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use crate::Encoding;
use crate::reader::lexer::Token;
use std::borrow::Cow;
use std::error;
use std::error::Error as _;
use std::fmt;
use std::io;
use std::str;
use crate::common::{Position, TextPosition};
use crate::util;
#[derive(Debug)]
pub enum ErrorKind {
Syntax(Cow<'static, str>),
Io(io::Error),
Utf8(str::Utf8Error),
UnexpectedEof,
}
#[derive(Debug, Clone, PartialEq)]
#[non_exhaustive]
pub(crate) enum SyntaxError {
CannotRedefineXmlnsPrefix,
CannotRedefineXmlPrefix,
/// Recursive custom entity expanded to too many chars, it could be DoS
EntityTooBig,
EmptyEntity,
NoRootElement,
ProcessingInstructionWithoutName,
UnbalancedRootElement,
UnexpectedEof,
UnexpectedOpeningTag,
/// Missing `]]>`
UnclosedCdata,
UnexpectedQualifiedName(Token),
UnexpectedTokenOutsideRoot(Token),
UnexpectedToken(Token),
UnexpectedTokenInEntity(Token),
UnexpectedTokenInClosingTag(Token),
UnexpectedTokenInOpeningTag(Token),
InvalidQualifiedName(Box<str>),
UnboundAttribute(Box<str>),
UnboundElementPrefix(Box<str>),
UnexpectedClosingTag(Box<str>),
UnexpectedName(Box<str>),
/// Found <?xml-like PI not at the beginning of a document,
/// which is an error, see section 2.6 of XML 1.1 spec
UnexpectedProcessingInstruction(Box<str>, Token),
CannotUndefinePrefix(Box<str>),
InvalidCharacterEntity(u32),
InvalidDefaultNamespace(Box<str>),
InvalidNamePrefix(Box<str>),
InvalidNumericEntity(Box<str>),
InvalidStandaloneDeclaration(Box<str>),
InvalidXmlProcessingInstruction(Box<str>),
RedefinedAttribute(Box<str>),
UndefinedEntity(Box<str>),
UnexpectedEntity(Box<str>),
UnexpectedNameInsideXml(Box<str>),
UnsupportedEncoding(Box<str>),
/// In DTD
UnknownMarkupDeclaration(Box<str>),
UnexpectedXmlVersion(Box<str>),
ConflictingEncoding(Encoding, Encoding),
UnexpectedTokenBefore(&'static str, char),
/// Document has more stuff than `ParserConfig` allows
ExceededConfiguredLimit,
}
impl fmt::Display for SyntaxError {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
self.to_cow().fmt(f)
}
}
impl SyntaxError {
#[inline(never)]
#[cold]
pub(crate) fn to_cow(&self) -> Cow<'static, str> {
match *self {
Self::CannotRedefineXmlnsPrefix => "Cannot redefine XMLNS prefix".into(),
Self::CannotRedefineXmlPrefix => "Default XMLNS prefix cannot be rebound to another value".into(),
Self::EmptyEntity => "Encountered empty entity".into(),
Self::EntityTooBig => "Entity too big".into(),
Self::NoRootElement => "Unexpected end of stream: no root element found".into(),
Self::ProcessingInstructionWithoutName => "Encountered processing instruction without a name".into(),
Self::UnbalancedRootElement => "Unexpected end of stream: still inside the root element".into(),
Self::UnclosedCdata => "Unclosed <![CDATA[".into(),
Self::UnexpectedEof => "Unexpected end of stream".into(),
Self::UnexpectedOpeningTag => "'<' is not allowed in attributes".into(),
Self::CannotUndefinePrefix(ref ln) => format!("Cannot undefine prefix '{ln}'").into(),
Self::ConflictingEncoding(a, b) => format!("Declared encoding {a}, but uses {b}").into(),
Self::InvalidCharacterEntity(num) => format!("Invalid character U+{num:04X}").into(),
Self::InvalidDefaultNamespace(ref name) => format!( "Namespace '{name}' cannot be default").into(),
Self::InvalidNamePrefix(ref prefix) => format!("'{prefix}' cannot be an element name prefix").into(),
Self::InvalidNumericEntity(ref v) => format!("Invalid numeric entity: {v}").into(),
Self::InvalidQualifiedName(ref e) => format!("Qualified name is invalid: {e}").into(),
Self::InvalidStandaloneDeclaration(ref value) => format!("Invalid standalone declaration value: {value}").into(),
Self::InvalidXmlProcessingInstruction(ref name) => format!("Invalid processing instruction: <?{name} - \"<?xml\"-like PI is only valid at the beginning of the document").into(),
Self::RedefinedAttribute(ref name) => format!("Attribute '{name}' is redefined").into(),
Self::UnboundAttribute(ref name) => format!("Attribute {name} prefix is unbound").into(),
Self::UnboundElementPrefix(ref name) => format!("Element {name} prefix is unbound").into(),
Self::UndefinedEntity(ref v) => format!("Undefined entity: {v}").into(),
Self::UnexpectedClosingTag(ref expected_got) => format!("Unexpected closing tag: {expected_got}").into(),
Self::UnexpectedEntity(ref name) => format!("Unexpected entity: {name}").into(),
Self::UnexpectedName(ref name) => format!("Unexpected name: {name}").into(),
Self::UnexpectedNameInsideXml(ref name) => format!("Unexpected name inside XML declaration: {name}").into(),
Self::UnexpectedProcessingInstruction(ref buf, token) => format!("Unexpected token inside processing instruction: <?{buf}{token}").into(),
Self::UnexpectedQualifiedName(e) => format!("Unexpected token inside qualified name: {e}").into(),
Self::UnexpectedToken(token) => format!("Unexpected token: {token}").into(),
Self::UnexpectedTokenBefore(before, c) => format!("Unexpected token '{before}' before '{c}'").into(),
Self::UnexpectedTokenInClosingTag(token) => format!("Unexpected token inside closing tag: {token}").into(),
Self::UnexpectedTokenInEntity(token) => format!("Unexpected token inside entity: {token}").into(),
Self::UnexpectedTokenInOpeningTag(token) => format!("Unexpected token inside opening tag: {token}").into(),
Self::UnexpectedTokenOutsideRoot(token) => format!("Unexpected characters outside the root element: {token}").into(),
Self::UnexpectedXmlVersion(ref version) => format!("Invalid XML version: {version}").into(),
Self::UnknownMarkupDeclaration(ref v) => format!("Unknown markup declaration: {v}").into(),
Self::UnsupportedEncoding(ref v) => format!("Unsupported encoding: {v}").into(),
Self::ExceededConfiguredLimit => "This document is larger/more complex than allowed by the parser's configuration".into(),
}
}
}
/// An XML parsing error.
///
/// Consists of a 2D position in a document and a textual message describing the error.
#[derive(Clone, PartialEq, Eq, Debug)]
pub struct Error {
pub(crate) pos: TextPosition,
pub(crate) kind: ErrorKind,
}
impl fmt::Display for Error {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
use self::ErrorKind::{Io, Syntax, UnexpectedEof, Utf8};
write!(f, "{} ", self.pos)?;
match &self.kind {
Io(io_error) => io_error.fmt(f),
Utf8(reason) => reason.fmt(f),
Syntax(msg) => f.write_str(msg),
UnexpectedEof => f.write_str("Unexpected EOF"),
}
}
}
impl Position for Error {
#[inline]
fn position(&self) -> TextPosition { self.pos }
}
impl Error {
/// Returns a reference to a message which is contained inside this error.
#[cold]
#[doc(hidden)]
#[allow(deprecated)]
#[must_use] pub fn msg(&self) -> &str {
use self::ErrorKind::{Io, Syntax, UnexpectedEof, Utf8};
match &self.kind {
Io(io_error) => io_error.description(),
Utf8(reason) => reason.description(),
Syntax(msg) => msg.as_ref(),
UnexpectedEof => "Unexpected EOF",
}
}
#[must_use]
#[inline]
pub fn kind(&self) -> &ErrorKind {
&self.kind
}
}
impl error::Error for Error {
#[allow(deprecated)]
#[cold]
fn description(&self) -> &str { self.msg() }
}
impl<'a, P, M> From<(&'a P, M)> for Error where P: Position, M: Into<Cow<'static, str>> {
#[cold]
fn from(orig: (&'a P, M)) -> Self {
Error {
pos: orig.0.position(),
kind: ErrorKind::Syntax(orig.1.into()),
}
}
}
impl From<util::CharReadError> for Error {
#[cold]
fn from(e: util::CharReadError) -> Self {
use crate::util::CharReadError::{Io, UnexpectedEof, Utf8};
Error {
pos: TextPosition::new(),
kind: match e {
UnexpectedEof => ErrorKind::UnexpectedEof,
Utf8(reason) => ErrorKind::Utf8(reason),
Io(io_error) => ErrorKind::Io(io_error),
},
}
}
}
impl From<io::Error> for Error {
#[cold]
fn from(e: io::Error) -> Self {
Error {
pos: TextPosition::new(),
kind: ErrorKind::Io(e),
}
}
}
impl Clone for ErrorKind {
#[cold]
fn clone(&self) -> Self {
use self::ErrorKind::{Io, Syntax, UnexpectedEof, Utf8};
match self {
UnexpectedEof => UnexpectedEof,
Utf8(reason) => Utf8(*reason),
Io(io_error) => Io(io::Error::new(io_error.kind(), io_error.to_string())),
Syntax(msg) => Syntax(msg.clone()),
}
}
}
impl PartialEq for ErrorKind {
#[allow(deprecated)]
fn eq(&self, other: &ErrorKind) -> bool {
use self::ErrorKind::{Io, Syntax, UnexpectedEof, Utf8};
match (self, other) {
(UnexpectedEof, UnexpectedEof) => true,
(Utf8(left), Utf8(right)) => left == right,
(Io(left), Io(right)) =>
left.kind() == right.kind() &&
left.description() == right.description(),
(Syntax(left), Syntax(right)) =>
left == right,
(_, _) => false,
}
}
}
impl Eq for ErrorKind {}
#[test]
fn err_size() {
assert!(std::mem::size_of::<SyntaxError>() <= 24);
}
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