/*
* Copyright (c) 2021, Idan Horowitz <idan.horowitz@serenityos.org>
* Copyright (c) 2021, the SerenityOS developers.
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <AK/URLParser.h>
#include <LibWeb/URL/URL.h>
namespace Web::URL {
DOM::ExceptionOr<NonnullRefPtr<URL>> URL::create_with_global_object(Bindings::WindowObject& window_object, String const& url, String const& base)
{
// 1. Let parsedBase be null.
Optional<AK::URL> parsed_base;
// 2. If base is given, then:
if (!base.is_null()) {
// 1. Let parsedBase be the result of running the basic URL parser on base.
parsed_base = base;
// 2. If parsedBase is failure, then throw a TypeError.
if (!parsed_base->is_valid())
return DOM::SimpleException { DOM::SimpleExceptionType::TypeError, "Invalid base URL" };
}
// 3. Let parsedURL be the result of running the basic URL parser on url with parsedBase.
AK::URL parsed_url;
if (parsed_base.has_value())
parsed_url = parsed_base->complete_url(url);
else
parsed_url = url;
// 4. If parsedURL is failure, then throw a TypeError.
if (!parsed_url.is_valid())
return DOM::SimpleException { DOM::SimpleExceptionType::TypeError, "Invalid URL" };
// 5. Let query be parsedURL’s query, if that is non-null, and the empty string otherwise.
auto& query = parsed_url.query().is_null() ? String::empty() : parsed_url.query();
// 6. Set this’s URL to parsedURL.
// 7. Set this’s query object to a new URLSearchParams object.
auto query_object = MUST(URLSearchParams::create_with_global_object(window_object, query));
// 8. Initialize this’s query object with query.
auto result_url = URL::create(move(parsed_url), move(query_object));
// 9. Set this’s query object’s URL object to this.
result_url->m_query->m_url = result_url;
return result_url;
}
String URL::href() const
{
// return the serialization of this’s URL.
return m_url.serialize();
}
String URL::to_json() const
{
// return the serialization of this’s URL.
return m_url.serialize();
}
DOM::ExceptionOr<void> URL::set_href(String const& href)
{
// 1. Let parsedURL be the result of running the basic URL parser on the given value.
AK::URL parsed_url = href;
// 2. If parsedURL is failure, then throw a TypeError.
if (!parsed_url.is_valid())
return DOM::SimpleException { DOM::SimpleExceptionType::TypeError, "Invalid URL" };
// 3. Set this’s URL to parsedURL.
m_url = move(parsed_url);
// 4. Empty this’s query object’s list.
m_query->m_list.clear();
// 5. Let query be this’s URL’s query.
auto& query = m_url.query();
// 6. If query is non-null, then set this’s query object’s list to the result of parsing query.
if (!query.is_null())
m_query->m_list = url_decode(query);
return {};
}
String URL::origin() const
{
// return the serialization of this’s URL’s origin.
return m_url.serialize_origin();
}
String URL::protocol() const
{
// return this’s URL’s scheme, followed by U+003A (:).
return String::formatted("{}:", m_url.scheme());
}
void URL::set_protocol(String const& protocol)
{
// basic URL parse the given value, followed by U+003A (:), with this’s URL as url and scheme start state as state override.
auto result_url = URLParser::parse(String::formatted("{}:", protocol), nullptr, m_url, URLParser::State::SchemeStart);
if (result_url.is_valid())
m_url = move(result_url);
}
String URL::username() const
{
// return this’s URL’s username.
return m_url.username();
}
void URL::set_username(String const& username)
{
// 1. If this’s URL cannot have a username/password/port, then return.
if (m_url.cannot_have_a_username_or_password_or_port())
return;
// 2. Set the username given this’s URL and the given value.
m_url.set_username(AK::URL::percent_encode(username, AK::URL::PercentEncodeSet::Userinfo));
}
String URL::password() const
{
// return this’s URL’s password.
return m_url.password();
}
void URL::set_password(String const& password)
{
// 1. If this’s URL cannot have a username/password/port, then return.
if (m_url.cannot_have_a_username_or_password_or_port())
return;
// 2. Set the password given this’s URL and the given value.
m_url.set_password(AK::URL::percent_encode(password, AK::URL::PercentEncodeSet::Userinfo));
}
String URL::host() const
{
// 1. Let url be this’s URL.
auto& url = m_url;
// 2. If url’s host is null, then return the empty string.
if (url.host().is_null())
return String::empty();
// 3. If url’s port is null, return url’s host, serialized.
if (!url.port().has_value())
return url.host();
// 4. Return url’s host, serialized, followed by U+003A (:) and url’s port, serialized.
return String::formatted("{}:{}", url.host(), *url.port());
}
void URL::set_host(String const& host)
{
// 1. If this’s URL’s cannot-be-a-base-URL is true, then return.
if (m_url.cannot_be_a_base_url())
return;
// 2. Basic URL parse the given value with this’s URL as url and host state as state override.
auto result_url = URLParser::parse(host, nullptr, m_url, URLParser::State::Host);
if (result_url.is_valid())
m_url = move(result_url);
}
String URL::hostname() const
{
// 1. If this’s URL’s host is null, then return the empty string.
if (m_url.host().is_null())
return String::empty();
// 2. Return this’s URL’s host, serialized.
return m_url.host();
}
void URL::set_hostname(String const& hostname)
{
// 1. If this’s URL’s cannot-be-a-base-URL is true, then return.
if (m_url.cannot_be_a_base_url())
return;
// 2. Basic URL parse the given value with this’s URL as url and hostname state as state override.
auto result_url = URLParser::parse(hostname, nullptr, m_url, URLParser::State::Hostname);
if (result_url.is_valid())
m_url = move(result_url);
}
String URL::port() const
{
// 1. If this’s URL’s port is null, then return the empty string.
if (!m_url.port().has_value())
return {};
// 2. Return this’s URL’s port, serialized.
return String::formatted("{}", *m_url.port());
}
void URL::set_port(String const& port)
{
// 1. If this’s URL cannot have a username/password/port, then return.
if (m_url.cannot_have_a_username_or_password_or_port())
return;
// 2. If the given value is the empty string, then set this’s URL’s port to null.
if (port.is_empty()) {
m_url.set_port({});
return;
}
// 3. Otherwise, basic URL parse the given value with this’s URL as url and port state as state override.
auto result_url = URLParser::parse(port, nullptr, m_url, URLParser::State::Port);
if (result_url.is_valid())
m_url = move(result_url);
}
String URL::pathname() const
{
// 1. If this’s URL’s cannot-be-a-base-URL is true, then return this’s URL’s path[0].
// 2. If this’s URL’s path is empty, then return the empty string.
// 3. Return U+002F (/), followed by the strings in this’s URL’s path (including empty strings), if any, separated from each other by U+002F (/).
return m_url.path();
}
void URL::set_pathname(String const& pathname)
{
// 1. If this’s URL’s cannot-be-a-base-URL is true, then return.
if (m_url.cannot_be_a_base_url())
return;
// 2. Empty this’s URL’s path.
auto url = m_url; // We copy the URL here to follow other browser's behaviour of reverting the path change if the parse failed.
url.set_paths({});
// 3. Basic URL parse the given value with this’s URL as url and path start state as state override.
auto result_url = URLParser::parse(pathname, nullptr, move(url), URLParser::State::PathStart);
if (result_url.is_valid())
m_url = move(result_url);
}
String URL::search() const
{
// 1. If this’s URL’s query is either null or the empty string, then return the empty string.
if (m_url.query().is_null() || m_url.query().is_empty())
return String::empty();
// 2. Return U+003F (?), followed by this’s URL’s query.
return String::formatted("?{}", m_url.query());
}
void URL::set_search(String const& search)
{
// 1. Let url be this’s URL.
auto& url = m_url;
// If the given value is the empty string, set url’s query to null, empty this’s query object’s list, and then return.
if (search.is_empty()) {
url.set_query({});
m_query->m_list.clear();
return;
}
// 2. Let input be the given value with a single leading U+003F (?) removed, if any.
auto input = search.substring_view(search.starts_with('?'));
// 3. Set url’s query to the empty string.
auto url_copy = url; // We copy the URL here to follow other browser's behaviour of reverting the search change if the parse failed.
url_copy.set_query(String::empty());
// 4. Basic URL parse input with url as url and query state as state override.
auto result_url = URLParser::parse(input, nullptr, move(url_copy), URLParser::State::Query);
if (result_url.is_valid()) {
m_url = move(result_url);
// 5. Set this’s query object’s list to the result of parsing input.
m_query->m_list = url_decode(input);
}
}
URLSearchParams const* URL::search_params() const
{
return m_query;
}
String URL::hash() const
{
// 1. If this’s URL’s fragment is either null or the empty string, then return the empty string.
if (m_url.fragment().is_null() || m_url.fragment().is_empty())
return String::empty();
// 2. Return U+0023 (#), followed by this’s URL’s fragment.
return String::formatted("#{}", m_url.fragment());
}
void URL::set_hash(String const& hash)
{
// 1. If the given value is the empty string, then set this’s URL’s fragment to null and return.
if (hash.is_empty()) {
m_url.set_fragment({});
return;
}
// 2. Let input be the given value with a single leading U+0023 (#) removed, if any.
auto input = hash.substring_view(hash.starts_with('#'));
// 3. Set this’s URL’s fragment to the empty string.
auto url = m_url; // We copy the URL here to follow other browser's behaviour of reverting the hash change if the parse failed.
url.set_fragment(String::empty());
// 4. Basic URL parse input with this’s URL as url and fragment state as state override.
auto result_url = URLParser::parse(input, nullptr, move(url), URLParser::State::Fragment);
if (result_url.is_valid())
m_url = move(result_url);
}
}