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use futures::Future;
use quick_xml::events::{Event, BytesStart};
use quick_xml::name::ResolveResult;
use quick_xml::reader::NsReader;
use tokio::io::{AsyncWrite, AsyncBufRead};
use super::error::ParsingError;
// Constants
pub const DAV_URN: &[u8] = b"DAV:";
pub const CAL_URN: &[u8] = b"urn:ietf:params:xml:ns:caldav";
pub const CARD_URN: &[u8] = b"urn:ietf:params:xml:ns:carddav";
// Async traits
pub trait IWrite = AsyncWrite + Unpin + Send;
pub trait IRead = AsyncBufRead + Unpin;
// Serialization/Deserialization traits
pub trait QWrite {
fn qwrite(&self, xml: &mut Writer<impl IWrite>) -> impl Future<Output = Result<(), quick_xml::Error>> + Send;
}
pub trait QRead<T> {
fn qread(xml: &mut Reader<impl IRead>) -> impl Future<Output = Result<T, ParsingError>>;
}
// The representation of an XML node in Rust
pub trait Node<T> = QRead<T> + QWrite + std::fmt::Debug + PartialEq + Clone + Sync;
// ---------------
/// Transform a Rust object into an XML stream of characters
pub struct Writer<T: IWrite> {
pub q: quick_xml::writer::Writer<T>,
pub ns_to_apply: Vec<(String, String)>,
}
impl<T: IWrite> Writer<T> {
pub fn create_dav_element(&mut self, name: &str) -> BytesStart<'static> {
self.create_ns_element("D", name)
}
pub fn create_cal_element(&mut self, name: &str) -> BytesStart<'static> {
self.create_ns_element("C", name)
}
fn create_ns_element(&mut self, ns: &str, name: &str) -> BytesStart<'static> {
let mut start = BytesStart::new(format!("{}:{}", ns, name));
if !self.ns_to_apply.is_empty() {
start.extend_attributes(self.ns_to_apply.iter().map(|(k, n)| (k.as_str(), n.as_str())));
self.ns_to_apply.clear()
}
start
}
}
/// Transform an XML stream of characters into a Rust object
pub struct Reader<T: IRead> {
pub rdr: NsReader<T>,
cur: Event<'static>,
prev: Event<'static>,
parents: Vec<Event<'static>>,
buf: Vec<u8>,
}
impl<T: IRead> Reader<T> {
pub async fn new(mut rdr: NsReader<T>) -> Result<Self, ParsingError> {
let mut buf: Vec<u8> = vec![];
let cur = rdr.read_event_into_async(&mut buf).await?.into_owned();
let parents = vec![];
let prev = Event::Eof;
buf.clear();
Ok(Self { cur, prev, parents, rdr, buf })
}
/// read one more tag
/// do not expose it publicly
async fn next(&mut self) -> Result<Event<'static>, ParsingError> {
let evt = self.rdr.read_event_into_async(&mut self.buf).await?.into_owned();
self.buf.clear();
self.prev = std::mem::replace(&mut self.cur, evt);
Ok(self.prev.clone())
}
/// skip a node at current level
/// I would like to make this one private but not ready
pub async fn skip(&mut self) -> Result<Event<'static>, ParsingError> {
//println!("skipping inside node {:?} value {:?}", self.parents.last(), self.cur);
match &self.cur {
Event::Start(b) => {
let _span = self.rdr.read_to_end_into_async(b.to_end().name(), &mut self.buf).await?;
self.next().await
},
Event::End(_) => Err(ParsingError::WrongToken),
Event::Eof => Err(ParsingError::Eof),
_ => self.next().await,
}
}
/// check if this is the desired tag
fn is_tag(&self, ns: &[u8], key: &str) -> bool {
let qname = match self.peek() {
Event::Start(bs) | Event::Empty(bs) => bs.name(),
Event::End(be) => be.name(),
_ => return false,
};
let (extr_ns, local) = self.rdr.resolve_element(qname);
if local.into_inner() != key.as_bytes() {
return false
}
match extr_ns {
ResolveResult::Bound(v) => v.into_inner() == ns,
_ => false,
}
}
pub fn parent_has_child(&self) -> bool {
matches!(self.parents.last(), Some(Event::Start(_)) | None)
}
fn ensure_parent_has_child(&self) -> Result<(), ParsingError> {
match self.parent_has_child() {
true => Ok(()),
false => Err(ParsingError::Recoverable),
}
}
pub fn peek(&self) -> &Event<'static> {
&self.cur
}
pub fn previous(&self) -> &Event<'static> {
&self.prev
}
// NEW API
pub async fn tag_string(&mut self) -> Result<String, ParsingError> {
self.ensure_parent_has_child()?;
let mut acc = String::new();
loop {
match self.peek() {
Event::CData(unescaped) => {
acc.push_str(std::str::from_utf8(unescaped.as_ref())?);
self.next().await?
},
Event::Text(escaped) => {
acc.push_str(escaped.unescape()?.as_ref());
self.next().await?
}
Event::End(_) | Event::Start(_) | Event::Empty(_) => return Ok(acc),
_ => self.next().await?,
};
}
}
pub async fn maybe_read<N: Node<N>>(&mut self, t: &mut Option<N>, dirty: &mut bool) -> Result<(), ParsingError> {
if !self.parent_has_child() {
return Ok(())
}
match N::qread(self).await {
Ok(v) => {
*t = Some(v);
*dirty = true;
Ok(())
},
Err(ParsingError::Recoverable) => Ok(()),
Err(e) => Err(e),
}
}
pub async fn maybe_push<N: Node<N>>(&mut self, t: &mut Vec<N>, dirty: &mut bool) -> Result<(), ParsingError> {
if !self.parent_has_child() {
return Ok(())
}
match N::qread(self).await {
Ok(v) => {
t.push(v);
*dirty = true;
Ok(())
},
Err(ParsingError::Recoverable) => Ok(()),
Err(e) => Err(e),
}
}
pub async fn find<N: Node<N>>(&mut self) -> Result<N, ParsingError> {
self.ensure_parent_has_child()?;
loop {
// Try parse
match N::qread(self).await {
Err(ParsingError::Recoverable) => (),
otherwise => return otherwise,
}
// If recovered, skip the element
self.skip().await?;
}
}
pub async fn maybe_find<N: Node<N>>(&mut self) -> Result<Option<N>, ParsingError> {
self.ensure_parent_has_child()?;
loop {
// Try parse
match N::qread(self).await {
Err(ParsingError::Recoverable) => (),
otherwise => return otherwise.map(Some),
}
match self.peek() {
Event::End(_) => return Ok(None),
_ => self.skip().await?,
};
}
}
pub async fn collect<N: Node<N>>(&mut self) -> Result<Vec<N>, ParsingError> {
let mut acc = Vec::new();
if !self.parent_has_child() {
return Ok(acc)
}
loop {
match N::qread(self).await {
Err(ParsingError::Recoverable) => match self.peek() {
Event::End(_) => return Ok(acc),
_ => {
self.skip().await?;
},
},
Ok(v) => acc.push(v),
Err(e) => return Err(e),
}
}
}
pub async fn open(&mut self, ns: &[u8], key: &str) -> Result<Event<'static>, ParsingError> {
//println!("try open tag {:?}, on {:?}", key, self.peek());
let evt = match self.peek() {
Event::Empty(_) if self.is_tag(ns, key) => {
// hack to make `prev_attr` works
// here we duplicate the current tag
// as in other words, we virtually moved one token
// which is useful for prev_attr and any logic based on
// self.prev + self.open() on empty nodes
self.prev = self.cur.clone();
self.cur.clone()
},
Event::Start(_) if self.is_tag(ns, key) => self.next().await?,
_ => return Err(ParsingError::Recoverable),
};
//println!("open tag {:?}", evt);
self.parents.push(evt.clone());
Ok(evt)
}
pub async fn open_start(&mut self, ns: &[u8], key: &str) -> Result<Event<'static>, ParsingError> {
let evt = match self.peek() {
Event::Start(_) if self.is_tag(ns, key) => self.next().await?,
_ => return Err(ParsingError::Recoverable),
};
//println!("open tag {:?}", evt);
self.parents.push(evt.clone());
Ok(evt)
}
pub async fn maybe_open(&mut self, ns: &[u8], key: &str) -> Result<Option<Event<'static>>, ParsingError> {
match self.open(ns, key).await {
Ok(v) => Ok(Some(v)),
Err(ParsingError::Recoverable) => Ok(None),
Err(e) => Err(e),
}
}
pub async fn maybe_open_start(&mut self, ns: &[u8], key: &str) -> Result<Option<Event<'static>>, ParsingError> {
match self.open_start(ns, key).await {
Ok(v) => Ok(Some(v)),
Err(ParsingError::Recoverable) => Ok(None),
Err(e) => Err(e),
}
}
pub fn prev_attr(&self, attr: &str) -> Option<String> {
match &self.prev {
Event::Start(bs) | Event::Empty(bs) => match bs.try_get_attribute(attr) {
Ok(Some(attr)) => attr.decode_and_unescape_value(&self.rdr).ok().map(|v| v.into_owned()),
_ => None,
}
_ => None,
}
}
// find stop tag
pub async fn close(&mut self) -> Result<Event<'static>, ParsingError> {
//println!("close tag {:?}", self.parents.last());
// Handle the empty case
if !self.parent_has_child() {
self.parents.pop();
return self.next().await
}
// Handle the start/end case
loop {
match self.peek() {
Event::End(_) => {
self.parents.pop();
return self.next().await
},
_ => self.skip().await?,
};
}
}
}
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