// Copyright (c) 2017 Emmanuel Gil Peyrot // Copyright (c) 2017 Maxime “pep” Buquet // // 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 minidom::Element; use minidom::IntoAttributeValue; use jid::Jid; use error::Error; use ns; use stanza_error::StanzaError; use disco::Disco; use ibb::IBB; use jingle::Jingle; use ping::Ping; /// Lists every known payload of a ``. #[derive(Debug, Clone)] pub enum IqPayload { Disco(Disco), IBB(IBB), Jingle(Jingle), Ping(Ping), Unknown(Element), } impl<'a> TryFrom<&'a Element> for IqPayload { type Error = Error; fn try_from(elem: &'a Element) -> Result { Ok(match (elem.name().as_ref(), elem.ns().unwrap().as_ref()) { // XEP-0030 ("query", ns::DISCO_INFO) => IqPayload::Disco(Disco::try_from(elem)?), // XEP-0047 ("open", ns::IBB) | ("data", ns::IBB) | ("close", ns::IBB) => IqPayload::IBB(IBB::try_from(elem)?), // XEP-0166 ("jingle", ns::JINGLE) => IqPayload::Jingle(Jingle::try_from(elem)?), // XEP-0199 ("ping", ns::PING) => IqPayload::Ping(Ping::try_from(elem)?), _ => IqPayload::Unknown(elem.clone()), }) } } #[derive(Debug, Clone)] pub enum IqType { Get(Element), Set(Element), Result(Option), Error(StanzaError), } impl IntoAttributeValue for IqType { fn into_attribute_value(self) -> Option { Some(match self { IqType::Get(_) => "get", IqType::Set(_) => "set", IqType::Result(_) => "result", IqType::Error(_) => "error", }.to_owned()) } } #[derive(Debug, Clone)] pub struct Iq { pub from: Option, pub to: Option, pub id: Option, pub payload: IqType, } impl<'a> TryFrom<&'a Element> for Iq { type Error = Error; fn try_from(root: &'a Element) -> Result { if !root.is("iq", ns::JABBER_CLIENT) { return Err(Error::ParseError("This is not an iq 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_, None => return Err(Error::ParseError("Iq element requires a 'type' attribute.")), }; let mut payload = None; let mut error_payload = None; for elem in root.children() { if payload.is_some() { return Err(Error::ParseError("Wrong number of children in iq element.")); } if type_ == "error" { if elem.is("error", ns::JABBER_CLIENT) { if error_payload.is_some() { return Err(Error::ParseError("Wrong number of children in iq element.")); } error_payload = Some(StanzaError::try_from(elem)?); } else if root.children().collect::>().len() != 2 { return Err(Error::ParseError("Wrong number of children in iq element.")); } } else { payload = Some(elem.clone()); } } let type_ = if type_ == "get" { if let Some(payload) = payload { IqType::Get(payload) } else { return Err(Error::ParseError("Wrong number of children in iq element.")); } } else if type_ == "set" { if let Some(payload) = payload { IqType::Set(payload) } else { return Err(Error::ParseError("Wrong number of children in iq element.")); } } else if type_ == "result" { if let Some(payload) = payload { IqType::Result(Some(payload)) } else { IqType::Result(None) } } else if type_ == "error" { if let Some(payload) = error_payload.clone() { IqType::Error(payload) } else { return Err(Error::ParseError("Wrong number of children in iq element.")); } } else { return Err(Error::ParseError("Unknown iq type.")); }; Ok(Iq { from: from, to: to, id: id, payload: type_, }) } } impl<'a> Into for &'a IqPayload { fn into(self) -> Element { match *self { IqPayload::Disco(ref disco) => disco.into(), IqPayload::IBB(ref ibb) => ibb.into(), IqPayload::Jingle(ref jingle) => jingle.into(), IqPayload::Ping(ref ping) => ping.into(), IqPayload::Unknown(ref elem) => elem.clone(), } } } impl<'a> Into for &'a Iq { fn into(self) -> Element { let mut stanza = Element::builder("iq") .ns(ns::JABBER_CLIENT) .attr("from", self.from.clone().and_then(|value| Some(String::from(value)))) .attr("to", self.to.clone().and_then(|value| Some(String::from(value)))) .attr("id", self.id.clone()) .attr("type", self.payload.clone()) .build(); let elem = match self.payload.clone() { IqType::Get(elem) | IqType::Set(elem) | IqType::Result(Some(elem)) => elem, IqType::Error(error) => (&error).into(), IqType::Result(None) => return stanza, }; stanza.append_child(elem); stanza } } #[cfg(test)] mod tests { use super::*; use stanza_error::{ErrorType, DefinedCondition}; #[test] fn test_require_type() { let elem: Element = "".parse().unwrap(); let error = Iq::try_from(&elem).unwrap_err(); let message = match error { Error::ParseError(string) => string, _ => panic!(), }; assert_eq!(message, "Iq element requires a 'type' attribute."); } #[test] fn test_get() { let elem: Element = " ".parse().unwrap(); let iq = Iq::try_from(&elem).unwrap(); let query: Element = "".parse().unwrap(); assert_eq!(iq.from, None); assert_eq!(iq.to, None); assert_eq!(iq.id, None); assert!(match iq.payload { IqType::Get(element) => element == query, _ => false }); } #[test] fn test_set() { let elem: Element = " ".parse().unwrap(); let iq = Iq::try_from(&elem).unwrap(); let vcard: Element = "".parse().unwrap(); assert_eq!(iq.from, None); assert_eq!(iq.to, None); assert_eq!(iq.id, None); assert!(match iq.payload { IqType::Set(element) => element == vcard, _ => false }); } #[test] fn test_result_empty() { let elem: Element = "".parse().unwrap(); let iq = Iq::try_from(&elem).unwrap(); assert_eq!(iq.from, None); assert_eq!(iq.to, None); assert_eq!(iq.id, None); assert!(match iq.payload { IqType::Result(None) => true, _ => false, }); } #[test] fn test_result() { let elem: Element = " ".parse().unwrap(); let iq = Iq::try_from(&elem).unwrap(); let query: Element = "".parse().unwrap(); assert_eq!(iq.from, None); assert_eq!(iq.to, None); assert_eq!(iq.id, None); assert!(match iq.payload { IqType::Result(Some(element)) => element == query, _ => false, }); } #[test] fn test_error() { let elem: Element = " ".parse().unwrap(); let iq = Iq::try_from(&elem).unwrap(); assert_eq!(iq.from, None); assert_eq!(iq.to, None); assert_eq!(iq.id, None); match iq.payload { IqType::Error(error) => { assert_eq!(error.type_, ErrorType::Cancel); assert_eq!(error.by, None); assert_eq!(error.defined_condition, DefinedCondition::ServiceUnavailable); assert_eq!(error.texts.len(), 0); assert_eq!(error.other, None); }, _ => panic!(), } } #[test] fn test_children_invalid() { let elem: Element = "".parse().unwrap(); let error = Iq::try_from(&elem).unwrap_err(); let message = match error { Error::ParseError(string) => string, _ => panic!(), }; assert_eq!(message, "Wrong number of children in iq element."); } #[test] fn test_serialise() { let elem: Element = "".parse().unwrap(); let iq2 = Iq { from: None, to: None, id: None, payload: IqType::Result(None), }; let elem2 = (&iq2).into(); assert_eq!(elem, elem2); } #[test] fn test_disco() { let elem: Element = "".parse().unwrap(); let iq = Iq::try_from(&elem).unwrap(); let payload = match iq.payload { IqType::Get(ref payload) => IqPayload::try_from(payload).unwrap(), _ => panic!(), }; assert!(match payload { IqPayload::Disco(Disco { .. }) => true, _ => false, }); } }