xmpp-rs-mirror/parsers/src/rtt.rs

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// Copyright (c) 2022 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::util::helpers::PlainText;
use crate::Element;
use std::convert::TryFrom;
generate_attribute!(
/// Events for real-time text.
Event, "event", {
/// Begin a new real-time message.
New => "new",
/// Re-initialize the real-time message.
Reset => "reset",
/// Modify existing real-time message.
Edit => "edit",
/// Signals activation of real-time text.
Init => "init",
/// Signals deactivation of real-time text.
Cancel => "cancel",
}, Default = Edit
);
generate_element!(
/// Supports the transmission of text, including key presses, and text block inserts.
Insert, "t", RTT,
attributes: [
/// Position in the message to start inserting from. If None, this means to start from the
/// end of the message.
pos: Option<u32> = "p",
],
text: (
/// Text to insert.
text: PlainText<Option<String>>
)
);
impl TryFrom<Action> for Insert {
type Error = Error;
fn try_from(action: Action) -> Result<Insert, Error> {
match action {
Action::Insert(insert) => Ok(insert),
_ => Err(Error::ParseError("This is not an insert action.")),
}
}
}
// TODO: add a way in the macro to set a default value.
/*
generate_element!(
Erase, "e", RTT,
attributes: [
pos: Option<u32> = "p",
num: Default<u32> = "n",
]
);
*/
/// Supports the behavior of backspace key presses. Text is removed towards beginning of the
/// message. This element is also used for all delete operations, including the backspace key, the
/// delete key, and text block deletes.
#[derive(Debug, Clone, PartialEq)]
pub struct Erase {
/// Position in the message to start erasing from. If None, this means to start from the end
/// of the message.
pub pos: Option<u32>,
/// Amount of characters to erase, to the left.
pub num: u32,
}
impl TryFrom<Element> for Erase {
type Error = Error;
fn try_from(elem: Element) -> Result<Erase, Error> {
check_self!(elem, "e", RTT);
check_no_unknown_attributes!(elem, "e", ["p", "n"]);
let pos = get_attr!(elem, "p", Option);
let num = get_attr!(elem, "n", Option).unwrap_or(1);
check_no_children!(elem, "e");
Ok(Erase { pos, num })
}
}
impl From<Erase> for Element {
fn from(elem: Erase) -> Element {
Element::builder("e", ns::RTT)
.attr("p", elem.pos)
.attr("n", elem.num)
.build()
}
}
impl TryFrom<Action> for Erase {
type Error = Error;
fn try_from(action: Action) -> Result<Erase, Error> {
match action {
Action::Erase(erase) => Ok(erase),
_ => Err(Error::ParseError("This is not an erase action.")),
}
}
}
generate_element!(
/// Allow for the transmission of intervals, between real-time text actions, to recreate the
/// pauses between key presses.
Wait, "w", RTT,
attributes: [
/// Amount of milliseconds to wait before the next action.
time: Required<u32> = "n",
]
);
impl TryFrom<Action> for Wait {
type Error = Error;
fn try_from(action: Action) -> Result<Wait, Error> {
match action {
Action::Wait(wait) => Ok(wait),
_ => Err(Error::ParseError("This is not a wait action.")),
}
}
}
/// Choice between the three possible actions.
#[derive(Debug, Clone, PartialEq)]
pub enum Action {
/// Insert text action.
Insert(Insert),
/// Erase text action.
Erase(Erase),
/// Wait action.
Wait(Wait),
}
impl TryFrom<Element> for Action {
type Error = Error;
fn try_from(elem: Element) -> Result<Action, Error> {
match elem.name() {
"t" => Insert::try_from(elem).map(|insert| Action::Insert(insert)),
"e" => Erase::try_from(elem).map(|erase| Action::Erase(erase)),
"w" => Wait::try_from(elem).map(|wait| Action::Wait(wait)),
_ => Err(Error::ParseError("This is not a rtt action element.")),
}
}
}
impl From<Action> for Element {
fn from(action: Action) -> Element {
match action {
Action::Insert(insert) => Element::from(insert),
Action::Erase(erase) => Element::from(erase),
Action::Wait(wait) => Element::from(wait),
}
}
}
// TODO: Allow a wildcard name to the macro, to simplify the following code:
/*
generate_element!(
Rtt, "rtt", RTT,
attributes: [
seq: Required<u32> = "seq",
event: Default<Event> = "event",
id: Option<String> = "id",
],
children: [
actions: Vec<Action> = (*, RTT) => Action,
]
);
*/
/// Element transmitted at regular interval by the sender client while a message is being composed.
#[derive(Debug, Clone, PartialEq)]
pub struct Rtt {
/// Counter to maintain synchronisation of real-time text. Senders MUST increment this value
/// by 1 for each subsequent edit to the same real-time message, including when appending new
/// text. Receiving clients MUST monitor this 'seq' value as a lightweight verification on the
/// synchronization of real-time text messages. The bounds of 'seq' is 31-bits, the range of
/// positive values for a signed 32-bit integer.
pub seq: u32,
/// This attribute signals events for real-time text.
pub event: Event,
/// When editing a message using XEP-0308, this references the id of the message being edited.
pub id: Option<String>,
/// Vector of actions being transmitted by this element.
pub actions: Vec<Action>,
}
impl TryFrom<Element> for Rtt {
type Error = Error;
fn try_from(elem: Element) -> Result<Rtt, Error> {
check_self!(elem, "rtt", RTT);
check_no_unknown_attributes!(elem, "rtt", ["seq", "event", "id"]);
let seq = get_attr!(elem, "seq", Required);
let event = get_attr!(elem, "event", Default);
let id = get_attr!(elem, "id", Option);
let mut actions = Vec::new();
for child in elem.children() {
if child.ns() != ns::RTT {
return Err(Error::ParseError("Unknown child in rtt element."));
}
actions.push(Action::try_from(child.clone())?);
}
Ok(Rtt {
seq,
event,
id,
actions: actions,
})
}
}
impl From<Rtt> for Element {
fn from(elem: Rtt) -> Element {
Element::builder("rtt", ns::RTT)
.attr("seq", elem.seq)
.attr("event", elem.event)
.attr("id", elem.id)
.append_all(elem.actions)
.build()
}
}
#[cfg(test)]
mod tests {
use super::*;
use std::convert::TryInto;
#[test]
fn test_size() {
assert_size!(Event, 1);
assert_size!(Insert, 32);
assert_size!(Erase, 12);
assert_size!(Wait, 4);
assert_size!(Action, 40);
assert_size!(Rtt, 56);
}
#[test]
fn simple() {
let elem: Element = "<rtt xmlns='urn:xmpp:rtt:0' seq='0'/>".parse().unwrap();
let rtt = Rtt::try_from(elem).unwrap();
assert_eq!(rtt.seq, 0);
assert_eq!(rtt.event, Event::Edit);
assert_eq!(rtt.id, None);
assert_eq!(rtt.actions.len(), 0);
}
#[test]
fn sequence() {
let elem: Element = "<rtt xmlns='urn:xmpp:rtt:0' seq='0' event='new'><t>Hello,</t><w n='50'/><e/><t>!</t></rtt>"
.parse()
.unwrap();
let rtt = Rtt::try_from(elem).unwrap();
assert_eq!(rtt.seq, 0);
assert_eq!(rtt.event, Event::New);
assert_eq!(rtt.id, None);
let mut actions = rtt.actions.into_iter();
assert_eq!(actions.len(), 4);
let t: Insert = actions.next().unwrap().try_into().unwrap();
assert_eq!(t.pos, None);
assert_eq!(t.text, Some(String::from("Hello,")));
let w: Wait = actions.next().unwrap().try_into().unwrap();
assert_eq!(w.time, 50);
let e: Erase = actions.next().unwrap().try_into().unwrap();
assert_eq!(e.pos, None);
assert_eq!(e.num, 1);
let t: Insert = actions.next().unwrap().try_into().unwrap();
assert_eq!(t.pos, None);
assert_eq!(t.text, Some(String::from("!")));
}
}