar.add(Cookie::new("b", "two"));
assert_eq!(jar.get("a").map(|c| c.value()), Some("one"));
assert_eq!(jar.get("b").map(|c| c.value()), Some("two"));
jar.remove(Cookie::named("b"));
assert!(jar.get("b").is_none());
Deltas
A jar keeps track of any modifications made to it over time. The
modifications are recorded as cookies. The modifications can be retrieved
via delta. Any new Cookie
added to a jar via add
results in the same Cookie
appearing in the delta
; cookies added via
add_original
do not count towards the delta. Any original cookie that is
removed from a jar results in a “removal” cookie appearing in the delta. A
“removal” cookie is a cookie that a server sends so that the cookie is
removed from the client’s machine.
Deltas are typically used to create Set-Cookie
headers corresponding to
the changes made to a cookie jar over a period of time.
let mut jar = CookieJar::new();
// original cookies don't affect the delta
jar.add_original(Cookie::new("original", "value"));
assert_eq!(jar.delta().count(), 0);
// new cookies result in an equivalent `Cookie` in the delta
jar.add(Cookie::new("a", "one"));
jar.add(Cookie::new("b", "two"));
assert_eq!(jar.delta().count(), 2);
// removing an original cookie adds a "removal" cookie to the delta
jar.remove(Cookie::named("original"));
assert_eq!(jar.delta().count(), 3);
// removing a new cookie that was added removes that `Cookie` from the delta
jar.remove(Cookie::named("a"));
assert_eq!(jar.delta().count(), 2);
Implementations
Creates an empty cookie jar.
Example
use cookie::CookieJar;
let jar = CookieJar::new();
assert_eq!(jar.iter().count(), 0);
Returns a reference to the Cookie
inside this jar with the name
name
. If no such cookie exists, returns None
.
Example
use cookie::{CookieJar, Cookie};
let mut jar = CookieJar::new();
assert!(jar.get("name").is_none());
jar.add(Cookie::new("name", "value"));
assert_eq!(jar.get("name").map(|c| c.value()), Some("value"));
Adds an “original” cookie
to this jar. If an original cookie with the
same name already exists, it is replaced with cookie
. Cookies added
with add
take precedence and are not replaced by this method.
Adding an original cookie does not affect the 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
use cookie::{CookieJar, Cookie};
let mut jar = CookieJar::new();
jar.add_original(Cookie::new("name", "value"));
jar.add_original(Cookie::new("second", "two"));
assert_eq!(jar.get("name").map(|c| c.value()), Some("value"));
assert_eq!(jar.get("second").map(|c| c.value()), Some("two"));
assert_eq!(jar.iter().count(), 2);
assert_eq!(jar.delta().count(), 0);
Adds cookie
to this jar. If a cookie with the same name already
exists, it is replaced with cookie
.
Example
use cookie::{CookieJar, Cookie};
let mut jar = CookieJar::new();
jar.add(Cookie::new("name", "value"));
jar.add(Cookie::new("second", "two"));
assert_eq!(jar.get("name").map(|c| c.value()), Some("value"));
assert_eq!(jar.get("second").map(|c| c.value()), Some("two"));
assert_eq!(jar.iter().count(), 2);
assert_eq!(jar.delta().count(), 2);
Removes cookie
from this jar. If an original cookie with the same
name as cookie
is present in the jar, a removal cookie will be
present in the delta
computation. To properly generate the removal
cookie, cookie
must contain the same path
and domain
as the cookie
that was initially set.
A “removal” cookie is a cookie that has the same name as the original cookie but has an empty value, a max-age of 0, and an expiration date far in the past.
Example
Removing an original cookie results in a removal cookie:
extern crate time;
use cookie::{CookieJar, Cookie};
use time::Duration;
let mut jar = CookieJar::new();
// Assume this cookie originally had a path of "/" and domain of "a.b".
jar.add_original(Cookie::new("name", "value"));
// If the path and domain were set, they must be provided to `remove`.
jar.remove(Cookie::build("name", "").path("/").domain("a.b").finish());
// The delta will contain the removal cookie.
let delta: Vec<_> = jar.delta().collect();
assert_eq!(delta.len(), 1);
assert_eq!(delta[0].name(), "name");
assert_eq!(delta[0].max_age(), Some(Duration::seconds(0)));
Removing a new cookie does not result in a removal cookie:
use cookie::{CookieJar, Cookie};
let mut jar = CookieJar::new();
jar.add(Cookie::new("name", "value"));
assert_eq!(jar.delta().count(), 1);
jar.remove(Cookie::named("name"));
assert_eq!(jar.delta().count(), 0);
Removes all delta cookies, i.e. all cookies not added via
CookieJar::add_original()
, from this CookieJar
. This undoes any
changes from CookieJar::add()
and CookieJar::remove()
operations.
Example
use cookie::{CookieJar, Cookie};
let mut jar = CookieJar::new();
// Only original cookies will remain after calling `reset_delta`.
jar.add_original(Cookie::new("name", "value"));
jar.add_original(Cookie::new("language", "Rust"));
// These operations, represented by delta cookies, will be reset.
jar.add(Cookie::new("language", "C++"));
jar.remove(Cookie::named("name"));
// All is normal.
assert_eq!(jar.get("name"), None);
assert_eq!(jar.get("language").map(Cookie::value), Some("C++"));
assert_eq!(jar.iter().count(), 1);
assert_eq!(jar.delta().count(), 2);
// Resetting undoes delta operations.
jar.reset_delta();
assert_eq!(jar.get("name").map(Cookie::value), Some("value"));
assert_eq!(jar.get("language").map(Cookie::value), Some("Rust"));
assert_eq!(jar.iter().count(), 2);
assert_eq!(jar.delta().count(), 0);
Removes cookie
from this jar completely. This method differs from
remove
in that no delta cookie is created under any condition. Neither
the delta
nor iter
methods will return a cookie that is removed
using this method.
Example
Removing an original cookie; no removal cookie is generated:
extern crate time;
use cookie::{CookieJar, Cookie};
use time::Duration;
let mut jar = CookieJar::new();
// Add an original cookie and a new cookie.
jar.add_original(Cookie::new("name", "value"));
jar.add(Cookie::new("key", "value"));
assert_eq!(jar.delta().count(), 1);
assert_eq!(jar.iter().count(), 2);
// Now force remove the original cookie.
jar.force_remove(Cookie::new("name", "value"));
assert_eq!(jar.delta().count(), 1);
assert_eq!(jar.iter().count(), 1);
// Now force remove the new cookie.
jar.force_remove(Cookie::new("key", "value"));
assert_eq!(jar.delta().count(), 0);
assert_eq!(jar.iter().count(), 0);
👎 Deprecated since 0.7.0: calling this method may not remove all cookies since the path and domain are not specified; use remove
instead
calling this method may not remove all cookies since the path and domain are not specified; use remove
instead
Removes all cookies from this cookie jar.
Returns an iterator over cookies that represent the changes to this jar
over time. These cookies can be rendered directly as Set-Cookie
header
values to affect the changes made to this jar on the client.
Example
use cookie::{CookieJar, Cookie};
let mut jar = CookieJar::new();
jar.add_original(Cookie::new("name", "value"));
jar.add_original(Cookie::new("second", "two"));
// Add new cookies.
jar.add(Cookie::new("new", "third"));
jar.add(Cookie::new("another", "fourth"));
jar.add(Cookie::new("yac", "fifth"));
// Remove some cookies.
jar.remove(Cookie::named("name"));
jar.remove(Cookie::named("another"));
// Delta contains two new cookies ("new", "yac") and a removal ("name").
assert_eq!(jar.delta().count(), 3);
Returns an iterator over all of the cookies present in this jar.
Example
use cookie::{CookieJar, Cookie};
let mut jar = CookieJar::new();
jar.add_original(Cookie::new("name", "value"));
jar.add_original(Cookie::new("second", "two"));
jar.add(Cookie::new("new", "third"));
jar.add(Cookie::new("another", "fourth"));
jar.add(Cookie::new("yac", "fifth"));
jar.remove(Cookie::named("name"));
jar.remove(Cookie::named("another"));
// There are three cookies in the jar: "second", "new", and "yac".
for cookie in jar.iter() {
match cookie.name() {
"second" => assert_eq!(cookie.value(), "two"),
"new" => assert_eq!(cookie.value(), "third"),
"yac" => assert_eq!(cookie.value(), "fifth"),
_ => unreachable!("there are only three cookies in the jar")
}
}
This is supported on crate feature private
only.
private
only.Returns a PrivateJar
with self
as its parent jar using the key key
to sign/encrypt and verify/decrypt cookies added/retrieved from the
child jar.
Any modifications to the child jar will be reflected on the parent jar, and any retrievals from the child jar will be made from the parent jar.
Example
use cookie::{Cookie, CookieJar, Key};
// Generate a secure key.
let key = Key::generate();
// Add a private (signed + encrypted) cookie.
let mut jar = CookieJar::new();
jar.private(&key).add(Cookie::new("private", "text"));
// The cookie's contents are encrypted.
assert_ne!(jar.get("private").unwrap().value(), "text");
// They can be decrypted and verified through the child jar.
assert_eq!(jar.private(&key).get("private").unwrap().value(), "text");
// A tampered with cookie does not validate but still exists.
let mut cookie = jar.get("private").unwrap().clone();
jar.add(Cookie::new("private", cookie.value().to_string() + "!"));
assert!(jar.private(&key).get("private").is_none());
assert!(jar.get("private").is_some());
This is supported on crate feature signed
only.
signed
only.Returns a SignedJar
with self
as its parent jar using the key key
to sign/verify cookies added/retrieved from the child jar.
Any modifications to the child jar will be reflected on the parent jar, and any retrievals from the child jar will be made from the parent jar.
Example
use cookie::{Cookie, CookieJar, Key};
// Generate a secure key.
let key = Key::generate();
// Add a signed cookie.
let mut jar = CookieJar::new();
jar.signed(&key).add(Cookie::new("signed", "text"));
// The cookie's contents are signed but still in plaintext.
assert_ne!(jar.get("signed").unwrap().value(), "text");
assert!(jar.get("signed").unwrap().value().contains("text"));
// They can be verified through the child jar.
assert_eq!(jar.signed(&key).get("signed").unwrap().value(), "text");
// A tampered with cookie does not validate but still exists.
let mut cookie = jar.get("signed").unwrap().clone();
jar.add(Cookie::new("signed", cookie.value().to_string() + "!"));
assert!(jar.signed(&key).get("signed").is_none());
assert!(jar.get("signed").is_some());
Trait Implementations
Auto Trait Implementations
impl RefUnwindSafe for CookieJar
impl UnwindSafe for CookieJar
Blanket Implementations
Mutably borrows from an owned value. Read more