// Copyright (c) 2019 Emmanuel Gil Peyrot // // This Source Code Form is subject to the terms of the Mozilla Public // License, v. 2.0. If a copy of the MPL was not distributed with this // file, You can obtain one at http://mozilla.org/MPL/2.0/. use crate::hashes::{Algo, Hash}; use crate::util::error::Error; use crate::util::helpers::ColonSeparatedHex; generate_attribute!( /// Indicates which of the end points should initiate the TCP connection establishment. Setup, "setup", { /// The endpoint will initiate an outgoing connection. Active => "active", /// The endpoint will accept an incoming connection. Passive => "passive", /// The endpoint is willing to accept an incoming connection or to initiate an outgoing /// connection. Actpass => "actpass", /* /// The endpoint does not want the connection to be established for the time being. /// /// Note that this value isn’t used, as per the XEP. Holdconn => "holdconn", */ } ); // TODO: use a hashes::Hash instead of two different fields here. generate_element!( /// Fingerprint of the key used for a DTLS handshake. Fingerprint, "fingerprint", JINGLE_DTLS, attributes: [ /// The hash algorithm used for this fingerprint. hash: Required = "hash", /// Indicates which of the end points should initiate the TCP connection establishment. setup: Required = "setup" ], text: ( /// Hash value of this fingerprint. value: ColonSeparatedHex> ) ); impl Fingerprint { /// Create a new Fingerprint from a Setup and a Hash. pub fn from_hash(setup: Setup, hash: Hash) -> Fingerprint { Fingerprint { hash: hash.algo, setup, value: hash.hash, } } /// Create a new Fingerprint from a Setup and parsing the hash. pub fn from_colon_separated_hex( setup: Setup, algo: &str, hash: &str, ) -> Result { let algo = algo.parse()?; let hash = Hash::from_colon_separated_hex(algo, hash)?; Ok(Fingerprint::from_hash(setup, hash)) } } #[cfg(test)] mod tests { use super::*; use crate::Element; use std::convert::TryFrom; #[cfg(target_pointer_width = "32")] #[test] fn test_size() { assert_size!(Setup, 1); assert_size!(Fingerprint, 32); } #[cfg(target_pointer_width = "64")] #[test] fn test_size() { assert_size!(Setup, 1); assert_size!(Fingerprint, 64); } #[test] fn test_ex1() { let elem: Element = "02:1A:CC:54:27:AB:EB:9C:53:3F:3E:4B:65:2E:7D:46:3F:54:42:CD:54:F1:7A:03:A2:7D:F9:B0:7F:46:19:B2" .parse() .unwrap(); let fingerprint = Fingerprint::try_from(elem).unwrap(); assert_eq!(fingerprint.setup, Setup::Actpass); assert_eq!(fingerprint.hash, Algo::Sha_256); assert_eq!( fingerprint.value, [ 2, 26, 204, 84, 39, 171, 235, 156, 83, 63, 62, 75, 101, 46, 125, 70, 63, 84, 66, 205, 84, 241, 122, 3, 162, 125, 249, 176, 127, 70, 25, 178 ] ); } }