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use std::io::Cursor;
use quick_xml::Error as QError;
use quick_xml::events::{Event, BytesEnd, BytesStart, BytesText};
use quick_xml::writer::{ElementWriter, Writer};
use quick_xml::name::PrefixDeclaration;
use tokio::io::AsyncWrite;
use super::types::*;
//-------------- TRAITS ----------------------
/// Basic encode trait to make a type encodable
pub trait QuickWritable<C: Context> {
async fn write(&self, xml: &mut Writer<impl AsyncWrite+Unpin>, ctx: C) -> Result<(), QError>;
}
/// Encoding context
pub trait Context: Extension {
fn child(&self) -> Self;
fn create_dav_element(&self, name: &str) -> BytesStart;
async fn hook_error(&self, err: &Self::Error, xml: &mut Writer<impl AsyncWrite+Unpin>) -> Result<(), QError>;
}
/// -------------- NoExtension Encoding Context
impl Context for NoExtension {
fn child(&self) -> Self {
Self { root: false }
}
fn create_dav_element(&self, name: &str) -> BytesStart {
let mut start = BytesStart::new(format!("D:{}", name));
if self.root {
start.push_attribute(("xmlns:D", "DAV:"));
}
start
}
async fn hook_error(&self, err: &Disabled, xml: &mut Writer<impl AsyncWrite+Unpin>) -> Result<(), QError> {
unreachable!();
}
}
//--------------------- ENCODING --------------------
// --- XML ROOTS
impl<C: Context> QuickWritable<C> for Multistatus<C> {
async fn write(&self, xml: &mut Writer<impl AsyncWrite+Unpin>, ctx: C) -> Result<(), QError> {
let start = ctx.create_dav_element("multistatus");
let end = start.to_end();
xml.write_event_async(Event::Start(start.clone())).await?;
for response in self.responses.iter() {
response.write(xml, ctx.child()).await?;
}
if let Some(description) = &self.responsedescription {
description.write(xml, ctx.child()).await?;
}
xml.write_event_async(Event::End(end)).await?;
Ok(())
}
}
// --- XML inner elements
impl<C: Context> QuickWritable<C> for Href {
async fn write(&self, xml: &mut Writer<impl AsyncWrite+Unpin>, ctx: C) -> Result<(), QError> {
let start = ctx.create_dav_element("href");
let end = start.to_end();
xml.write_event_async(Event::Start(start.clone())).await?;
xml.write_event_async(Event::Text(BytesText::new(&self.0))).await?;
xml.write_event_async(Event::End(end)).await?;
Ok(())
}
}
impl<C: Context> QuickWritable<C> for Response<C> {
async fn write(&self, xml: &mut Writer<impl AsyncWrite+Unpin>, ctx: C) -> Result<(), QError> {
let start = ctx.create_dav_element("href");
let end = start.to_end();
xml.write_event_async(Event::Start(start.clone())).await?;
self.href.write(xml, ctx.child()).await?;
self.status_or_propstat.write(xml, ctx.child()).await?;
if let Some(error) = &self.error {
error.write(xml, ctx.child()).await?;
}
if let Some(responsedescription) = &self.responsedescription {
responsedescription.write(xml, ctx.child()).await?;
}
if let Some(location) = &self.location {
location.write(xml, ctx.child()).await?;
}
xml.write_event_async(Event::End(end)).await?;
Ok(())
}
}
impl<C: Context> QuickWritable<C> for StatusOrPropstat<C> {
async fn write(&self, xml: &mut Writer<impl AsyncWrite+Unpin>, ctx: C) -> Result<(), QError> {
match self {
Self::Status(status) => status.write(xml, ctx.child()).await,
Self::PropStat(propstat_list) => {
for propstat in propstat_list.iter() {
propstat.write(xml, ctx.child()).await?;
}
Ok(())
}
}
}
}
impl<C: Context> QuickWritable<C> for Status {
async fn write(&self, xml: &mut Writer<impl AsyncWrite+Unpin>, ctx: C) -> Result<(), QError> {
let start = ctx.create_dav_element("status");
let end = start.to_end();
xml.write_event_async(Event::Start(start.clone())).await?;
let txt = format!("HTTP/1.1 {} {}", self.0.as_str(), self.0.canonical_reason().unwrap_or("No reason"));
xml.write_event_async(Event::Text(BytesText::new(&txt))).await?;
xml.write_event_async(Event::End(end)).await?;
Ok(())
}
}
impl<C: Context> QuickWritable<C> for ResponseDescription {
async fn write(&self, xml: &mut Writer<impl AsyncWrite+Unpin>, ctx: C) -> Result<(), QError> {
let start = ctx.create_dav_element("responsedescription");
let end = start.to_end();
xml.write_event_async(Event::Start(start.clone())).await?;
xml.write_event_async(Event::Text(BytesText::new(&self.0))).await?;
xml.write_event_async(Event::End(end)).await?;
Ok(())
}
}
impl<C: Context> QuickWritable<C> for Location {
async fn write(&self, xml: &mut Writer<impl AsyncWrite+Unpin>, ctx: C) -> Result<(), QError> {
let start = ctx.create_dav_element("location");
let end = start.to_end();
xml.write_event_async(Event::Start(start.clone())).await?;
self.0.write(xml, ctx.child()).await?;
xml.write_event_async(Event::End(end)).await?;
Ok(())
}
}
impl<C: Context> QuickWritable<C> for PropStat<C> {
async fn write(&self, xml: &mut Writer<impl AsyncWrite+Unpin>, ctx: C) -> Result<(), QError> {
let start = ctx.create_dav_element("propstat");
let end = start.to_end();
xml.write_event_async(Event::Start(start.clone())).await?;
self.prop.write(xml, ctx.child()).await?;
self.status.write(xml, ctx.child()).await?;
if let Some(error) = &self.error {
error.write(xml, ctx.child()).await?;
}
if let Some(description) = &self.responsedescription {
description.write(xml, ctx.child()).await?;
}
xml.write_event_async(Event::End(end)).await?;
Ok(())
}
}
impl<C: Context> QuickWritable<C> for Prop<C> {
async fn write(&self, xml: &mut Writer<impl AsyncWrite+Unpin>, ctx: C) -> Result<(), QError> {
let start = ctx.create_dav_element("prop");
let end = start.to_end();
xml.write_event_async(Event::Start(start.clone())).await?;
for property in &self.0 {
property.write(xml, ctx.child()).await?;
}
xml.write_event_async(Event::End(end)).await?;
Ok(())
}
}
impl<C: Context> QuickWritable<C> for Property<C> {
async fn write(&self, xml: &mut Writer<impl AsyncWrite+Unpin>, ctx: C) -> Result<(), QError> {
use Property::*;
match self {
CreationDate(date) => unimplemented!(),
DisplayName(name) => unimplemented!(),
GetContentLanguage(lang) => unimplemented!(),
GetContentLength(len) => unimplemented!(),
GetContentType(ct) => unimplemented!(),
GetEtag(et) => unimplemented!(),
GetLastModified(dt) => unimplemented!(),
LockDiscovery(locks) => unimplemented!(),
ResourceType(res) => unimplemented!(),
SupportedLock(sup) => unimplemented!(),
Extension(inner) => unimplemented!(),
};
Ok(())
}
}
impl<C: Context> QuickWritable<C> for Error<C> {
async fn write(&self, xml: &mut Writer<impl AsyncWrite+Unpin>, ctx: C) -> Result<(), QError> {
let start = ctx.create_dav_element("error");
let end = start.to_end();
xml.write_event_async(Event::Start(start.clone())).await?;
for violation in &self.0 {
violation.write(xml, ctx.child()).await?;
}
xml.write_event_async(Event::End(end)).await?;
Ok(())
}
}
impl<C: Context> QuickWritable<C> for Violation<C> {
async fn write(&self, xml: &mut Writer<impl AsyncWrite+Unpin>, ctx: C) -> Result<(), QError> {
match self {
Violation::LockTokenMatchesRequestUri => xml.write_event_async(Event::Empty(ctx.create_dav_element("lock-token-matches-request-uri"))).await?,
Violation::LockTokenSubmitted(hrefs) => {
let start = ctx.create_dav_element("lock-token-submitted");
let end = start.to_end();
xml.write_event_async(Event::Start(start.clone())).await?;
for href in hrefs {
href.write(xml, ctx.child()).await?;
}
xml.write_event_async(Event::End(end)).await?;
},
Violation::NoConflictingLock(hrefs) => {
let start = ctx.create_dav_element("no-conflicting-lock");
let end = start.to_end();
xml.write_event_async(Event::Start(start.clone())).await?;
for href in hrefs {
href.write(xml, ctx.child()).await?;
}
xml.write_event_async(Event::End(end)).await?;
},
Violation::NoExternalEntities => xml.write_event_async(Event::Empty(ctx.create_dav_element("no-external-entities"))).await?,
Violation::PreservedLiveProperties => xml.write_event_async(Event::Empty(ctx.create_dav_element("preserved-live-properties"))).await?,
Violation::PropfindFiniteDepth => xml.write_event_async(Event::Empty(ctx.create_dav_element("propfind-finite-depth"))).await?,
Violation::CannotModifyProtectedProperty => xml.write_event_async(Event::Empty(ctx.create_dav_element("cannot-modify-protected-property"))).await?,
Violation::Extension(inner) => {
ctx.hook_error(inner, xml).await?;
},
};
Ok(())
}
}
#[cfg(test)]
mod tests {
use super::*;
use tokio::io::AsyncWriteExt;
/// To run only the unit tests and avoid the behavior ones:
/// cargo test --bin aerogramme
#[tokio::test]
async fn test_href() {
let mut buffer = Vec::new();
let mut tokio_buffer = tokio::io::BufWriter::new(&mut buffer);
let mut writer = Writer::new_with_indent(&mut tokio_buffer, b' ', 4);
let ctx = NoExtension { root: false };
Href("/SOGo/dav/so/".into()).write(&mut writer, ctx).await.expect("xml serialization");
tokio_buffer.flush().await.expect("tokio buffer flush");
assert_eq!(buffer.as_slice(), &b"<D:href>/SOGo/dav/so/</D:href>"[..]);
}
#[tokio::test]
async fn test_multistatus() {
let mut buffer = Vec::new();
let mut tokio_buffer = tokio::io::BufWriter::new(&mut buffer);
let mut writer = Writer::new_with_indent(&mut tokio_buffer, b' ', 4);
let ctx = NoExtension { root: true };
let xml = Multistatus { responses: vec![], responsedescription: Some(ResponseDescription("Hello world".into())) };
xml.write(&mut writer, ctx).await.expect("xml serialization");
tokio_buffer.flush().await.expect("tokio buffer flush");
let expected = r#"<D:multistatus xmlns:D="DAV:">
<D:responsedescription>Hello world</D:responsedescription>
</D:multistatus>"#;
let got = std::str::from_utf8(buffer.as_slice()).unwrap();
assert_eq!(got, expected);
}
}
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