xmpp-rs-mirror/parsers/src/message.rs
Maxime “pep” Buquet 4089891f6c Update edition to 2021
- Remove TryFrom/Into and FromIterator imports
- Prevent impl_validator_using_provider macro in sasl crate from
  constructing trait object

Signed-off-by: Maxime “pep” Buquet <pep@bouah.net>
2023-12-15 19:40:09 +00:00

463 lines
16 KiB
Rust
Raw Blame History

This file contains invisible Unicode characters

This file contains invisible Unicode characters that are indistinguishable to humans but may be processed differently by a computer. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

// Copyright (c) 2017 Emmanuel Gil Peyrot <linkmauve@linkmauve.fr>
//
// 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::ns;
use crate::util::error::Error;
use crate::Element;
use jid::Jid;
use std::collections::BTreeMap;
/// Should be implemented on every known payload of a `<message/>`.
pub trait MessagePayload: TryFrom<Element> + Into<Element> {}
generate_attribute!(
/// The type of a message.
MessageType, "type", {
/// Standard instant messaging message.
Chat => "chat",
/// Notifies that an error happened.
Error => "error",
/// Standard group instant messaging message.
Groupchat => "groupchat",
/// Used by servers to notify users when things happen.
Headline => "headline",
/// This is an email-like message, it usually contains a
/// [subject](struct.Subject.html).
Normal => "normal",
}, Default = Normal
);
type Lang = String;
generate_elem_id!(
/// Represents one `<body/>` element, that is the free form text content of
/// a message.
Body,
"body",
DEFAULT_NS
);
generate_elem_id!(
/// Defines the subject of a room, or of an email-like normal message.
Subject,
"subject",
DEFAULT_NS
);
generate_elem_id!(
/// A thread identifier, so that other people can specify to which message
/// they are replying.
Thread,
"thread",
DEFAULT_NS
);
/// The main structure representing the `<message/>` stanza.
#[derive(Debug, Clone, PartialEq)]
pub struct Message {
/// The JID emitting this stanza.
pub from: Option<Jid>,
/// The recipient of this stanza.
pub to: Option<Jid>,
/// The @id attribute of this stanza, which is required in order to match a
/// request with its response.
pub id: Option<String>,
/// The type of this message.
pub type_: MessageType,
/// A list of bodies, sorted per language. Use
/// [get_best_body()](#method.get_best_body) to access them on reception.
pub bodies: BTreeMap<Lang, Body>,
/// A list of subjects, sorted per language. Use
/// [get_best_subject()](#method.get_best_subject) to access them on
/// reception.
pub subjects: BTreeMap<Lang, Subject>,
/// An optional thread identifier, so that other people can reply directly
/// to this message.
pub thread: Option<Thread>,
/// A list of the extension payloads contained in this stanza.
pub payloads: Vec<Element>,
}
impl Message {
/// Creates a new `<message/>` stanza of type Chat for the given recipient.
/// This is equivalent to the [`Message::chat`] method.
pub fn new<J: Into<Option<Jid>>>(to: J) -> Message {
Message {
from: None,
to: to.into(),
id: None,
type_: MessageType::Chat,
bodies: BTreeMap::new(),
subjects: BTreeMap::new(),
thread: None,
payloads: vec![],
}
}
/// Creates a new `<message/>` stanza of a certain type for the given recipient.
pub fn new_with_type<J: Into<Option<Jid>>>(type_: MessageType, to: J) -> Message {
Message {
from: None,
to: to.into(),
id: None,
type_,
bodies: BTreeMap::new(),
subjects: BTreeMap::new(),
thread: None,
payloads: vec![],
}
}
/// Creates a Message of type Chat
pub fn chat<J: Into<Option<Jid>>>(to: J) -> Message {
Self::new_with_type(MessageType::Chat, to)
}
/// Creates a Message of type Error
pub fn error<J: Into<Option<Jid>>>(to: J) -> Message {
Self::new_with_type(MessageType::Error, to)
}
/// Creates a Message of type Groupchat
pub fn groupchat<J: Into<Option<Jid>>>(to: J) -> Message {
Self::new_with_type(MessageType::Groupchat, to)
}
/// Creates a Message of type Headline
pub fn headline<J: Into<Option<Jid>>>(to: J) -> Message {
Self::new_with_type(MessageType::Headline, to)
}
/// Creates a Message of type Normal
pub fn normal<J: Into<Option<Jid>>>(to: J) -> Message {
Self::new_with_type(MessageType::Normal, to)
}
/// Appends a body in given lang to the Message
pub fn with_body(mut self, lang: Lang, body: String) -> Message {
self.bodies.insert(lang, Body(body));
self
}
/// Set a payload inside this message.
pub fn with_payload<P: MessagePayload>(mut self, payload: P) -> Message {
self.payloads.push(payload.into());
self
}
/// Set the payloads of this message.
pub fn with_payloads(mut self, payloads: Vec<Element>) -> Message {
self.payloads = payloads;
self
}
fn get_best<'a, T>(
map: &'a BTreeMap<Lang, T>,
preferred_langs: Vec<&str>,
) -> Option<(Lang, &'a T)> {
if map.is_empty() {
return None;
}
for lang in preferred_langs {
if let Some(value) = map.get(lang) {
return Some((Lang::from(lang), value));
}
}
if let Some(value) = map.get("") {
return Some((Lang::new(), value));
}
map.iter().map(|(lang, value)| (lang.clone(), value)).next()
}
/// Returns the best matching body from a list of languages.
///
/// For instance, if a message contains both an xml:lang='de', an xml:lang='fr' and an English
/// body without an xml:lang attribute, and you pass ["fr", "en"] as your preferred languages,
/// `Some(("fr", the_second_body))` will be returned.
///
/// If no body matches, an undefined body will be returned.
pub fn get_best_body(&self, preferred_langs: Vec<&str>) -> Option<(Lang, &Body)> {
Message::get_best::<Body>(&self.bodies, preferred_langs)
}
/// Returns the best matching subject from a list of languages.
///
/// For instance, if a message contains both an xml:lang='de', an xml:lang='fr' and an English
/// subject without an xml:lang attribute, and you pass ["fr", "en"] as your preferred
/// languages, `Some(("fr", the_second_subject))` will be returned.
///
/// If no subject matches, an undefined subject will be returned.
pub fn get_best_subject(&self, preferred_langs: Vec<&str>) -> Option<(Lang, &Subject)> {
Message::get_best::<Subject>(&self.subjects, preferred_langs)
}
}
impl TryFrom<Element> for Message {
type Error = Error;
fn try_from(root: Element) -> Result<Message, Error> {
check_self!(root, "message", DEFAULT_NS);
let from = get_attr!(root, "from", Option);
let to = get_attr!(root, "to", Option);
let id = get_attr!(root, "id", Option);
let type_ = get_attr!(root, "type", Default);
let mut bodies = BTreeMap::new();
let mut subjects = BTreeMap::new();
let mut thread = None;
let mut payloads = vec![];
for elem in root.children() {
if elem.is("body", ns::DEFAULT_NS) {
check_no_children!(elem, "body");
let lang = get_attr!(elem, "xml:lang", Default);
let body = Body(elem.text());
if bodies.insert(lang, body).is_some() {
return Err(Error::ParseError(
"Body element present twice for the same xml:lang.",
));
}
} else if elem.is("subject", ns::DEFAULT_NS) {
check_no_children!(elem, "subject");
let lang = get_attr!(elem, "xml:lang", Default);
let subject = Subject(elem.text());
if subjects.insert(lang, subject).is_some() {
return Err(Error::ParseError(
"Subject element present twice for the same xml:lang.",
));
}
} else if elem.is("thread", ns::DEFAULT_NS) {
if thread.is_some() {
return Err(Error::ParseError("Thread element present twice."));
}
check_no_children!(elem, "thread");
thread = Some(Thread(elem.text()));
} else {
payloads.push(elem.clone())
}
}
Ok(Message {
from,
to,
id,
type_,
bodies,
subjects,
thread,
payloads,
})
}
}
impl From<Message> for Element {
fn from(message: Message) -> Element {
Element::builder("message", ns::DEFAULT_NS)
.attr("from", message.from)
.attr("to", message.to)
.attr("id", message.id)
.attr("type", message.type_)
.append_all(message.subjects.into_iter().map(|(lang, subject)| {
let mut subject = Element::from(subject);
subject.set_attr(
"xml:lang",
match lang.as_ref() {
"" => None,
lang => Some(lang),
},
);
subject
}))
.append_all(message.bodies.into_iter().map(|(lang, body)| {
let mut body = Element::from(body);
body.set_attr(
"xml:lang",
match lang.as_ref() {
"" => None,
lang => Some(lang),
},
);
body
}))
.append_all(message.payloads)
.build()
}
}
#[cfg(test)]
mod tests {
use super::*;
use std::str::FromStr;
#[cfg(target_pointer_width = "32")]
#[test]
fn test_size() {
assert_size!(MessageType, 1);
assert_size!(Body, 12);
assert_size!(Subject, 12);
assert_size!(Thread, 12);
assert_size!(Message, 104);
}
#[cfg(target_pointer_width = "64")]
#[test]
fn test_size() {
assert_size!(MessageType, 1);
assert_size!(Body, 24);
assert_size!(Subject, 24);
assert_size!(Thread, 24);
assert_size!(Message, 208);
}
#[test]
fn test_simple() {
#[cfg(not(feature = "component"))]
let elem: Element = "<message xmlns='jabber:client'/>".parse().unwrap();
#[cfg(feature = "component")]
let elem: Element = "<message xmlns='jabber:component:accept'/>"
.parse()
.unwrap();
let message = Message::try_from(elem).unwrap();
assert_eq!(message.from, None);
assert_eq!(message.to, None);
assert_eq!(message.id, None);
assert_eq!(message.type_, MessageType::Normal);
assert!(message.payloads.is_empty());
}
#[test]
fn test_serialise() {
#[cfg(not(feature = "component"))]
let elem: Element = "<message xmlns='jabber:client'/>".parse().unwrap();
#[cfg(feature = "component")]
let elem: Element = "<message xmlns='jabber:component:accept'/>"
.parse()
.unwrap();
let mut message = Message::new(None);
message.type_ = MessageType::Normal;
let elem2 = message.into();
assert_eq!(elem, elem2);
}
#[test]
fn test_body() {
#[cfg(not(feature = "component"))]
let elem: Element = "<message xmlns='jabber:client' to='coucou@example.org' type='chat'><body>Hello world!</body></message>".parse().unwrap();
#[cfg(feature = "component")]
let elem: Element = "<message xmlns='jabber:component:accept' to='coucou@example.org' type='chat'><body>Hello world!</body></message>".parse().unwrap();
let elem1 = elem.clone();
let message = Message::try_from(elem).unwrap();
assert_eq!(message.bodies[""], Body::from_str("Hello world!").unwrap());
{
let (lang, body) = message.get_best_body(vec!["en"]).unwrap();
assert_eq!(lang, "");
assert_eq!(body, &Body::from_str("Hello world!").unwrap());
}
let elem2 = message.into();
assert_eq!(elem1, elem2);
}
#[test]
fn test_serialise_body() {
#[cfg(not(feature = "component"))]
let elem: Element = "<message xmlns='jabber:client' to='coucou@example.org' type='chat'><body>Hello world!</body></message>".parse().unwrap();
#[cfg(feature = "component")]
let elem: Element = "<message xmlns='jabber:component:accept' to='coucou@example.org' type='chat'><body>Hello world!</body></message>".parse().unwrap();
let mut message = Message::new(Jid::new("coucou@example.org").unwrap());
message
.bodies
.insert(String::from(""), Body::from_str("Hello world!").unwrap());
let elem2 = message.into();
assert_eq!(elem, elem2);
}
#[test]
fn test_subject() {
#[cfg(not(feature = "component"))]
let elem: Element = "<message xmlns='jabber:client' to='coucou@example.org' type='chat'><subject>Hello world!</subject></message>".parse().unwrap();
#[cfg(feature = "component")]
let elem: Element = "<message xmlns='jabber:component:accept' to='coucou@example.org' type='chat'><subject>Hello world!</subject></message>".parse().unwrap();
let elem1 = elem.clone();
let message = Message::try_from(elem).unwrap();
assert_eq!(
message.subjects[""],
Subject::from_str("Hello world!").unwrap()
);
{
let (lang, subject) = message.get_best_subject(vec!["en"]).unwrap();
assert_eq!(lang, "");
assert_eq!(subject, &Subject::from_str("Hello world!").unwrap());
}
let elem2 = message.into();
assert_eq!(elem1, elem2);
}
#[test]
fn get_best_body() {
#[cfg(not(feature = "component"))]
let elem: Element = "<message xmlns='jabber:client' to='coucou@example.org' type='chat'><body xml:lang='de'>Hallo Welt!</body><body xml:lang='fr'>Salut le monde!</body><body>Hello world!</body></message>".parse().unwrap();
#[cfg(feature = "component")]
let elem: Element = "<message xmlns='jabber:component:accept' to='coucou@example.org' type='chat'><body>Hello world!</body></message>".parse().unwrap();
let message = Message::try_from(elem).unwrap();
// Tests basic feature.
{
let (lang, body) = message.get_best_body(vec!["fr"]).unwrap();
assert_eq!(lang, "fr");
assert_eq!(body, &Body::from_str("Salut le monde!").unwrap());
}
// Tests order.
{
let (lang, body) = message.get_best_body(vec!["en", "de"]).unwrap();
assert_eq!(lang, "de");
assert_eq!(body, &Body::from_str("Hallo Welt!").unwrap());
}
// Tests fallback.
{
let (lang, body) = message.get_best_body(vec![]).unwrap();
assert_eq!(lang, "");
assert_eq!(body, &Body::from_str("Hello world!").unwrap());
}
// Tests fallback.
{
let (lang, body) = message.get_best_body(vec!["ja"]).unwrap();
assert_eq!(lang, "");
assert_eq!(body, &Body::from_str("Hello world!").unwrap());
}
let message = Message::new(None);
// Tests without a body.
assert_eq!(message.get_best_body(vec!("ja")), None);
}
#[test]
fn test_attention() {
#[cfg(not(feature = "component"))]
let elem: Element = "<message xmlns='jabber:client' to='coucou@example.org' type='chat'><attention xmlns='urn:xmpp:attention:0'/></message>".parse().unwrap();
#[cfg(feature = "component")]
let elem: Element = "<message xmlns='jabber:component:accept' to='coucou@example.org' type='chat'><attention xmlns='urn:xmpp:attention:0'/></message>".parse().unwrap();
let elem1 = elem.clone();
let message = Message::try_from(elem).unwrap();
let elem2 = message.into();
assert_eq!(elem1, elem2);
}
}