/* * Copyright (c) 2018-2021, Andreas Kling * Copyright (c) 2023-2025, Tim Flynn * * SPDX-License-Identifier: BSD-2-Clause */ #pragma once #include #include #include #include #include #include #include #include #include #include #include #include namespace IPC { template ErrorOr encode(Encoder&, T const&) { static_assert(DependentFalse, "Base IPC::encode() was instantiated"); VERIFY_NOT_REACHED(); } class Encoder { public: explicit Encoder(MessageBuffer& buffer) : m_buffer(buffer) { } template ErrorOr encode(T const& value); ErrorOr extend_capacity(size_t capacity) { TRY(m_buffer.extend_data_capacity(capacity)); return {}; } ErrorOr append(u8 const* values, size_t count) { TRY(m_buffer.append_data(values, count)); return {}; } ErrorOr append_attachment(Attachment attachment) { TRY(m_buffer.append_attachment(move(attachment))); return {}; } ErrorOr encode_size(size_t size); private: MessageBuffer& m_buffer; }; template ErrorOr encode(Encoder& encoder, T const& value) { TRY(encoder.append(reinterpret_cast(&value), sizeof(value))); return {}; } template ErrorOr encode(Encoder& encoder, T const& value) { return encoder.encode(to_underlying(value)); } template<> ErrorOr encode(Encoder&, float const&); template<> ErrorOr encode(Encoder&, double const&); template<> ErrorOr encode(Encoder&, String const&); template<> ErrorOr encode(Encoder&, StringView const&); template<> ErrorOr encode(Encoder&, Utf16String const&); template<> ErrorOr encode(Encoder&, Utf16View const&); template<> ErrorOr encode(Encoder&, ByteString const&); template<> ErrorOr encode(Encoder&, ByteBuffer const&); template<> ErrorOr encode(Encoder&, JsonValue const&); template<> ErrorOr encode(Encoder&, AK::Duration const&); template<> ErrorOr encode(Encoder&, UnixDateTime const&); template<> ErrorOr encode(Encoder&, IPv4Address const&); template<> ErrorOr encode(Encoder&, IPv6Address const&); template<> ErrorOr encode(Encoder&, URL::URL const&); template<> ErrorOr encode(Encoder&, URL::Origin const&); template<> ErrorOr encode(Encoder&, URL::Host const&); template<> ErrorOr encode(Encoder&, File const&); template<> ErrorOr encode(Encoder&, TransportHandle const&); template<> ErrorOr encode(Encoder&, Empty const&); template<> ErrorOr encode(Encoder&, Core::AnonymousBuffer const&); template<> ErrorOr encode(Encoder&, Core::ProxyData const&); template<> ErrorOr encode(Encoder&, URL::BlobURLEntry::Blob const&); template<> ErrorOr encode(Encoder&, URL::BlobURLEntry::MediaSource const&); template requires(!IsArithmetic) ErrorOr encode(Encoder& encoder, T const& span) { TRY(encoder.encode_size(span.size())); for (auto const& value : span) TRY(encoder.encode(value)); return {}; } template requires(IsArithmetic) ErrorOr encode(Encoder& encoder, T const& span) { TRY(encoder.encode_size(span.size())); VERIFY(!Checked::multiplication_would_overflow(span.size(), sizeof(typename T::ElementType))); TRY(encoder.append(reinterpret_cast(span.data()), span.size() * sizeof(typename T::ElementType))); return {}; } template ErrorOr encode(Encoder& encoder, Array const& array) { return encoder.encode(array.span()); } template ErrorOr encode(Encoder& encoder, T const& vector) { return encoder.encode(vector.span()); } template ErrorOr encode(Encoder& encoder, T const& hashmap) { TRY(encoder.encode_size(hashmap.size())); for (auto it : hashmap) { TRY(encoder.encode(it.key)); TRY(encoder.encode(it.value)); } return {}; } template ErrorOr encode(Encoder& encoder, T const& optional) { TRY(encoder.encode(optional.has_value())); if (optional.has_value()) TRY(encoder.encode(optional.value())); return {}; } template ErrorOr encode(Encoder& encoder, T const& variant) { TRY(encoder.encode(variant.index())); return variant.visit([&](auto const& value) { return encoder.encode(value); }); } // This must be last so that it knows about the above specializations. template ErrorOr Encoder::encode(T const& value) { return IPC::encode(*this, value); } }