AK: Implement IPV4 host URL parsing to specification

This implements both the parsing and serialization IPV4 parts from
the URL spec.
This commit is contained in:
Shannon Booth 2023-07-23 21:09:29 +12:00 committed by Tim Flynn
parent 50359567e0
commit 8d2ccf0f4f
Notes: sideshowbarker 2024-07-17 05:00:08 +09:00
2 changed files with 239 additions and 7 deletions

View file

@ -1,5 +1,6 @@
/*
* Copyright (c) 2021, Max Wipfli <mail@maxwipfli.ch>
* Copyright (c) 2023, Shannon Booth <shannon@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
@ -7,6 +8,7 @@
#include <AK/CharacterTypes.h>
#include <AK/Debug.h>
#include <AK/DeprecatedString.h>
#include <AK/IntegralMath.h>
#include <AK/Optional.h>
#include <AK/SourceLocation.h>
#include <AK/StringBuilder.h>
@ -44,10 +46,184 @@ static Optional<DeprecatedString> parse_opaque_host(StringView input)
return URL::percent_encode(input, URL::PercentEncodeSet::C0Control);
}
static Optional<DeprecatedString> parse_ipv4_address(StringView input)
struct ParsedIPv4Number {
u32 number { 0 };
bool validation_error { false };
};
// https://url.spec.whatwg.org/#ipv4-number-parser
static Optional<ParsedIPv4Number> parse_ipv4_number(StringView input)
{
// FIXME: Implement the correct IPv4 parser as specified by https://url.spec.whatwg.org/#concept-ipv4-parser.
return input;
// 1. If input is the empty string, then return failure.
if (input.is_empty())
return {};
// 2. Let validationError be false.
bool validation_error = false;
// 3. Let R be 10.
u8 radix = 10;
// 4. If input contains at least two code points and the first two code points are either "0X" or "0x", then:
if (input.length() >= 2 && (input.starts_with("0X"sv) || input.starts_with("0x"sv))) {
// 1. Set validationError to true.
validation_error = true;
// 2. Remove the first two code points from input.
input = input.substring_view(2);
// 3. Set R to 16.
radix = 16;
}
// 5. Otherwise, if input contains at least two code points and the first code point is U+0030 (0), then:
else if (input.length() >= 2 && input[0] == '0') {
// 1. Set validationError to true.
validation_error = true;
// 2. Remove the first code point from input.
input = input.substring_view(1);
// 3. Set R to 8.
radix = 8;
}
// 6. If input is the empty string, then return (0, true).
if (input.is_empty())
return ParsedIPv4Number { 0, true };
// 7. If input contains a code point that is not a radix-R digit, then return failure.
if (radix == 8) {
if (!all_of(input, [](auto character) { return is_ascii_octal_digit(character); }))
return {};
} else if (radix == 10) {
if (!all_of(input, [](auto character) { return is_ascii_digit(character); }))
return {};
} else if (radix == 16) {
if (!all_of(input, [](auto character) { return is_ascii_hex_digit(character); }))
return {};
} else {
VERIFY_NOT_REACHED();
}
// 8. Let output be the mathematical integer value that is represented by input in radix-R notation, using ASCII hex digits for digits with values 0 through 15.
u32 output;
if (radix == 8)
output = StringUtils::convert_to_uint_from_octal(input).release_value();
else if (radix == 10)
output = input.to_uint().release_value();
else if (radix == 16)
output = StringUtils::convert_to_uint_from_hex(input).release_value();
else
VERIFY_NOT_REACHED();
// 9. Return (output, validationError).
return ParsedIPv4Number { output, validation_error };
}
// https://url.spec.whatwg.org/#concept-ipv4-parser
static Optional<u32> parse_ipv4_address(StringView input)
{
// 1. Let parts be the result of strictly splitting input on U+002E (.).
auto parts = input.split_view("."sv, SplitBehavior::KeepEmpty);
// 2. If the last item in parts is the empty string, then:
if (parts.last().is_empty()) {
// 1. IPv4-empty-part validation error.
report_validation_error();
// 2. If partss size is greater than 1, then remove the last item from parts.
if (parts.size() > 1)
parts.take_last();
}
// 3. If partss size is greater than 4, IPv4-too-many-parts validation error, return failure.
if (parts.size() > 4) {
report_validation_error();
return {};
}
// 4. Let numbers be an empty list.
Vector<u32, 4> numbers;
// 5. For each part of parts:
for (auto const& part : parts) {
// 1. Let result be the result of parsing part.
auto const result = parse_ipv4_number(part);
// 2. If result is failure, IPv4-non-numeric-part validation error, return failure.
if (!result.has_value()) {
report_validation_error();
return {};
}
// 3. If result[1] is true, IPv4-non-decimal-part validation error.
if (result->validation_error)
report_validation_error();
// 4. Append result[0] to numbers.
numbers.append(result->number);
}
// 6. If any item in numbers is greater than 255, IPv4-out-of-range-part validation error.
// 7. If any but the last item in numbers is greater than 255, then return failure.
for (size_t i = 0; i < numbers.size(); ++i) {
if (numbers[i] > 255) {
report_validation_error();
if (i != numbers.size() - 1)
return {};
}
}
// 8. If the last item in numbers is greater than or equal to 256^(5 numberss size), then return failure.
if (numbers.last() >= pow<size_t>(256, 5 - numbers.size()))
return {};
// 9. Let ipv4 be the last item in numbers.
auto ipv4 = numbers.last();
// 10. Remove the last item from numbers.
numbers.take_last();
// 11. Let counter be 0.
u8 counter = 0;
// 12. For each n of numbers:
for (u32 n : numbers) {
// 1. Increment ipv4 by n × 256^(3 counter).
ipv4 += n * pow<size_t>(256, 3 - counter);
// 2. Increment counter by 1.
++counter;
}
// 13. Return ipv4.
return ipv4;
}
// https://url.spec.whatwg.org/#concept-ipv4-serializer
static ErrorOr<String> serialize_ipv4_address(u32 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 String::formatted("{}.{}.{}.{}", output[0], output[1], output[2], output[3]);
}
// https://url.spec.whatwg.org/#concept-ipv6-serializer
@ -365,15 +541,21 @@ static Optional<DeprecatedString> parse_host(StringView input, bool is_not_speci
return result.release_value().to_deprecated_string();
}
// 2. If isNotSpecial is true, then return the result of opaque-host parsing input.
if (is_not_special)
return parse_opaque_host(input);
// 3. Assert: input is not the empty string.
VERIFY(!input.is_empty());
// FIXME: Let domain be the result of running UTF-8 decode without BOM on the percent-decoding of input.
// FIXME: 4. Let domain be the result of running UTF-8 decode without BOM on the percent-decoding of input.
auto domain = URL::percent_decode(input);
// FIXME: Let asciiDomain be the result of running domain to ASCII on domain.
// FIXME: 5. Let asciiDomain be the result of running domain to ASCII on domain.
// FIXME: 6. If asciiDomain is failure, then return failure.
auto& ascii_domain = domain;
// 7. If asciiDomain contains a forbidden domain code point, domain-invalid-code-point validation error, return failure.
auto forbidden_host_characters = "\0\t\n\r #%/:<>?@[\\]^|"sv;
for (auto character : forbidden_host_characters) {
if (ascii_domain.view().contains(character)) {
@ -382,8 +564,21 @@ static Optional<DeprecatedString> parse_host(StringView input, bool is_not_speci
}
}
auto ipv4_host = parse_ipv4_address(ascii_domain);
return ipv4_host;
// 8. If asciiDomain ends in a number, then return the result of IPv4 parsing asciiDomain.
if (is_ascii_digit(ascii_domain[ascii_domain.length() - 1])) {
auto ipv4_host = parse_ipv4_address(ascii_domain);
if (!ipv4_host.has_value())
return {};
auto result = serialize_ipv4_address(*ipv4_host);
if (result.is_error())
return {};
return result.release_value().to_deprecated_string();
}
// 9. Return asciiDomain.
return ascii_domain;
}
// https://url.spec.whatwg.org/#start-with-a-windows-drive-letter

View file

@ -458,3 +458,40 @@ TEST_CASE(ipv6_address)
EXPECT_EQ(url.is_valid(), false);
}
}
TEST_CASE(ipv4_address)
{
{
constexpr auto ipv4_url = "http://127.0.0.1/index.html"sv;
URL url(ipv4_url);
EXPECT(url.is_valid());
EXPECT_EQ(url.host(), "127.0.0.1"sv);
}
{
constexpr auto ipv4_url = "http://0x.0x.0"sv;
URL url(ipv4_url);
EXPECT(url.is_valid());
EXPECT_EQ(url.host(), "0.0.0.0"sv);
}
{
constexpr auto bad_ipv4_url = "https://127..0.0.1"sv;
URL url(bad_ipv4_url);
EXPECT(!url.is_valid());
}
{
constexpr auto ipv4_url = "http://256"sv;
URL url(ipv4_url);
EXPECT(url.is_valid());
EXPECT_EQ(url.host(), "0.0.1.0"sv);
}
{
constexpr auto ipv4_url = "http://888888888"sv;
URL url(ipv4_url);
EXPECT(url.is_valid());
EXPECT_EQ(url.host(), "52.251.94.56"sv);
}
}