/* * Copyright (c) 2023, stelar7 * Copyright (c) 2024, Andrew Kaster * * SPDX-License-Identifier: BSD-2-Clause */ #include #include #include #include #include namespace Web::Crypto { JS_DEFINE_ALLOCATOR(KeyAlgorithm); JS_DEFINE_ALLOCATOR(RsaKeyAlgorithm); JS_DEFINE_ALLOCATOR(RsaHashedKeyAlgorithm); JS_DEFINE_ALLOCATOR(EcKeyAlgorithm); JS_DEFINE_ALLOCATOR(AesKeyAlgorithm); template static JS::ThrowCompletionOr impl_from(JS::VM& vm, StringView Name) { auto this_value = vm.this_value(); JS::Object* this_object = nullptr; if (this_value.is_nullish()) this_object = &vm.current_realm()->global_object(); else this_object = TRY(this_value.to_object(vm)); if (!is(this_object)) return vm.throw_completion(JS::ErrorType::NotAnObjectOfType, Name); return static_cast(this_object); } JS::NonnullGCPtr KeyAlgorithm::create(JS::Realm& realm) { return realm.create(realm); } KeyAlgorithm::KeyAlgorithm(JS::Realm& realm) : Object(ConstructWithPrototypeTag::Tag, realm.intrinsics().object_prototype()) , m_realm(realm) { } void KeyAlgorithm::initialize(JS::Realm& realm) { define_native_accessor(realm, "name", name_getter, {}, JS::Attribute::Enumerable | JS::Attribute::Configurable); Base::initialize(realm); } JS_DEFINE_NATIVE_FUNCTION(KeyAlgorithm::name_getter) { auto* impl = TRY(impl_from(vm, "KeyAlgorithm"sv)); auto name = TRY(Bindings::throw_dom_exception_if_needed(vm, [&] { return impl->name(); })); return JS::PrimitiveString::create(vm, name); } void KeyAlgorithm::visit_edges(Visitor& visitor) { Base::visit_edges(visitor); visitor.visit(m_realm); } JS::NonnullGCPtr RsaKeyAlgorithm::create(JS::Realm& realm) { return realm.create(realm); } RsaKeyAlgorithm::RsaKeyAlgorithm(JS::Realm& realm) : KeyAlgorithm(realm) , m_public_exponent(MUST(JS::Uint8Array::create(realm, 0))) { } void RsaKeyAlgorithm::initialize(JS::Realm& realm) { Base::initialize(realm); define_native_accessor(realm, "modulusLength", modulus_length_getter, {}, JS::Attribute::Enumerable | JS::Attribute::Configurable); define_native_accessor(realm, "publicExponent", public_exponent_getter, {}, JS::Attribute::Enumerable | JS::Attribute::Configurable); } void RsaKeyAlgorithm::visit_edges(Visitor& visitor) { Base::visit_edges(visitor); visitor.visit(m_public_exponent); } WebIDL::ExceptionOr RsaKeyAlgorithm::set_public_exponent(::Crypto::UnsignedBigInteger exponent) { auto& realm = this->realm(); auto& vm = this->vm(); auto bytes = TRY_OR_THROW_OOM(vm, ByteBuffer::create_uninitialized(exponent.trimmed_byte_length())); bool const remove_leading_zeroes = true; auto data_size = exponent.export_data(bytes.span(), remove_leading_zeroes); auto data_slice_be = bytes.bytes().slice(bytes.size() - data_size, data_size); // The BigInteger typedef from the WebCrypto spec requires the bytes in the Uint8Array be ordered in Big Endian if constexpr (AK::HostIsLittleEndian) { Vector data_slice_le; data_slice_le.ensure_capacity(data_size); for (size_t i = 0; i < data_size; ++i) { data_slice_le.append(data_slice_be[data_size - i - 1]); } m_public_exponent = TRY(JS::Uint8Array::create(realm, data_slice_le.size())); m_public_exponent->viewed_array_buffer()->buffer().overwrite(0, data_slice_le.data(), data_slice_le.size()); } else { m_public_exponent = TRY(JS::Uint8Array::create(realm, data_slice_be.size())); m_public_exponent->viewed_array_buffer()->buffer().overwrite(0, data_slice_be.data(), data_slice_be.size()); } return {}; } JS_DEFINE_NATIVE_FUNCTION(RsaKeyAlgorithm::modulus_length_getter) { auto* impl = TRY(impl_from(vm, "RsaKeyAlgorithm"sv)); return JS::Value(impl->modulus_length()); } JS_DEFINE_NATIVE_FUNCTION(RsaKeyAlgorithm::public_exponent_getter) { auto* impl = TRY(impl_from(vm, "RsaKeyAlgorithm"sv)); return impl->public_exponent(); } JS::NonnullGCPtr EcKeyAlgorithm::create(JS::Realm& realm) { return realm.create(realm); } EcKeyAlgorithm::EcKeyAlgorithm(JS::Realm& realm) : KeyAlgorithm(realm) { } void EcKeyAlgorithm::initialize(JS::Realm& realm) { Base::initialize(realm); define_native_accessor(realm, "namedCurve", named_curve_getter, {}, JS::Attribute::Enumerable | JS::Attribute::Configurable); } JS_DEFINE_NATIVE_FUNCTION(EcKeyAlgorithm::named_curve_getter) { auto* impl = TRY(impl_from(vm, "EcKeyAlgorithm"sv)); return JS::PrimitiveString::create(vm, impl->named_curve()); } JS::NonnullGCPtr RsaHashedKeyAlgorithm::create(JS::Realm& realm) { return realm.create(realm); } RsaHashedKeyAlgorithm::RsaHashedKeyAlgorithm(JS::Realm& realm) : RsaKeyAlgorithm(realm) , m_hash(String {}) { } void RsaHashedKeyAlgorithm::initialize(JS::Realm& realm) { Base::initialize(realm); define_native_accessor(realm, "hash", hash_getter, {}, JS::Attribute::Enumerable | JS::Attribute::Configurable); } JS_DEFINE_NATIVE_FUNCTION(RsaHashedKeyAlgorithm::hash_getter) { auto* impl = TRY(impl_from(vm, "RsaHashedKeyAlgorithm"sv)); auto hash = TRY(Bindings::throw_dom_exception_if_needed(vm, [&] { return impl->hash(); })); return hash.visit( [&](String const& hash_string) -> JS::Value { return JS::PrimitiveString::create(vm, hash_string); }, [&](JS::Handle const& hash) -> JS::Value { return hash; }); } JS::NonnullGCPtr AesKeyAlgorithm::create(JS::Realm& realm) { return realm.create(realm); } AesKeyAlgorithm::AesKeyAlgorithm(JS::Realm& realm) : KeyAlgorithm(realm) , m_length(0) { } void AesKeyAlgorithm::initialize(JS::Realm& realm) { Base::initialize(realm); define_native_accessor(realm, "length", length_getter, {}, JS::Attribute::Enumerable | JS::Attribute::Configurable); } JS_DEFINE_NATIVE_FUNCTION(AesKeyAlgorithm::length_getter) { auto* impl = TRY(impl_from(vm, "AesKeyAlgorithm"sv)); auto length = TRY(Bindings::throw_dom_exception_if_needed(vm, [&] { return impl->length(); })); return length; } }