use std::error::Error;
use std::fmt::{self, Formatter, Write};
use std::str;
use host::{Host, HostInternal};
use percent_encoding::{percent_encode, utf8_percent_encode, AsciiSet, CONTROLS};
use query_encoding::EncodingOverride;
use Url;
const FRAGMENT: &AsciiSet = &CONTROLS.add(b' ').add(b'"').add(b'<').add(b'>').add(b'`');
const PATH: &AsciiSet = &FRAGMENT.add(b'#').add(b'?').add(b'{').add(b'}');
pub(crate) const USERINFO: &AsciiSet = &PATH
.add(b'/')
.add(b':')
.add(b';')
.add(b'=')
.add(b'@')
.add(b'[')
.add(b'\\')
.add(b']')
.add(b'^')
.add(b'|');
pub(crate) const PATH_SEGMENT: &AsciiSet = &PATH.add(b'/').add(b'%');
pub(crate) const SPECIAL_PATH_SEGMENT: &AsciiSet = &PATH_SEGMENT.add(b'\\');
const QUERY: &AsciiSet = &CONTROLS.add(b' ').add(b'"').add(b'#').add(b'<').add(b'>');
const SPECIAL_QUERY: &AsciiSet = &QUERY.add(b'\'');
pub type ParseResult<T> = Result<T, ParseError>;
macro_rules! simple_enum_error {
($($name: ident => $description: expr,)+) => {
#[derive(PartialEq, Eq, Clone, Copy, Debug)]
pub enum ParseError {
$(
$name,
)+
#[doc(hidden)]
__FutureProof,
}
impl Error for ParseError {
fn description(&self) -> &str {
match *self {
$(
ParseError::$name => $description,
)+
ParseError::__FutureProof => {
unreachable!("Don't abuse the FutureProof!");
}
}
}
}
}
}
simple_enum_error! {
EmptyHost => "empty host",
IdnaError => "invalid international domain name",
InvalidPort => "invalid port number",
InvalidIpv4Address => "invalid IPv4 address",
InvalidIpv6Address => "invalid IPv6 address",
InvalidDomainCharacter => "invalid domain character",
RelativeUrlWithoutBase => "relative URL without a base",
RelativeUrlWithCannotBeABaseBase => "relative URL with a cannot-be-a-base base",
SetHostOnCannotBeABaseUrl => "a cannot-be-a-base URL doesn’t have a host to set",
Overflow => "URLs more than 4 GB are not supported",
}
impl fmt::Display for ParseError {
fn fmt(&self, f: &mut Formatter) -> fmt::Result {
fmt::Display::fmt(self.description(), f)
}
}
impl From<::idna::Errors> for ParseError {
fn from(_: ::idna::Errors) -> ParseError {
ParseError::IdnaError
}
}
macro_rules! syntax_violation_enum {
($($name: ident => $description: expr,)+) => {
#[derive(PartialEq, Eq, Clone, Copy, Debug)]
pub enum SyntaxViolation {
$(
$name,
)+
#[doc(hidden)]
__FutureProof,
}
impl SyntaxViolation {
pub fn description(&self) -> &'static str {
match *self {
$(
SyntaxViolation::$name => $description,
)+
SyntaxViolation::__FutureProof => {
unreachable!("Don't abuse the FutureProof!");
}
}
}
}
}
}
syntax_violation_enum! {
Backslash => "backslash",
C0SpaceIgnored =>
"leading or trailing control or space character are ignored in URLs",
EmbeddedCredentials =>
"embedding authentication information (username or password) \
in an URL is not recommended",
ExpectedDoubleSlash => "expected //",
ExpectedFileDoubleSlash => "expected // after file:",
FileWithHostAndWindowsDrive => "file: with host and Windows drive letter",
NonUrlCodePoint => "non-URL code point",
NullInFragment => "NULL characters are ignored in URL fragment identifiers",
PercentDecode => "expected 2 hex digits after %",
TabOrNewlineIgnored => "tabs or newlines are ignored in URLs",
UnencodedAtSign => "unencoded @ sign in username or password",
}
impl fmt::Display for SyntaxViolation {
fn fmt(&self, f: &mut Formatter) -> fmt::Result {
fmt::Display::fmt(self.description(), f)
}
}
#[derive(Copy, Clone)]
pub enum SchemeType {
File,
SpecialNotFile,
NotSpecial,
}
impl SchemeType {
pub fn is_special(&self) -> bool {
!matches!(*self, SchemeType::NotSpecial)
}
pub fn is_file(&self) -> bool {
matches!(*self, SchemeType::File)
}
pub fn from(s: &str) -> Self {
match s {
"http" | "https" | "ws" | "wss" | "ftp" | "gopher" => SchemeType::SpecialNotFile,
"file" => SchemeType::File,
_ => SchemeType::NotSpecial,
}
}
}
pub fn default_port(scheme: &str) -> Option<u16> {
match scheme {
"http" | "ws" => Some(80),
"https" | "wss" => Some(443),
"ftp" => Some(21),
"gopher" => Some(70),
_ => None,
}
}
#[derive(Clone)]
pub struct Input<'i> {
chars: str::Chars<'i>,
}
impl<'i> Input<'i> {
pub fn new(input: &'i str) -> Self {
Input::with_log(input, None)
}
pub fn with_log(original_input: &'i str, vfn: Option<&dyn Fn(SyntaxViolation)>) -> Self {
let input = original_input.trim_matches(c0_control_or_space);
if let Some(vfn) = vfn {
if input.len() < original_input.len() {
vfn(SyntaxViolation::C0SpaceIgnored)
}
if input.chars().any(|c| matches!(c, '\t' | '\n' | '\r')) {
vfn(SyntaxViolation::TabOrNewlineIgnored)
}
}
Input {
chars: input.chars(),
}
}
#[inline]
pub fn is_empty(&self) -> bool {
self.clone().next().is_none()
}
#[inline]
fn starts_with<P: Pattern>(&self, p: P) -> bool {
p.split_prefix(&mut self.clone())
}
#[inline]
pub fn split_prefix<P: Pattern>(&self, p: P) -> Option<Self> {
let mut remaining = self.clone();
if p.split_prefix(&mut remaining) {
Some(remaining)
} else {
None
}
}
#[inline]
fn split_first(&self) -> (Option<char>, Self) {
let mut remaining = self.clone();
(remaining.next(), remaining)
}
#[inline]
fn count_matching<F: Fn(char) -> bool>(&self, f: F) -> (u32, Self) {
let mut count = 0;
let mut remaining = self.clone();
loop {
let mut input = remaining.clone();
if matches!(input.next(), Some(c) if f(c)) {
remaining = input;
count += 1;
} else {
return (count, remaining);
}
}
}
#[inline]
fn next_utf8(&mut self) -> Option<(char, &'i str)> {
loop {
let utf8 = self.chars.as_str();
match self.chars.next() {
Some(c) => {
if !matches!(c, '\t' | '\n' | '\r') {
return Some((c, &utf8[..c.len_utf8()]));
}
}
None => return None,
}
}
}
}
pub trait Pattern {
fn split_prefix<'i>(self, input: &mut Input<'i>) -> bool;
}
impl Pattern for char {
fn split_prefix<'i>(self, input: &mut Input<'i>) -> bool {
input.next() == Some(self)
}
}
impl<'a> Pattern for &'a str {
fn split_prefix<'i>(self, input: &mut Input<'i>) -> bool {
for c in self.chars() {
if input.next() != Some(c) {
return false;
}
}
true
}
}
impl<F: FnMut(char) -> bool> Pattern for F {
fn split_prefix<'i>(self, input: &mut Input<'i>) -> bool {
input.next().map_or(false, self)
}
}
impl<'i> Iterator for Input<'i> {
type Item = char;
fn next(&mut self) -> Option<char> {
self.chars
.by_ref()
.find(|&c| !matches!(c, '\t' | '\n' | '\r'))
}
}
pub struct Parser<'a> {
pub serialization: String,
pub base_url: Option<&'a Url>,
pub query_encoding_override: EncodingOverride<'a>,
pub violation_fn: Option<&'a dyn Fn(SyntaxViolation)>,
pub context: Context,
}
#[derive(PartialEq, Eq, Copy, Clone)]
pub enum Context {
UrlParser,
Setter,
PathSegmentSetter,
}
impl<'a> Parser<'a> {
fn log_violation(&self, v: SyntaxViolation) {
if let Some(f) = self.violation_fn {
f(v)
}
}
fn log_violation_if(&self, v: SyntaxViolation, test: impl FnOnce() -> bool) {
if let Some(f) = self.violation_fn {
if test() {
f(v)
}
}
}
pub fn for_setter(serialization: String) -> Parser<'a> {
Parser {
serialization,
base_url: None,
query_encoding_override: None,
violation_fn: None,
context: Context::Setter,
}
}
pub fn parse_url(mut self, input: &str) -> ParseResult<Url> {
let input = Input::with_log(input, self.violation_fn);
if let Ok(remaining) = self.parse_scheme(input.clone()) {
return self.parse_with_scheme(remaining);
}
if let Some(base_url) = self.base_url {
if input.starts_with('#') {
self.fragment_only(base_url, input)
} else if base_url.cannot_be_a_base() {
Err(ParseError::RelativeUrlWithCannotBeABaseBase)
} else {
let scheme_type = SchemeType::from(base_url.scheme());
if scheme_type.is_file() {
self.parse_file(input, scheme_type, Some(base_url))
} else {
self.parse_relative(input, scheme_type, base_url)
}
}
} else {
Err(ParseError::RelativeUrlWithoutBase)
}
}
pub fn parse_scheme<'i>(&mut self, mut input: Input<'i>) -> Result<Input<'i>, ()> {
if input.is_empty() || !input.starts_with(ascii_alpha) {
return Err(());
}
debug_assert!(self.serialization.is_empty());
while let Some(c) = input.next() {
match c {
'a'..='z' | 'A'..='Z' | '0'..='9' | '+' | '-' | '.' => {
self.serialization.push(c.to_ascii_lowercase())
}
':' => return Ok(input),
_ => {
self.serialization.clear();
return Err(());
}
}
}
if self.context == Context::Setter {
Ok(input)
} else {
self.serialization.clear();
Err(())
}
}
fn parse_with_scheme(mut self, input: Input) -> ParseResult<Url> {
use SyntaxViolation::{ExpectedDoubleSlash, ExpectedFileDoubleSlash};
let scheme_end = to_u32(self.serialization.len())?;
let scheme_type = SchemeType::from(&self.serialization);
self.serialization.push(':');
match scheme_type {
SchemeType::File => {
self.log_violation_if(ExpectedFileDoubleSlash, || !input.starts_with("//"));
let base_file_url = self.base_url.and_then(|base| {
if base.scheme() == "file" {
Some(base)
} else {
None
}
});
self.serialization.clear();
self.parse_file(input, scheme_type, base_file_url)
}
SchemeType::SpecialNotFile => {
let (slashes_count, remaining) = input.count_matching(|c| matches!(c, '/' | '\\'));
if let Some(base_url) = self.base_url {
if slashes_count < 2
&& base_url.scheme() == &self.serialization[..scheme_end as usize]
{
debug_assert!(!base_url.cannot_be_a_base());
self.serialization.clear();
return self.parse_relative(input, scheme_type, base_url);
}
}
self.log_violation_if(ExpectedDoubleSlash, || {
input
.clone()
.take_while(|&c| matches!(c, '/' | '\\'))
.collect::<String>()
!= "//"
});
self.after_double_slash(remaining, scheme_type, scheme_end)
}
SchemeType::NotSpecial => self.parse_non_special(input, scheme_type, scheme_end),
}
}
fn parse_non_special(
mut self,
input: Input,
scheme_type: SchemeType,
scheme_end: u32,
) -> ParseResult<Url> {
if let Some(input) = input.split_prefix("//") {
return self.after_double_slash(input, scheme_type, scheme_end);
}
let path_start = to_u32(self.serialization.len())?;
let username_end = path_start;
let host_start = path_start;
let host_end = path_start;
let host = HostInternal::None;
let port = None;
let remaining = if let Some(input) = input.split_prefix('/') {
let path_start = self.serialization.len();
self.serialization.push('/');
self.parse_path(scheme_type, &mut false, path_start, input)
} else {
self.parse_cannot_be_a_base_path(input)
};
self.with_query_and_fragment(
scheme_type,
scheme_end,
username_end,
host_start,
host_end,
host,
port,
path_start,
remaining,
)
}
fn parse_file(
mut self,
input: Input,
scheme_type: SchemeType,
mut base_file_url: Option<&Url>,
) -> ParseResult<Url> {
use SyntaxViolation::Backslash;
debug_assert!(self.serialization.is_empty());
let (first_char, input_after_first_char) = input.split_first();
match first_char {
None => {
if let Some(base_url) = base_file_url {
let before_fragment = match base_url.fragment_start {
Some(i) => &base_url.serialization[..i as usize],
None => &*base_url.serialization,
};
self.serialization.push_str(before_fragment);
Ok(Url {
serialization: self.serialization,
fragment_start: None,
..*base_url
})
} else {
self.serialization.push_str("file:///");
let scheme_end = "file".len() as u32;
let path_start = "file://".len() as u32;
Ok(Url {
serialization: self.serialization,
scheme_end,
username_end: path_start,
host_start: path_start,
host_end: path_start,
host: HostInternal::None,
port: None,
path_start,
query_start: None,
fragment_start: None,
})
}
}
Some('?') => {
if let Some(base_url) = base_file_url {
let before_query = match (base_url.query_start, base_url.fragment_start) {
(None, None) => &*base_url.serialization,
(Some(i), _) | (None, Some(i)) => base_url.slice(..i),
};
self.serialization.push_str(before_query);
let (query_start, fragment_start) =
self.parse_query_and_fragment(scheme_type, base_url.scheme_end, input)?;
Ok(Url {
serialization: self.serialization,
query_start,
fragment_start,
..*base_url
})
} else {
self.serialization.push_str("file:///");
let scheme_end = "file".len() as u32;
let path_start = "file://".len() as u32;
let (query_start, fragment_start) =
self.parse_query_and_fragment(scheme_type, scheme_end, input)?;
Ok(Url {
serialization: self.serialization,
scheme_end,
username_end: path_start,
host_start: path_start,
host_end: path_start,
host: HostInternal::None,
port: None,
path_start,
query_start,
fragment_start,
})
}
}
Some('#') => {
if let Some(base_url) = base_file_url {
self.fragment_only(base_url, input)
} else {
self.serialization.push_str("file:///");
let scheme_end = "file".len() as u32;
let path_start = "file://".len() as u32;
let fragment_start = "file:///".len() as u32;
self.serialization.push('#');
self.parse_fragment(input_after_first_char);
Ok(Url {
serialization: self.serialization,
scheme_end,
username_end: path_start,
host_start: path_start,
host_end: path_start,
host: HostInternal::None,
port: None,
path_start,
query_start: None,
fragment_start: Some(fragment_start),
})
}
}
Some('/') | Some('\\') => {
self.log_violation_if(Backslash, || first_char == Some('\\'));
let (next_char, input_after_next_char) = input_after_first_char.split_first();
self.log_violation_if(Backslash, || next_char == Some('\\'));
if matches!(next_char, Some('/') | Some('\\')) {
self.serialization.push_str("file://");
let scheme_end = "file".len() as u32;
let host_start = "file://".len() as u32;
let (path_start, mut host, remaining) =
self.parse_file_host(input_after_next_char)?;
let mut host_end = to_u32(self.serialization.len())?;
let mut has_host = !matches!(host, HostInternal::None);
let remaining = if path_start {
self.parse_path_start(SchemeType::File, &mut has_host, remaining)
} else {
let path_start = self.serialization.len();
self.serialization.push('/');
self.parse_path(SchemeType::File, &mut has_host, path_start, remaining)
};
if !has_host {
self.serialization
.drain(host_start as usize..host_end as usize);
host_end = host_start;
host = HostInternal::None;
}
let (query_start, fragment_start) =
self.parse_query_and_fragment(scheme_type, scheme_end, remaining)?;
Ok(Url {
serialization: self.serialization,
scheme_end,
username_end: host_start,
host_start,
host_end,
host,
port: None,
path_start: host_end,
query_start,
fragment_start,
})
} else {
self.serialization.push_str("file:///");
let scheme_end = "file".len() as u32;
let path_start = "file://".len();
if let Some(base_url) = base_file_url {
let first_segment = base_url.path_segments().unwrap().next().unwrap();
if is_windows_drive_letter(first_segment) {
self.serialization.push_str(first_segment);
self.serialization.push('/');
}
}
let remaining = self.parse_path(
SchemeType::File,
&mut false,
path_start,
input_after_first_char,
);
let (query_start, fragment_start) =
self.parse_query_and_fragment(scheme_type, scheme_end, remaining)?;
let path_start = path_start as u32;
Ok(Url {
serialization: self.serialization,
scheme_end,
username_end: path_start,
host_start: path_start,
host_end: path_start,
host: HostInternal::None,
port: None,
path_start,
query_start,
fragment_start,
})
}
}
_ => {
if starts_with_windows_drive_letter_segment(&input) {
base_file_url = None;
}
if let Some(base_url) = base_file_url {
let before_query = match (base_url.query_start, base_url.fragment_start) {
(None, None) => &*base_url.serialization,
(Some(i), _) | (None, Some(i)) => base_url.slice(..i),
};
self.serialization.push_str(before_query);
self.pop_path(SchemeType::File, base_url.path_start as usize);
let remaining = self.parse_path(
SchemeType::File,
&mut true,
base_url.path_start as usize,
input,
);
self.with_query_and_fragment(
SchemeType::File,
base_url.scheme_end,
base_url.username_end,
base_url.host_start,
base_url.host_end,
base_url.host,
base_url.port,
base_url.path_start,
remaining,
)
} else {
self.serialization.push_str("file:///");
let scheme_end = "file".len() as u32;
let path_start = "file://".len();
let remaining =
self.parse_path(SchemeType::File, &mut false, path_start, input);
let (query_start, fragment_start) =
self.parse_query_and_fragment(SchemeType::File, scheme_end, remaining)?;
let path_start = path_start as u32;
Ok(Url {
serialization: self.serialization,
scheme_end,
username_end: path_start,
host_start: path_start,
host_end: path_start,
host: HostInternal::None,
port: None,
path_start,
query_start,
fragment_start,
})
}
}
}
}
fn parse_relative(
mut self,
input: Input,
scheme_type: SchemeType,
base_url: &Url,
) -> ParseResult<Url> {
debug_assert!(self.serialization.is_empty());
let (first_char, input_after_first_char) = input.split_first();
match first_char {
None => {
let before_fragment = match base_url.fragment_start {
Some(i) => &base_url.serialization[..i as usize],
None => &*base_url.serialization,
};
self.serialization.push_str(before_fragment);
Ok(Url {
serialization: self.serialization,
fragment_start: None,
..*base_url
})
}
Some('?') => {
let before_query = match (base_url.query_start, base_url.fragment_start) {
(None, None) => &*base_url.serialization,
(Some(i), _) | (None, Some(i)) => base_url.slice(..i),
};
self.serialization.push_str(before_query);
let (query_start, fragment_start) =
self.parse_query_and_fragment(scheme_type, base_url.scheme_end, input)?;
Ok(Url {
serialization: self.serialization,
query_start,
fragment_start,
..*base_url
})
}
Some('#') => self.fragment_only(base_url, input),
Some('/') | Some('\\') => {
let (slashes_count, remaining) = input.count_matching(|c| matches!(c, '/' | '\\'));
if slashes_count >= 2 {
self.log_violation_if(SyntaxViolation::ExpectedDoubleSlash, || {
input
.clone()
.take_while(|&c| matches!(c, '/' | '\\'))
.collect::<String>()
!= "//"
});
let scheme_end = base_url.scheme_end;
debug_assert!(base_url.byte_at(scheme_end) == b':');
self.serialization
.push_str(base_url.slice(..scheme_end + 1));
return self.after_double_slash(remaining, scheme_type, scheme_end);
}
let path_start = base_url.path_start;
debug_assert!(base_url.byte_at(path_start) == b'/');
self.serialization
.push_str(base_url.slice(..path_start + 1));
let remaining = self.parse_path(
scheme_type,
&mut true,
path_start as usize,
input_after_first_char,
);
self.with_query_and_fragment(
scheme_type,
base_url.scheme_end,
base_url.username_end,
base_url.host_start,
base_url.host_end,
base_url.host,
base_url.port,
base_url.path_start,
remaining,
)
}
_ => {
let before_query = match (base_url.query_start, base_url.fragment_start) {
(None, None) => &*base_url.serialization,
(Some(i), _) | (None, Some(i)) => base_url.slice(..i),
};
self.serialization.push_str(before_query);
self.pop_path(scheme_type, base_url.path_start as usize);
let remaining =
self.parse_path(scheme_type, &mut true, base_url.path_start as usize, input);
self.with_query_and_fragment(
scheme_type,
base_url.scheme_end,
base_url.username_end,
base_url.host_start,
base_url.host_end,
base_url.host,
base_url.port,
base_url.path_start,
remaining,
)
}
}
}
fn after_double_slash(
mut self,
input: Input,
scheme_type: SchemeType,
scheme_end: u32,
) -> ParseResult<Url> {
self.serialization.push('/');
self.serialization.push('/');
let (username_end, remaining) = self.parse_userinfo(input, scheme_type)?;
let host_start = to_u32(self.serialization.len())?;
let (host_end, host, port, remaining) =
self.parse_host_and_port(remaining, scheme_end, scheme_type)?;
let path_start = to_u32(self.serialization.len())?;
let remaining = self.parse_path_start(scheme_type, &mut true, remaining);
self.with_query_and_fragment(
scheme_type,
scheme_end,
username_end,
host_start,
host_end,
host,
port,
path_start,
remaining,
)
}
fn parse_userinfo<'i>(
&mut self,
mut input: Input<'i>,
scheme_type: SchemeType,
) -> ParseResult<(u32, Input<'i>)> {
let mut last_at = None;
let mut remaining = input.clone();
let mut char_count = 0;
while let Some(c) = remaining.next() {
match c {
'@' => {
if last_at.is_some() {
self.log_violation(SyntaxViolation::UnencodedAtSign)
} else {
self.log_violation(SyntaxViolation::EmbeddedCredentials)
}
last_at = Some((char_count, remaining.clone()))
}
'/' | '?' | '#' => break,
'\\' if scheme_type.is_special() => break,
_ => (),
}
char_count += 1;
}
let (mut userinfo_char_count, remaining) = match last_at {
None => return Ok((to_u32(self.serialization.len())?, input)),
Some((0, remaining)) => return Ok((to_u32(self.serialization.len())?, remaining)),
Some(x) => x,
};
let mut username_end = None;
let mut has_password = false;
let mut has_username = false;
while userinfo_char_count > 0 {
let (c, utf8_c) = input.next_utf8().unwrap();
userinfo_char_count -= 1;
if c == ':' && username_end.is_none() {
username_end = Some(to_u32(self.serialization.len())?);
if userinfo_char_count > 0 {
self.serialization.push(':');
has_password = true;
}
} else {
if !has_password {
has_username = true;
}
self.check_url_code_point(c, &input);
self.serialization
.extend(utf8_percent_encode(utf8_c, USERINFO));
}
}
let username_end = match username_end {
Some(i) => i,
None => to_u32(self.serialization.len())?,
};
if has_username || has_password {
self.serialization.push('@');
}
Ok((username_end, remaining))
}
fn parse_host_and_port<'i>(
&mut self,
input: Input<'i>,
scheme_end: u32,
scheme_type: SchemeType,
) -> ParseResult<(u32, HostInternal, Option<u16>, Input<'i>)> {
let (host, remaining) = Parser::parse_host(input, scheme_type)?;
write!(&mut self.serialization, "{}", host).unwrap();
let host_end = to_u32(self.serialization.len())?;
let (port, remaining) = if let Some(remaining) = remaining.split_prefix(':') {
let scheme = || default_port(&self.serialization[..scheme_end as usize]);
Parser::parse_port(remaining, scheme, self.context)?
} else {
(None, remaining)
};
if let Some(port) = port {
write!(&mut self.serialization, ":{}", port).unwrap()
}
Ok((host_end, host.into(), port, remaining))
}
pub fn parse_host(
mut input: Input,
scheme_type: SchemeType,
) -> ParseResult<(Host<String>, Input)> {
let input_str = input.chars.as_str();
let mut inside_square_brackets = false;
let mut has_ignored_chars = false;
let mut non_ignored_chars = 0;
let mut bytes = 0;
for c in input_str.chars() {
match c {
':' if !inside_square_brackets => break,
'\\' if scheme_type.is_special() => break,
'/' | '?' | '#' => break,
'\t' | '\n' | '\r' => {
has_ignored_chars = true;
}
'[' => {
inside_square_brackets = true;
non_ignored_chars += 1
}
']' => {
inside_square_brackets = false;
non_ignored_chars += 1
}
_ => non_ignored_chars += 1,
}
bytes += c.len_utf8();
}
let replaced: String;
let host_str;
{
let host_input = input.by_ref().take(non_ignored_chars);
if has_ignored_chars {
replaced = host_input.collect();
host_str = &*replaced
} else {
for _ in host_input {}
host_str = &input_str[..bytes]
}
}
if scheme_type.is_special() && host_str.is_empty() {
return Err(ParseError::EmptyHost);
}
if !scheme_type.is_special() {
let host = Host::parse_opaque(host_str)?;
return Ok((host, input));
}
let host = Host::parse(host_str)?;
Ok((host, input))
}
pub(crate) fn parse_file_host<'i>(
&mut self,
input: Input<'i>,
) -> ParseResult<(bool, HostInternal, Input<'i>)> {
let input_str = input.chars.as_str();
let mut has_ignored_chars = false;
let mut non_ignored_chars = 0;
let mut bytes = 0;
for c in input_str.chars() {
match c {
'/' | '\\' | '?' | '#' => break,
'\t' | '\n' | '\r' => has_ignored_chars = true,
_ => non_ignored_chars += 1,
}
bytes += c.len_utf8();
}
let replaced: String;
let host_str;
let mut remaining = input.clone();
{
let host_input = remaining.by_ref().take(non_ignored_chars);
if has_ignored_chars {
replaced = host_input.collect();
host_str = &*replaced
} else {
for _ in host_input {}
host_str = &input_str[..bytes]
}
}
if is_windows_drive_letter(host_str) {
return Ok((false, HostInternal::None, input));
}
let host = if host_str.is_empty() {
HostInternal::None
} else {
match Host::parse(host_str)? {
Host::Domain(ref d) if d == "localhost" => HostInternal::None,
host => {
write!(&mut self.serialization, "{}", host).unwrap();
host.into()
}
}
};
Ok((true, host, remaining))
}
pub fn parse_port<P>(
mut input: Input,
default_port: P,
context: Context,
) -> ParseResult<(Option<u16>, Input)>
where
P: Fn() -> Option<u16>,
{
let mut port: u32 = 0;
let mut has_any_digit = false;
while let (Some(c), remaining) = input.split_first() {
if let Some(digit) = c.to_digit(10) {
port = port * 10 + digit;
if port > ::std::u16::MAX as u32 {
return Err(ParseError::InvalidPort);
}
has_any_digit = true;
} else if context == Context::UrlParser && !matches!(c, '/' | '\\' | '?' | '#') {
return Err(ParseError::InvalidPort);
} else {
break;
}
input = remaining;
}
let mut opt_port = Some(port as u16);
if !has_any_digit || opt_port == default_port() {
opt_port = None;
}
Ok((opt_port, input))
}
pub fn parse_path_start<'i>(
&mut self,
scheme_type: SchemeType,
has_host: &mut bool,
mut input: Input<'i>,
) -> Input<'i> {
match input.split_first() {
(Some('/'), remaining) => input = remaining,
(Some('\\'), remaining) => {
if scheme_type.is_special() {
self.log_violation(SyntaxViolation::Backslash);
input = remaining
}
}
_ => {}
}
let path_start = self.serialization.len();
self.serialization.push('/');
self.parse_path(scheme_type, has_host, path_start, input)
}
pub fn parse_path<'i>(
&mut self,
scheme_type: SchemeType,
has_host: &mut bool,
path_start: usize,
mut input: Input<'i>,
) -> Input<'i> {
debug_assert!(self.serialization.ends_with('/'));
loop {
let segment_start = self.serialization.len();
let mut ends_with_slash = false;
loop {
let input_before_c = input.clone();
let (c, utf8_c) = if let Some(x) = input.next_utf8() {
x
} else {
break;
};
match c {
'/' if self.context != Context::PathSegmentSetter => {
ends_with_slash = true;
break;
}
'\\' if self.context != Context::PathSegmentSetter
&& scheme_type.is_special() =>
{
self.log_violation(SyntaxViolation::Backslash);
ends_with_slash = true;
break;
}
'?' | '#' if self.context == Context::UrlParser => {
input = input_before_c;
break;
}
_ => {
self.check_url_code_point(c, &input);
if self.context == Context::PathSegmentSetter {
if scheme_type.is_special() {
self.serialization
.extend(utf8_percent_encode(utf8_c, SPECIAL_PATH_SEGMENT));
} else {
self.serialization
.extend(utf8_percent_encode(utf8_c, PATH_SEGMENT));
}
} else {
self.serialization.extend(utf8_percent_encode(utf8_c, PATH));
}
}
}
}
match &self.serialization[segment_start..] {
".." | "%2e%2e" | "%2e%2E" | "%2E%2e" | "%2E%2E" | "%2e." | "%2E." | ".%2e"
| ".%2E" => {
debug_assert!(self.serialization.as_bytes()[segment_start - 1] == b'/');
self.serialization.truncate(segment_start - 1); self.pop_path(scheme_type, path_start);
if !self.serialization[path_start..].ends_with('/') {
self.serialization.push('/')
}
}
"." | "%2e" | "%2E" => {
self.serialization.truncate(segment_start);
}
_ => {
if scheme_type.is_file()
&& is_windows_drive_letter(&self.serialization[path_start + 1..])
{
if self.serialization.ends_with('|') {
self.serialization.pop();
self.serialization.push(':');
}
if *has_host {
self.log_violation(SyntaxViolation::FileWithHostAndWindowsDrive);
*has_host = false; }
}
if ends_with_slash {
self.serialization.push('/')
}
}
}
if !ends_with_slash {
break;
}
}
input
}
fn pop_path(&mut self, scheme_type: SchemeType, path_start: usize) {
if self.serialization.len() > path_start {
let slash_position = self.serialization[path_start..].rfind('/').unwrap();
let segment_start = path_start + slash_position + 1;
if !(scheme_type.is_file()
&& is_windows_drive_letter(&self.serialization[segment_start..]))
{
self.serialization.truncate(segment_start);
}
}
}
pub fn parse_cannot_be_a_base_path<'i>(&mut self, mut input: Input<'i>) -> Input<'i> {
loop {
let input_before_c = input.clone();
match input.next_utf8() {
Some(('?', _)) | Some(('#', _)) if self.context == Context::UrlParser => {
return input_before_c
}
Some((c, utf8_c)) => {
self.check_url_code_point(c, &input);
self.serialization
.extend(utf8_percent_encode(utf8_c, CONTROLS));
}
None => return input,
}
}
}
fn with_query_and_fragment(
mut self,
scheme_type: SchemeType,
scheme_end: u32,
username_end: u32,
host_start: u32,
host_end: u32,
host: HostInternal,
port: Option<u16>,
path_start: u32,
remaining: Input,
) -> ParseResult<Url> {
let (query_start, fragment_start) =
self.parse_query_and_fragment(scheme_type, scheme_end, remaining)?;
Ok(Url {
serialization: self.serialization,
scheme_end,
username_end,
host_start,
host_end,
host,
port,
path_start,
query_start,
fragment_start,
})
}
fn parse_query_and_fragment(
&mut self,
scheme_type: SchemeType,
scheme_end: u32,
mut input: Input,
) -> ParseResult<(Option<u32>, Option<u32>)> {
let mut query_start = None;
match input.next() {
Some('#') => {}
Some('?') => {
query_start = Some(to_u32(self.serialization.len())?);
self.serialization.push('?');
let remaining = self.parse_query(scheme_type, scheme_end, input);
if let Some(remaining) = remaining {
input = remaining
} else {
return Ok((query_start, None));
}
}
None => return Ok((None, None)),
_ => panic!("Programming error. parse_query_and_fragment() called without ? or #"),
}
let fragment_start = to_u32(self.serialization.len())?;
self.serialization.push('#');
self.parse_fragment(input);
Ok((query_start, Some(fragment_start)))
}
pub fn parse_query<'i>(
&mut self,
scheme_type: SchemeType,
scheme_end: u32,
mut input: Input<'i>,
) -> Option<Input<'i>> {
let mut query = String::new(); let mut remaining = None;
while let Some(c) = input.next() {
if c == '#' && self.context == Context::UrlParser {
remaining = Some(input);
break;
} else {
self.check_url_code_point(c, &input);
query.push(c);
}
}
let encoding = match &self.serialization[..scheme_end as usize] {
"http" | "https" | "file" | "ftp" | "gopher" => self.query_encoding_override,
_ => None,
};
let query_bytes = ::query_encoding::encode(encoding, &query);
let set = if scheme_type.is_special() {
SPECIAL_QUERY
} else {
QUERY
};
self.serialization.extend(percent_encode(&query_bytes, set));
remaining
}
fn fragment_only(mut self, base_url: &Url, mut input: Input) -> ParseResult<Url> {
let before_fragment = match base_url.fragment_start {
Some(i) => base_url.slice(..i),
None => &*base_url.serialization,
};
debug_assert!(self.serialization.is_empty());
self.serialization
.reserve(before_fragment.len() + input.chars.as_str().len());
self.serialization.push_str(before_fragment);
self.serialization.push('#');
let next = input.next();
debug_assert!(next == Some('#'));
self.parse_fragment(input);
Ok(Url {
serialization: self.serialization,
fragment_start: Some(to_u32(before_fragment.len())?),
..*base_url
})
}
pub fn parse_fragment(&mut self, mut input: Input) {
while let Some((c, utf8_c)) = input.next_utf8() {
if c == '\0' {
self.log_violation(SyntaxViolation::NullInFragment)
} else {
self.check_url_code_point(c, &input);
self.serialization.extend(utf8_percent_encode(
utf8_c,
CONTROLS,
));
}
}
}
fn check_url_code_point(&self, c: char, input: &Input) {
if let Some(vfn) = self.violation_fn {
if c == '%' {
let mut input = input.clone();
if !matches!((input.next(), input.next()), (Some(a), Some(b))
if is_ascii_hex_digit(a) && is_ascii_hex_digit(b))
{
vfn(SyntaxViolation::PercentDecode)
}
} else if !is_url_code_point(c) {
vfn(SyntaxViolation::NonUrlCodePoint)
}
}
}
}
#[inline]
fn is_ascii_hex_digit(c: char) -> bool {
matches!(c, 'a'..='f' | 'A'..='F' | '0'..='9')
}
#[inline]
fn is_url_code_point(c: char) -> bool {
matches!(c,
'a'..='z' |
'A'..='Z' |
'0'..='9' |
'!' | '$' | '&' | '\'' | '(' | ')' | '*' | '+' | ',' | '-' |
'.' | '/' | ':' | ';' | '=' | '?' | '@' | '_' | '~' |
'\u{A0}'..='\u{D7FF}' | '\u{E000}'..='\u{FDCF}' | '\u{FDF0}'..='\u{FFFD}' |
'\u{10000}'..='\u{1FFFD}' | '\u{20000}'..='\u{2FFFD}' |
'\u{30000}'..='\u{3FFFD}' | '\u{40000}'..='\u{4FFFD}' |
'\u{50000}'..='\u{5FFFD}' | '\u{60000}'..='\u{6FFFD}' |
'\u{70000}'..='\u{7FFFD}' | '\u{80000}'..='\u{8FFFD}' |
'\u{90000}'..='\u{9FFFD}' | '\u{A0000}'..='\u{AFFFD}' |
'\u{B0000}'..='\u{BFFFD}' | '\u{C0000}'..='\u{CFFFD}' |
'\u{D0000}'..='\u{DFFFD}' | '\u{E1000}'..='\u{EFFFD}' |
'\u{F0000}'..='\u{FFFFD}' | '\u{100000}'..='\u{10FFFD}')
}
#[inline]
fn c0_control_or_space(ch: char) -> bool {
ch <= ' ' }
#[inline]
pub fn ascii_alpha(ch: char) -> bool {
matches!(ch, 'a'..='z' | 'A'..='Z')
}
#[inline]
pub fn to_u32(i: usize) -> ParseResult<u32> {
if i <= ::std::u32::MAX as usize {
Ok(i as u32)
} else {
Err(ParseError::Overflow)
}
}
fn is_windows_drive_letter(segment: &str) -> bool {
segment.len() == 2 && starts_with_windows_drive_letter(segment)
}
fn starts_with_windows_drive_letter(s: &str) -> bool {
ascii_alpha(s.as_bytes()[0] as char) && matches!(s.as_bytes()[1], b':' | b'|')
}
fn starts_with_windows_drive_letter_segment(input: &Input) -> bool {
let mut input = input.clone();
matches!((input.next(), input.next(), input.next()), (Some(a), Some(b), Some(c))
if ascii_alpha(a) && matches!(b, ':' | '|') && matches!(c, '/' | '\\' | '?' | '#'))
}