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//! Streaming DomParser implementation for XML using quick-xml.
extern crate alloc;
use alloc::borrow::Cow;
use alloc::string::String;
use alloc::vec::Vec;
use core::fmt;
use std::io::Cursor;
use facet_dom::{DomEvent, DomParser};
use quick_xml::NsReader;
use quick_xml::escape::resolve_xml_entity;
use quick_xml::events::Event;
use quick_xml::name::ResolveResult;
/// XML parsing error.
#[derive(Debug, Clone)]
pub enum XmlError {
/// Error from quick-xml.
Parse(String),
/// Unexpected end of input.
UnexpectedEof,
/// Unbalanced tags.
UnbalancedTags,
/// Invalid UTF-8.
InvalidUtf8(core::str::Utf8Error),
}
impl fmt::Display for XmlError {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
match self {
XmlError::Parse(msg) => write!(f, "XML parse error: {}", msg),
XmlError::UnexpectedEof => write!(f, "Unexpected end of XML"),
XmlError::UnbalancedTags => write!(f, "Unbalanced XML tags"),
XmlError::InvalidUtf8(e) => write!(f, "Invalid UTF-8 in XML: {}", e),
}
}
}
impl std::error::Error for XmlError {}
/// Streaming XML parser implementing `DomParser`.
pub struct XmlParser<'de> {
reader: NsReader<Cursor<&'de [u8]>>,
/// Original input for raw capture
input: &'de [u8],
/// Buffer for quick-xml events
buf: Vec<u8>,
/// Buffer for peeked event
peeked: Option<DomEvent<'de>>,
/// Stack tracking element depth for skip_node
depth: usize,
/// Pending attributes from the current element
pending_attrs: Vec<(Option<String>, String, String)>,
/// Index into pending_attrs
attr_idx: usize,
/// State machine for event generation
state: ParserState,
/// True if current element is empty (self-closing)
is_empty_element: bool,
/// Position where current node started (for raw capture)
node_start_pos: u64,
}
#[derive(Debug, Clone, Copy, PartialEq)]
enum ParserState {
/// Ready to read next XML event
Ready,
/// Just emitted NodeStart, need to emit attributes
EmittingAttrs,
/// Done emitting attrs, need to emit ChildrenStart
NeedChildrenStart,
/// Inside element children
InChildren,
/// Need to emit ChildrenEnd before NodeEnd
NeedChildrenEnd,
/// Need to emit NodeEnd
NeedNodeEnd,
/// End of document
Done,
}
impl<'de> XmlParser<'de> {
/// Create a new streaming XML parser.
pub fn new(input: &'de [u8]) -> Self {
trace!(input_len = input.len(), "creating XML parser");
let mut reader = NsReader::from_reader(Cursor::new(input));
reader.config_mut().trim_text(true);
Self {
reader,
input,
buf: Vec::new(),
peeked: None,
depth: 0,
pending_attrs: Vec::new(),
attr_idx: 0,
state: ParserState::Ready,
is_empty_element: false,
node_start_pos: 0,
}
}
/// Capture the current node as raw XML and skip past it.
/// Must be called right after a NodeStart event has been consumed.
fn do_capture_raw_node(&mut self) -> Result<Cow<'de, str>, XmlError> {
// Save start position before it gets overwritten by child elements
let start = self.node_start_pos as usize;
let start_depth = self.depth;
// Skip through the node - consume events until depth drops below starting
loop {
// Handle peeked event first
let event = if let Some(e) = self.peeked.take() {
Some(e)
} else {
self.read_next()?
};
match event {
Some(DomEvent::NodeEnd) if self.depth < start_depth => break,
None => break,
_ => {}
}
}
let end = self.reader.buffer_position() as usize;
let raw = &self.input[start..end];
let s = core::str::from_utf8(raw).map_err(XmlError::InvalidUtf8)?;
Ok(Cow::Borrowed(s))
}
/// Read the next raw event from quick-xml and convert to DomEvent.
fn read_next(&mut self) -> Result<Option<DomEvent<'de>>, XmlError> {
loop {
match self.state {
ParserState::Done => return Ok(None),
ParserState::EmittingAttrs => {
if self.attr_idx < self.pending_attrs.len() {
let (ns, name, value) = &self.pending_attrs[self.attr_idx];
let event = DomEvent::Attribute {
name: Cow::Owned(name.clone()),
value: Cow::Owned(value.clone()),
namespace: ns.clone().map(Cow::Owned),
};
self.attr_idx += 1;
return Ok(Some(event));
}
// Done with attrs
self.pending_attrs.clear();
self.attr_idx = 0;
self.state = ParserState::NeedChildrenStart;
}
ParserState::NeedChildrenStart => {
if self.is_empty_element {
self.state = ParserState::NeedChildrenEnd;
self.is_empty_element = false;
} else {
self.state = ParserState::InChildren;
}
return Ok(Some(DomEvent::ChildrenStart));
}
ParserState::NeedChildrenEnd => {
self.state = ParserState::NeedNodeEnd;
return Ok(Some(DomEvent::ChildrenEnd));
}
ParserState::NeedNodeEnd => {
self.depth -= 1;
self.state = if self.depth == 0 {
ParserState::Done
} else {
ParserState::InChildren
};
return Ok(Some(DomEvent::NodeEnd));
}
ParserState::Ready | ParserState::InChildren => {
// Record position before reading (for raw capture)
let pos_before = self.reader.buffer_position();
self.buf.clear();
let (resolve, event) = self
.reader
.read_resolved_event_into(&mut self.buf)
.map_err(|e| XmlError::Parse(e.to_string()))?;
// Resolve element namespace upfront
let elem_ns = resolve_namespace(resolve)?;
match event {
Event::Start(ref e) | Event::Empty(ref e) => {
let is_empty = matches!(event, Event::Empty(_));
// Record start position for potential raw capture
self.node_start_pos = pos_before;
// Get element local name
let local_name = e.local_name();
let local = core::str::from_utf8(local_name.as_ref())
.map_err(XmlError::InvalidUtf8)?;
let local_owned = local.to_string();
// Collect attributes
self.pending_attrs.clear();
self.attr_idx = 0;
for attr in e.attributes() {
let attr = attr.map_err(|e| XmlError::Parse(e.to_string()))?;
// Skip xmlns declarations
let key = attr.key;
if key.as_ref() == b"xmlns" {
continue;
}
if let Some(prefix) = key.prefix()
&& prefix.as_ref() == b"xmlns"
{
continue;
}
let (attr_resolve, _) =
self.reader.resolver().resolve_attribute(key);
let attr_ns = resolve_namespace(attr_resolve)?;
let attr_local_name = key.local_name();
let attr_local = core::str::from_utf8(attr_local_name.as_ref())
.map_err(XmlError::InvalidUtf8)?;
let value = attr
.unescape_value()
.map_err(|e| XmlError::Parse(e.to_string()))?;
self.pending_attrs.push((
attr_ns,
attr_local.to_string(),
value.into_owned(),
));
}
self.depth += 1;
self.is_empty_element = is_empty;
if self.pending_attrs.is_empty() {
self.state = ParserState::NeedChildrenStart;
} else {
self.state = ParserState::EmittingAttrs;
}
return Ok(Some(DomEvent::NodeStart {
tag: Cow::Owned(local_owned),
namespace: elem_ns.map(Cow::Owned),
}));
}
Event::End(_) => {
self.state = ParserState::NeedChildrenEnd;
}
Event::Text(e) => {
let text = e.decode().map_err(|e| XmlError::Parse(e.to_string()))?;
let trimmed = text.trim();
if !trimmed.is_empty() {
return Ok(Some(DomEvent::Text(Cow::Owned(trimmed.to_string()))));
}
}
Event::CData(e) => {
let text =
core::str::from_utf8(e.as_ref()).map_err(XmlError::InvalidUtf8)?;
if !text.is_empty() {
return Ok(Some(DomEvent::Text(Cow::Owned(text.to_string()))));
}
}
Event::Comment(e) => {
let text =
core::str::from_utf8(e.as_ref()).map_err(XmlError::InvalidUtf8)?;
return Ok(Some(DomEvent::Comment(Cow::Owned(text.to_string()))));
}
Event::PI(e) => {
let content =
core::str::from_utf8(e.as_ref()).map_err(XmlError::InvalidUtf8)?;
let (target, data) = content
.split_once(char::is_whitespace)
.unwrap_or((content, ""));
return Ok(Some(DomEvent::ProcessingInstruction {
target: Cow::Owned(target.to_string()),
data: Cow::Owned(data.trim().to_string()),
}));
}
Event::Decl(_) => {
// XML declaration - skip
}
Event::DocType(e) => {
// Parse DOCTYPE declaration and emit as DomEvent
let text =
core::str::from_utf8(e.as_ref()).map_err(XmlError::InvalidUtf8)?;
return Ok(Some(DomEvent::Doctype(Cow::Owned(text.to_string()))));
}
Event::Eof => {
self.state = ParserState::Done;
return Ok(None);
}
Event::GeneralRef(e) => {
let raw = e.decode().map_err(|e| XmlError::Parse(e.to_string()))?;
let resolved = resolve_entity(&raw)?;
return Ok(Some(DomEvent::Text(Cow::Owned(resolved))));
}
}
}
}
}
}
}
impl<'de> DomParser<'de> for XmlParser<'de> {
type Error = XmlError;
fn next_event(&mut self) -> Result<Option<DomEvent<'de>>, Self::Error> {
if let Some(event) = self.peeked.take() {
return Ok(Some(event));
}
self.read_next()
}
fn peek_event(&mut self) -> Result<Option<&DomEvent<'de>>, Self::Error> {
if self.peeked.is_none() {
self.peeked = self.read_next()?;
}
Ok(self.peeked.as_ref())
}
fn skip_node(&mut self) -> Result<(), Self::Error> {
let start_depth = self.depth;
loop {
let event = self.next_event()?;
match event {
Some(DomEvent::NodeEnd) => {
if self.depth < start_depth {
break;
}
}
None => break,
_ => {}
}
}
Ok(())
}
fn current_span(&self) -> Option<facet_reflect::Span> {
None
}
fn format_namespace(&self) -> Option<&'static str> {
Some("xml")
}
fn capture_raw_node(&mut self) -> Result<Option<Cow<'de, str>>, Self::Error> {
Ok(Some(self.do_capture_raw_node()?))
}
}
/// Resolve a namespace from quick-xml's ResolveResult.
fn resolve_namespace(resolve: ResolveResult<'_>) -> Result<Option<String>, XmlError> {
match resolve {
ResolveResult::Bound(ns) => Ok(Some(String::from_utf8_lossy(ns.as_ref()).into_owned())),
ResolveResult::Unbound => Ok(None),
ResolveResult::Unknown(_) => Ok(None),
}
}
/// Resolve a general entity reference.
fn resolve_entity(raw: &str) -> Result<String, XmlError> {
if let Some(resolved) = resolve_xml_entity(raw) {
return Ok(resolved.into());
}
if let Some(rest) = raw.strip_prefix('#') {
let code = if let Some(hex) = rest.strip_prefix('x').or_else(|| rest.strip_prefix('X')) {
u32::from_str_radix(hex, 16)
.map_err(|_| XmlError::Parse(format!("Invalid hex entity: #{}", rest)))?
} else {
rest.parse::<u32>()
.map_err(|_| XmlError::Parse(format!("Invalid decimal entity: #{}", rest)))?
};
let ch = char::from_u32(code)
.ok_or_else(|| XmlError::Parse(format!("Invalid Unicode: {}", code)))?;
return Ok(ch.to_string());
}
Ok(format!("&{};", raw))
}