xmpp-rs/src/xmpp_codec.rs

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//! XML stream parser for XMPP
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use crate::{ParseError, ParserError};
use bytes::{BufMut, BytesMut};
use minidom::Element;
use quick_xml::Writer as EventWriter;
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use std;
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use std::cell::RefCell;
use std::collections::vec_deque::VecDeque;
use std::collections::HashMap;
use std::default::Default;
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use std::fmt::Write;
use std::io;
use std::iter::FromIterator;
use std::rc::Rc;
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use std::str::from_utf8;
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use tokio_codec::{Decoder, Encoder};
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use xml5ever::interface::Attribute;
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use xml5ever::tokenizer::{Tag, TagKind, Token, TokenSink, XmlTokenizer};
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/// Anything that can be sent or received on an XMPP/XML stream
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#[derive(Debug, Clone, PartialEq, Eq)]
pub enum Packet {
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/// `<stream:stream>` start tag
StreamStart(HashMap<String, String>),
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/// A complete stanza or nonza
Stanza(Element),
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/// Plain text (think whitespace keep-alive)
Text(String),
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/// `</stream:stream>` closing tag
StreamEnd,
}
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type QueueItem = Result<Packet, ParserError>;
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/// Parser state
struct ParserSink {
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// Ready stanzas, shared with XMPPCodec
queue: Rc<RefCell<VecDeque<QueueItem>>>,
// Parsing stack
stack: Vec<Element>,
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ns_stack: Vec<HashMap<Option<String>, String>>,
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}
impl ParserSink {
pub fn new(queue: Rc<RefCell<VecDeque<QueueItem>>>) -> Self {
ParserSink {
queue,
stack: vec![],
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ns_stack: vec![],
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}
}
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fn push_queue(&self, pkt: Packet) {
self.queue.borrow_mut().push_back(Ok(pkt));
}
fn push_queue_error(&self, e: ParserError) {
self.queue.borrow_mut().push_back(Err(e));
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}
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/// Lookup XML namespace declaration for given prefix (or no prefix)
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fn lookup_ns(&self, prefix: &Option<String>) -> Option<&str> {
for nss in self.ns_stack.iter().rev() {
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if let Some(ns) = nss.get(prefix) {
return Some(ns);
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}
}
None
}
fn handle_start_tag(&mut self, tag: Tag) {
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let mut nss = HashMap::new();
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let is_prefix_xmlns = |attr: &Attribute| {
attr.name
.prefix
.as_ref()
.map(|prefix| prefix.eq_str_ignore_ascii_case("xmlns"))
.unwrap_or(false)
};
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for attr in &tag.attrs {
match attr.name.local.as_ref() {
"xmlns" => {
nss.insert(None, attr.value.as_ref().to_owned());
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}
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prefix if is_prefix_xmlns(attr) => {
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nss.insert(Some(prefix.to_owned()), attr.value.as_ref().to_owned());
}
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_ => (),
}
}
self.ns_stack.push(nss);
let el = {
let mut el_builder = Element::builder(tag.name.local.as_ref());
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if let Some(el_ns) =
self.lookup_ns(&tag.name.prefix.map(|prefix| prefix.as_ref().to_owned()))
{
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el_builder = el_builder.ns(el_ns);
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}
for attr in &tag.attrs {
match attr.name.local.as_ref() {
"xmlns" => (),
_ if is_prefix_xmlns(attr) => (),
_ => {
if let Some(ref prefix) = attr.name.prefix {
el_builder = el_builder.attr(format!("{}:{}", prefix, attr.name.local), attr.value.as_ref());
} else {
el_builder = el_builder.attr(attr.name.local.as_ref(), attr.value.as_ref());
}
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}
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}
}
el_builder.build()
};
if self.stack.is_empty() {
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let attrs = HashMap::from_iter(tag.attrs.iter().map(|attr| {
(
attr.name.local.as_ref().to_owned(),
attr.value.as_ref().to_owned(),
)
}));
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self.push_queue(Packet::StreamStart(attrs));
}
self.stack.push(el);
}
fn handle_end_tag(&mut self) {
let el = self.stack.pop().unwrap();
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self.ns_stack.pop();
match self.stack.len() {
// </stream:stream>
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0 => self.push_queue(Packet::StreamEnd),
// </stanza>
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1 => self.push_queue(Packet::Stanza(el)),
len => {
let parent = &mut self.stack[len - 1];
parent.append_child(el);
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}
}
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}
}
impl TokenSink for ParserSink {
fn process_token(&mut self, token: Token) {
match token {
Token::TagToken(tag) => match tag.kind {
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TagKind::StartTag => self.handle_start_tag(tag),
TagKind::EndTag => self.handle_end_tag(),
TagKind::EmptyTag => {
self.handle_start_tag(tag);
self.handle_end_tag();
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}
TagKind::ShortTag => self.push_queue_error(ParserError::ShortTag),
},
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Token::CharacterTokens(tendril) => match self.stack.len() {
0 | 1 => self.push_queue(Packet::Text(tendril.into())),
len => {
let el = &mut self.stack[len - 1];
el.append_text_node(tendril);
}
},
Token::EOFToken => self.push_queue(Packet::StreamEnd),
Token::ParseError(s) => {
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// println!("ParseError: {:?}", s);
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self.push_queue_error(ParserError::Parse(ParseError(s)));
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}
_ => (),
}
}
// fn end(&mut self) {
// }
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}
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/// Stateful encoder/decoder for a bytestream from/to XMPP `Packet`
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pub struct XMPPCodec {
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/// Outgoing
ns: Option<String>,
/// Incoming
parser: XmlTokenizer<ParserSink>,
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/// For handling incoming truncated utf8
// TODO: optimize using tendrils?
buf: Vec<u8>,
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/// Shared with ParserSink
queue: Rc<RefCell<VecDeque<QueueItem>>>,
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}
impl XMPPCodec {
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/// Constructor
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pub fn new() -> Self {
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let queue = Rc::new(RefCell::new(VecDeque::new()));
let sink = ParserSink::new(queue.clone());
// TODO: configure parser?
let parser = XmlTokenizer::new(sink, Default::default());
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XMPPCodec {
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ns: None,
parser,
queue,
buf: vec![],
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}
}
}
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impl Default for XMPPCodec {
fn default() -> Self {
Self::new()
}
}
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impl Decoder for XMPPCodec {
type Item = Packet;
type Error = ParserError;
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fn decode(&mut self, buf: &mut BytesMut) -> Result<Option<Self::Item>, Self::Error> {
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let buf1: Box<AsRef<[u8]>> = if !self.buf.is_empty() && !buf.is_empty() {
let mut prefix = std::mem::replace(&mut self.buf, vec![]);
prefix.extend_from_slice(buf.take().as_ref());
Box::new(prefix)
} else {
Box::new(buf.take())
};
let buf1 = buf1.as_ref().as_ref();
match from_utf8(buf1) {
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Ok(s) => {
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if !s.is_empty() {
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// println!("<< {}", s);
let tendril = FromIterator::from_iter(s.chars());
self.parser.feed(tendril);
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}
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}
// Remedies for truncated utf8
Err(e) if e.valid_up_to() >= buf1.len() - 3 => {
// Prepare all the valid data
let mut b = BytesMut::with_capacity(e.valid_up_to());
b.put(&buf1[0..e.valid_up_to()]);
// Retry
let result = self.decode(&mut b);
// Keep the tail back in
self.buf.extend_from_slice(&buf1[e.valid_up_to()..]);
return result;
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}
Err(e) => {
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// println!("error {} at {}/{} in {:?}", e, e.valid_up_to(), buf1.len(), buf1);
return Err(ParserError::Utf8(e));
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}
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}
match self.queue.borrow_mut().pop_front() {
None => Ok(None),
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Some(result) => result.map(|pkt| Some(pkt)),
}
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}
fn decode_eof(&mut self, buf: &mut BytesMut) -> Result<Option<Self::Item>, Self::Error> {
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self.decode(buf)
}
}
impl Encoder for XMPPCodec {
type Item = Packet;
type Error = io::Error;
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fn encode(&mut self, item: Self::Item, dst: &mut BytesMut) -> Result<(), Self::Error> {
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let remaining = dst.capacity() - dst.len();
let max_stanza_size: usize = 2usize.pow(16);
if remaining < max_stanza_size {
dst.reserve(max_stanza_size - remaining);
}
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match item {
Packet::StreamStart(start_attrs) => {
let mut buf = String::new();
write!(buf, "<stream:stream").unwrap();
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for (name, value) in start_attrs {
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write!(buf, " {}=\"{}\"", escape(&name), escape(&value)).unwrap();
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if name == "xmlns" {
self.ns = Some(value);
}
}
write!(buf, ">\n").unwrap();
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print!(">> {}", buf);
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write!(dst, "{}", buf).map_err(|e| io::Error::new(io::ErrorKind::InvalidInput, e))
}
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Packet::Stanza(stanza) => {
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stanza
.write_to_inner(&mut EventWriter::new(WriteBytes::new(dst)))
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.and_then(|_| {
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// println!(">> {:?}", dst);
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Ok(())
})
.map_err(|e| io::Error::new(io::ErrorKind::InvalidInput, format!("{}", e)))
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}
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Packet::Text(text) => {
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write_text(&text, dst)
.and_then(|_| {
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// println!(">> {:?}", dst);
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Ok(())
})
.map_err(|e| io::Error::new(io::ErrorKind::InvalidInput, format!("{}", e)))
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}
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// TODO: Implement all
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_ => Ok(()),
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}
}
}
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/// Write XML-escaped text string
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pub fn write_text<W: Write>(text: &str, writer: &mut W) -> Result<(), std::fmt::Error> {
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write!(writer, "{}", escape(text))
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}
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/// Copied from `RustyXML` for now
pub fn escape(input: &str) -> String {
let mut result = String::with_capacity(input.len());
for c in input.chars() {
match c {
'&' => result.push_str("&amp;"),
'<' => result.push_str("&lt;"),
'>' => result.push_str("&gt;"),
'\'' => result.push_str("&apos;"),
'"' => result.push_str("&quot;"),
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o => result.push(o),
}
}
result
}
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/// BytesMut impl only std::fmt::Write but not std::io::Write. The
/// latter trait is required for minidom's
/// `Element::write_to_inner()`.
struct WriteBytes<'a> {
dst: &'a mut BytesMut,
}
impl<'a> WriteBytes<'a> {
fn new(dst: &'a mut BytesMut) -> Self {
WriteBytes { dst }
}
}
impl<'a> std::io::Write for WriteBytes<'a> {
fn write(&mut self, buf: &[u8]) -> std::result::Result<usize, std::io::Error> {
self.dst.put_slice(buf);
Ok(buf.len())
}
fn flush(&mut self) -> std::result::Result<(), std::io::Error> {
Ok(())
}
}
#[cfg(test)]
mod tests {
use super::*;
use bytes::BytesMut;
#[test]
fn test_stream_start() {
let mut c = XMPPCodec::new();
let mut b = BytesMut::with_capacity(1024);
b.put(r"<?xml version='1.0'?><stream:stream xmlns:stream='http://etherx.jabber.org/streams' version='1.0' xmlns='jabber:client'>");
let r = c.decode(&mut b);
assert!(match r {
Ok(Some(Packet::StreamStart(_))) => true,
_ => false,
});
}
#[test]
fn test_truncated_stanza() {
let mut c = XMPPCodec::new();
let mut b = BytesMut::with_capacity(1024);
b.put(r"<?xml version='1.0'?><stream:stream xmlns:stream='http://etherx.jabber.org/streams' version='1.0' xmlns='jabber:client'>");
let r = c.decode(&mut b);
assert!(match r {
Ok(Some(Packet::StreamStart(_))) => true,
_ => false,
});
b.clear();
b.put(r"<test>ß</test");
let r = c.decode(&mut b);
assert!(match r {
Ok(None) => true,
_ => false,
});
b.clear();
b.put(r">");
let r = c.decode(&mut b);
assert!(match r {
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Ok(Some(Packet::Stanza(ref el))) if el.name() == "test" && el.text() == "ß" => true,
_ => false,
});
}
#[test]
fn test_truncated_utf8() {
let mut c = XMPPCodec::new();
let mut b = BytesMut::with_capacity(1024);
b.put(r"<?xml version='1.0'?><stream:stream xmlns:stream='http://etherx.jabber.org/streams' version='1.0' xmlns='jabber:client'>");
let r = c.decode(&mut b);
assert!(match r {
Ok(Some(Packet::StreamStart(_))) => true,
_ => false,
});
b.clear();
b.put(&b"<test>\xc3"[..]);
let r = c.decode(&mut b);
assert!(match r {
Ok(None) => true,
_ => false,
});
b.clear();
b.put(&b"\x9f</test>"[..]);
let r = c.decode(&mut b);
assert!(match r {
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Ok(Some(Packet::Stanza(ref el))) if el.name() == "test" && el.text() == "ß" => true,
_ => false,
});
}
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/// test case for https://gitlab.com/xmpp-rs/tokio-xmpp/issues/3
#[test]
fn test_atrribute_prefix() {
let mut c = XMPPCodec::new();
let mut b = BytesMut::with_capacity(1024);
b.put(r"<?xml version='1.0'?><stream:stream xmlns:stream='http://etherx.jabber.org/streams' version='1.0' xmlns='jabber:client'>");
let r = c.decode(&mut b);
assert!(match r {
Ok(Some(Packet::StreamStart(_))) => true,
_ => false,
});
b.clear();
b.put(r"<status xml:lang='en'>Test status</status>");
let r = c.decode(&mut b);
assert!(match r {
Ok(Some(Packet::Stanza(ref el))) if el.name() == "status" && el.text() == "Test status" && el.attr("xml:lang").map_or(false, |a| a == "en") => true,
_ => false,
});
}
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/// By default, encode() only get's a BytesMut that has 8kb space reserved.
#[test]
fn test_large_stanza() {
use futures::{Future, Sink};
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use std::io::Cursor;
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use tokio_codec::FramedWrite;
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let framed = FramedWrite::new(Cursor::new(vec![]), XMPPCodec::new());
let mut text = "".to_owned();
for _ in 0..2usize.pow(15) {
text = text + "A";
}
let stanza = Element::builder("message")
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.append(Element::builder("body").append(&text).build())
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.build();
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let framed = framed.send(Packet::Stanza(stanza)).wait().expect("send");
assert_eq!(
framed.get_ref().get_ref(),
&("<message><body>".to_owned() + &text + "</body></message>").as_bytes()
);
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}
}