mirror of
https://github.com/SerenityOS/serenity
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367 lines
20 KiB
C++
367 lines
20 KiB
C++
/*
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* Copyright (c) 2023-2024, Kemal Zebari <kemalzebra@gmail.com>.
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* Copyright (c) 2024, Jamie Mansfield <jmansfield@cadixdev.org>
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*
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* SPDX-License-Identifier: BSD-2-Clause
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*/
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#include <LibTest/TestCase.h>
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#include <LibWeb/MimeSniff/Resource.h>
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TEST_CASE(determine_computed_mime_type_given_no_sniff_is_set)
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{
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auto mime_type = MUST(Web::MimeSniff::MimeType::create("text"_string, "html"_string));
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auto computed_mime_type = MUST(Web::MimeSniff::Resource::sniff("\x00"sv.bytes(), Web::MimeSniff::SniffingConfiguration { .supplied_type = mime_type, .no_sniff = true }));
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EXPECT_EQ("text/html"sv, MUST(computed_mime_type.serialized()));
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// Cover the edge case in the context-specific sniffing algorithm.
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computed_mime_type = MUST(Web::MimeSniff::Resource::sniff("\x00"sv.bytes(), Web::MimeSniff::SniffingConfiguration {
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.sniffing_context = Web::MimeSniff::SniffingContext::Image,
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.supplied_type = mime_type,
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.no_sniff = true,
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}));
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EXPECT_EQ("text/html"sv, MUST(computed_mime_type.serialized()));
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}
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TEST_CASE(determine_computed_mime_type_given_no_sniff_is_unset)
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{
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auto supplied_type = MUST(Web::MimeSniff::MimeType::create("text"_string, "html"_string));
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auto computed_mime_type = MUST(Web::MimeSniff::Resource::sniff("\x00"sv.bytes(), Web::MimeSniff::SniffingConfiguration { .supplied_type = supplied_type }));
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EXPECT_EQ("application/octet-stream"sv, MUST(computed_mime_type.serialized()));
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}
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TEST_CASE(determine_computed_mime_type_given_xml_mime_type_as_supplied_type)
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{
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auto xml_mime_type = "application/rss+xml"sv;
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auto supplied_type = MUST(Web::MimeSniff::MimeType::parse(xml_mime_type)).release_value();
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auto computed_mime_type = MUST(Web::MimeSniff::Resource::sniff("\x00"sv.bytes(), Web::MimeSniff::SniffingConfiguration { .supplied_type = supplied_type }));
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EXPECT_EQ(xml_mime_type, MUST(computed_mime_type.serialized()));
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}
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static void set_image_type_mappings(HashMap<StringView, Vector<StringView>>& mime_type_to_headers_map)
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{
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mime_type_to_headers_map.set("image/x-icon"sv, { "\x00\x00\x01\x00"sv, "\x00\x00\x02\x00"sv });
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mime_type_to_headers_map.set("image/bmp"sv, { "BM"sv });
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mime_type_to_headers_map.set("image/gif"sv, { "GIF87a"sv, "GIF89a"sv });
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mime_type_to_headers_map.set("image/webp"sv, { "RIFF\x00\x00\x00\x00WEBPVP"sv });
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mime_type_to_headers_map.set("image/png"sv, { "\x89PNG\x0D\x0A\x1A\x0A"sv });
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mime_type_to_headers_map.set("image/jpeg"sv, { "\xFF\xD8\xFF"sv });
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}
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static void set_audio_or_video_type_mappings(HashMap<StringView, Vector<StringView>>& mime_type_to_headers_map)
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{
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mime_type_to_headers_map.set("audio/aiff"sv, { "FORM\x00\x00\x00\x00\x41IFF"sv });
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mime_type_to_headers_map.set("audio/mpeg"sv, { "ID3"sv });
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mime_type_to_headers_map.set("application/ogg"sv, { "OggS\x00"sv });
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mime_type_to_headers_map.set("audio/midi"sv, { "MThd\x00\x00\x00\x06"sv });
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mime_type_to_headers_map.set("video/avi"sv, { "RIFF\x00\x00\x00\x00\x41\x56\x49\x20"sv });
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mime_type_to_headers_map.set("audio/wave"sv, { "RIFF\x00\x00\x00\x00WAVE"sv });
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}
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static void set_text_plain_type_mappings(HashMap<StringView, Vector<StringView>>& mime_type_to_headers_map)
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{
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mime_type_to_headers_map.set("text/plain"sv, {
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"\xFE\xFF\x00\x00"sv,
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"\xFF\xFE\x00\x00"sv,
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"\xEF\xBB\xBF\x00"sv,
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"Hello world!"sv,
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});
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}
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TEST_CASE(determine_computed_mime_type_given_supplied_type_that_is_an_apache_bug_mime_type)
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{
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Vector<StringView> apache_bug_mime_types = {
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"text/plain"sv,
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"text/plain; charset=ISO-8859-1"sv,
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"text/plain; charset=iso-8859-1"sv,
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"text/plain; charset=UTF-8"sv
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};
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// Cover all Apache bug MIME types.
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for (auto const& apache_bug_mime_type : apache_bug_mime_types) {
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auto supplied_type = MUST(Web::MimeSniff::MimeType::parse(apache_bug_mime_type)).release_value();
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auto computed_mime_type = MUST(Web::MimeSniff::Resource::sniff("Hello world!"sv.bytes(),
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Web::MimeSniff::SniffingConfiguration { .scheme = "http"sv, .supplied_type = supplied_type }));
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EXPECT_EQ("text/plain"sv, MUST(computed_mime_type.serialized()));
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}
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// Cover all code paths in "rules for distinguishing if a resource is text or binary".
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HashMap<StringView, Vector<StringView>> mime_type_to_headers_map;
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mime_type_to_headers_map.set("application/octet-stream"sv, { "\x00"sv });
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set_text_plain_type_mappings(mime_type_to_headers_map);
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auto supplied_type = MUST(Web::MimeSniff::MimeType::create("text"_string, "plain"_string));
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for (auto const& mime_type_to_headers : mime_type_to_headers_map) {
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auto mime_type = mime_type_to_headers.key;
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for (auto const& header : mime_type_to_headers.value) {
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auto computed_mime_type = MUST(Web::MimeSniff::Resource::sniff(header.bytes(),
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Web::MimeSniff::SniffingConfiguration { .scheme = "http"sv, .supplied_type = supplied_type }));
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EXPECT_EQ(mime_type, MUST(computed_mime_type.serialized()));
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}
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}
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}
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TEST_CASE(determine_computed_mime_type_in_both_none_and_browsing_sniffing_context)
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{
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HashMap<StringView, Vector<StringView>> mime_type_to_headers_map;
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mime_type_to_headers_map.set("application/octet-stream"sv, { "\x00"sv });
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mime_type_to_headers_map.set("text/html"sv, {
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"\x09\x09<!DOCTYPE HTML\x20"sv,
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"\x0A<HTML\x3E"sv,
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"\x0C<HEAD\x20"sv,
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"\x0D<SCRIPT>"sv,
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"\x20<IFRAME>"sv,
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"<H1>"sv,
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"<DIV>"sv,
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"<FONT>"sv,
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"<TABLE>"sv,
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"<A>"sv,
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"<STYLE>"sv,
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"<TITLE>"sv,
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"<B>"sv,
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"<BODY>"sv,
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"<BR>"sv,
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"<P>"sv,
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"<!-->"sv,
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});
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mime_type_to_headers_map.set("text/xml"sv, { "<?xml"sv });
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mime_type_to_headers_map.set("application/pdf"sv, { "%PDF-"sv });
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mime_type_to_headers_map.set("application/postscript"sv, { "%!PS-Adobe-"sv });
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set_text_plain_type_mappings(mime_type_to_headers_map);
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set_image_type_mappings(mime_type_to_headers_map);
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set_audio_or_video_type_mappings(mime_type_to_headers_map);
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mime_type_to_headers_map.set("application/x-gzip"sv, { "\x1F\x8B\x08"sv });
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mime_type_to_headers_map.set("application/zip"sv, { "PK\x03\x04"sv });
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mime_type_to_headers_map.set("application/x-rar-compressed"sv, { "Rar\x20\x1A\x07\x00"sv });
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for (auto const& mime_type_to_headers : mime_type_to_headers_map) {
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auto mime_type = mime_type_to_headers.key;
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for (auto const& header : mime_type_to_headers.value) {
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// Test in a non-specific sniffing context.
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auto computed_mime_type = MUST(Web::MimeSniff::Resource::sniff(header.bytes()));
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EXPECT_EQ(mime_type, computed_mime_type.essence());
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// Test sniffing in a browsing context.
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computed_mime_type = MUST(Web::MimeSniff::Resource::sniff(header.bytes(), Web::MimeSniff::SniffingConfiguration { .sniffing_context = Web::MimeSniff::SniffingContext::Browsing }));
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EXPECT_EQ(mime_type, computed_mime_type.essence());
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}
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}
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}
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TEST_CASE(compute_mime_type_given_unknown_supplied_type)
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{
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Array<Web::MimeSniff::MimeType, 3> unknown_supplied_types = {
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MUST(Web::MimeSniff::MimeType::create("unknown"_string, "unknown"_string)),
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MUST(Web::MimeSniff::MimeType::create("application"_string, "unknown"_string)),
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MUST(Web::MimeSniff::MimeType::create("*"_string, "*"_string))
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};
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auto header_bytes = "<HTML>"sv.bytes();
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for (auto const& unknown_supplied_type : unknown_supplied_types) {
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auto computed_mime_type = MUST(Web::MimeSniff::Resource::sniff(header_bytes, Web::MimeSniff::SniffingConfiguration { .supplied_type = unknown_supplied_type }));
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EXPECT_EQ("text/html"sv, computed_mime_type.essence());
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}
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}
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TEST_CASE(determine_computed_mime_type_in_image_sniffing_context)
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{
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// Cover case where supplied type is an XML MIME type.
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auto mime_type = "application/rss+xml"sv;
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auto supplied_type = MUST(Web::MimeSniff::MimeType::parse(mime_type)).release_value();
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auto computed_mime_type = MUST(Web::MimeSniff::Resource::sniff(""sv.bytes(), Web::MimeSniff::SniffingConfiguration { .sniffing_context = Web::MimeSniff::SniffingContext::Image, .supplied_type = supplied_type }));
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EXPECT_EQ(mime_type, MUST(computed_mime_type.serialized()));
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HashMap<StringView, Vector<StringView>> mime_type_to_headers_map;
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set_image_type_mappings(mime_type_to_headers_map);
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// Also consider a resource that is not an image.
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mime_type_to_headers_map.set("application/octet-stream"sv, { "\x00"sv });
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for (auto const& mime_type_to_headers : mime_type_to_headers_map) {
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mime_type = mime_type_to_headers.key;
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for (auto const& header : mime_type_to_headers.value) {
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computed_mime_type = MUST(Web::MimeSniff::Resource::sniff(header.bytes(), Web::MimeSniff::SniffingConfiguration { .sniffing_context = Web::MimeSniff::SniffingContext::Image }));
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EXPECT_EQ(mime_type, computed_mime_type.essence());
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}
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}
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// Cover case where we aren't dealing with an image MIME type.
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mime_type = "text/html"sv;
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supplied_type = MUST(Web::MimeSniff::MimeType::parse("text/html"sv)).release_value();
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computed_mime_type = MUST(Web::MimeSniff::Resource::sniff(""sv.bytes(), Web::MimeSniff::SniffingConfiguration { .sniffing_context = Web::MimeSniff::SniffingContext::Image, .supplied_type = supplied_type }));
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EXPECT_EQ(mime_type, computed_mime_type.essence());
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}
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TEST_CASE(determine_computed_mime_type_in_audio_or_video_sniffing_context)
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{
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// Cover case where supplied type is an XML MIME type.
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auto mime_type = "application/rss+xml"sv;
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auto supplied_type = MUST(Web::MimeSniff::MimeType::parse(mime_type)).release_value();
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auto computed_mime_type = MUST(Web::MimeSniff::Resource::sniff(""sv.bytes(), Web::MimeSniff::SniffingConfiguration {
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.sniffing_context = Web::MimeSniff::SniffingContext::AudioOrVideo,
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.supplied_type = supplied_type,
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}));
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EXPECT_EQ(mime_type, MUST(computed_mime_type.serialized()));
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HashMap<StringView, Vector<StringView>> mime_type_to_headers_map;
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set_audio_or_video_type_mappings(mime_type_to_headers_map);
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// Also consider a resource that is not an audio or video.
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mime_type_to_headers_map.set("application/octet-stream"sv, { "\x00"sv });
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for (auto const& mime_type_to_headers : mime_type_to_headers_map) {
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auto mime_type = mime_type_to_headers.key;
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for (auto const& header : mime_type_to_headers.value) {
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auto computed_mime_type = MUST(Web::MimeSniff::Resource::sniff(header.bytes(), Web::MimeSniff::SniffingConfiguration { .sniffing_context = Web::MimeSniff::SniffingContext::AudioOrVideo }));
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EXPECT_EQ(mime_type, computed_mime_type.essence());
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}
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}
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// Cover case where we aren't dealing with an audio or video MIME type.
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mime_type = "text/html"sv;
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supplied_type = MUST(Web::MimeSniff::MimeType::parse("text/html"sv)).release_value();
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computed_mime_type = MUST(Web::MimeSniff::Resource::sniff(""sv.bytes(), Web::MimeSniff::SniffingConfiguration {
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.sniffing_context = Web::MimeSniff::SniffingContext::AudioOrVideo,
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.supplied_type = supplied_type,
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}));
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EXPECT_EQ(mime_type, computed_mime_type.essence());
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}
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TEST_CASE(determine_computed_mime_type_when_trying_to_match_mp4_signature)
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{
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HashMap<StringView, Vector<StringView>> mime_type_to_headers_map;
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mime_type_to_headers_map.set("application/octet-stream"sv, {
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// Payload length < 12.
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"!= 12"sv,
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// Payload length < box size.
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"\x00\x00\x00\x1F\x01\x02\x03\x04\x05\x06\x07\x08\x09\x0A"sv,
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// Box size % 4 != 0.
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"\x00\x00\x00\x0D\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"sv,
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// 4 bytes after box size header != "ftyp".
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"\x00\x00\x00\x0C\x00\x00\x00\x00\x00\x00\x00\x00"sv,
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// Sequence "mp4" couldn't be found in ftyp box.
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"\x00\x00\x00\x18\x66\x74\x79\x70isom\x00\x00\x00\x00\x61\x76\x63\x31\x00\x00\x00\x00"sv,
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});
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mime_type_to_headers_map.set("video/mp4"sv, {
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// 3 bytes after "ftyp" sequence == "mp4".
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"\x00\x00\x00\x0C\x66\x74\x79\x70mp42"sv,
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// "mp4" sequence found while executing while loop (this input covers entire loop)
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"\x00\x00\x00\x18\x66\x74\x79\x70isom\x00\x00\x00\x00\x61\x76\x63\x31mp41"sv,
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});
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for (auto const& mime_type_to_headers : mime_type_to_headers_map) {
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auto mime_type = mime_type_to_headers.key;
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for (auto const& header : mime_type_to_headers.value) {
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auto computed_mime_type = MUST(Web::MimeSniff::Resource::sniff(header.bytes(), Web::MimeSniff::SniffingConfiguration { .sniffing_context = Web::MimeSniff::SniffingContext::AudioOrVideo }));
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EXPECT_EQ(mime_type, MUST(computed_mime_type.serialized()));
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}
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}
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}
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TEST_CASE(determine_computed_mime_type_in_a_font_context)
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{
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// Cover case where supplied type is an XML MIME type.
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auto mime_type = "application/rss+xml"sv;
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auto supplied_type = MUST(Web::MimeSniff::MimeType::parse(mime_type)).release_value();
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auto computed_mime_type = MUST(Web::MimeSniff::Resource::sniff(""sv.bytes(), Web::MimeSniff::SniffingConfiguration {
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.sniffing_context = Web::MimeSniff::SniffingContext::Font,
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.supplied_type = supplied_type,
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}));
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EXPECT_EQ(mime_type, MUST(computed_mime_type.serialized()));
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HashMap<StringView, Vector<StringView>> mime_type_to_headers_map;
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mime_type_to_headers_map.set("application/octet-stream"sv, { "\x00"sv });
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mime_type_to_headers_map.set("application/vnd.ms-fontobject"sv, { "\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00LP"sv });
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mime_type_to_headers_map.set("font/ttf"sv, { "\x00\x01\x00\x00"sv });
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mime_type_to_headers_map.set("font/otf"sv, { "OTTO"sv });
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mime_type_to_headers_map.set("font/collection"sv, { "ttcf"sv });
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mime_type_to_headers_map.set("font/woff"sv, { "wOFF"sv });
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mime_type_to_headers_map.set("font/woff2"sv, { "wOF2"sv });
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for (auto const& mime_type_to_headers : mime_type_to_headers_map) {
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auto mime_type = mime_type_to_headers.key;
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for (auto const& header : mime_type_to_headers.value) {
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auto computed_mime_type = MUST(Web::MimeSniff::Resource::sniff(header.bytes(), Web::MimeSniff::SniffingConfiguration { .sniffing_context = Web::MimeSniff::SniffingContext::Font }));
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EXPECT_EQ(mime_type, computed_mime_type.essence());
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}
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}
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// Cover case where we aren't dealing with a font MIME type.
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mime_type = "text/html"sv;
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supplied_type = MUST(Web::MimeSniff::MimeType::parse("text/html"sv)).release_value();
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computed_mime_type = MUST(Web::MimeSniff::Resource::sniff(""sv.bytes(), Web::MimeSniff::SniffingConfiguration {
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.sniffing_context = Web::MimeSniff::SniffingContext::Font,
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.supplied_type = supplied_type,
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}));
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EXPECT_EQ(mime_type, computed_mime_type.essence());
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}
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TEST_CASE(determine_computed_mime_type_given_text_or_binary_context)
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{
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auto supplied_type = MUST(Web::MimeSniff::MimeType::create("text"_string, "plain"_string));
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auto computed_mime_type = MUST(Web::MimeSniff::Resource::sniff("\x00"sv.bytes(), Web::MimeSniff::SniffingConfiguration {
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.sniffing_context = Web::MimeSniff::SniffingContext::TextOrBinary,
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.supplied_type = supplied_type,
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}));
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EXPECT_EQ("application/octet-stream"sv, MUST(computed_mime_type.serialized()));
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}
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TEST_CASE(determine_minimised_mime_type)
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{
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HashMap<StringView, StringView> mime_type_to_minimised_mime_type_map;
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// JavaScript MIME types should always be "text/javascript".
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mime_type_to_minimised_mime_type_map.set("text/javascript"sv, "text/javascript"sv);
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mime_type_to_minimised_mime_type_map.set("application/javascript"sv, "text/javascript"sv);
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mime_type_to_minimised_mime_type_map.set("text/javascript; charset=utf-8"sv, "text/javascript"sv);
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// JSON MIME types should always be "application/json".
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mime_type_to_minimised_mime_type_map.set("application/json"sv, "application/json"sv);
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mime_type_to_minimised_mime_type_map.set("text/json"sv, "application/json"sv);
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mime_type_to_minimised_mime_type_map.set("application/json; charset=utf-8"sv, "application/json"sv);
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// SVG MIME types should always be "image/svg+xml".
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mime_type_to_minimised_mime_type_map.set("image/svg+xml"sv, "image/svg+xml"sv);
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mime_type_to_minimised_mime_type_map.set("image/svg+xml; charset=utf-8"sv, "image/svg+xml"sv);
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// XML MIME types should always be "application/xml".
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mime_type_to_minimised_mime_type_map.set("application/xml"sv, "application/xml"sv);
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mime_type_to_minimised_mime_type_map.set("text/xml"sv, "application/xml"sv);
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mime_type_to_minimised_mime_type_map.set("application/xml; charset=utf-8"sv, "application/xml"sv);
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// MIME types not supported by the user-agent should return an empty string.
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mime_type_to_minimised_mime_type_map.set("application/java-archive"sv, ""sv);
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mime_type_to_minimised_mime_type_map.set("application/zip"sv, ""sv);
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for (auto const& mime_type_to_minimised_mime_type : mime_type_to_minimised_mime_type_map) {
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auto mime_type = MUST(Web::MimeSniff::MimeType::parse(mime_type_to_minimised_mime_type.key)).release_value();
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EXPECT_EQ(mime_type_to_minimised_mime_type.value, Web::MimeSniff::minimise_a_supported_mime_type(mime_type));
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}
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}
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