tdesktop/Telegram/SourceFiles/data/data_auto_download.cpp

324 lines
7.8 KiB
C++

/*
This file is part of Telegram Desktop,
the official desktop application for the Telegram messaging service.
For license and copyright information please follow this link:
https://github.com/telegramdesktop/tdesktop/blob/master/LEGAL
*/
#include "data/data_auto_download.h"
#include "data/data_peer.h"
#include "data/data_photo.h"
#include "data/data_document.h"
#include <QtCore/QBuffer>
namespace Data {
namespace AutoDownload {
namespace {
constexpr auto kDefaultMaxSize = 8 * 1024 * 1024;
constexpr auto kDefaultAutoPlaySize = 50 * 1024 * 1024;
constexpr auto kVersion1 = char(1);
constexpr auto kVersion = char(2);
template <typename Enum>
auto enums_view(int from, int till) {
using namespace ranges::view;
return ints(from, till) | transform([](int index) {
return static_cast<Enum>(index);
});
}
template <typename Enum>
auto enums_view(int till) {
return enums_view<Enum>(0, till);
}
void SetDefaultsForSource(Full &data, Source source) {
data.setBytesLimit(source, Type::Photo, kDefaultMaxSize);
data.setBytesLimit(source, Type::VoiceMessage, kDefaultMaxSize);
data.setBytesLimit(
source,
Type::AutoPlayVideoMessage,
kDefaultAutoPlaySize);
data.setBytesLimit(source, Type::AutoPlayGIF, kDefaultAutoPlaySize);
const auto channelsFileLimit = (source == Source::Channel)
? 0
: kDefaultMaxSize;
data.setBytesLimit(source, Type::File, channelsFileLimit);
data.setBytesLimit(source, Type::AutoPlayVideo, kDefaultAutoPlaySize);
data.setBytesLimit(source, Type::Music, channelsFileLimit);
}
const Full &Defaults() {
static auto Result = [] {
auto result = Full::FullDisabled();
for (const auto source : enums_view<Source>(kSourcesCount)) {
SetDefaultsForSource(result, source);
}
return result;
}();
return Result;
}
Source SourceFromPeer(not_null<PeerData*> peer) {
if (peer->isUser()) {
return Source::User;
} else if (peer->isChat() || peer->isMegagroup()) {
return Source::Group;
} else {
return Source::Channel;
}
}
Type AutoPlayTypeFromDocument(not_null<DocumentData*> document) {
return document->isVideoFile()
? Type::AutoPlayVideo
: document->isVideoMessage()
? Type::AutoPlayVideoMessage
: Type::AutoPlayGIF;
}
} // namespace
void Single::setBytesLimit(int bytesLimit) {
Expects(bytesLimit >= 0 && bytesLimit <= kMaxBytesLimit);
_limit = bytesLimit;
}
bool Single::hasValue() const {
return (_limit >= 0);
}
bool Single::shouldDownload(int fileSize) const {
Expects(hasValue());
return (_limit > 0) && (fileSize <= _limit);
}
int Single::bytesLimit() const {
Expects(hasValue());
return _limit;
}
qint32 Single::serialize() const {
return _limit;
}
bool Single::setFromSerialized(qint32 serialized) {
if (serialized < -1 || serialized > kMaxBytesLimit) {
return false;
}
_limit = serialized;
return true;
}
const Single &Set::single(Type type) const {
Expects(static_cast<int>(type) >= 0
&& static_cast<int>(type) < kTypesCount);
return _data[static_cast<int>(type)];
}
Single &Set::single(Type type) {
return const_cast<Single&>(static_cast<const Set*>(this)->single(type));
}
void Set::setBytesLimit(Type type, int bytesLimit) {
single(type).setBytesLimit(bytesLimit);
}
bool Set::hasValue(Type type) const {
return single(type).hasValue();
}
bool Set::shouldDownload(Type type, int fileSize) const {
return single(type).shouldDownload(fileSize);
}
int Set::bytesLimit(Type type) const {
return single(type).bytesLimit();
}
qint32 Set::serialize(Type type) const {
return single(type).serialize();
}
bool Set::setFromSerialized(Type type, qint32 serialized) {
if (static_cast<int>(type) < 0
|| static_cast<int>(type) >= kTypesCount) {
return false;
}
return single(type).setFromSerialized(serialized);
}
const Set &Full::set(Source source) const {
Expects(static_cast<int>(source) >= 0
&& static_cast<int>(source) < kSourcesCount);
return _data[static_cast<int>(source)];
}
Set &Full::set(Source source) {
return const_cast<Set&>(static_cast<const Full*>(this)->set(source));
}
const Set &Full::setOrDefault(Source source, Type type) const {
const auto &my = set(source);
const auto &result = my.hasValue(type) ? my : Defaults().set(source);
Ensures(result.hasValue(type));
return result;
}
void Full::setBytesLimit(Source source, Type type, int bytesLimit) {
set(source).setBytesLimit(type, bytesLimit);
}
bool Full::shouldDownload(Source source, Type type, int fileSize) const {
if (ranges::find(kStreamedTypes, type) != end(kStreamedTypes)) {
// With streaming we disable autodownload and hide them in Settings.
return false;
}
return setOrDefault(source, type).shouldDownload(type, fileSize);
}
int Full::bytesLimit(Source source, Type type) const {
return setOrDefault(source, type).bytesLimit(type);
}
QByteArray Full::serialize() const {
auto result = QByteArray();
auto size = sizeof(qint8);
size += kSourcesCount * kTypesCount * sizeof(qint32);
result.reserve(size);
{
auto buffer = QBuffer(&result);
buffer.open(QIODevice::WriteOnly);
auto stream = QDataStream(&buffer);
stream << qint8(kVersion);
for (const auto source : enums_view<Source>(kSourcesCount)) {
for (const auto type : enums_view<Type>(kTypesCount)) {
stream << set(source).serialize(type);
}
}
}
return result;
}
bool Full::setFromSerialized(const QByteArray &serialized) {
if (serialized.isEmpty()) {
return false;
}
auto stream = QDataStream(serialized);
auto version = qint8();
stream >> version;
if (stream.status() != QDataStream::Ok) {
return false;
} else if (version != kVersion && version != kVersion1) {
return false;
}
auto temp = Full();
for (const auto source : enums_view<Source>(kSourcesCount)) {
for (const auto type : enums_view<Type>(kTypesCount)) {
auto value = qint32();
stream >> value;
if (!temp.set(source).setFromSerialized(type, value)) {
return false;
}
}
}
if (version == kVersion1) {
for (const auto source : enums_view<Source>(kSourcesCount)) {
for (const auto type : kAutoPlayTypes) {
temp.setBytesLimit(source, type, std::max(
temp.bytesLimit(source, type),
kDefaultAutoPlaySize));
}
}
}
_data = temp._data;
return true;
}
Full Full::FullDisabled() {
auto result = Full();
for (const auto source : enums_view<Source>(kSourcesCount)) {
for (const auto type : enums_view<Type>(kTypesCount)) {
result.setBytesLimit(source, type, 0);
}
}
return result;
}
bool Should(
const Full &data,
Source source,
not_null<DocumentData*> document) {
if (document->sticker() || document->isGifv()) {
return true;
} else if (document->isVoiceMessage()
|| document->isVideoMessage()
|| document->isSong()
|| document->isVideoFile()) {
return false;
}
return data.shouldDownload(source, Type::File, document->size);
}
bool Should(
const Full &data,
not_null<PeerData*> peer,
not_null<DocumentData*> document) {
return Should(data, SourceFromPeer(peer), document);
}
bool Should(
const Full &data,
not_null<DocumentData*> document) {
if (document->sticker()) {
return true;
}
const auto size = document->size;
return Should(data, Source::User, document)
|| Should(data, Source::Group, document)
|| Should(data, Source::Channel, document);
}
bool Should(
const Full &data,
not_null<PeerData*> peer,
not_null<PhotoData*> photo) {
return data.shouldDownload(
SourceFromPeer(peer),
Type::Photo,
photo->imageByteSize(PhotoSize::Large));
}
bool ShouldAutoPlay(
const Full &data,
not_null<PeerData*> peer,
not_null<DocumentData*> document) {
return data.shouldDownload(
SourceFromPeer(peer),
AutoPlayTypeFromDocument(document),
document->size);
}
Full WithDisabledAutoPlay(const Full &data) {
auto result = data;
for (const auto source : enums_view<Source>(kSourcesCount)) {
for (const auto type : kAutoPlayTypes) {
result.setBytesLimit(source, type, 0);
}
}
return result;
}
} // namespace AutoDownload
} // namespace Data