// Copyright (c) 2017 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 std::convert::TryFrom; use std::str::FromStr; use minidom::{Element, IntoElements, IntoAttributeValue, ElementEmitter}; use jid::Jid; use error::Error; use ns; use body; use stanza_error; use chatstates::ChatState; use receipts::Receipt; use delay::Delay; use attention::Attention; use message_correct::Replace; use eme; /// Lists every known payload of a ``. #[derive(Debug, Clone)] pub enum MessagePayload { Body(body::Body), StanzaError(stanza_error::StanzaError), ChatState(ChatState), Receipt(Receipt), Delay(Delay), Attention(Attention), MessageCorrect(Replace), ExplicitMessageEncryption(eme::ExplicitMessageEncryption), } #[derive(Debug, Clone, PartialEq)] pub enum MessageType { Chat, Error, Groupchat, Headline, Normal, } impl Default for MessageType { fn default() -> MessageType { MessageType::Normal } } impl FromStr for MessageType { type Err = Error; fn from_str(s: &str) -> Result { Ok(match s { "chat" => MessageType::Chat, "error" => MessageType::Error, "groupchat" => MessageType::Groupchat, "headline" => MessageType::Headline, "normal" => MessageType::Normal, _ => return Err(Error::ParseError("Invalid 'type' attribute on message element.")), }) } } impl IntoAttributeValue for MessageType { fn into_attribute_value(self) -> Option { Some(match self { MessageType::Chat => "chat", MessageType::Error => "error", MessageType::Groupchat => "groupchat", MessageType::Headline => "headline", MessageType::Normal => "normal", }.to_owned()) } } #[derive(Debug, Clone)] pub enum MessagePayloadType { XML(Element), Parsed(MessagePayload), } #[derive(Debug, Clone)] pub struct Message { pub from: Option, pub to: Option, pub id: Option, pub type_: MessageType, pub payloads: Vec, } pub fn parse_message(root: &Element) -> Result { if !root.is("message", ns::JABBER_CLIENT) { return Err(Error::ParseError("This is not a message element.")); } let from = root.attr("from") .and_then(|value| value.parse().ok()); let to = root.attr("to") .and_then(|value| value.parse().ok()); let id = root.attr("id") .and_then(|value| value.parse().ok()); let type_ = match root.attr("type") { Some(type_) => type_.parse()?, None => Default::default(), }; let mut payloads = vec!(); for elem in root.children() { let payload = if let Ok(body) = body::parse_body(elem) { Some(MessagePayload::Body(body)) } else if let Ok(stanza_error) = stanza_error::parse_stanza_error(elem) { Some(MessagePayload::StanzaError(stanza_error)) } else if let Ok(chatstate) = ChatState::try_from(elem) { Some(MessagePayload::ChatState(chatstate)) } else if let Ok(receipt) = Receipt::try_from(elem) { Some(MessagePayload::Receipt(receipt)) } else if let Ok(delay) = Delay::try_from(elem) { Some(MessagePayload::Delay(delay)) } else if let Ok(attention) = Attention::try_from(elem) { Some(MessagePayload::Attention(attention)) } else if let Ok(replace) = Replace::try_from(elem) { Some(MessagePayload::MessageCorrect(replace)) } else if let Ok(eme) = eme::parse_explicit_message_encryption(elem) { Some(MessagePayload::ExplicitMessageEncryption(eme)) } else { None }; payloads.push(match payload { Some(payload) => MessagePayloadType::Parsed(payload), None => MessagePayloadType::XML(elem.clone()), }); } Ok(Message { from: from, to: to, id: id, type_: type_, payloads: payloads, }) } pub fn serialise_payload(payload: &MessagePayload) -> Element { match *payload { MessagePayload::Body(ref body) => body::serialise(body), MessagePayload::StanzaError(ref stanza_error) => stanza_error::serialise(stanza_error), MessagePayload::Attention(ref attention) => attention.into(), MessagePayload::ChatState(ref chatstate) => chatstate.into(), MessagePayload::Receipt(ref receipt) => receipt.into(), MessagePayload::Delay(ref delay) => delay.into(), MessagePayload::MessageCorrect(ref replace) => replace.into(), MessagePayload::ExplicitMessageEncryption(ref eme) => eme::serialise(eme), } } pub fn serialise(message: &Message) -> Element { let mut stanza = Element::builder("message") .ns(ns::JABBER_CLIENT) .attr("from", message.from.clone().and_then(|value| Some(String::from(value)))) .attr("to", message.to.clone().and_then(|value| Some(String::from(value)))) .attr("id", message.id.clone()) .attr("type", message.type_.clone()) .build(); for child in message.payloads.clone() { let elem = match child { MessagePayloadType::XML(elem) => elem, MessagePayloadType::Parsed(payload) => serialise_payload(&payload), }; stanza.append_child(elem); } stanza } impl IntoElements for Message { fn into_elements(self, emitter: &mut ElementEmitter) { let elem = serialise(&self); emitter.append_child(elem); } } #[cfg(test)] mod tests { use std::str::FromStr; use minidom::Element; use jid::Jid; use message; #[test] fn test_simple() { let elem: Element = "".parse().unwrap(); let message = message::parse_message(&elem).unwrap(); assert_eq!(message.from, None); assert_eq!(message.to, None); assert_eq!(message.id, None); assert_eq!(message.type_, message::MessageType::Normal); assert!(message.payloads.is_empty()); } #[test] fn test_serialise() { let elem: Element = "".parse().unwrap(); let message = message::Message { from: None, to: None, id: None, type_: message::MessageType::Normal, payloads: vec!(), }; let elem2 = message::serialise(&message); assert_eq!(elem, elem2); } #[test] fn test_body() { let elem: Element = "Hello world!".parse().unwrap(); message::parse_message(&elem).unwrap(); } #[test] fn test_serialise_body() { let elem: Element = "Hello world!".parse().unwrap(); let message = message::Message { from: None, to: Some(Jid::from_str("coucou@example.org").unwrap()), id: None, type_: message::MessageType::Chat, payloads: vec!( message::MessagePayloadType::Parsed(message::MessagePayload::Body("Hello world!".to_owned())), ), }; let elem2 = message::serialise(&message); assert_eq!(elem, elem2); } #[test] fn test_attention() { let elem: Element = "".parse().unwrap(); let message = message::parse_message(&elem).unwrap(); let elem2 = message::serialise(&message); assert_eq!(elem, elem2); } }