// 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 crate::date::DateTime; use crate::util::error::Error; use crate::hashes::Hash; use crate::jingle::{ContentId, Creator}; use crate::ns; use minidom::Element; use std::collections::BTreeMap; use std::str::FromStr; use try_from::TryFrom; generate_element!( /// Represents a range in a file. #[derive(PartialEq, Default)] Range, "range", JINGLE_FT, attributes: [ /// The offset in bytes from the beginning of the file. offset: Default = "offset", /// The length in bytes of the range, or None to be the entire /// remaining of the file. length: Option = "length" ], children: [ /// List of hashes for this range. hashes: Vec = ("hash", HASHES) => Hash ] ); impl Range { /// Creates a new range. pub fn new() -> Range { Default::default() } } type Lang = String; generate_id!( /// Wrapper for a file description. Desc ); /// Represents a file to be transferred. #[derive(Debug, Clone, Default)] pub struct File { /// The date of last modification of this file. pub date: Option, /// The MIME type of this file. pub media_type: Option, /// The name of this file. pub name: Option, /// The description of this file, possibly localised. pub descs: BTreeMap, /// The size of this file, in bytes. pub size: Option, /// Used to request only a part of this file. pub range: Option, /// A list of hashes matching this entire file. pub hashes: Vec, } impl File { /// Creates a new file descriptor. pub fn new() -> File { File::default() } /// Sets the date of last modification on this file. pub fn with_date(mut self, date: DateTime) -> File { self.date = Some(date); self } /// Sets the date of last modification on this file from an ISO-8601 /// string. pub fn with_date_str(mut self, date: &str) -> Result { self.date = Some(DateTime::from_str(date)?); Ok(self) } /// Sets the MIME type of this file. pub fn with_media_type(mut self, media_type: String) -> File { self.media_type = Some(media_type); self } /// Sets the name of this file. pub fn with_name(mut self, name: String) -> File { self.name = Some(name); self } /// Sets a description for this file. pub fn add_desc(mut self, lang: &str, desc: Desc) -> File { self.descs.insert(Lang::from(lang), desc); self } /// Sets the file size of this file, in bytes. pub fn with_size(mut self, size: u64) -> File { self.size = Some(size); self } /// Request only a range of this file. pub fn with_range(mut self, range: Range) -> File { self.range = Some(range); self } /// Add a hash on this file. pub fn add_hash(mut self, hash: Hash) -> File { self.hashes.push(hash); self } } impl TryFrom for File { type Err = Error; fn try_from(elem: Element) -> Result { check_self!(elem, "file", JINGLE_FT); check_no_attributes!(elem, "file"); let mut file = File { date: None, media_type: None, name: None, descs: BTreeMap::new(), size: None, range: None, hashes: vec![], }; for child in elem.children() { if child.is("date", ns::JINGLE_FT) { if file.date.is_some() { return Err(Error::ParseError("File must not have more than one date.")); } file.date = Some(child.text().parse()?); } else if child.is("media-type", ns::JINGLE_FT) { if file.media_type.is_some() { return Err(Error::ParseError( "File must not have more than one media-type.", )); } file.media_type = Some(child.text()); } else if child.is("name", ns::JINGLE_FT) { if file.name.is_some() { return Err(Error::ParseError("File must not have more than one name.")); } file.name = Some(child.text()); } else if child.is("desc", ns::JINGLE_FT) { let lang = get_attr!(child, "xml:lang", default); let desc = Desc(child.text()); if file.descs.insert(lang, desc).is_some() { return Err(Error::ParseError( "Desc element present twice for the same xml:lang.", )); } } else if child.is("size", ns::JINGLE_FT) { if file.size.is_some() { return Err(Error::ParseError("File must not have more than one size.")); } file.size = Some(child.text().parse()?); } else if child.is("range", ns::JINGLE_FT) { if file.range.is_some() { return Err(Error::ParseError("File must not have more than one range.")); } file.range = Some(Range::try_from(child.clone())?); } else if child.is("hash", ns::HASHES) { file.hashes.push(Hash::try_from(child.clone())?); } else { return Err(Error::ParseError("Unknown element in JingleFT file.")); } } Ok(file) } } impl From for Element { fn from(file: File) -> Element { let mut root = Element::builder("file").ns(ns::JINGLE_FT); if let Some(date) = file.date { root = root.append( Element::builder("date") .ns(ns::JINGLE_FT) .append(date) .build(), ); } if let Some(media_type) = file.media_type { root = root.append( Element::builder("media-type") .ns(ns::JINGLE_FT) .append(media_type) .build(), ); } if let Some(name) = file.name { root = root.append( Element::builder("name") .ns(ns::JINGLE_FT) .append(name) .build(), ); } for (lang, desc) in file.descs.into_iter() { root = root.append( Element::builder("desc") .ns(ns::JINGLE_FT) .attr("xml:lang", lang) .append(desc.0) .build(), ); } if let Some(size) = file.size { root = root.append( Element::builder("size") .ns(ns::JINGLE_FT) .append(format!("{}", size)) .build(), ); } if let Some(range) = file.range { root = root.append(range); } for hash in file.hashes { root = root.append(hash); } root.build() } } /// A wrapper element for a file. #[derive(Debug, Clone)] pub struct Description { /// The actual file descriptor. pub file: File, } impl TryFrom for Description { type Err = Error; fn try_from(elem: Element) -> Result { check_self!(elem, "description", JINGLE_FT, "JingleFT description"); check_no_attributes!(elem, "JingleFT description"); let mut file = None; for child in elem.children() { if file.is_some() { return Err(Error::ParseError( "JingleFT description element must have exactly one child.", )); } file = Some(File::try_from(child.clone())?); } if file.is_none() { return Err(Error::ParseError( "JingleFT description element must have exactly one child.", )); } Ok(Description { file: file.unwrap(), }) } } impl From for Element { fn from(description: Description) -> Element { Element::builder("description") .ns(ns::JINGLE_FT) .append(description.file) .build() } } /// A checksum for checking that the file has been transferred correctly. #[derive(Debug, Clone)] pub struct Checksum { /// The identifier of the file transfer content. pub name: ContentId, /// The creator of this file transfer. pub creator: Creator, /// The file being checksummed. pub file: File, } impl TryFrom for Checksum { type Err = Error; fn try_from(elem: Element) -> Result { check_self!(elem, "checksum", JINGLE_FT); check_no_unknown_attributes!(elem, "checksum", ["name", "creator"]); let mut file = None; for child in elem.children() { if file.is_some() { return Err(Error::ParseError( "JingleFT checksum element must have exactly one child.", )); } file = Some(File::try_from(child.clone())?); } if file.is_none() { return Err(Error::ParseError( "JingleFT checksum element must have exactly one child.", )); } Ok(Checksum { name: get_attr!(elem, "name", required), creator: get_attr!(elem, "creator", required), file: file.unwrap(), }) } } impl From for Element { fn from(checksum: Checksum) -> Element { Element::builder("checksum") .ns(ns::JINGLE_FT) .attr("name", checksum.name) .attr("creator", checksum.creator) .append(checksum.file) .build() } } generate_element!( /// A notice that the file transfer has been completed. Received, "received", JINGLE_FT, attributes: [ /// The content identifier of this Jingle session. name: Required = "name", /// The creator of this file transfer. creator: Required = "creator", ] ); #[cfg(test)] mod tests { use super::*; use crate::hashes::Algo; use base64; #[cfg(target_pointer_width = "32")] #[test] fn test_size() { assert_size!(Range, 40); assert_size!(File, 128); assert_size!(Description, 128); assert_size!(Checksum, 144); assert_size!(Received, 16); } #[cfg(target_pointer_width = "64")] #[test] fn test_size() { assert_size!(Range, 48); assert_size!(File, 184); assert_size!(Description, 184); assert_size!(Checksum, 216); assert_size!(Received, 32); } #[test] fn test_description() { let elem: Element = r#" text/plain test.txt 2015-07-26T21:46:00+01:00 6144 w0mcJylzCn+AfvuGdqkty2+KP48= "# .parse() .unwrap(); let desc = Description::try_from(elem).unwrap(); assert_eq!(desc.file.media_type, Some(String::from("text/plain"))); assert_eq!(desc.file.name, Some(String::from("test.txt"))); assert_eq!(desc.file.descs, BTreeMap::new()); assert_eq!( desc.file.date, DateTime::from_str("2015-07-26T21:46:00+01:00").ok() ); assert_eq!(desc.file.size, Some(6144u64)); assert_eq!(desc.file.range, None); assert_eq!(desc.file.hashes[0].algo, Algo::Sha_1); assert_eq!( desc.file.hashes[0].hash, base64::decode("w0mcJylzCn+AfvuGdqkty2+KP48=").unwrap() ); } #[test] fn test_request() { let elem: Element = r#" w0mcJylzCn+AfvuGdqkty2+KP48= "# .parse() .unwrap(); let desc = Description::try_from(elem).unwrap(); assert_eq!(desc.file.media_type, None); assert_eq!(desc.file.name, None); assert_eq!(desc.file.descs, BTreeMap::new()); assert_eq!(desc.file.date, None); assert_eq!(desc.file.size, None); assert_eq!(desc.file.range, None); assert_eq!(desc.file.hashes[0].algo, Algo::Sha_1); assert_eq!( desc.file.hashes[0].hash, base64::decode("w0mcJylzCn+AfvuGdqkty2+KP48=").unwrap() ); } #[test] fn test_descs() { let elem: Element = r#" text/plain Fichier secret ! Secret file! w0mcJylzCn+AfvuGdqkty2+KP48= "# .parse() .unwrap(); let desc = Description::try_from(elem).unwrap(); assert_eq!( desc.file.descs.keys().cloned().collect::>(), ["en", "fr"] ); assert_eq!(desc.file.descs["en"], Desc(String::from("Secret file!"))); assert_eq!( desc.file.descs["fr"], Desc(String::from("Fichier secret !")) ); let elem: Element = r#" text/plain Fichier secret ! Secret file! w0mcJylzCn+AfvuGdqkty2+KP48= "# .parse() .unwrap(); let error = Description::try_from(elem).unwrap_err(); let message = match error { Error::ParseError(string) => string, _ => panic!(), }; assert_eq!(message, "Desc element present twice for the same xml:lang."); } #[test] fn test_received() { let elem: Element = "".parse().unwrap(); let received = Received::try_from(elem).unwrap(); assert_eq!(received.name, ContentId(String::from("coucou"))); assert_eq!(received.creator, Creator::Initiator); let elem2 = Element::from(received.clone()); let received2 = Received::try_from(elem2).unwrap(); assert_eq!(received2.name, ContentId(String::from("coucou"))); assert_eq!(received2.creator, Creator::Initiator); let elem: Element = "".parse().unwrap(); let error = Received::try_from(elem).unwrap_err(); let message = match error { Error::ParseError(string) => string, _ => panic!(), }; assert_eq!(message, "Unknown child in received element."); let elem: Element = "" .parse() .unwrap(); let error = Received::try_from(elem).unwrap_err(); let message = match error { Error::ParseError(string) => string, _ => panic!(), }; assert_eq!(message, "Required attribute 'name' missing."); let elem: Element = "".parse().unwrap(); let error = Received::try_from(elem).unwrap_err(); let message = match error { Error::ParseError(string) => string, _ => panic!(), }; assert_eq!(message, "Unknown value for 'creator' attribute."); } #[cfg(not(feature = "disable-validation"))] #[test] fn test_invalid_received() { let elem: Element = "".parse().unwrap(); let error = Received::try_from(elem).unwrap_err(); let message = match error { Error::ParseError(string) => string, _ => panic!(), }; assert_eq!(message, "Unknown attribute in received element."); } #[test] fn test_checksum() { let elem: Element = "w0mcJylzCn+AfvuGdqkty2+KP48=".parse().unwrap(); let hash = vec![ 195, 73, 156, 39, 41, 115, 10, 127, 128, 126, 251, 134, 118, 169, 45, 203, 111, 138, 63, 143, ]; let checksum = Checksum::try_from(elem).unwrap(); assert_eq!(checksum.name, ContentId(String::from("coucou"))); assert_eq!(checksum.creator, Creator::Initiator); assert_eq!( checksum.file.hashes, vec!(Hash { algo: Algo::Sha_1, hash: hash.clone() }) ); let elem2 = Element::from(checksum); let checksum2 = Checksum::try_from(elem2).unwrap(); assert_eq!(checksum2.name, ContentId(String::from("coucou"))); assert_eq!(checksum2.creator, Creator::Initiator); assert_eq!( checksum2.file.hashes, vec!(Hash { algo: Algo::Sha_1, hash: hash.clone() }) ); let elem: Element = "".parse().unwrap(); let error = Checksum::try_from(elem).unwrap_err(); let message = match error { Error::ParseError(string) => string, _ => panic!(), }; assert_eq!(message, "This is not a file element."); let elem: Element = "w0mcJylzCn+AfvuGdqkty2+KP48=".parse().unwrap(); let error = Checksum::try_from(elem).unwrap_err(); let message = match error { Error::ParseError(string) => string, _ => panic!(), }; assert_eq!(message, "Required attribute 'name' missing."); let elem: Element = "w0mcJylzCn+AfvuGdqkty2+KP48=".parse().unwrap(); let error = Checksum::try_from(elem).unwrap_err(); let message = match error { Error::ParseError(string) => string, _ => panic!(), }; assert_eq!(message, "Unknown value for 'creator' attribute."); } #[cfg(not(feature = "disable-validation"))] #[test] fn test_invalid_checksum() { let elem: Element = "w0mcJylzCn+AfvuGdqkty2+KP48=".parse().unwrap(); let error = Checksum::try_from(elem).unwrap_err(); let message = match error { Error::ParseError(string) => string, _ => panic!(), }; assert_eq!(message, "Unknown attribute in checksum element."); } #[test] fn test_range() { let elem: Element = "" .parse() .unwrap(); let range = Range::try_from(elem).unwrap(); assert_eq!(range.offset, 0); assert_eq!(range.length, None); assert_eq!(range.hashes, vec!()); let elem: Element = "kHp5RSzW/h7Gm1etSf90Mr5PC/k=".parse().unwrap(); let hashes = vec![Hash { algo: Algo::Sha_1, hash: vec![ 144, 122, 121, 69, 44, 214, 254, 30, 198, 155, 87, 173, 73, 255, 116, 50, 190, 79, 11, 249, ], }]; let range = Range::try_from(elem).unwrap(); assert_eq!(range.offset, 2048); assert_eq!(range.length, Some(1024)); assert_eq!(range.hashes, hashes); let elem2 = Element::from(range); let range2 = Range::try_from(elem2).unwrap(); assert_eq!(range2.offset, 2048); assert_eq!(range2.length, Some(1024)); assert_eq!(range2.hashes, hashes); } #[cfg(not(feature = "disable-validation"))] #[test] fn test_invalid_range() { let elem: Element = "" .parse() .unwrap(); let error = Range::try_from(elem).unwrap_err(); let message = match error { Error::ParseError(string) => string, _ => panic!(), }; assert_eq!(message, "Unknown attribute in range element."); } }