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|
/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* vim: set ts=8 sts=2 et sw=2 tw=80: */
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
#ifndef __IPC_GLUE_IPCMESSAGEUTILSSPECIALIZATIONS_H__
#define __IPC_GLUE_IPCMESSAGEUTILSSPECIALIZATIONS_H__
#include <cstdint>
#include <cstdlib>
#include <limits>
#include <string>
#include <type_traits>
#include <unordered_map>
#include <utility>
#include <vector>
#include "chrome/common/ipc_message.h"
#include "chrome/common/ipc_message_utils.h"
#include "ipc/EnumSerializer.h"
#include "ipc/IPCMessageUtils.h"
#include "mozilla/Assertions.h"
#include "mozilla/BitSet.h"
#include "mozilla/EnumSet.h"
#include "mozilla/EnumTypeTraits.h"
#include "mozilla/IntegerRange.h"
#include "mozilla/Maybe.h"
#include "mozilla/TimeStamp.h"
#ifdef XP_WIN
# include "mozilla/TimeStamp_windows.h"
#endif
#include "mozilla/UniquePtr.h"
#include "mozilla/Unused.h"
#include "mozilla/Vector.h"
#include "mozilla/dom/ipc/StructuredCloneData.h"
#include "mozilla/dom/UserActivation.h"
#include "nsCSSPropertyID.h"
#include "nsDebug.h"
#include "nsIContentPolicy.h"
#include "nsID.h"
#include "nsILoadInfo.h"
#include "nsIThread.h"
#include "nsLiteralString.h"
#include "nsNetUtil.h"
#include "nsString.h"
#include "nsTArray.h"
#include "nsTHashSet.h"
// XXX Includes that are only required by implementations which could be moved
// to the cpp file.
#include "base/string_util.h" // for StringPrintf
#include "mozilla/ArrayUtils.h" // for ArrayLength
#include "mozilla/CheckedInt.h"
#ifdef _MSC_VER
# pragma warning(disable : 4800)
#endif
namespace mozilla {
template <typename... Ts>
class Variant;
namespace detail {
template <typename... Ts>
struct VariantTag;
}
} // namespace mozilla
namespace mozilla::dom {
template <typename T>
class Optional;
}
class nsAtom;
namespace IPC {
template <class T>
struct ParamTraits<nsTSubstring<T>> {
typedef nsTSubstring<T> paramType;
static void Write(MessageWriter* aWriter, const paramType& aParam) {
bool isVoid = aParam.IsVoid();
aWriter->WriteBool(isVoid);
if (isVoid) {
// represents a nullptr pointer
return;
}
WriteSequenceParam<const T&>(aWriter, aParam.BeginReading(),
aParam.Length());
}
static bool Read(MessageReader* aReader, paramType* aResult) {
bool isVoid;
if (!aReader->ReadBool(&isVoid)) {
return false;
}
if (isVoid) {
aResult->SetIsVoid(true);
return true;
}
return ReadSequenceParam<T>(aReader, [&](uint32_t aLength) -> T* {
T* data = nullptr;
aResult->GetMutableData(&data, aLength);
return data;
});
}
};
template <class T>
struct ParamTraits<nsTString<T>> : ParamTraits<nsTSubstring<T>> {};
template <class T>
struct ParamTraits<nsTLiteralString<T>> : ParamTraits<nsTSubstring<T>> {};
template <class T, size_t N>
struct ParamTraits<nsTAutoStringN<T, N>> : ParamTraits<nsTSubstring<T>> {};
template <class T>
struct ParamTraits<nsTDependentString<T>> : ParamTraits<nsTSubstring<T>> {};
// XXX While this has no special dependencies, it's currently only used in
// GfxMessageUtils and could be moved there, or generalized to potentially work
// with any nsTHashSet.
template <>
struct ParamTraits<nsTHashSet<uint64_t>> {
typedef nsTHashSet<uint64_t> paramType;
static void Write(MessageWriter* aWriter, const paramType& aParam) {
uint32_t count = aParam.Count();
WriteParam(aWriter, count);
for (const auto& key : aParam) {
WriteParam(aWriter, key);
}
}
static bool Read(MessageReader* aReader, paramType* aResult) {
uint32_t count;
if (!ReadParam(aReader, &count)) {
return false;
}
paramType table(count);
for (uint32_t i = 0; i < count; ++i) {
uint64_t key;
if (!ReadParam(aReader, &key)) {
return false;
}
table.Insert(key);
}
*aResult = std::move(table);
return true;
}
};
template <typename E>
struct ParamTraits<nsTArray<E>> {
typedef nsTArray<E> paramType;
static void Write(MessageWriter* aWriter, const paramType& aParam) {
WriteSequenceParam<const E&>(aWriter, aParam.Elements(), aParam.Length());
}
static void Write(MessageWriter* aWriter, paramType&& aParam) {
WriteSequenceParam<E&&>(aWriter, aParam.Elements(), aParam.Length());
}
static bool Read(MessageReader* aReader, paramType* aResult) {
return ReadSequenceParam<E>(aReader, [&](uint32_t aLength) {
if constexpr (std::is_trivially_default_constructible_v<E>) {
return aResult->AppendElements(aLength);
} else {
aResult->SetCapacity(aLength);
return mozilla::Some(MakeBackInserter(*aResult));
}
});
}
};
template <typename E>
struct ParamTraits<CopyableTArray<E>> : ParamTraits<nsTArray<E>> {};
template <typename E>
struct ParamTraits<FallibleTArray<E>> {
typedef FallibleTArray<E> paramType;
static void Write(MessageWriter* aWriter, const paramType& aParam) {
WriteSequenceParam<const E&>(aWriter, aParam.Elements(), aParam.Length());
}
static void Write(MessageWriter* aWriter, paramType&& aParam) {
WriteSequenceParam<E&&>(aWriter, aParam.Elements(), aParam.Length());
}
static bool Read(MessageReader* aReader, paramType* aResult) {
return ReadSequenceParam<E>(aReader, [&](uint32_t aLength) {
if constexpr (std::is_trivially_default_constructible_v<E>) {
return aResult->AppendElements(aLength, mozilla::fallible);
} else {
if (!aResult->SetCapacity(aLength, mozilla::fallible)) {
return mozilla::Maybe<BackInserter>{};
}
return mozilla::Some(BackInserter{.mArray = aResult});
}
});
}
private:
struct BackInserter {
using iterator_category = std::output_iterator_tag;
using value_type = void;
using difference_type = void;
using pointer = void;
using reference = void;
struct Proxy {
paramType& mArray;
template <typename U>
void operator=(U&& aValue) {
// This won't fail because we've reserved capacity earlier.
MOZ_ALWAYS_TRUE(mArray.AppendElement(aValue, mozilla::fallible));
}
};
Proxy operator*() { return Proxy{.mArray = *mArray}; }
BackInserter& operator++() { return *this; }
BackInserter& operator++(int) { return *this; }
paramType* mArray = nullptr;
};
};
template <typename E, size_t N>
struct ParamTraits<AutoTArray<E, N>> : ParamTraits<nsTArray<E>> {
typedef AutoTArray<E, N> paramType;
};
template <typename E, size_t N>
struct ParamTraits<CopyableAutoTArray<E, N>> : ParamTraits<AutoTArray<E, N>> {};
template <typename T>
struct ParamTraits<mozilla::dom::Sequence<T>> : ParamTraits<FallibleTArray<T>> {
};
template <typename E, size_t N, typename AP>
struct ParamTraits<mozilla::Vector<E, N, AP>> {
typedef mozilla::Vector<E, N, AP> paramType;
static void Write(MessageWriter* aWriter, const paramType& aParam) {
WriteSequenceParam<const E&>(aWriter, aParam.Elements(), aParam.Length());
}
static void Write(MessageWriter* aWriter, paramType&& aParam) {
WriteSequenceParam<E&&>(aWriter, aParam.Elements(), aParam.Length());
}
static bool Read(MessageReader* aReader, paramType* aResult) {
return ReadSequenceParam<E>(aReader, [&](uint32_t aLength) -> E* {
if (!aResult->resize(aLength)) {
// So that OOM failure shows up as OOM crash instead of IPC FatalError.
NS_ABORT_OOM(aLength * sizeof(E));
}
return aResult->begin();
});
}
};
template <typename E>
struct ParamTraits<std::vector<E>> {
typedef std::vector<E> paramType;
static void Write(MessageWriter* aWriter, const paramType& aParam) {
WriteSequenceParam<const E&>(aWriter, aParam.data(), aParam.size());
}
static void Write(MessageWriter* aWriter, paramType&& aParam) {
WriteSequenceParam<E&&>(aWriter, aParam.data(), aParam.size());
}
static bool Read(MessageReader* aReader, paramType* aResult) {
return ReadSequenceParam<E>(aReader, [&](uint32_t aLength) {
if constexpr (std::is_trivially_default_constructible_v<E>) {
aResult->resize(aLength);
return aResult->data();
} else {
aResult->reserve(aLength);
return mozilla::Some(std::back_inserter(*aResult));
}
});
}
};
template <typename K, typename V>
struct ParamTraits<std::unordered_map<K, V>> final {
using T = std::unordered_map<K, V>;
static void Write(MessageWriter* const writer, const T& in) {
WriteParam(writer, in.size());
for (const auto& pair : in) {
WriteParam(writer, pair.first);
WriteParam(writer, pair.second);
}
}
static bool Read(MessageReader* const reader, T* const out) {
size_t size = 0;
if (!ReadParam(reader, &size)) return false;
T map;
map.reserve(size);
for (const auto i : mozilla::IntegerRange(size)) {
std::pair<K, V> pair;
mozilla::Unused << i;
if (!ReadParam(reader, &(pair.first)) ||
!ReadParam(reader, &(pair.second))) {
return false;
}
map.insert(std::move(pair));
}
*out = std::move(map);
return true;
}
};
template <>
struct ParamTraits<float> {
typedef float paramType;
static void Write(MessageWriter* aWriter, const paramType& aParam) {
aWriter->WriteBytes(&aParam, sizeof(paramType));
}
static bool Read(MessageReader* aReader, paramType* aResult) {
return aReader->ReadBytesInto(aResult, sizeof(*aResult));
}
};
template <>
struct ParamTraits<nsCSSPropertyID>
: public ContiguousEnumSerializer<nsCSSPropertyID, eCSSProperty_UNKNOWN,
eCSSProperty_COUNT> {};
template <>
struct ParamTraits<nsID> {
typedef nsID paramType;
static void Write(MessageWriter* aWriter, const paramType& aParam) {
WriteParam(aWriter, aParam.m0);
WriteParam(aWriter, aParam.m1);
WriteParam(aWriter, aParam.m2);
for (unsigned int i = 0; i < mozilla::ArrayLength(aParam.m3); i++) {
WriteParam(aWriter, aParam.m3[i]);
}
}
static bool Read(MessageReader* aReader, paramType* aResult) {
if (!ReadParam(aReader, &(aResult->m0)) ||
!ReadParam(aReader, &(aResult->m1)) ||
!ReadParam(aReader, &(aResult->m2)))
return false;
for (unsigned int i = 0; i < mozilla::ArrayLength(aResult->m3); i++)
if (!ReadParam(aReader, &(aResult->m3[i]))) return false;
return true;
}
};
template <>
struct ParamTraits<nsContentPolicyType>
: public ContiguousEnumSerializer<nsContentPolicyType,
nsIContentPolicy::TYPE_INVALID,
nsIContentPolicy::TYPE_END> {};
template <>
struct ParamTraits<mozilla::TimeDuration> {
typedef mozilla::TimeDuration paramType;
static void Write(MessageWriter* aWriter, const paramType& aParam) {
WriteParam(aWriter, aParam.mValue);
}
static bool Read(MessageReader* aReader, paramType* aResult) {
return ReadParam(aReader, &aResult->mValue);
};
};
template <>
struct ParamTraits<mozilla::TimeStamp> {
typedef mozilla::TimeStamp paramType;
static void Write(MessageWriter* aWriter, const paramType& aParam) {
WriteParam(aWriter, aParam.mValue);
}
static bool Read(MessageReader* aReader, paramType* aResult) {
return ReadParam(aReader, &aResult->mValue);
};
};
#ifdef XP_WIN
template <>
struct ParamTraits<mozilla::TimeStampValue> {
typedef mozilla::TimeStampValue paramType;
static void Write(MessageWriter* aWriter, const paramType& aParam) {
WriteParam(aWriter, aParam.mGTC);
WriteParam(aWriter, aParam.mQPC);
WriteParam(aWriter, aParam.mIsNull);
WriteParam(aWriter, aParam.mHasQPC);
}
static bool Read(MessageReader* aReader, paramType* aResult) {
return (ReadParam(aReader, &aResult->mGTC) &&
ReadParam(aReader, &aResult->mQPC) &&
ReadParam(aReader, &aResult->mIsNull) &&
ReadParam(aReader, &aResult->mHasQPC));
}
};
#endif
template <>
struct ParamTraits<mozilla::dom::ipc::StructuredCloneData> {
typedef mozilla::dom::ipc::StructuredCloneData paramType;
static void Write(MessageWriter* aWriter, const paramType& aParam) {
aParam.WriteIPCParams(aWriter);
}
static bool Read(MessageReader* aReader, paramType* aResult) {
return aResult->ReadIPCParams(aReader);
}
};
template <class T>
struct ParamTraits<mozilla::Maybe<T>> {
typedef mozilla::Maybe<T> paramType;
static void Write(MessageWriter* writer, const paramType& param) {
if (param.isSome()) {
WriteParam(writer, true);
WriteParam(writer, param.ref());
} else {
WriteParam(writer, false);
}
}
static void Write(MessageWriter* writer, paramType&& param) {
if (param.isSome()) {
WriteParam(writer, true);
WriteParam(writer, std::move(param.ref()));
} else {
WriteParam(writer, false);
}
}
static bool Read(MessageReader* reader, paramType* result) {
bool isSome;
if (!ReadParam(reader, &isSome)) {
return false;
}
if (isSome) {
mozilla::Maybe<T> tmp = ReadParam<T>(reader).TakeMaybe();
if (!tmp) {
return false;
}
*result = std::move(tmp);
} else {
*result = mozilla::Nothing();
}
return true;
}
};
template <typename T, typename U>
struct ParamTraits<mozilla::EnumSet<T, U>> {
typedef mozilla::EnumSet<T, U> paramType;
typedef U serializedType;
static void Write(MessageWriter* writer, const paramType& param) {
MOZ_RELEASE_ASSERT(IsLegalValue(param.serialize()));
WriteParam(writer, param.serialize());
}
static bool Read(MessageReader* reader, paramType* result) {
serializedType tmp;
if (ReadParam(reader, &tmp)) {
if (IsLegalValue(tmp)) {
result->deserialize(tmp);
return true;
}
}
return false;
}
static constexpr serializedType AllEnumBits() {
return ~serializedType(0) >> (std::numeric_limits<serializedType>::digits -
(mozilla::MaxEnumValue<T>::value + 1));
}
static constexpr bool IsLegalValue(const serializedType value) {
static_assert(mozilla::MaxEnumValue<T>::value <
std::numeric_limits<serializedType>::digits,
"Enum max value is not in the range!");
static_assert(
std::is_unsigned<decltype(mozilla::MaxEnumValue<T>::value)>::value,
"Type of MaxEnumValue<T>::value specialization should be unsigned!");
return (value & AllEnumBits()) == value;
}
};
template <class... Ts>
struct ParamTraits<mozilla::Variant<Ts...>> {
typedef mozilla::Variant<Ts...> paramType;
using Tag = typename mozilla::detail::VariantTag<Ts...>::Type;
static void Write(MessageWriter* writer, const paramType& param) {
WriteParam(writer, param.tag);
param.match([writer](const auto& t) { WriteParam(writer, t); });
}
// Because VariantReader is a nested struct, we need the dummy template
// parameter to avoid making VariantReader<0> an explicit specialization,
// which is not allowed for a nested class template
template <size_t N, typename dummy = void>
struct VariantReader {
using Next = VariantReader<N - 1>;
static bool Read(MessageReader* reader, Tag tag, paramType* result) {
// Since the VariantReader specializations start at N , we need to
// subtract one to look at N - 1, the first valid tag. This means our
// comparisons are off by 1. If we get to N = 0 then we have failed to
// find a match to the tag.
if (tag == N - 1) {
// Recall, even though the template parameter is N, we are
// actually interested in the N - 1 tag.
// Default construct our field within the result outparameter and
// directly deserialize into the variant. Note that this means that
// every type in Ts needs to be default constructible
return ReadParam(reader, &result->template emplace<N - 1>());
} else {
return Next::Read(reader, tag, result);
}
}
}; // VariantReader<N>
// Since we are conditioning on tag = N - 1 in the preceding specialization,
// if we get to `VariantReader<0, dummy>` we have failed to find
// a matching tag.
template <typename dummy>
struct VariantReader<0, dummy> {
static bool Read(MessageReader* reader, Tag tag, paramType* result) {
return false;
}
};
static bool Read(MessageReader* reader, paramType* result) {
Tag tag;
if (ReadParam(reader, &tag)) {
return VariantReader<sizeof...(Ts)>::Read(reader, tag, result);
}
return false;
}
};
template <typename T>
struct ParamTraits<mozilla::dom::Optional<T>> {
typedef mozilla::dom::Optional<T> paramType;
static void Write(MessageWriter* aWriter, const paramType& aParam) {
if (aParam.WasPassed()) {
WriteParam(aWriter, true);
WriteParam(aWriter, aParam.Value());
return;
}
WriteParam(aWriter, false);
}
static bool Read(MessageReader* aReader, paramType* aResult) {
bool wasPassed = false;
if (!ReadParam(aReader, &wasPassed)) {
return false;
}
aResult->Reset();
if (wasPassed) {
if (!ReadParam(aReader, &aResult->Construct())) {
return false;
}
}
return true;
}
};
template <>
struct ParamTraits<nsAtom*> {
typedef nsAtom paramType;
static void Write(MessageWriter* aWriter, const paramType* aParam);
static bool Read(MessageReader* aReader, RefPtr<paramType>* aResult);
};
struct CrossOriginOpenerPolicyValidator {
using IntegralType =
std::underlying_type_t<nsILoadInfo::CrossOriginOpenerPolicy>;
static bool IsLegalValue(const IntegralType e) {
return AreIntegralValuesEqual(e, nsILoadInfo::OPENER_POLICY_UNSAFE_NONE) ||
AreIntegralValuesEqual(e, nsILoadInfo::OPENER_POLICY_SAME_ORIGIN) ||
AreIntegralValuesEqual(
e, nsILoadInfo::OPENER_POLICY_SAME_ORIGIN_ALLOW_POPUPS) ||
AreIntegralValuesEqual(
e, nsILoadInfo::
OPENER_POLICY_SAME_ORIGIN_EMBEDDER_POLICY_REQUIRE_CORP);
}
private:
static bool AreIntegralValuesEqual(
const IntegralType aLhs,
const nsILoadInfo::CrossOriginOpenerPolicy aRhs) {
return aLhs == static_cast<IntegralType>(aRhs);
}
};
template <>
struct ParamTraits<nsILoadInfo::CrossOriginOpenerPolicy>
: EnumSerializer<nsILoadInfo::CrossOriginOpenerPolicy,
CrossOriginOpenerPolicyValidator> {};
struct CrossOriginEmbedderPolicyValidator {
using IntegralType =
std::underlying_type_t<nsILoadInfo::CrossOriginEmbedderPolicy>;
static bool IsLegalValue(const IntegralType e) {
return AreIntegralValuesEqual(e, nsILoadInfo::EMBEDDER_POLICY_NULL) ||
AreIntegralValuesEqual(e,
nsILoadInfo::EMBEDDER_POLICY_REQUIRE_CORP) ||
AreIntegralValuesEqual(e,
nsILoadInfo::EMBEDDER_POLICY_CREDENTIALLESS);
}
private:
static bool AreIntegralValuesEqual(
const IntegralType aLhs,
const nsILoadInfo::CrossOriginEmbedderPolicy aRhs) {
return aLhs == static_cast<IntegralType>(aRhs);
}
};
template <>
struct ParamTraits<nsILoadInfo::CrossOriginEmbedderPolicy>
: EnumSerializer<nsILoadInfo::CrossOriginEmbedderPolicy,
CrossOriginEmbedderPolicyValidator> {};
template <>
struct ParamTraits<nsIThread::QoSPriority>
: public ContiguousEnumSerializerInclusive<nsIThread::QoSPriority,
nsIThread::QOS_PRIORITY_NORMAL,
nsIThread::QOS_PRIORITY_LOW> {};
template <size_t N, typename Word>
struct ParamTraits<mozilla::BitSet<N, Word>> {
typedef mozilla::BitSet<N, Word> paramType;
static void Write(MessageWriter* aWriter, const paramType& aParam) {
for (Word word : aParam.Storage()) {
WriteParam(aWriter, word);
}
}
static bool Read(MessageReader* aReader, paramType* aResult) {
for (Word& word : aResult->Storage()) {
if (!ReadParam(aReader, &word)) {
return false;
}
}
return true;
}
};
template <typename T>
struct ParamTraits<mozilla::UniquePtr<T>> {
typedef mozilla::UniquePtr<T> paramType;
static void Write(MessageWriter* aWriter, const paramType& aParam) {
bool isNull = aParam == nullptr;
WriteParam(aWriter, isNull);
if (!isNull) {
WriteParam(aWriter, *aParam.get());
}
}
static bool Read(IPC::MessageReader* aReader, paramType* aResult) {
bool isNull = true;
if (!ReadParam(aReader, &isNull)) {
return false;
}
if (isNull) {
aResult->reset();
} else {
*aResult = mozilla::MakeUnique<T>();
if (!ReadParam(aReader, aResult->get())) {
return false;
}
}
return true;
}
};
template <typename... Ts>
struct ParamTraits<std::tuple<Ts...>> {
typedef std::tuple<Ts...> paramType;
template <typename U>
static void Write(IPC::MessageWriter* aWriter, U&& aParam) {
WriteInternal(aWriter, std::forward<U>(aParam),
std::index_sequence_for<Ts...>{});
}
static bool Read(IPC::MessageReader* aReader, std::tuple<Ts...>* aResult) {
return ReadInternal(aReader, *aResult, std::index_sequence_for<Ts...>{});
}
private:
template <size_t... Is>
static void WriteInternal(IPC::MessageWriter* aWriter,
const std::tuple<Ts...>& aParam,
std::index_sequence<Is...>) {
WriteParams(aWriter, std::get<Is>(aParam)...);
}
template <size_t... Is>
static void WriteInternal(IPC::MessageWriter* aWriter,
std::tuple<Ts...>&& aParam,
std::index_sequence<Is...>) {
WriteParams(aWriter, std::move(std::get<Is>(aParam))...);
}
template <size_t... Is>
static bool ReadInternal(IPC::MessageReader* aReader,
std::tuple<Ts...>& aResult,
std::index_sequence<Is...>) {
return ReadParams(aReader, std::get<Is>(aResult)...);
}
};
template <>
struct ParamTraits<mozilla::net::LinkHeader> {
typedef mozilla::net::LinkHeader paramType;
constexpr static int kNumberOfMembers = 14;
constexpr static int kSizeOfEachMember = sizeof(nsString);
constexpr static int kExpectedSizeOfParamType =
kNumberOfMembers * kSizeOfEachMember;
static void Write(MessageWriter* aWriter, const paramType& aParam) {
static_assert(sizeof(paramType) == kExpectedSizeOfParamType,
"All members of should be written below.");
// Bug 1860565: `aParam.mAnchor` is not written.
WriteParam(aWriter, aParam.mHref);
WriteParam(aWriter, aParam.mRel);
WriteParam(aWriter, aParam.mTitle);
WriteParam(aWriter, aParam.mNonce);
WriteParam(aWriter, aParam.mIntegrity);
WriteParam(aWriter, aParam.mSrcset);
WriteParam(aWriter, aParam.mSizes);
WriteParam(aWriter, aParam.mType);
WriteParam(aWriter, aParam.mMedia);
WriteParam(aWriter, aParam.mCrossOrigin);
WriteParam(aWriter, aParam.mReferrerPolicy);
WriteParam(aWriter, aParam.mAs);
WriteParam(aWriter, aParam.mFetchPriority);
}
static bool Read(MessageReader* aReader, paramType* aResult) {
static_assert(sizeof(paramType) == kExpectedSizeOfParamType,
"All members of should be handled below.");
// Bug 1860565: `aParam.mAnchor` is not handled.
if (!ReadParam(aReader, &aResult->mHref)) {
return false;
}
if (!ReadParam(aReader, &aResult->mRel)) {
return false;
}
if (!ReadParam(aReader, &aResult->mTitle)) {
return false;
}
if (!ReadParam(aReader, &aResult->mNonce)) {
return false;
}
if (!ReadParam(aReader, &aResult->mIntegrity)) {
return false;
}
if (!ReadParam(aReader, &aResult->mSrcset)) {
return false;
}
if (!ReadParam(aReader, &aResult->mSizes)) {
return false;
}
if (!ReadParam(aReader, &aResult->mType)) {
return false;
}
if (!ReadParam(aReader, &aResult->mMedia)) {
return false;
}
if (!ReadParam(aReader, &aResult->mCrossOrigin)) {
return false;
}
if (!ReadParam(aReader, &aResult->mReferrerPolicy)) {
return false;
}
if (!ReadParam(aReader, &aResult->mAs)) {
return false;
}
return ReadParam(aReader, &aResult->mFetchPriority);
};
};
template <>
struct ParamTraits<mozilla::dom::UserActivation::Modifiers> {
typedef mozilla::dom::UserActivation::Modifiers paramType;
static void Write(MessageWriter* aWriter, const paramType& aParam) {
WriteParam(aWriter, aParam.mModifiers);
}
static bool Read(MessageReader* aReader, paramType* aResult) {
return ReadParam(aReader, &aResult->mModifiers);
};
};
} /* namespace IPC */
#endif /* __IPC_GLUE_IPCMESSAGEUTILSSPECIALIZATIONS_H__ */
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