/*
* Copyright (c) 2021, Max Wipfli <mail@maxwipfli.ch>
* Copyright (c) 2023-2024, Shannon Booth <shannon@serenityos.org>
* Copyright (c) 2024, Sam Atkins <sam@ladybird.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <LibURL/Host.h>
#include <LibURL/URL.h>
namespace URL {
Host::Host(VariantType&& value)
: m_value(move(value))
{
}
Host::Host(String&& string)
: m_value(move(string))
{
}
// https://url.spec.whatwg.org/#concept-ipv4-serializer
static String serialize_ipv4_address(IPv4Address address)
{
// 1. Let output be the empty string.
// NOTE: Array to avoid prepend.
Array<u8, 4> output;
// 2. Let n be the value of address.
u32 n = address;
// 3. For each i in the range 1 to 4, inclusive:
for (size_t i = 0; i <= 3; ++i) {
// 1. Prepend n % 256, serialized, to output.
output[3 - i] = n % 256;
// 2. If i is not 4, then prepend U+002E (.) to output.
// NOTE: done at end
// 3. Set n to floor(n / 256).
n /= 256;
}
// 4. Return output.
return MUST(String::formatted("{}.{}.{}.{}", output[0], output[1], output[2], output[3]));
}
// https://url.spec.whatwg.org/#find-the-ipv6-address-compressed-piece-index
static Optional<size_t> find_the_ipv6_address_compressed_piece_index(IPv6Address const& address)
{
// 1. Let longestIndex be null.
Optional<size_t> longest_index;
// 2. Let longestSize be 1.
size_t longest_size = 1;
// 3. Let foundIndex be null.
Optional<size_t> found_index;
// 4. Let foundSize be 0.
size_t found_size = 0;
// 5. For each pieceIndex of address’s pieces’s indices:
for (size_t piece_index = 0; piece_index < address.size(); ++piece_index) {
// 1. If address’s pieces[pieceIndex] is not 0:
if (address[piece_index] != 0) {
// 1. If foundSize is greater than longestSize, then set longestIndex to foundIndex and longestSize to foundSize.
if (found_size > longest_size) {
longest_index = found_index;
longest_size = found_size;
}
// 2. Set foundIndex to null.
found_index = {};
// 3. Set foundSize to 0.
found_size = 0;
}
// 2. Otherwise:
else {
// 1. If foundIndex is null, then set foundIndex to pieceIndex.
if (!found_index.has_value())
found_index = piece_index;
// 2. Increment foundSize by 1.
++found_size;
}
}
// 6. If foundSize is greater than longestSize, then return foundIndex.
if (found_size > longest_size)
return found_index;
// 7. Return longestIndex.
return longest_index;
}
// https://url.spec.whatwg.org/#concept-ipv6-serializer
static void serialize_ipv6_address(IPv6Address const& address, StringBuilder& output)
{
// 1. Let output be the empty string.
// 2. Let compress be the result of finding the IPv6 address compressed piece index given address.
auto compress = find_the_ipv6_address_compressed_piece_index(address);
// 3. Let ignore0 be false.
auto ignore0 = false;
// 4. For each pieceIndex of address’s pieces’s indices:
for (size_t piece_index = 0; piece_index < address.size(); ++piece_index) {
// 1. If ignore0 is true and address[pieceIndex] is 0, then continue.
if (ignore0 && address[piece_index] == 0)
continue;
// 2. Otherwise, if ignore0 is true, set ignore0 to false.
if (ignore0)
ignore0 = false;
// 3. If compress is pieceIndex, then:
if (compress == piece_index) {
// 1. Let separator be "::" if pieceIndex is 0, and U+003A (:) otherwise.
auto separator = piece_index == 0 ? "::"sv : ":"sv;
// 2. Append separator to output.
output.append(separator);
// 3. Set ignore0 to true and continue.
ignore0 = true;
continue;
}
// 4. Append address[pieceIndex], represented as the shortest possible lowercase hexadecimal number, to output.
output.appendff("{:x}", address[piece_index]);
// 5. If pieceIndex is not 7, then append U+003A (:) to output.
if (piece_index != 7)
output.append(':');
}
// 5. Return output.
}
// https://url.spec.whatwg.org/#concept-domain
bool Host::is_domain() const
{
// A domain is a non-empty ASCII string that identifies a realm within a network.
return m_value.has<String>() && !m_value.get<String>().is_empty();
}
// https://url.spec.whatwg.org/#empty-host
bool Host::is_empty_host() const
{
// An empty host is the empty string.
return m_value.has<String>() && m_value.get<String>().is_empty();
}
// https://url.spec.whatwg.org/#concept-host-serializer
String Host::serialize() const
{
return m_value.visit(
// 1. If host is an IPv4 address, return the result of running the IPv4 serializer on host.
[](IPv4Address const& address) {
return serialize_ipv4_address(address);
},
// 2. Otherwise, if host is an IPv6 address, return U+005B ([), followed by the result of running the IPv6 serializer on host, followed by U+005D (]).
[](IPv6Address const& address) {
StringBuilder output;
output.append('[');
serialize_ipv6_address(address, output);
output.append(']');
return output.to_string_without_validation();
},
// 3. Otherwise, host is a domain, opaque host, or empty host, return host.
[](String const& string) {
return string;
});
}
// https://url.spec.whatwg.org/#host-public-suffix
Optional<String> Host::public_suffix() const
{
// 1. If host is not a domain, then return null.
if (!is_domain())
return OptionalNone {};
auto const& host_string = m_value.get<String>();
// 2. Let trailingDot be "." if host ends with "."; otherwise the empty string.
auto trailing_dot = host_string.ends_with('.') ? "."sv : ""sv;
// 3. Let publicSuffix be the public suffix determined by running the Public Suffix List algorithm with host as domain. [PSL]
// NOTE: The spec algorithm for the public suffix returns "*" by default, but get_public_suffix() returns an empty Optional.
// Remove the `value_or()` if and when we update it.
auto public_suffix = get_public_suffix(host_string.bytes_as_string_view()).value_or("*"_string);
// 4. Assert: publicSuffix is an ASCII string that does not end with ".".
VERIFY(all_of(public_suffix.code_points(), is_ascii));
VERIFY(!public_suffix.ends_with('.'));
// 5. Return publicSuffix and trailingDot concatenated.
return MUST(String::formatted("{}{}", public_suffix, trailing_dot));
}
// https://url.spec.whatwg.org/#host-registrable-domain
Optional<String> Host::registrable_domain() const
{
// 1. If host’s public suffix is null or host’s public suffix equals host, then return null.
auto public_suffix = this->public_suffix();
if (!public_suffix.has_value() || public_suffix == m_value.get<String>())
return OptionalNone {};
// NOTE: If we got here, we know this Host is a String.
auto const& host_string = m_value.get<String>();
// 2. Let trailingDot be "." if host ends with "."; otherwise the empty string.
auto trailing_dot = host_string.ends_with('.') ? "."sv : ""sv;
// 3. Let registrableDomain be the registrable domain determined by running the Public Suffix List algorithm with host as domain. [PSL]
// NOTE: The spec algorithm for the public suffix returns "*" by default, but get_public_suffix() returns an empty Optional.
// Remove the `value_or()` if and when we update it.
auto registrable_domain = get_registrable_domain(host_string).value_or("*"_string);
// 4. Assert: registrableDomain is an ASCII string that does not end with ".".
VERIFY(all_of(registrable_domain.code_points(), is_ascii));
VERIFY(!registrable_domain.ends_with('.'));
// 5. Return registrableDomain and trailingDot concatenated.
return MUST(String::formatted("{}{}", registrable_domain, trailing_dot));
}
}