tdesktop/Telegram/SourceFiles/apiwrap.cpp

5442 lines
162 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 "apiwrap.h"
#include "api/api_authorizations.h"
#include "api/api_hash.h"
#include "api/api_media.h"
#include "api/api_sending.h"
#include "api/api_text_entities.h"
#include "api/api_self_destruct.h"
#include "api/api_sensitive_content.h"
#include "api/api_global_privacy.h"
#include "api/api_updates.h"
#include "data/stickers/data_stickers.h"
#include "data/data_drafts.h"
#include "data/data_changes.h"
#include "data/data_photo.h"
#include "data/data_web_page.h"
#include "data/data_poll.h"
#include "data/data_folder.h"
#include "data/data_media_types.h"
#include "data/data_sparse_ids.h"
#include "data/data_search_controller.h"
#include "data/data_scheduled_messages.h"
#include "data/data_channel_admins.h"
#include "data/data_session.h"
#include "data/data_channel.h"
#include "data/data_chat.h"
#include "data/data_user.h"
#include "data/data_cloud_themes.h"
#include "data/data_chat_filters.h"
#include "data/data_histories.h"
#include "data/stickers/data_stickers.h"
#include "dialogs/dialogs_key.h"
#include "core/core_cloud_password.h"
#include "core/application.h"
#include "base/openssl_help.h"
#include "base/unixtime.h"
#include "base/call_delayed.h"
#include "lang/lang_keys.h"
#include "mainwindow.h"
#include "mainwidget.h"
#include "boxes/add_contact_box.h"
#include "mtproto/mtproto_config.h"
#include "history/history.h"
#include "history/history_message.h"
#include "history/history_item_components.h"
//#include "history/feed/history_feed_section.h" // #feed
#include "main/main_session.h"
#include "main/main_session_settings.h"
#include "main/main_account.h"
#include "boxes/confirm_box.h"
#include "boxes/stickers_box.h"
#include "boxes/sticker_set_box.h"
#include "window/notifications_manager.h"
#include "window/window_lock_widgets.h"
#include "window/window_session_controller.h"
#include "window/themes/window_theme.h"
#include "inline_bots/inline_bot_result.h"
#include "chat_helpers/message_field.h"
#include "ui/text_options.h"
#include "ui/emoji_config.h"
#include "support/support_helper.h"
#include "storage/localimageloader.h"
#include "storage/download_manager_mtproto.h"
#include "storage/file_upload.h"
#include "storage/storage_facade.h"
#include "storage/storage_shared_media.h"
#include "storage/storage_user_photos.h"
#include "storage/storage_media_prepare.h"
#include "storage/storage_account.h"
#include "facades.h"
#include "app.h"
//#include "storage/storage_feed_messages.h" // #feed
namespace {
// 1 second wait before reload members in channel after adding.
constexpr auto kReloadChannelMembersTimeout = 1000;
// Save draft to the cloud with 1 sec extra delay.
constexpr auto kSaveCloudDraftTimeout = 1000;
// Max users in one super group invite request.
constexpr auto kMaxUsersPerInvite = 100;
// How many messages from chat history server should forward to user,
// that was added to this chat.
constexpr auto kForwardMessagesOnAdd = 100;
constexpr auto kTopPromotionInterval = TimeId(60 * 60);
constexpr auto kTopPromotionMinDelay = TimeId(10);
constexpr auto kSmallDelayMs = 5;
constexpr auto kUnreadMentionsPreloadIfLess = 5;
constexpr auto kUnreadMentionsFirstRequestLimit = 10;
constexpr auto kUnreadMentionsNextRequestLimit = 100;
constexpr auto kSharedMediaLimit = 100;
//constexpr auto kFeedMessagesLimit = 50; // #feed
constexpr auto kReadFeaturedSetsTimeout = crl::time(1000);
constexpr auto kFileLoaderQueueStopTimeout = crl::time(5000);
//constexpr auto kFeedReadTimeout = crl::time(1000); // #feed
constexpr auto kStickersByEmojiInvalidateTimeout = crl::time(60 * 60 * 1000);
constexpr auto kNotifySettingSaveTimeout = crl::time(1000);
constexpr auto kDialogsFirstLoad = 20;
constexpr auto kDialogsPerPage = 500;
constexpr auto kBlockedFirstSlice = 16;
using PhotoFileLocationId = Data::PhotoFileLocationId;
using DocumentFileLocationId = Data::DocumentFileLocationId;
using UpdatedFileReferences = Data::UpdatedFileReferences;
} // namespace
MTPInputPrivacyKey ApiWrap::Privacy::Input(Key key) {
switch (key) {
case Privacy::Key::Calls: return MTP_inputPrivacyKeyPhoneCall();
case Privacy::Key::Invites: return MTP_inputPrivacyKeyChatInvite();
case Privacy::Key::PhoneNumber: return MTP_inputPrivacyKeyPhoneNumber();
case Privacy::Key::AddedByPhone:
return MTP_inputPrivacyKeyAddedByPhone();
case Privacy::Key::LastSeen:
return MTP_inputPrivacyKeyStatusTimestamp();
case Privacy::Key::CallsPeer2Peer:
return MTP_inputPrivacyKeyPhoneP2P();
case Privacy::Key::Forwards:
return MTP_inputPrivacyKeyForwards();
case Privacy::Key::ProfilePhoto:
return MTP_inputPrivacyKeyProfilePhoto();
}
Unexpected("Key in ApiWrap::Privacy::Input.");
}
std::optional<ApiWrap::Privacy::Key> ApiWrap::Privacy::KeyFromMTP(
mtpTypeId type) {
using Key = Privacy::Key;
switch (type) {
case mtpc_privacyKeyPhoneNumber:
case mtpc_inputPrivacyKeyPhoneNumber: return Key::PhoneNumber;
case mtpc_privacyKeyAddedByPhone:
case mtpc_inputPrivacyKeyAddedByPhone: return Key::AddedByPhone;
case mtpc_privacyKeyStatusTimestamp:
case mtpc_inputPrivacyKeyStatusTimestamp: return Key::LastSeen;
case mtpc_privacyKeyChatInvite:
case mtpc_inputPrivacyKeyChatInvite: return Key::Invites;
case mtpc_privacyKeyPhoneCall:
case mtpc_inputPrivacyKeyPhoneCall: return Key::Calls;
case mtpc_privacyKeyPhoneP2P:
case mtpc_inputPrivacyKeyPhoneP2P: return Key::CallsPeer2Peer;
case mtpc_privacyKeyForwards:
case mtpc_inputPrivacyKeyForwards: return Key::Forwards;
case mtpc_privacyKeyProfilePhoto:
case mtpc_inputPrivacyKeyProfilePhoto: return Key::ProfilePhoto;
}
return std::nullopt;
}
bool ApiWrap::BlockedPeersSlice::Item::operator==(const Item &other) const {
return (peer == other.peer) && (date == other.date);
}
bool ApiWrap::BlockedPeersSlice::Item::operator!=(const Item &other) const {
return !(*this == other);
}
bool ApiWrap::BlockedPeersSlice::operator==(const BlockedPeersSlice &other) const {
return (total == other.total) && (list == other.list);
}
bool ApiWrap::BlockedPeersSlice::operator!=(const BlockedPeersSlice &other) const {
return !(*this == other);
}
ApiWrap::ApiWrap(not_null<Main::Session*> session)
: MTP::Sender(&session->account().mtp())
, _session(session)
, _messageDataResolveDelayed([=] { resolveMessageDatas(); })
, _webPagesTimer([=] { resolveWebPages(); })
, _draftsSaveTimer([=] { saveDraftsToCloud(); })
, _featuredSetsReadTimer([=] { readFeaturedSets(); })
, _dialogsLoadState(std::make_unique<DialogsLoadState>())
, _fileLoader(std::make_unique<TaskQueue>(kFileLoaderQueueStopTimeout))
//, _feedReadTimer([=] { readFeeds(); }) // #feed
, _topPromotionTimer([=] { refreshTopPromotion(); })
, _updateNotifySettingsTimer([=] { sendNotifySettingsUpdates(); })
, _authorizations(std::make_unique<Api::Authorizations>(this))
, _selfDestruct(std::make_unique<Api::SelfDestruct>(this))
, _sensitiveContent(std::make_unique<Api::SensitiveContent>(this))
, _globalPrivacy(std::make_unique<Api::GlobalPrivacy>(this)) {
crl::on_main(session, [=] {
// You can't use _session->lifetime() in the constructor,
// only queued, because it is not constructed yet.
_session->uploader().photoReady(
) | rpl::start_with_next([=](const Storage::UploadedPhoto &data) {
photoUploadReady(data.fullId, data.file);
}, _session->lifetime());
_session->data().chatsFilters().changed(
) | rpl::filter([=] {
return _session->data().chatsFilters().archiveNeeded();
}) | rpl::start_with_next([=] {
requestMoreDialogsIfNeeded();
}, _session->lifetime());
setupSupportMode();
});
}
ApiWrap::~ApiWrap() = default;
Main::Session &ApiWrap::session() const {
return *_session;
}
Storage::Account &ApiWrap::local() const {
return _session->local();
}
Api::Updates &ApiWrap::updates() const {
return _session->updates();
}
void ApiWrap::setupSupportMode() {
if (!_session->supportMode()) {
return;
}
_session->settings().supportChatsTimeSliceValue(
) | rpl::start_with_next([=](int seconds) {
_dialogsLoadTill = seconds ? std::max(base::unixtime::now() - seconds, 0) : 0;
refreshDialogsLoadBlocked();
}, _session->lifetime());
}
void ApiWrap::requestChangelog(
const QString &sinceVersion,
Fn<void(const MTPUpdates &result)> callback) {
request(MTPhelp_GetAppChangelog(
MTP_string(sinceVersion)
)).done(
callback
).send();
}
void ApiWrap::refreshTopPromotion() {
const auto now = base::unixtime::now();
const auto next = (_topPromotionNextRequestTime != 0)
? _topPromotionNextRequestTime
: now;
if (_topPromotionRequestId) {
getTopPromotionDelayed(now, next);
return;
}
const auto key = [&]() -> std::pair<QString, uint32> {
if (Global::ProxySettings() != MTP::ProxyData::Settings::Enabled) {
return {};
}
const auto &proxy = Global::SelectedProxy();
if (proxy.type != MTP::ProxyData::Type::Mtproto) {
return {};
}
return { proxy.host, proxy.port };
}();
if (_topPromotionKey == key && now < next) {
getTopPromotionDelayed(now, next);
return;
}
_topPromotionKey = key;
_topPromotionRequestId = request(MTPhelp_GetPromoData(
)).done([=](const MTPhelp_PromoData &result) {
_topPromotionRequestId = 0;
topPromotionDone(result);
}).fail([=](const RPCError &error) {
_topPromotionRequestId = 0;
const auto now = base::unixtime::now();
const auto next = _topPromotionNextRequestTime = now
+ kTopPromotionInterval;
if (!_topPromotionTimer.isActive()) {
getTopPromotionDelayed(now, next);
}
}).send();
}
void ApiWrap::getTopPromotionDelayed(TimeId now, TimeId next) {
_topPromotionTimer.callOnce(std::min(
std::max(next - now, kTopPromotionMinDelay),
kTopPromotionInterval) * crl::time(1000));
};
void ApiWrap::topPromotionDone(const MTPhelp_PromoData &proxy) {
_topPromotionNextRequestTime = proxy.match([&](const auto &data) {
return data.vexpires().v;
});
getTopPromotionDelayed(
base::unixtime::now(),
_topPromotionNextRequestTime);
proxy.match([&](const MTPDhelp_promoDataEmpty &data) {
_session->data().setTopPromoted(nullptr, QString(), QString());
}, [&](const MTPDhelp_promoData &data) {
_session->data().processChats(data.vchats());
_session->data().processUsers(data.vusers());
const auto peerId = peerFromMTP(data.vpeer());
const auto history = _session->data().history(peerId);
_session->data().setTopPromoted(
history,
data.vpsa_type().value_or_empty(),
data.vpsa_message().value_or_empty());
});
}
void ApiWrap::requestDeepLinkInfo(
const QString &path,
Fn<void(const MTPDhelp_deepLinkInfo &result)> callback) {
request(_deepLinkInfoRequestId).cancel();
_deepLinkInfoRequestId = request(MTPhelp_GetDeepLinkInfo(
MTP_string(path)
)).done([=](const MTPhelp_DeepLinkInfo &result) {
_deepLinkInfoRequestId = 0;
if (result.type() == mtpc_help_deepLinkInfo) {
callback(result.c_help_deepLinkInfo());
}
}).fail([=](const RPCError &error) {
_deepLinkInfoRequestId = 0;
}).send();
}
void ApiWrap::requestTermsUpdate() {
if (_termsUpdateRequestId) {
return;
}
const auto now = crl::now();
if (_termsUpdateSendAt && now < _termsUpdateSendAt) {
base::call_delayed(_termsUpdateSendAt - now, _session, [=] {
requestTermsUpdate();
});
return;
}
constexpr auto kTermsUpdateTimeoutMin = 10 * crl::time(1000);
constexpr auto kTermsUpdateTimeoutMax = 86400 * crl::time(1000);
_termsUpdateRequestId = request(MTPhelp_GetTermsOfServiceUpdate(
)).done([=](const MTPhelp_TermsOfServiceUpdate &result) {
_termsUpdateRequestId = 0;
const auto requestNext = [&](auto &&data) {
const auto timeout = (data.vexpires().v - base::unixtime::now());
_termsUpdateSendAt = crl::now() + snap(
timeout * crl::time(1000),
kTermsUpdateTimeoutMin,
kTermsUpdateTimeoutMax);
requestTermsUpdate();
};
switch (result.type()) {
case mtpc_help_termsOfServiceUpdateEmpty: {
const auto &data = result.c_help_termsOfServiceUpdateEmpty();
requestNext(data);
} break;
case mtpc_help_termsOfServiceUpdate: {
const auto &data = result.c_help_termsOfServiceUpdate();
const auto &terms = data.vterms_of_service();
const auto &fields = terms.c_help_termsOfService();
session().lockByTerms(
Window::TermsLock::FromMTP(_session, fields));
requestNext(data);
} break;
default: Unexpected("Type in requestTermsUpdate().");
}
}).fail([=](const RPCError &error) {
_termsUpdateRequestId = 0;
_termsUpdateSendAt = crl::now() + kTermsUpdateTimeoutMin;
requestTermsUpdate();
}).send();
}
void ApiWrap::acceptTerms(bytes::const_span id) {
request(MTPhelp_AcceptTermsOfService(
MTP_dataJSON(MTP_bytes(id))
)).done([=](const MTPBool &result) {
requestTermsUpdate();
}).send();
}
void ApiWrap::checkChatInvite(
const QString &hash,
FnMut<void(const MTPChatInvite &)> done,
FnMut<void(const RPCError &)> fail) {
request(base::take(_checkInviteRequestId)).cancel();
_checkInviteRequestId = request(MTPmessages_CheckChatInvite(
MTP_string(hash)
)).done(std::move(done)).fail(std::move(fail)).send();
}
void ApiWrap::importChatInvite(const QString &hash) {
request(MTPmessages_ImportChatInvite(
MTP_string(hash)
)).done([=](const MTPUpdates &result) {
applyUpdates(result);
Ui::hideLayer();
const auto handleChats = [&](const MTPVector<MTPChat> &chats) {
if (chats.v.isEmpty()) {
return;
}
const auto peerId = chats.v[0].match([](const MTPDchat &data) {
return peerFromChat(data.vid().v);
}, [](const MTPDchannel &data) {
return peerFromChannel(data.vid().v);
}, [](auto&&) {
return PeerId(0);
});
if (const auto peer = _session->data().peerLoaded(peerId)) {
const auto &windows = _session->windows();
if (!windows.empty()) {
windows.front()->showPeerHistory(
peer,
Window::SectionShow::Way::Forward);
}
}
};
result.match([&](const MTPDupdates &data) {
handleChats(data.vchats());
}, [&](const MTPDupdatesCombined &data) {
handleChats(data.vchats());
}, [&](auto &&) {
LOG(("API Error: unexpected update cons %1 "
"(ApiWrap::importChatInvite)").arg(result.type()));
});
}).fail([=](const RPCError &error) {
const auto &type = error.type();
if (type == qstr("CHANNELS_TOO_MUCH")) {
Ui::show(Box<InformBox>(tr::lng_join_channel_error(tr::now)));
} else if (error.code() == 400) {
Ui::show(Box<InformBox>((type == qstr("USERS_TOO_MUCH"))
? tr::lng_group_invite_no_room(tr::now)
: tr::lng_group_invite_bad_link(tr::now)));
}
}).send();
}
void ApiWrap::savePinnedOrder(Data::Folder *folder) {
const auto &order = _session->data().pinnedChatsOrder(
folder,
FilterId());
const auto input = [](const Dialogs::Key &key) {
if (const auto history = key.history()) {
return MTP_inputDialogPeer(history->peer->input);
} else if (const auto folder = key.folder()) {
return MTP_inputDialogPeerFolder(MTP_int(folder->id()));
}
Unexpected("Key type in pinnedDialogsOrder().");
};
auto peers = QVector<MTPInputDialogPeer>();
peers.reserve(order.size());
ranges::transform(
order,
ranges::back_inserter(peers),
input);
request(MTPmessages_ReorderPinnedDialogs(
MTP_flags(MTPmessages_ReorderPinnedDialogs::Flag::f_force),
MTP_int(folder ? folder->id() : 0),
MTP_vector(peers)
)).send();
}
void ApiWrap::toggleHistoryArchived(
not_null<History*> history,
bool archived,
Fn<void()> callback) {
if (const auto already = _historyArchivedRequests.take(history)) {
request(already->first).cancel();
}
const auto isPinned = history->isPinnedDialog(0);
const auto archiveId = Data::Folder::kId;
const auto requestId = request(MTPfolders_EditPeerFolders(
MTP_vector<MTPInputFolderPeer>(
1,
MTP_inputFolderPeer(
history->peer->input,
MTP_int(archived ? archiveId : 0)))
)).done([=](const MTPUpdates &result) {
applyUpdates(result);
if (archived) {
history->setFolder(_session->data().folder(archiveId));
} else {
history->clearFolder();
}
if (const auto data = _historyArchivedRequests.take(history)) {
data->second();
}
if (isPinned) {
_session->data().notifyPinnedDialogsOrderUpdated();
}
}).fail([=](const RPCError &error) {
_historyArchivedRequests.remove(history);
}).send();
_historyArchivedRequests.emplace(history, requestId, callback);
}
// #feed
//void ApiWrap::ungroupAllFromFeed(not_null<Data::Feed*> feed) {
// const auto flags = MTPchannels_SetFeedBroadcasts::Flag::f_channels
// | MTPchannels_SetFeedBroadcasts::Flag::f_also_newly_joined;
// request(MTPchannels_SetFeedBroadcasts(
// MTP_flags(flags),
// MTP_int(feed->id()),
// MTP_vector<MTPInputChannel>(0),
// MTP_bool(false)
// )).done([=](const MTPUpdates &result) {
// applyUpdates(result);
// }).send();
//}
void ApiWrap::sendMessageFail(
const RPCError &error,
not_null<PeerData*> peer,
uint64 randomId,
FullMsgId itemId) {
if (error.type() == qstr("PEER_FLOOD")) {
Ui::show(Box<InformBox>(
PeerFloodErrorText(&session(), PeerFloodType::Send)));
} else if (error.type() == qstr("USER_BANNED_IN_CHANNEL")) {
const auto link = textcmdLink(
session().createInternalLinkFull(qsl("spambot")),
tr::lng_cant_more_info(tr::now));
Ui::show(Box<InformBox>(tr::lng_error_public_groups_denied(
tr::now,
lt_more_info,
link)));
} else if (error.type().startsWith(qstr("SLOWMODE_WAIT_"))) {
const auto chop = qstr("SLOWMODE_WAIT_").size();
const auto left = error.type().mid(chop).toInt();
if (const auto channel = peer->asChannel()) {
const auto seconds = channel->slowmodeSeconds();
if (seconds >= left) {
channel->growSlowmodeLastMessage(
base::unixtime::now() - (left - seconds));
} else {
requestFullPeer(peer);
}
}
} else if (error.type() == qstr("SCHEDULE_STATUS_PRIVATE")) {
auto &scheduled = _session->data().scheduledMessages();
Assert(peer->isUser());
if (const auto item = scheduled.lookupItem(peer->id, itemId.msg)) {
scheduled.removeSending(item);
Ui::show(Box<InformBox>(tr::lng_cant_do_this(tr::now)));
}
}
if (const auto item = _session->data().message(itemId)) {
Assert(randomId != 0);
_session->data().unregisterMessageRandomId(randomId);
item->sendFailed();
}
}
void ApiWrap::requestMessageData(ChannelData *channel, MsgId msgId, RequestMessageDataCallback callback) {
auto &req = (channel ? _channelMessageDataRequests[channel][msgId] : _messageDataRequests[msgId]);
if (callback) {
req.callbacks.append(callback);
}
if (!req.requestId) _messageDataResolveDelayed.call();
}
QVector<MTPInputMessage> ApiWrap::collectMessageIds(const MessageDataRequests &requests) {
auto result = QVector<MTPInputMessage>();
result.reserve(requests.size());
for (auto i = requests.cbegin(), e = requests.cend(); i != e; ++i) {
if (i.value().requestId > 0) continue;
result.push_back(MTP_inputMessageID(MTP_int(i.key())));
}
return result;
}
ApiWrap::MessageDataRequests *ApiWrap::messageDataRequests(ChannelData *channel, bool onlyExisting) {
if (channel) {
auto i = _channelMessageDataRequests.find(channel);
if (i == _channelMessageDataRequests.cend()) {
if (onlyExisting) {
return nullptr;
}
i = _channelMessageDataRequests.insert(channel, MessageDataRequests());
}
return &i.value();
}
return &_messageDataRequests;
}
void ApiWrap::resolveMessageDatas() {
if (_messageDataRequests.isEmpty() && _channelMessageDataRequests.isEmpty()) return;
auto ids = collectMessageIds(_messageDataRequests);
if (!ids.isEmpty()) {
auto requestId = request(MTPmessages_GetMessages(
MTP_vector<MTPInputMessage>(ids)
)).done([this](const MTPmessages_Messages &result, mtpRequestId requestId) {
gotMessageDatas(nullptr, result, requestId);
}).fail([this](const RPCError &error, mtpRequestId requestId) {
finalizeMessageDataRequest(nullptr, requestId);
}).afterDelay(kSmallDelayMs).send();
for (auto &request : _messageDataRequests) {
if (request.requestId > 0) continue;
request.requestId = requestId;
}
}
for (auto j = _channelMessageDataRequests.begin(); j != _channelMessageDataRequests.cend();) {
if (j->isEmpty()) {
j = _channelMessageDataRequests.erase(j);
continue;
}
auto ids = collectMessageIds(j.value());
if (!ids.isEmpty()) {
auto channel = j.key();
auto requestId = request(MTPchannels_GetMessages(
j.key()->inputChannel,
MTP_vector<MTPInputMessage>(ids)
)).done([=](const MTPmessages_Messages &result, mtpRequestId requestId) {
gotMessageDatas(channel, result, requestId);
}).fail([=](const RPCError &error, mtpRequestId requestId) {
finalizeMessageDataRequest(channel, requestId);
}).afterDelay(kSmallDelayMs).send();
for (auto &request : *j) {
if (request.requestId > 0) continue;
request.requestId = requestId;
}
}
++j;
}
}
void ApiWrap::gotMessageDatas(ChannelData *channel, const MTPmessages_Messages &msgs, mtpRequestId requestId) {
const auto handleResult = [&](auto &&result) {
_session->data().processUsers(result.vusers());
_session->data().processChats(result.vchats());
_session->data().processMessages(
result.vmessages(),
NewMessageType::Existing);
};
switch (msgs.type()) {
case mtpc_messages_messages:
handleResult(msgs.c_messages_messages());
break;
case mtpc_messages_messagesSlice:
handleResult(msgs.c_messages_messagesSlice());
break;
case mtpc_messages_channelMessages: {
auto &d = msgs.c_messages_channelMessages();
if (channel) {
channel->ptsReceived(d.vpts().v);
} else {
LOG(("App Error: received messages.channelMessages when no channel was passed! (ApiWrap::gotDependencyItem)"));
}
handleResult(d);
} break;
case mtpc_messages_messagesNotModified:
LOG(("API Error: received messages.messagesNotModified! (ApiWrap::gotDependencyItem)"));
break;
}
finalizeMessageDataRequest(channel, requestId);
}
void ApiWrap::finalizeMessageDataRequest(
ChannelData *channel,
mtpRequestId requestId) {
auto requests = messageDataRequests(channel, true);
if (requests) {
for (auto i = requests->begin(); i != requests->cend();) {
if (i.value().requestId == requestId) {
for_const (auto &callback, i.value().callbacks) {
callback(channel, i.key());
}
i = requests->erase(i);
} else {
++i;
}
}
if (channel && requests->isEmpty()) {
_channelMessageDataRequests.remove(channel);
}
}
}
QString ApiWrap::exportDirectMessageLink(
not_null<HistoryItem*> item,
bool inRepliesContext) {
Expects(item->history()->peer->isChannel());
const auto itemId = item->fullId();
const auto channel = item->history()->peer->asChannel();
const auto fallback = [&] {
auto linkChannel = channel;
auto linkItemId = item->id;
auto linkCommentId = 0;
auto linkThreadId = 0;
if (inRepliesContext) {
if (const auto rootId = item->replyToTop()) {
const auto root = item->history()->owner().message(
channel->bareId(),
rootId);
const auto sender = root
? root->discussionPostOriginalSender()
: nullptr;
if (sender && sender->hasUsername()) {
// Comment to a public channel.
const auto forwarded = root->Get<HistoryMessageForwarded>();
linkItemId = forwarded->savedFromMsgId;
if (linkItemId) {
linkChannel = sender;
linkCommentId = item->id;
} else {
linkItemId = item->id;
}
} else {
// Reply in a thread, maybe comment in a private channel.
linkThreadId = rootId;
}
}
}
const auto base = linkChannel->hasUsername()
? linkChannel->username
: "c/" + QString::number(linkChannel->bareId());
const auto query = base
+ '/'
+ QString::number(linkItemId)
+ (linkCommentId
? "?comment=" + QString::number(linkCommentId)
: linkThreadId
? "?thread=" + QString::number(linkThreadId)
: "");
if (linkChannel->hasUsername()
&& !linkChannel->isMegagroup()
&& !linkCommentId
&& !linkThreadId) {
if (const auto media = item->media()) {
if (const auto document = media->document()) {
if (document->isVideoMessage()) {
return qsl("https://telesco.pe/") + query;
}
}
}
}
return session().createInternalLinkFull(query);
};
const auto i = _unlikelyMessageLinks.find(itemId);
const auto current = (i != end(_unlikelyMessageLinks))
? i->second
: fallback();
request(MTPchannels_ExportMessageLink(
MTP_flags(inRepliesContext
? MTPchannels_ExportMessageLink::Flag::f_thread
: MTPchannels_ExportMessageLink::Flag(0)),
channel->inputChannel,
MTP_int(item->id)
)).done([=](const MTPExportedMessageLink &result) {
const auto link = result.match([&](const auto &data) {
return qs(data.vlink());
});
if (current != link) {
_unlikelyMessageLinks.emplace_or_assign(itemId, link);
}
}).send();
return current;
}
void ApiWrap::requestContacts() {
if (_session->data().contactsLoaded().current() || _contactsRequestId) {
return;
}
_contactsRequestId = request(MTPcontacts_GetContacts(
MTP_int(0)
)).done([=](const MTPcontacts_Contacts &result) {
_contactsRequestId = 0;
if (result.type() == mtpc_contacts_contactsNotModified) {
return;
}
Assert(result.type() == mtpc_contacts_contacts);
const auto &d = result.c_contacts_contacts();
_session->data().processUsers(d.vusers());
for (const auto &contact : d.vcontacts().v) {
if (contact.type() != mtpc_contact) continue;
const auto userId = contact.c_contact().vuser_id().v;
if (userId == _session->userId()) {
_session->user()->setIsContact(true);
}
}
_session->data().contactsLoaded() = true;
}).fail([=](const RPCError &error) {
_contactsRequestId = 0;
}).send();
}
void ApiWrap::requestDialogs(Data::Folder *folder) {
if (folder && !_foldersLoadState.contains(folder)) {
_foldersLoadState.emplace(folder, DialogsLoadState());
}
requestMoreDialogs(folder);
}
void ApiWrap::requestMoreDialogs(Data::Folder *folder) {
const auto state = dialogsLoadState(folder);
if (!state) {
return;
} else if (state->requestId) {
return;
} else if (_dialogsLoadBlockedByDate.current()) {
return;
}
const auto firstLoad = !state->offsetDate;
const auto loadCount = firstLoad ? kDialogsFirstLoad : kDialogsPerPage;
const auto flags = MTPmessages_GetDialogs::Flag::f_exclude_pinned
| MTPmessages_GetDialogs::Flag::f_folder_id;
const auto hash = 0;
state->requestId = request(MTPmessages_GetDialogs(
MTP_flags(flags),
MTP_int(folder ? folder->id() : 0),
MTP_int(state->offsetDate),
MTP_int(state->offsetId),
(state->offsetPeer
? state->offsetPeer->input
: MTP_inputPeerEmpty()),
MTP_int(loadCount),
MTP_int(hash)
)).done([=](const MTPmessages_Dialogs &result) {
const auto state = dialogsLoadState(folder);
const auto count = result.match([](
const MTPDmessages_dialogsNotModified &) {
LOG(("API Error: not-modified received for requested dialogs."));
return 0;
}, [&](const MTPDmessages_dialogs &data) {
if (state) {
state->listReceived = true;
dialogsLoadFinish(folder); // may kill 'state'.
}
return int(data.vdialogs().v.size());
}, [&](const MTPDmessages_dialogsSlice &data) {
updateDialogsOffset(
folder,
data.vdialogs().v,
data.vmessages().v);
return data.vcount().v;
});
result.match([](const MTPDmessages_dialogsNotModified & data) {
LOG(("API Error: not-modified received for requested dialogs."));
}, [&](const auto &data) {
_session->data().processUsers(data.vusers());
_session->data().processChats(data.vchats());
_session->data().applyDialogs(
folder,
data.vmessages().v,
data.vdialogs().v,
count);
});
if (!folder
&& (!_dialogsLoadState || !_dialogsLoadState->listReceived)) {
refreshDialogsLoadBlocked();
}
requestMoreDialogsIfNeeded();
_session->data().chatsListChanged(folder);
}).fail([=](const RPCError &error) {
dialogsLoadState(folder)->requestId = 0;
}).send();
if (!state->pinnedReceived) {
requestPinnedDialogs(folder);
}
if (!folder) {
refreshDialogsLoadBlocked();
}
}
void ApiWrap::refreshDialogsLoadBlocked() {
_dialogsLoadMayBlockByDate = _dialogsLoadState
&& !_dialogsLoadState->listReceived
&& (_dialogsLoadTill > 0);
_dialogsLoadBlockedByDate = _dialogsLoadState
&& !_dialogsLoadState->listReceived
&& !_dialogsLoadState->requestId
&& (_dialogsLoadTill > 0)
&& (_dialogsLoadState->offsetDate > 0)
&& (_dialogsLoadState->offsetDate <= _dialogsLoadTill);
}
void ApiWrap::requestMoreDialogsIfNeeded() {
const auto dialogsReady = !_dialogsLoadState
|| _dialogsLoadState->listReceived;
if (_session->data().chatsFilters().loadNextExceptions(dialogsReady)) {
return;
} else if (_dialogsLoadState && !_dialogsLoadState->listReceived) {
if (_dialogsLoadState->requestId) {
return;
}
requestDialogs(nullptr);
} else if (const auto folder = _session->data().folderLoaded(
Data::Folder::kId)) {
if (_session->data().chatsFilters().archiveNeeded()) {
requestMoreDialogs(folder);
}
}
requestContacts();
}
void ApiWrap::updateDialogsOffset(
Data::Folder *folder,
const QVector<MTPDialog> &dialogs,
const QVector<MTPMessage> &messages) {
auto lastDate = TimeId(0);
auto lastPeer = PeerId(0);
auto lastMsgId = MsgId(0);
for (const auto &dialog : ranges::view::reverse(dialogs)) {
dialog.match([&](const auto &dialog) {
const auto peer = peerFromMTP(dialog.vpeer());
const auto messageId = dialog.vtop_message().v;
if (!peer || !messageId) {
return;
}
if (!lastPeer) {
lastPeer = peer;
}
if (!lastMsgId) {
lastMsgId = messageId;
}
for (const auto &message : ranges::view::reverse(messages)) {
if (IdFromMessage(message) == messageId
&& PeerFromMessage(message) == peer) {
if (const auto date = DateFromMessage(message)) {
lastDate = date;
}
return;
}
}
});
if (lastDate) {
break;
}
}
if (const auto state = dialogsLoadState(folder)) {
if (lastDate) {
state->offsetDate = lastDate;
state->offsetId = lastMsgId;
state->offsetPeer = _session->data().peer(lastPeer);
state->requestId = 0;
} else {
state->listReceived = true;
dialogsLoadFinish(folder);
}
}
}
auto ApiWrap::dialogsLoadState(Data::Folder *folder) -> DialogsLoadState* {
if (!folder) {
return _dialogsLoadState.get();
}
const auto i = _foldersLoadState.find(folder);
return (i != end(_foldersLoadState)) ? &i->second : nullptr;
}
void ApiWrap::dialogsLoadFinish(Data::Folder *folder) {
const auto notify = [&] {
Core::App().postponeCall(crl::guard(_session, [=] {
_session->data().chatsListDone(folder);
}));
};
const auto state = dialogsLoadState(folder);
if (!state || !state->listReceived || !state->pinnedReceived) {
return;
}
if (folder) {
_foldersLoadState.remove(folder);
notify();
} else {
_dialogsLoadState = nullptr;
notify();
}
}
void ApiWrap::requestPinnedDialogs(Data::Folder *folder) {
const auto state = dialogsLoadState(folder);
if (!state || state->pinnedReceived || state->pinnedRequestId) {
return;
}
const auto finalize = [=] {
if (const auto state = dialogsLoadState(folder)) {
state->pinnedRequestId = 0;
state->pinnedReceived = true;
dialogsLoadFinish(folder);
}
};
state->pinnedRequestId = request(MTPmessages_GetPinnedDialogs(
MTP_int(folder ? folder->id() : 0)
)).done([=](const MTPmessages_PeerDialogs &result) {
finalize();
result.match([&](const MTPDmessages_peerDialogs &data) {
_session->data().processUsers(data.vusers());
_session->data().processChats(data.vchats());
_session->data().clearPinnedChats(folder);
_session->data().applyDialogs(
folder,
data.vmessages().v,
data.vdialogs().v);
_session->data().chatsListChanged(folder);
_session->data().notifyPinnedDialogsOrderUpdated();
});
}).fail([=](const RPCError &error) {
finalize();
}).send();
}
void ApiWrap::requestMoreBlockedByDateDialogs() {
if (!_dialogsLoadState) {
return;
}
const auto max = _session->settings().supportChatsTimeSlice();
_dialogsLoadTill = _dialogsLoadState->offsetDate
? (_dialogsLoadState->offsetDate - max)
: (base::unixtime::now() - max);
refreshDialogsLoadBlocked();
requestDialogs();
}
rpl::producer<bool> ApiWrap::dialogsLoadMayBlockByDate() const {
return _dialogsLoadMayBlockByDate.value();
}
rpl::producer<bool> ApiWrap::dialogsLoadBlockedByDate() const {
return _dialogsLoadBlockedByDate.value();
}
void ApiWrap::requestWallPaper(
const QString &slug,
Fn<void(const Data::WallPaper &)> done,
Fn<void(const RPCError &)> fail) {
if (_wallPaperSlug != slug) {
_wallPaperSlug = slug;
if (_wallPaperRequestId) {
request(base::take(_wallPaperRequestId)).cancel();
}
}
_wallPaperDone = std::move(done);
_wallPaperFail = std::move(fail);
if (_wallPaperRequestId) {
return;
}
_wallPaperRequestId = request(MTPaccount_GetWallPaper(
MTP_inputWallPaperSlug(MTP_string(slug))
)).done([=](const MTPWallPaper &result) {
_wallPaperRequestId = 0;
_wallPaperSlug = QString();
if (const auto paper = Data::WallPaper::Create(_session, result)) {
if (const auto done = base::take(_wallPaperDone)) {
done(*paper);
}
} else if (const auto fail = base::take(_wallPaperFail)) {
fail(RPCError::Local("BAD_DOCUMENT", "In a wallpaper."));
}
}).fail([=](const RPCError &error) {
_wallPaperRequestId = 0;
_wallPaperSlug = QString();
if (const auto fail = base::take(_wallPaperFail)) {
fail(error);
}
}).send();
}
void ApiWrap::requestFullPeer(not_null<PeerData*> peer) {
if (_fullPeerRequests.contains(peer)) {
return;
}
const auto requestId = [&] {
const auto failHandler = [=](const RPCError &error) {
_fullPeerRequests.remove(peer);
migrateFail(peer, error);
};
if (const auto user = peer->asUser()) {
if (_session->supportMode()) {
_session->supportHelper().refreshInfo(user);
}
return request(MTPusers_GetFullUser(
user->inputUser
)).done([=](const MTPUserFull &result, mtpRequestId requestId) {
gotUserFull(user, result, requestId);
}).fail(failHandler).send();
} else if (const auto chat = peer->asChat()) {
return request(MTPmessages_GetFullChat(
chat->inputChat
)).done([=](
const MTPmessages_ChatFull &result,
mtpRequestId requestId) {
gotChatFull(peer, result, requestId);
}).fail(failHandler).send();
} else if (const auto channel = peer->asChannel()) {
return request(MTPchannels_GetFullChannel(
channel->inputChannel
)).done([=](
const MTPmessages_ChatFull &result,
mtpRequestId requestId) {
gotChatFull(peer, result, requestId);
migrateDone(channel, channel);
}).fail(failHandler).send();
}
Unexpected("Peer type in requestFullPeer.");
}();
_fullPeerRequests.insert(peer, requestId);
}
void ApiWrap::processFullPeer(
not_null<PeerData*> peer,
const MTPmessages_ChatFull &result) {
gotChatFull(peer, result, mtpRequestId(0));
}
void ApiWrap::processFullPeer(
not_null<UserData*> user,
const MTPUserFull &result) {
gotUserFull(user, result, mtpRequestId(0));
}
void ApiWrap::gotChatFull(
not_null<PeerData*> peer,
const MTPmessages_ChatFull &result,
mtpRequestId req) {
const auto &d = result.c_messages_chatFull();
_session->data().applyMaximumChatVersions(d.vchats());
_session->data().processUsers(d.vusers());
_session->data().processChats(d.vchats());
d.vfull_chat().match([&](const MTPDchatFull &data) {
if (const auto chat = peer->asChat()) {
Data::ApplyChatUpdate(chat, data);
} else {
LOG(("MTP Error: bad type in gotChatFull for channel: %1"
).arg(d.vfull_chat().type()));
}
}, [&](const MTPDchannelFull &data) {
if (const auto channel = peer->asChannel()) {
Data::ApplyChannelUpdate(channel, data);
} else {
LOG(("MTP Error: bad type in gotChatFull for chat: %1"
).arg(d.vfull_chat().type()));
}
});
if (req) {
const auto i = _fullPeerRequests.find(peer);
if (i != _fullPeerRequests.cend() && i.value() == req) {
_fullPeerRequests.erase(i);
}
}
fullPeerUpdated().notify(peer);
}
void ApiWrap::gotUserFull(
not_null<UserData*> user,
const MTPUserFull &result,
mtpRequestId req) {
const auto &d = result.c_userFull();
if (user == _session->user() && !_session->validateSelf(d.vuser())) {
constexpr auto kRequestUserAgainTimeout = crl::time(10000);
base::call_delayed(kRequestUserAgainTimeout, _session, [=] {
requestFullPeer(user);
});
return;
}
Data::ApplyUserUpdate(user, d);
if (req) {
const auto i = _fullPeerRequests.find(user);
if (i != _fullPeerRequests.cend() && i.value() == req) {
_fullPeerRequests.erase(i);
}
}
fullPeerUpdated().notify(user);
}
void ApiWrap::requestPeer(not_null<PeerData*> peer) {
if (_fullPeerRequests.contains(peer) || _peerRequests.contains(peer)) {
return;
}
const auto requestId = [&] {
const auto failHandler = [=](const RPCError &error) {
_peerRequests.remove(peer);
};
const auto chatHandler = [=](const MTPmessages_Chats &result) {
_peerRequests.remove(peer);
const auto &chats = result.match([](const auto &data) {
return data.vchats();
});
_session->data().applyMaximumChatVersions(chats);
_session->data().processChats(chats);
};
if (const auto user = peer->asUser()) {
return request(MTPusers_GetUsers(
MTP_vector<MTPInputUser>(1, user->inputUser)
)).done([=](const MTPVector<MTPUser> &result) {
_peerRequests.remove(user);
_session->data().processUsers(result);
}).fail(failHandler).send();
} else if (const auto chat = peer->asChat()) {
return request(MTPmessages_GetChats(
MTP_vector<MTPint>(1, chat->inputChat)
)).done(chatHandler).fail(failHandler).send();
} else if (const auto channel = peer->asChannel()) {
return request(MTPchannels_GetChannels(
MTP_vector<MTPInputChannel>(1, channel->inputChannel)
)).done(chatHandler).fail(failHandler).send();
}
Unexpected("Peer type in requestPeer.");
}();
_peerRequests.insert(peer, requestId);
}
void ApiWrap::requestPeerSettings(not_null<PeerData*> peer) {
if (!_requestedPeerSettings.emplace(peer).second) {
return;
}
request(MTPmessages_GetPeerSettings(
peer->input
)).done([=](const MTPPeerSettings &result) {
peer->setSettings(result.match([&](const MTPDpeerSettings &data) {
return data.vflags().v;
}));
_requestedPeerSettings.erase(peer);
}).fail([=](const RPCError &error) {
_requestedPeerSettings.erase(peer);
}).send();
}
void ApiWrap::migrateChat(
not_null<ChatData*> chat,
FnMut<void(not_null<ChannelData*>)> done,
FnMut<void(const RPCError &)> fail) {
const auto callback = [&] {
return MigrateCallbacks{ std::move(done), std::move(fail) };
};
const auto i = _migrateCallbacks.find(chat);
if (i != _migrateCallbacks.end()) {
i->second.push_back(callback());
return;
}
_migrateCallbacks.emplace(chat).first->second.push_back(callback());
if (const auto channel = chat->migrateTo()) {
session().changes().peerUpdated(
chat,
Data::PeerUpdate::Flag::Migration);
crl::on_main([=] {
migrateDone(chat, channel);
});
} else if (chat->isDeactivated()) {
crl::on_main([=] {
migrateFail(
chat,
RPCError::Local(
"BAD_MIGRATION",
"Chat is already deactivated"));
});
return;
} else if (!chat->amCreator()) {
crl::on_main([=] {
migrateFail(
chat,
RPCError::Local(
"BAD_MIGRATION",
"Current user is not the creator of that chat"));
});
return;
}
request(MTPmessages_MigrateChat(
chat->inputChat
)).done([=](const MTPUpdates &result) {
applyUpdates(result);
session().changes().sendNotifications();
if (const auto channel = chat->migrateTo()) {
if (auto handlers = _migrateCallbacks.take(chat)) {
_migrateCallbacks.emplace(channel, std::move(*handlers));
}
requestFullPeer(channel);
} else {
migrateFail(
chat,
RPCError::Local("MIGRATION_FAIL", "No channel"));
}
}).fail([=](const RPCError &error) {
migrateFail(chat, error);
}).send();
}
void ApiWrap::migrateDone(
not_null<PeerData*> peer,
not_null<ChannelData*> channel) {
session().changes().sendNotifications();
if (auto handlers = _migrateCallbacks.take(peer)) {
for (auto &handler : *handlers) {
if (handler.done) {
handler.done(channel);
}
}
}
}
void ApiWrap::migrateFail(not_null<PeerData*> peer, const RPCError &error) {
const auto &type = error.type();
if (type == qstr("CHANNELS_TOO_MUCH")) {
Ui::show(Box<InformBox>(tr::lng_migrate_error(tr::now)));
}
if (auto handlers = _migrateCallbacks.take(peer)) {
for (auto &handler : *handlers) {
if (handler.fail) {
handler.fail(error);
}
}
}
}
void ApiWrap::markMediaRead(
const base::flat_set<not_null<HistoryItem*>> &items) {
auto markedIds = QVector<MTPint>();
auto channelMarkedIds = base::flat_map<
not_null<ChannelData*>,
QVector<MTPint>>();
markedIds.reserve(items.size());
for (const auto item : items) {
if ((!item->isUnreadMedia() || item->out())
&& !item->isUnreadMention()) {
continue;
}
item->markMediaRead();
if (!IsServerMsgId(item->id)) {
continue;
}
if (const auto channel = item->history()->peer->asChannel()) {
channelMarkedIds[channel].push_back(MTP_int(item->id));
} else {
markedIds.push_back(MTP_int(item->id));
}
}
if (!markedIds.isEmpty()) {
request(MTPmessages_ReadMessageContents(
MTP_vector<MTPint>(markedIds)
)).done([=](const MTPmessages_AffectedMessages &result) {
applyAffectedMessages(result);
}).send();
}
for (const auto &channelIds : channelMarkedIds) {
request(MTPchannels_ReadMessageContents(
channelIds.first->inputChannel,
MTP_vector<MTPint>(channelIds.second)
)).send();
}
}
void ApiWrap::markMediaRead(not_null<HistoryItem*> item) {
if ((!item->isUnreadMedia() || item->out())
&& !item->isUnreadMention()) {
return;
}
item->markMediaRead();
if (!IsServerMsgId(item->id)) {
return;
}
const auto ids = MTP_vector<MTPint>(1, MTP_int(item->id));
if (const auto channel = item->history()->peer->asChannel()) {
request(MTPchannels_ReadMessageContents(
channel->inputChannel,
ids
)).send();
} else {
request(MTPmessages_ReadMessageContents(
ids
)).done([=](const MTPmessages_AffectedMessages &result) {
applyAffectedMessages(result);
}).send();
}
}
void ApiWrap::requestPeers(const QList<PeerData*> &peers) {
QVector<MTPint> chats;
QVector<MTPInputChannel> channels;
QVector<MTPInputUser> users;
chats.reserve(peers.size());
channels.reserve(peers.size());
users.reserve(peers.size());
for (const auto peer : peers) {
if (!peer
|| _fullPeerRequests.contains(peer)
|| _peerRequests.contains(peer)) {
continue;
}
if (const auto user = peer->asUser()) {
users.push_back(user->inputUser);
} else if (const auto chat = peer->asChat()) {
chats.push_back(chat->inputChat);
} else if (const auto channel = peer->asChannel()) {
channels.push_back(channel->inputChannel);
}
}
const auto handleChats = [=](const MTPmessages_Chats &result) {
_session->data().processChats(result.match([](const auto &data) {
return data.vchats();
}));
};
if (!chats.isEmpty()) {
request(MTPmessages_GetChats(
MTP_vector<MTPint>(chats)
)).done(handleChats).send();
}
if (!channels.isEmpty()) {
request(MTPchannels_GetChannels(
MTP_vector<MTPInputChannel>(channels)
)).done(handleChats).send();
}
if (!users.isEmpty()) {
request(MTPusers_GetUsers(
MTP_vector<MTPInputUser>(users)
)).done([=](const MTPVector<MTPUser> &result) {
_session->data().processUsers(result);
}).send();
}
}
void ApiWrap::requestLastParticipants(not_null<ChannelData*> channel) {
if (!channel->isMegagroup()
|| _participantsRequests.contains(channel)) {
return;
}
const auto offset = 0;
const auto participantsHash = 0;
const auto requestId = request(MTPchannels_GetParticipants(
channel->inputChannel,
MTP_channelParticipantsRecent(),
MTP_int(offset),
MTP_int(_session->serverConfig().chatSizeMax),
MTP_int(participantsHash)
)).done([=](const MTPchannels_ChannelParticipants &result) {
_participantsRequests.remove(channel);
parseChannelParticipants(channel, result, [&](
int availableCount,
const QVector<MTPChannelParticipant> &list) {
applyLastParticipantsList(
channel,
availableCount,
list);
});
}).fail([this, channel](const RPCError &error) {
_participantsRequests.remove(channel);
}).send();
_participantsRequests.insert(channel, requestId);
}
void ApiWrap::requestBots(not_null<ChannelData*> channel) {
if (!channel->isMegagroup() || _botsRequests.contains(channel)) {
return;
}
auto offset = 0;
auto participantsHash = 0;
auto requestId = request(MTPchannels_GetParticipants(
channel->inputChannel,
MTP_channelParticipantsBots(),
MTP_int(offset),
MTP_int(_session->serverConfig().chatSizeMax),
MTP_int(participantsHash)
)).done([this, channel](const MTPchannels_ChannelParticipants &result) {
_botsRequests.remove(channel);
parseChannelParticipants(channel, result, [&](
int availableCount,
const QVector<MTPChannelParticipant> &list) {
applyBotsList(
channel,
availableCount,
list);
});
}).fail([this, channel](const RPCError &error) {
_botsRequests.remove(channel);
}).send();
_botsRequests.insert(channel, requestId);
}
void ApiWrap::requestAdmins(not_null<ChannelData*> channel) {
if (!channel->isMegagroup() || _adminsRequests.contains(channel)) {
return;
}
auto offset = 0;
auto participantsHash = 0;
auto requestId = request(MTPchannels_GetParticipants(
channel->inputChannel,
MTP_channelParticipantsAdmins(),
MTP_int(offset),
MTP_int(_session->serverConfig().chatSizeMax),
MTP_int(participantsHash)
)).done([this, channel](const MTPchannels_ChannelParticipants &result) {
_adminsRequests.remove(channel);
result.match([&](const MTPDchannels_channelParticipants &data) {
Data::ApplyMegagroupAdmins(channel, data);
}, [&](const MTPDchannels_channelParticipantsNotModified &) {
LOG(("API Error: channels.channelParticipantsNotModified received!"));
});
}).fail([this, channel](const RPCError &error) {
_adminsRequests.remove(channel);
}).send();
_adminsRequests.insert(channel, requestId);
}
void ApiWrap::applyLastParticipantsList(
not_null<ChannelData*> channel,
int availableCount,
const QVector<MTPChannelParticipant> &list) {
channel->mgInfo->lastAdmins.clear();
channel->mgInfo->lastRestricted.clear();
channel->mgInfo->lastParticipants.clear();
channel->mgInfo->lastParticipantsStatus = MegagroupInfo::LastParticipantsUpToDate
| MegagroupInfo::LastParticipantsOnceReceived;
auto botStatus = channel->mgInfo->botStatus;
const auto emptyAdminRights = MTP_chatAdminRights(MTP_flags(0));
const auto emptyRestrictedRights = MTP_chatBannedRights(
MTP_flags(0),
MTP_int(0));
for (const auto &p : list) {
const auto userId = p.match([](const auto &data) {
return data.vuser_id().v;
});
const auto adminCanEdit = (p.type() == mtpc_channelParticipantAdmin)
? p.c_channelParticipantAdmin().is_can_edit()
: (p.type() == mtpc_channelParticipantCreator)
? channel->amCreator()
: false;
const auto adminRights = (p.type() == mtpc_channelParticipantAdmin)
? p.c_channelParticipantAdmin().vadmin_rights()
: (p.type() == mtpc_channelParticipantCreator)
? p.c_channelParticipantCreator().vadmin_rights()
: emptyAdminRights;
const auto restrictedRights = (p.type() == mtpc_channelParticipantBanned)
? p.c_channelParticipantBanned().vbanned_rights()
: emptyRestrictedRights;
if (!userId) {
continue;
}
auto user = _session->data().user(userId);
if (p.type() == mtpc_channelParticipantCreator) {
const auto &creator = p.c_channelParticipantCreator();
const auto rank = qs(creator.vrank().value_or_empty());
channel->mgInfo->creator = user;
channel->mgInfo->creatorRank = rank;
if (!channel->mgInfo->admins.empty()) {
Data::ChannelAdminChanges(channel).add(userId, rank);
}
}
if (!base::contains(channel->mgInfo->lastParticipants, user)) {
channel->mgInfo->lastParticipants.push_back(user);
if (adminRights.c_chatAdminRights().vflags().v) {
channel->mgInfo->lastAdmins.emplace(
user,
MegagroupInfo::Admin{ adminRights, adminCanEdit });
} else if (restrictedRights.c_chatBannedRights().vflags().v != 0) {
channel->mgInfo->lastRestricted.emplace(
user,
MegagroupInfo::Restricted{ restrictedRights });
}
if (user->isBot()) {
channel->mgInfo->bots.insert(user);
if (channel->mgInfo->botStatus != 0 && channel->mgInfo->botStatus < 2) {
channel->mgInfo->botStatus = 2;
}
}
}
}
//
// getParticipants(Recent) sometimes can't return all members,
// only some last subset, size of this subset is availableCount.
//
// So both list size and availableCount have nothing to do with
// the full supergroup members count.
//
//if (list.isEmpty()) {
// channel->setMembersCount(channel->mgInfo->lastParticipants.size());
//} else {
// channel->setMembersCount(availableCount);
//}
session().changes().peerUpdated(
channel,
(Data::PeerUpdate::Flag::Members | Data::PeerUpdate::Flag::Admins));
channel->mgInfo->botStatus = botStatus;
fullPeerUpdated().notify(channel);
}
void ApiWrap::applyBotsList(
not_null<ChannelData*> channel,
int availableCount,
const QVector<MTPChannelParticipant> &list) {
const auto history = _session->data().historyLoaded(channel);
channel->mgInfo->bots.clear();
channel->mgInfo->botStatus = -1;
auto needBotsInfos = false;
auto botStatus = channel->mgInfo->botStatus;
auto keyboardBotFound = !history || !history->lastKeyboardFrom;
for (const auto &p : list) {
const auto userId = p.match([](const auto &data) {
return data.vuser_id().v;
});
if (!userId) {
continue;
}
auto user = _session->data().user(userId);
if (user->isBot()) {
channel->mgInfo->bots.insert(user);
botStatus = 2;// (botStatus > 0/* || !i.key()->botInfo->readsAllHistory*/) ? 2 : 1;
if (!user->botInfo->inited) {
needBotsInfos = true;
}
}
if (!keyboardBotFound && user->id == history->lastKeyboardFrom) {
keyboardBotFound = true;
}
}
if (needBotsInfos) {
requestFullPeer(channel);
}
if (!keyboardBotFound) {
history->clearLastKeyboard();
}
channel->mgInfo->botStatus = botStatus;
fullPeerUpdated().notify(channel);
}
void ApiWrap::requestSelfParticipant(not_null<ChannelData*> channel) {
if (_selfParticipantRequests.contains(channel)) {
return;
}
const auto finalize = [=](UserId inviter, TimeId inviteDate) {
channel->inviter = inviter;
channel->inviteDate = inviteDate;
if (const auto history = _session->data().historyLoaded(channel)) {
if (history->lastMessageKnown()) {
history->checkLocalMessages();
history->owner().sendHistoryChangeNotifications();
} else {
history->owner().histories().requestDialogEntry(history);
}
}
};
_selfParticipantRequests.emplace(channel);
request(MTPchannels_GetParticipant(
channel->inputChannel,
MTP_inputUserSelf()
)).done([=](const MTPchannels_ChannelParticipant &result) {
_selfParticipantRequests.erase(channel);
result.match([&](const MTPDchannels_channelParticipant &data) {
_session->data().processUsers(data.vusers());
const auto &participant = data.vparticipant();
participant.match([&](const MTPDchannelParticipantSelf &data) {
finalize(data.vinviter_id().v, data.vdate().v);
}, [&](const MTPDchannelParticipantCreator &) {
if (channel->mgInfo) {
channel->mgInfo->creator = _session->user();
}
finalize(_session->userId(), channel->date);
}, [&](const MTPDchannelParticipantAdmin &data) {
const auto inviter = data.is_self()
? data.vinviter_id().value_or(-1)
: -1;
finalize(inviter, data.vdate().v);
}, [&](const MTPDchannelParticipantBanned &data) {
LOG(("API Error: Got self banned participant."));
finalize(-1, 0);
}, [&](const MTPDchannelParticipant &data) {
LOG(("API Error: Got self regular participant."));
finalize(-1, 0);
});
});
}).fail([=](const RPCError &error) {
_selfParticipantRequests.erase(channel);
if (error.type() == qstr("CHANNEL_PRIVATE")) {
channel->privateErrorReceived();
}
finalize(-1, 0);
}).afterDelay(kSmallDelayMs).send();
}
void ApiWrap::kickParticipant(
not_null<ChatData*> chat,
not_null<UserData*> user) {
request(MTPmessages_DeleteChatUser(
chat->inputChat,
user->inputUser
)).done([=](const MTPUpdates &result) {
applyUpdates(result);
}).send();
}
void ApiWrap::kickParticipant(
not_null<ChannelData*> channel,
not_null<UserData*> user,
const MTPChatBannedRights &currentRights) {
const auto kick = KickRequest(channel, user);
if (_kickRequests.contains(kick)) return;
const auto rights = ChannelData::KickedRestrictedRights();
const auto requestId = request(MTPchannels_EditBanned(
channel->inputChannel,
user->inputUser,
rights
)).done([=](const MTPUpdates &result) {
applyUpdates(result);
_kickRequests.remove(KickRequest(channel, user));
channel->applyEditBanned(user, currentRights, rights);
}).fail([this, kick](const RPCError &error) {
_kickRequests.remove(kick);
}).send();
_kickRequests.emplace(kick, requestId);
}
void ApiWrap::unblockParticipant(
not_null<ChannelData*> channel,
not_null<UserData*> user) {
const auto kick = KickRequest(channel, user);
if (_kickRequests.contains(kick)) {
return;
}
const auto requestId = request(MTPchannels_EditBanned(
channel->inputChannel,
user->inputUser,
MTP_chatBannedRights(MTP_flags(0), MTP_int(0))
)).done([=](const MTPUpdates &result) {
applyUpdates(result);
_kickRequests.remove(KickRequest(channel, user));
if (channel->kickedCount() > 0) {
channel->setKickedCount(channel->kickedCount() - 1);
} else {
channel->updateFullForced();
}
}).fail([=](const RPCError &error) {
_kickRequests.remove(kick);
}).send();
_kickRequests.emplace(kick, requestId);
}
void ApiWrap::deleteAllFromUser(
not_null<ChannelData*> channel,
not_null<UserData*> from) {
const auto history = _session->data().historyLoaded(channel);
const auto ids = history
? history->collectMessagesFromUserToDelete(from)
: QVector<MsgId>();
const auto channelId = peerToChannel(channel->id);
for (const auto msgId : ids) {
if (const auto item = _session->data().message(channelId, msgId)) {
item->destroy();
}
}
_session->data().sendHistoryChangeNotifications();
deleteAllFromUserSend(channel, from);
}
void ApiWrap::deleteAllFromUserSend(
not_null<ChannelData*> channel,
not_null<UserData*> from) {
request(MTPchannels_DeleteUserHistory(
channel->inputChannel,
from->inputUser
)).done([=](const MTPmessages_AffectedHistory &result) {
const auto offset = applyAffectedHistory(channel, result);
if (offset > 0) {
deleteAllFromUserSend(channel, from);
} else if (const auto history = _session->data().historyLoaded(channel)) {
history->requestChatListMessage();
}
}).send();
}
void ApiWrap::requestChannelMembersForAdd(
not_null<ChannelData*> channel,
Fn<void(const MTPchannels_ChannelParticipants&)> callback) {
_channelMembersForAddCallback = std::move(callback);
if (_channelMembersForAdd == channel) {
return;
}
request(base::take(_channelMembersForAddRequestId)).cancel();
auto offset = 0;
auto participantsHash = 0;
_channelMembersForAdd = channel;
_channelMembersForAddRequestId = request(MTPchannels_GetParticipants(
channel->inputChannel,
MTP_channelParticipantsRecent(),
MTP_int(offset),
MTP_int(_session->serverConfig().chatSizeMax),
MTP_int(participantsHash)
)).done([this](const MTPchannels_ChannelParticipants &result) {
base::take(_channelMembersForAddRequestId);
base::take(_channelMembersForAdd);
base::take(_channelMembersForAddCallback)(result);
}).fail([this](const RPCError &error) {
base::take(_channelMembersForAddRequestId);
base::take(_channelMembersForAdd);
base::take(_channelMembersForAddCallback);
}).send();
}
void ApiWrap::scheduleStickerSetRequest(uint64 setId, uint64 access) {
if (!_stickerSetRequests.contains(setId)) {
_stickerSetRequests.insert(setId, qMakePair(access, 0));
}
}
void ApiWrap::requestStickerSets() {
for (auto i = _stickerSetRequests.begin(), j = i, e = _stickerSetRequests.end(); i != e; i = j) {
++j;
if (i.value().second) continue;
auto waitMs = (j == e) ? 0 : kSmallDelayMs;
i.value().second = request(MTPmessages_GetStickerSet(MTP_inputStickerSetID(MTP_long(i.key()), MTP_long(i.value().first)))).done([this, setId = i.key()](const MTPmessages_StickerSet &result) {
gotStickerSet(setId, result);
}).fail([this, setId = i.key()](const RPCError &error) {
_stickerSetRequests.remove(setId);
}).afterDelay(waitMs).send();
}
}
void ApiWrap::saveStickerSets(
const Data::StickersSetsOrder &localOrder,
const Data::StickersSetsOrder &localRemoved) {
for (auto requestId : base::take(_stickerSetDisenableRequests)) {
request(requestId).cancel();
}
request(base::take(_stickersReorderRequestId)).cancel();
request(base::take(_stickersClearRecentRequestId)).cancel();
auto writeInstalled = true, writeRecent = false, writeCloudRecent = false, writeFaved = false, writeArchived = false;
auto &recent = _session->data().stickers().getRecentPack();
auto &sets = _session->data().stickers().setsRef();
_stickersOrder = localOrder;
for (const auto removedSetId : localRemoved) {
if (removedSetId == Data::Stickers::CloudRecentSetId) {
if (sets.remove(Data::Stickers::CloudRecentSetId) != 0) {
writeCloudRecent = true;
}
if (sets.remove(Data::Stickers::CustomSetId)) {
writeInstalled = true;
}
if (!recent.isEmpty()) {
recent.clear();
writeRecent = true;
}
_stickersClearRecentRequestId = request(MTPmessages_ClearRecentStickers(
MTP_flags(0)
)).done([this](const MTPBool &result) {
_stickersClearRecentRequestId = 0;
}).fail([this](const RPCError &error) {
_stickersClearRecentRequestId = 0;
}).send();
continue;
}
auto it = sets.find(removedSetId);
if (it != sets.cend()) {
const auto set = it->second.get();
for (auto i = recent.begin(); i != recent.cend();) {
if (set->stickers.indexOf(i->first) >= 0) {
i = recent.erase(i);
writeRecent = true;
} else {
++i;
}
}
if (!(set->flags & MTPDstickerSet::Flag::f_archived)) {
const auto setId = set->mtpInput();
auto requestId = request(MTPmessages_UninstallStickerSet(setId)).done([this](const MTPBool &result, mtpRequestId requestId) {
stickerSetDisenabled(requestId);
}).fail([this](const RPCError &error, mtpRequestId requestId) {
stickerSetDisenabled(requestId);
}).afterDelay(kSmallDelayMs).send();
_stickerSetDisenableRequests.insert(requestId);
int removeIndex = _session->data().stickers().setsOrder().indexOf(set->id);
if (removeIndex >= 0) _session->data().stickers().setsOrderRef().removeAt(removeIndex);
if (!(set->flags & MTPDstickerSet_ClientFlag::f_featured)
&& !(set->flags & MTPDstickerSet_ClientFlag::f_special)) {
sets.erase(it);
} else {
if (set->flags & MTPDstickerSet::Flag::f_archived) {
writeArchived = true;
}
set->flags &= ~(MTPDstickerSet::Flag::f_installed_date | MTPDstickerSet::Flag::f_archived);
set->installDate = TimeId(0);
}
}
}
}
// Clear all installed flags, set only for sets from order.
for (auto &[id, set] : sets) {
if (!(set->flags & MTPDstickerSet::Flag::f_archived)) {
set->flags &= ~MTPDstickerSet::Flag::f_installed_date;
}
}
auto &order = _session->data().stickers().setsOrderRef();
order.clear();
for (const auto setId : std::as_const(_stickersOrder)) {
auto it = sets.find(setId);
if (it != sets.cend()) {
const auto set = it->second.get();
if ((set->flags & MTPDstickerSet::Flag::f_archived) && !localRemoved.contains(set->id)) {
const auto mtpSetId = set->mtpInput();
const auto requestId = request(MTPmessages_InstallStickerSet(
mtpSetId,
MTP_boolFalse()
)).done([=](
const MTPmessages_StickerSetInstallResult &result,
mtpRequestId requestId) {
stickerSetDisenabled(requestId);
}).fail([=](
const RPCError &error,
mtpRequestId requestId) {
stickerSetDisenabled(requestId);
}).afterDelay(kSmallDelayMs).send();
_stickerSetDisenableRequests.insert(requestId);
set->flags &= ~MTPDstickerSet::Flag::f_archived;
writeArchived = true;
}
order.push_back(setId);
set->flags |= MTPDstickerSet::Flag::f_installed_date;
if (!set->installDate) {
set->installDate = base::unixtime::now();
}
}
}
for (auto it = sets.begin(); it != sets.cend();) {
const auto set = it->second.get();
if ((set->flags & MTPDstickerSet_ClientFlag::f_featured)
|| (set->flags & MTPDstickerSet::Flag::f_installed_date)
|| (set->flags & MTPDstickerSet::Flag::f_archived)
|| (set->flags & MTPDstickerSet_ClientFlag::f_special)) {
++it;
} else {
it = sets.erase(it);
}
}
auto &storage = local();
if (writeInstalled) storage.writeInstalledStickers();
if (writeRecent) session().saveSettings();
if (writeArchived) storage.writeArchivedStickers();
if (writeCloudRecent) storage.writeRecentStickers();
if (writeFaved) storage.writeFavedStickers();
_session->data().stickers().notifyUpdated();
if (_stickerSetDisenableRequests.empty()) {
stickersSaveOrder();
} else {
requestSendDelayed();
}
}
void ApiWrap::stickerSetDisenabled(mtpRequestId requestId) {
_stickerSetDisenableRequests.remove(requestId);
if (_stickerSetDisenableRequests.empty()) {
stickersSaveOrder();
}
};
void ApiWrap::joinChannel(not_null<ChannelData*> channel) {
if (channel->amIn()) {
session().changes().peerUpdated(
channel,
Data::PeerUpdate::Flag::ChannelAmIn);
} else if (!_channelAmInRequests.contains(channel)) {
auto requestId = request(MTPchannels_JoinChannel(
channel->inputChannel
)).done([=](const MTPUpdates &result) {
_channelAmInRequests.remove(channel);
applyUpdates(result);
}).fail([=](const RPCError &error) {
if (error.type() == qstr("CHANNEL_PRIVATE")
&& channel->invitePeekExpires()) {
channel->privateErrorReceived();
} else if (error.type() == qstr("CHANNEL_PRIVATE")
|| error.type() == qstr("CHANNEL_PUBLIC_GROUP_NA")
|| error.type() == qstr("USER_BANNED_IN_CHANNEL")) {
Ui::show(Box<InformBox>(channel->isMegagroup()
? tr::lng_group_not_accessible(tr::now)
: tr::lng_channel_not_accessible(tr::now)));
} else if (error.type() == qstr("CHANNELS_TOO_MUCH")) {
Ui::show(Box<InformBox>(tr::lng_join_channel_error(tr::now)));
} else if (error.type() == qstr("USERS_TOO_MUCH")) {
Ui::show(Box<InformBox>(tr::lng_group_full(tr::now)));
}
_channelAmInRequests.remove(channel);
}).send();
_channelAmInRequests.insert(channel, requestId);
}
}
void ApiWrap::leaveChannel(not_null<ChannelData*> channel) {
if (!channel->amIn()) {
session().changes().peerUpdated(
channel,
Data::PeerUpdate::Flag::ChannelAmIn);
} else if (!_channelAmInRequests.contains(channel)) {
auto requestId = request(MTPchannels_LeaveChannel(
channel->inputChannel
)).done([=](const MTPUpdates &result) {
_channelAmInRequests.remove(channel);
applyUpdates(result);
}).fail([=](const RPCError &error) {
_channelAmInRequests.remove(channel);
}).send();
_channelAmInRequests.insert(channel, requestId);
}
}
void ApiWrap::blockPeer(not_null<PeerData*> peer) {
if (peer->isBlocked()) {
session().changes().peerUpdated(
peer,
Data::PeerUpdate::Flag::IsBlocked);
} else if (_blockRequests.find(peer) == end(_blockRequests)) {
const auto requestId = request(MTPcontacts_Block(
peer->input
)).done([=](const MTPBool &result) {
_blockRequests.erase(peer);
peer->setIsBlocked(true);
if (_blockedPeersSlice) {
_blockedPeersSlice->list.insert(
_blockedPeersSlice->list.begin(),
{ peer, base::unixtime::now() });
++_blockedPeersSlice->total;
_blockedPeersChanges.fire_copy(*_blockedPeersSlice);
}
}).fail([=](const RPCError &error) {
_blockRequests.erase(peer);
}).send();
_blockRequests.emplace(peer, requestId);
}
}
void ApiWrap::unblockPeer(not_null<PeerData*> peer, Fn<void()> onDone) {
if (!peer->isBlocked()) {
session().changes().peerUpdated(
peer,
Data::PeerUpdate::Flag::IsBlocked);
return;
} else if (_blockRequests.find(peer) != end(_blockRequests)) {
return;
}
const auto requestId = request(MTPcontacts_Unblock(
peer->input
)).done([=](const MTPBool &result) {
_blockRequests.erase(peer);
peer->setIsBlocked(false);
if (_blockedPeersSlice) {
auto &list = _blockedPeersSlice->list;
for (auto i = list.begin(); i != list.end(); ++i) {
if (i->peer == peer) {
list.erase(i);
break;
}
}
if (_blockedPeersSlice->total > list.size()) {
--_blockedPeersSlice->total;
}
_blockedPeersChanges.fire_copy(*_blockedPeersSlice);
}
if (onDone) {
onDone();
}
}).fail([=](const RPCError &error) {
_blockRequests.erase(peer);
}).send();
_blockRequests.emplace(peer, requestId);
}
void ApiWrap::exportInviteLink(not_null<PeerData*> peer) {
if (_exportInviteRequests.find(peer) != end(_exportInviteRequests)) {
return;
}
const auto requestId = [&] {
return request(MTPmessages_ExportChatInvite(
peer->input
)).done([=](const MTPExportedChatInvite &result) {
_exportInviteRequests.erase(peer);
const auto link = (result.type() == mtpc_chatInviteExported)
? qs(result.c_chatInviteExported().vlink())
: QString();
if (const auto chat = peer->asChat()) {
chat->setInviteLink(link);
} else if (const auto channel = peer->asChannel()) {
channel->setInviteLink(link);
} else {
Unexpected("Peer in ApiWrap::exportInviteLink.");
}
}).fail([=](const RPCError &error) {
_exportInviteRequests.erase(peer);
}).send();
}();
_exportInviteRequests.emplace(peer, requestId);
}
void ApiWrap::requestNotifySettings(const MTPInputNotifyPeer &peer) {
const auto key = [&] {
switch (peer.type()) {
case mtpc_inputNotifyUsers: return peerFromUser(0);
case mtpc_inputNotifyChats: return peerFromChat(0);
case mtpc_inputNotifyBroadcasts: return peerFromChannel(0);
case mtpc_inputNotifyPeer: {
const auto &inner = peer.c_inputNotifyPeer().vpeer();
switch (inner.type()) {
case mtpc_inputPeerSelf:
return _session->userPeerId();
case mtpc_inputPeerEmpty:
return PeerId(0);
case mtpc_inputPeerChannel:
return peerFromChannel(
inner.c_inputPeerChannel().vchannel_id());
case mtpc_inputPeerChat:
return peerFromChat(inner.c_inputPeerChat().vchat_id());
case mtpc_inputPeerUser:
return peerFromUser(inner.c_inputPeerUser().vuser_id());
}
Unexpected("Type in ApiRequest::requestNotifySettings peer.");
} break;
}
Unexpected("Type in ApiRequest::requestNotifySettings.");
}();
if (_notifySettingRequests.find(key) != end(_notifySettingRequests)) {
return;
}
const auto requestId = request(MTPaccount_GetNotifySettings(
peer
)).done([=](const MTPPeerNotifySettings &result) {
applyNotifySettings(peer, result);
_notifySettingRequests.erase(key);
}).fail([=](const RPCError &error) {
applyNotifySettings(
peer,
MTP_peerNotifySettings(
MTP_flags(0),
MTPBool(),
MTPBool(),
MTPint(),
MTPstring()));
_notifySettingRequests.erase(key);
}).send();
_notifySettingRequests.emplace(key, requestId);
}
void ApiWrap::updateNotifySettingsDelayed(not_null<const PeerData*> peer) {
_updateNotifySettingsPeers.emplace(peer);
_updateNotifySettingsTimer.callOnce(kNotifySettingSaveTimeout);
}
void ApiWrap::sendNotifySettingsUpdates() {
while (!_updateNotifySettingsPeers.empty()) {
const auto peer = *_updateNotifySettingsPeers.begin();
_updateNotifySettingsPeers.erase(_updateNotifySettingsPeers.begin());
request(MTPaccount_UpdateNotifySettings(
MTP_inputNotifyPeer(peer->input),
peer->notifySerialize()
)).afterDelay(_updateNotifySettingsPeers.empty() ? 0 : 10).send();
}
}
void ApiWrap::saveDraftToCloudDelayed(not_null<History*> history) {
_draftsSaveRequestIds.emplace(history, 0);
if (!_draftsSaveTimer.isActive()) {
_draftsSaveTimer.callOnce(kSaveCloudDraftTimeout);
}
}
void ApiWrap::savePrivacy(
const MTPInputPrivacyKey &key,
QVector<MTPInputPrivacyRule> &&rules) {
const auto keyTypeId = key.type();
const auto it = _privacySaveRequests.find(keyTypeId);
if (it != _privacySaveRequests.cend()) {
request(it->second).cancel();
_privacySaveRequests.erase(it);
}
const auto requestId = request(MTPaccount_SetPrivacy(
key,
MTP_vector<MTPInputPrivacyRule>(std::move(rules))
)).done([=](const MTPaccount_PrivacyRules &result) {
result.match([&](const MTPDaccount_privacyRules &data) {
_session->data().processUsers(data.vusers());
_session->data().processChats(data.vchats());
_privacySaveRequests.remove(keyTypeId);
if (const auto key = Privacy::KeyFromMTP(keyTypeId)) {
handlePrivacyChange(*key, data.vrules());
}
});
}).fail([=](const RPCError &error) {
_privacySaveRequests.remove(keyTypeId);
}).send();
_privacySaveRequests.emplace(keyTypeId, requestId);
}
void ApiWrap::handlePrivacyChange(
Privacy::Key key,
const MTPVector<MTPPrivacyRule> &rules) {
pushPrivacy(key, rules.v);
if (key == Privacy::Key::LastSeen) {
updatePrivacyLastSeens(rules.v);
}
}
void ApiWrap::updatePrivacyLastSeens(const QVector<MTPPrivacyRule> &rules) {
const auto now = base::unixtime::now();
_session->data().enumerateUsers([&](UserData *user) {
if (user->isSelf() || !user->isFullLoaded()) {
return;
}
if (user->onlineTill <= 0) {
return;
}
if (user->onlineTill + 3 * 86400 >= now) {
user->onlineTill = -2; // recently
} else if (user->onlineTill + 7 * 86400 >= now) {
user->onlineTill = -3; // last week
} else if (user->onlineTill + 30 * 86400 >= now) {
user->onlineTill = -4; // last month
} else {
user->onlineTill = 0;
}
session().changes().peerUpdated(
user,
Data::PeerUpdate::Flag::OnlineStatus);
});
if (_contactsStatusesRequestId) {
request(_contactsStatusesRequestId).cancel();
}
_contactsStatusesRequestId = request(MTPcontacts_GetStatuses(
)).done([=](const MTPVector<MTPContactStatus> &result) {
_contactsStatusesRequestId = 0;
for (const auto &item : result.v) {
Assert(item.type() == mtpc_contactStatus);
auto &data = item.c_contactStatus();
if (auto user = _session->data().userLoaded(data.vuser_id().v)) {
auto oldOnlineTill = user->onlineTill;
auto newOnlineTill = OnlineTillFromStatus(data.vstatus(), oldOnlineTill);
if (oldOnlineTill != newOnlineTill) {
user->onlineTill = newOnlineTill;
session().changes().peerUpdated(
user,
Data::PeerUpdate::Flag::OnlineStatus);
}
}
}
}).fail([this](const RPCError &error) {
_contactsStatusesRequestId = 0;
}).send();
}
int ApiWrap::OnlineTillFromStatus(
const MTPUserStatus &status,
int currentOnlineTill) {
switch (status.type()) {
case mtpc_userStatusEmpty: return 0;
case mtpc_userStatusRecently:
// Don't modify pseudo-online.
return (currentOnlineTill > -10) ? -2 : currentOnlineTill;
case mtpc_userStatusLastWeek: return -3;
case mtpc_userStatusLastMonth: return -4;
case mtpc_userStatusOffline: return status.c_userStatusOffline().vwas_online().v;
case mtpc_userStatusOnline: return status.c_userStatusOnline().vexpires().v;
}
Unexpected("Bad UserStatus type.");
}
void ApiWrap::clearHistory(not_null<PeerData*> peer, bool revoke) {
deleteHistory(peer, true, revoke);
}
void ApiWrap::deleteConversation(not_null<PeerData*> peer, bool revoke) {
if (const auto chat = peer->asChat()) {
request(MTPmessages_DeleteChatUser(
chat->inputChat,
_session->user()->inputUser
)).done([=](const MTPUpdates &result) {
applyUpdates(result);
deleteHistory(peer, false, revoke);
}).fail([=](const RPCError &error) {
deleteHistory(peer, false, revoke);
}).send();
} else {
deleteHistory(peer, false, revoke);
}
}
void ApiWrap::deleteHistory(
not_null<PeerData*> peer,
bool justClear,
bool revoke) {
auto deleteTillId = MsgId(0);
const auto history = _session->data().history(peer);
if (justClear) {
// In case of clear history we need to know the last server message.
while (history->lastMessageKnown()) {
const auto last = history->lastMessage();
if (!last) {
// History is empty.
return;
} else if (!IsServerMsgId(last->id)) {
// Destroy client-side message locally.
last->destroy();
} else {
break;
}
}
if (!history->lastMessageKnown()) {
history->owner().histories().requestDialogEntry(history, [=] {
Expects(history->lastMessageKnown());
deleteHistory(peer, justClear, revoke);
});
return;
}
deleteTillId = history->lastMessage()->id;
}
if (const auto channel = peer->asChannel()) {
if (!justClear) {
channel->ptsWaitingForShortPoll(-1);
leaveChannel(channel);
} else {
if (const auto migrated = peer->migrateFrom()) {
deleteHistory(migrated, justClear, revoke);
}
if (IsServerMsgId(deleteTillId)) {
history->owner().histories().deleteAllMessages(
history,
deleteTillId,
justClear,
revoke);
}
}
} else {
history->owner().histories().deleteAllMessages(
history,
deleteTillId,
justClear,
revoke);
}
if (!justClear) {
_session->data().deleteConversationLocally(peer);
} else if (history) {
history->clear(History::ClearType::ClearHistory);
}
}
void ApiWrap::applyUpdates(
const MTPUpdates &updates,
uint64 sentMessageRandomId) {
this->updates().applyUpdates(updates, sentMessageRandomId);
}
int ApiWrap::applyAffectedHistory(
not_null<PeerData*> peer,
const MTPmessages_AffectedHistory &result) {
const auto &data = result.c_messages_affectedHistory();
if (const auto channel = peer->asChannel()) {
channel->ptsUpdateAndApply(data.vpts().v, data.vpts_count().v);
} else {
updates().updateAndApply(data.vpts().v, data.vpts_count().v);
}
return data.voffset().v;
}
void ApiWrap::applyAffectedMessages(
not_null<PeerData*> peer,
const MTPmessages_AffectedMessages &result) {
const auto &data = result.c_messages_affectedMessages();
if (const auto channel = peer->asChannel()) {
channel->ptsUpdateAndApply(data.vpts().v, data.vpts_count().v);
} else {
applyAffectedMessages(result);
}
}
void ApiWrap::applyAffectedMessages(
const MTPmessages_AffectedMessages &result) {
const auto &data = result.c_messages_affectedMessages();
updates().updateAndApply(data.vpts().v, data.vpts_count().v);
}
void ApiWrap::saveCurrentDraftToCloud() {
Core::App().saveCurrentDraftsToHistories();
for (const auto controller : _session->windows()) {
if (const auto peer = controller->activeChatCurrent().peer()) {
if (const auto history = _session->data().historyLoaded(peer)) {
_session->local().writeDrafts(history);
const auto localDraft = history->localDraft();
const auto cloudDraft = history->cloudDraft();
if (!Data::draftsAreEqual(localDraft, cloudDraft)
&& !_session->supportMode()) {
saveDraftToCloudDelayed(history);
}
}
}
}
}
void ApiWrap::saveDraftsToCloud() {
for (auto i = _draftsSaveRequestIds.begin(), e = _draftsSaveRequestIds.end(); i != e; ++i) {
if (i->second) continue; // sent already
auto history = i->first;
auto cloudDraft = history->cloudDraft();
auto localDraft = history->localDraft();
if (cloudDraft && cloudDraft->saveRequestId) {
request(base::take(cloudDraft->saveRequestId)).cancel();
}
if (!_session->supportMode()) {
cloudDraft = history->createCloudDraft(localDraft);
} else if (!cloudDraft) {
cloudDraft = history->createCloudDraft(nullptr);
}
auto flags = MTPmessages_SaveDraft::Flags(0);
auto &textWithTags = cloudDraft->textWithTags;
if (cloudDraft->previewCancelled) {
flags |= MTPmessages_SaveDraft::Flag::f_no_webpage;
}
if (cloudDraft->msgId) {
flags |= MTPmessages_SaveDraft::Flag::f_reply_to_msg_id;
}
if (!textWithTags.tags.isEmpty()) {
flags |= MTPmessages_SaveDraft::Flag::f_entities;
}
auto entities = Api::EntitiesToMTP(
_session,
TextUtilities::ConvertTextTagsToEntities(textWithTags.tags),
Api::ConvertOption::SkipLocal);
const auto draftText = textWithTags.text;
history->setSentDraftText(draftText);
cloudDraft->saveRequestId = request(MTPmessages_SaveDraft(
MTP_flags(flags),
MTP_int(cloudDraft->msgId),
history->peer->input,
MTP_string(textWithTags.text),
entities
)).done([=](const MTPBool &result, mtpRequestId requestId) {
history->clearSentDraftText(draftText);
if (const auto cloudDraft = history->cloudDraft()) {
if (cloudDraft->saveRequestId == requestId) {
cloudDraft->saveRequestId = 0;
history->draftSavedToCloud();
}
}
auto i = _draftsSaveRequestIds.find(history);
if (i != _draftsSaveRequestIds.cend() && i->second == requestId) {
_draftsSaveRequestIds.erase(history);
checkQuitPreventFinished();
}
}).fail([=](const RPCError &error, mtpRequestId requestId) {
history->clearSentDraftText(draftText);
if (const auto cloudDraft = history->cloudDraft()) {
if (cloudDraft->saveRequestId == requestId) {
history->clearCloudDraft();
}
}
auto i = _draftsSaveRequestIds.find(history);
if (i != _draftsSaveRequestIds.cend() && i->second == requestId) {
_draftsSaveRequestIds.erase(history);
checkQuitPreventFinished();
}
}).send();
i->second = cloudDraft->saveRequestId;
}
}
bool ApiWrap::isQuitPrevent() {
if (_draftsSaveRequestIds.empty()) {
return false;
}
LOG(("ApiWrap prevents quit, saving drafts..."));
saveDraftsToCloud();
return true;
}
void ApiWrap::checkQuitPreventFinished() {
if (_draftsSaveRequestIds.empty()) {
if (App::quitting()) {
LOG(("ApiWrap doesn't prevent quit any more."));
}
Core::App().quitPreventFinished();
}
}
void ApiWrap::registerModifyRequest(
const QString &key,
mtpRequestId requestId) {
const auto i = _modifyRequests.find(key);
if (i != end(_modifyRequests)) {
request(i->second).cancel();
i->second = requestId;
} else {
_modifyRequests.emplace(key, requestId);
}
}
void ApiWrap::clearModifyRequest(const QString &key) {
_modifyRequests.remove(key);
}
void ApiWrap::applyNotifySettings(
MTPInputNotifyPeer notifyPeer,
const MTPPeerNotifySettings &settings) {
switch (notifyPeer.type()) {
case mtpc_inputNotifyUsers:
_session->data().applyNotifySetting(MTP_notifyUsers(), settings);
break;
case mtpc_inputNotifyChats:
_session->data().applyNotifySetting(MTP_notifyChats(), settings);
break;
case mtpc_inputNotifyBroadcasts:
_session->data().applyNotifySetting(
MTP_notifyBroadcasts(),
settings);
break;
case mtpc_inputNotifyPeer: {
auto &peer = notifyPeer.c_inputNotifyPeer().vpeer();
const auto apply = [&](PeerId peerId) {
_session->data().applyNotifySetting(
MTP_notifyPeer(peerToMTP(peerId)),
settings);
};
switch (peer.type()) {
case mtpc_inputPeerEmpty:
apply(0);
break;
case mtpc_inputPeerSelf:
apply(_session->userPeerId());
break;
case mtpc_inputPeerUser:
apply(peerFromUser(peer.c_inputPeerUser().vuser_id()));
break;
case mtpc_inputPeerChat:
apply(peerFromChat(peer.c_inputPeerChat().vchat_id()));
break;
case mtpc_inputPeerChannel:
apply(peerFromChannel(peer.c_inputPeerChannel().vchannel_id()));
break;
}
} break;
}
Core::App().notifications().checkDelayed();
}
void ApiWrap::gotStickerSet(uint64 setId, const MTPmessages_StickerSet &result) {
_stickerSetRequests.remove(setId);
_session->data().stickers().feedSetFull(result);
}
void ApiWrap::requestWebPageDelayed(WebPageData *page) {
if (page->pendingTill <= 0) return;
_webPagesPending.insert(page, 0);
auto left = (page->pendingTill - base::unixtime::now()) * 1000;
if (!_webPagesTimer.isActive() || left <= _webPagesTimer.remainingTime()) {
_webPagesTimer.callOnce((left < 0 ? 0 : left) + 1);
}
}
void ApiWrap::clearWebPageRequest(WebPageData *page) {
_webPagesPending.remove(page);
if (_webPagesPending.isEmpty() && _webPagesTimer.isActive()) {
_webPagesTimer.cancel();
}
}
void ApiWrap::clearWebPageRequests() {
_webPagesPending.clear();
_webPagesTimer.cancel();
}
void ApiWrap::resolveWebPages() {
auto ids = QVector<MTPInputMessage>(); // temp_req_id = -1
using IndexAndMessageIds = QPair<int32, QVector<MTPInputMessage>>;
using MessageIdsByChannel = QMap<ChannelData*, IndexAndMessageIds>;
MessageIdsByChannel idsByChannel; // temp_req_id = -index - 2
ids.reserve(_webPagesPending.size());
int32 t = base::unixtime::now(), m = INT_MAX;
for (auto i = _webPagesPending.begin(); i != _webPagesPending.cend(); ++i) {
if (i.value() > 0) continue;
if (i.key()->pendingTill <= t) {
const auto item = _session->data().findWebPageItem(i.key());
if (item) {
if (item->channelId() == NoChannel) {
ids.push_back(MTP_inputMessageID(MTP_int(item->id)));
i.value() = -1;
} else {
auto channel = item->history()->peer->asChannel();
auto channelMap = idsByChannel.find(channel);
if (channelMap == idsByChannel.cend()) {
channelMap = idsByChannel.insert(
channel,
IndexAndMessageIds(
idsByChannel.size(),
QVector<MTPInputMessage>(
1,
MTP_inputMessageID(MTP_int(item->id)))));
} else {
channelMap.value().second.push_back(
MTP_inputMessageID(MTP_int(item->id)));
}
i.value() = -channelMap.value().first - 2;
}
}
} else {
m = qMin(m, i.key()->pendingTill - t);
}
}
auto requestId = mtpRequestId(0);
if (!ids.isEmpty()) {
requestId = request(MTPmessages_GetMessages(
MTP_vector<MTPInputMessage>(ids)
)).done([=](
const MTPmessages_Messages &result,
mtpRequestId requestId) {
gotWebPages(nullptr, result, requestId);
}).afterDelay(kSmallDelayMs).send();
}
QVector<mtpRequestId> reqsByIndex(idsByChannel.size(), 0);
for (auto i = idsByChannel.cbegin(), e = idsByChannel.cend(); i != e; ++i) {
reqsByIndex[i.value().first] = request(MTPchannels_GetMessages(
i.key()->inputChannel,
MTP_vector<MTPInputMessage>(i.value().second)
)).done([=, channel = i.key()](
const MTPmessages_Messages &result,
mtpRequestId requestId) {
gotWebPages(channel, result, requestId);
}).afterDelay(kSmallDelayMs).send();
}
if (requestId || !reqsByIndex.isEmpty()) {
for (auto &pendingRequestId : _webPagesPending) {
if (pendingRequestId > 0) continue;
if (pendingRequestId < 0) {
if (pendingRequestId == -1) {
pendingRequestId = requestId;
} else {
pendingRequestId = reqsByIndex[-pendingRequestId - 2];
}
}
}
}
if (m < INT_MAX) {
_webPagesTimer.callOnce(m * 1000);
}
}
void ApiWrap::requestParticipantsCountDelayed(
not_null<ChannelData*> channel) {
_participantsCountRequestTimer.call(
kReloadChannelMembersTimeout,
[=] { channel->updateFullForced(); });
}
template <typename Request>
void ApiWrap::requestFileReference(
Data::FileOrigin origin,
FileReferencesHandler &&handler,
Request &&data) {
const auto i = _fileReferenceHandlers.find(origin);
if (i != end(_fileReferenceHandlers)) {
i->second.push_back(std::move(handler));
return;
}
auto handlers = std::vector<FileReferencesHandler>();
handlers.push_back(std::move(handler));
_fileReferenceHandlers.emplace(origin, std::move(handlers));
request(std::move(data)).done([=](const auto &result) {
const auto parsed = Data::GetFileReferences(result);
for (const auto &p : parsed.data) {
// Unpack here the parsed pair by hand to workaround a GCC bug.
// See https://gcc.gnu.org/bugzilla/show_bug.cgi?id=87122
const auto &origin = p.first;
const auto &reference = p.second;
const auto documentId = std::get_if<DocumentFileLocationId>(
&origin);
if (documentId) {
_session->data().document(
documentId->id
)->refreshFileReference(reference);
}
const auto photoId = std::get_if<PhotoFileLocationId>(&origin);
if (photoId) {
_session->data().photo(
photoId->id
)->refreshFileReference(reference);
}
}
const auto i = _fileReferenceHandlers.find(origin);
Assert(i != end(_fileReferenceHandlers));
auto handlers = std::move(i->second);
_fileReferenceHandlers.erase(i);
for (auto &handler : handlers) {
handler(parsed);
}
}).fail([=](const RPCError &error) {
const auto i = _fileReferenceHandlers.find(origin);
Assert(i != end(_fileReferenceHandlers));
auto handlers = std::move(i->second);
_fileReferenceHandlers.erase(i);
for (auto &handler : handlers) {
handler(UpdatedFileReferences());
}
}).send();
}
void ApiWrap::refreshFileReference(
Data::FileOrigin origin,
not_null<Storage::DownloadMtprotoTask*> task,
int requestId,
const QByteArray &current) {
return refreshFileReference(origin, crl::guard(task, [=](
const UpdatedFileReferences &data) {
task->refreshFileReferenceFrom(data, requestId, current);
}));
}
void ApiWrap::refreshFileReference(
Data::FileOrigin origin,
FileReferencesHandler &&handler) {
const auto request = [&](
auto &&data,
Fn<void()> &&additional = nullptr) {
requestFileReference(
origin,
std::move(handler),
std::move(data));
if (additional) {
const auto i = _fileReferenceHandlers.find(origin);
Assert(i != end(_fileReferenceHandlers));
if (i->second.size() == 1) {
i->second.push_back([=](auto&&) {
additional();
});
}
}
};
const auto fail = [&] {
handler(UpdatedFileReferences());
};
v::match(origin.data, [&](Data::FileOriginMessage data) {
if (const auto item = _session->data().message(data)) {
if (item->isScheduled()) {
const auto &scheduled = _session->data().scheduledMessages();
const auto realId = scheduled.lookupId(item);
request(MTPmessages_GetScheduledMessages(
item->history()->peer->input,
MTP_vector<MTPint>(1, MTP_int(realId))));
} else if (const auto channel = item->history()->peer->asChannel()) {
request(MTPchannels_GetMessages(
channel->inputChannel,
MTP_vector<MTPInputMessage>(
1,
MTP_inputMessageID(MTP_int(item->id)))));
} else {
request(MTPmessages_GetMessages(
MTP_vector<MTPInputMessage>(
1,
MTP_inputMessageID(MTP_int(item->id)))));
}
} else {
fail();
}
}, [&](Data::FileOriginUserPhoto data) {
if (const auto user = _session->data().user(data.userId)) {
request(MTPphotos_GetUserPhotos(
user->inputUser,
MTP_int(-1),
MTP_long(data.photoId),
MTP_int(1)));
} else {
fail();
}
}, [&](Data::FileOriginPeerPhoto data) {
fail();
}, [&](Data::FileOriginStickerSet data) {
if (data.setId == Data::Stickers::CloudRecentSetId
|| data.setId == Data::Stickers::RecentSetId) {
request(MTPmessages_GetRecentStickers(
MTP_flags(0),
MTP_int(0)),
[=] { crl::on_main(_session, [=] { local().writeRecentStickers(); }); });
} else if (data.setId == Data::Stickers::FavedSetId) {
request(MTPmessages_GetFavedStickers(MTP_int(0)),
[=] { crl::on_main(_session, [=] { local().writeFavedStickers(); }); });
} else {
request(MTPmessages_GetStickerSet(
MTP_inputStickerSetID(
MTP_long(data.setId),
MTP_long(data.accessHash))),
[=] { crl::on_main(_session, [=] {
local().writeInstalledStickers();
local().writeRecentStickers();
local().writeFavedStickers();
}); });
}
}, [&](Data::FileOriginSavedGifs data) {
request(
MTPmessages_GetSavedGifs(MTP_int(0)),
[=] { crl::on_main(_session, [=] { local().writeSavedGifs(); }); });
}, [&](Data::FileOriginWallpaper data) {
const auto useSlug = data.ownerId
&& (data.ownerId != session().userId())
&& !data.slug.isEmpty();
request(MTPaccount_GetWallPaper(useSlug
? MTP_inputWallPaperSlug(MTP_string(data.slug))
: MTP_inputWallPaper(
MTP_long(data.paperId),
MTP_long(data.accessHash))));
}, [&](Data::FileOriginTheme data) {
request(MTPaccount_GetTheme(
MTP_string(Data::CloudThemes::Format()),
MTP_inputTheme(
MTP_long(data.themeId),
MTP_long(data.accessHash)),
MTP_long(0)));
}, [&](v::null_t) {
fail();
});
}
void ApiWrap::gotWebPages(ChannelData *channel, const MTPmessages_Messages &result, mtpRequestId req) {
WebPageData::ApplyChanges(_session, channel, result);
for (auto i = _webPagesPending.begin(); i != _webPagesPending.cend();) {
if (i.value() == req) {
if (i.key()->pendingTill > 0) {
i.key()->pendingTill = -1;
_session->data().notifyWebPageUpdateDelayed(i.key());
}
i = _webPagesPending.erase(i);
} else {
++i;
}
}
_session->data().sendWebPageGamePollNotifications();
}
void ApiWrap::stickersSaveOrder() {
if (_stickersOrder.size() < 2) {
return;
}
QVector<MTPlong> mtpOrder;
mtpOrder.reserve(_stickersOrder.size());
for (const auto setId : std::as_const(_stickersOrder)) {
mtpOrder.push_back(MTP_long(setId));
}
_stickersReorderRequestId = request(MTPmessages_ReorderStickerSets(
MTP_flags(0),
MTP_vector<MTPlong>(mtpOrder)
)).done([=](const MTPBool &result) {
_stickersReorderRequestId = 0;
}).fail([=](const RPCError &error) {
_stickersReorderRequestId = 0;
_session->data().stickers().setLastUpdate(0);
updateStickers();
}).send();
}
void ApiWrap::updateStickers() {
auto now = crl::now();
requestStickers(now);
requestRecentStickers(now);
requestFavedStickers(now);
requestFeaturedStickers(now);
requestSavedGifs(now);
}
void ApiWrap::requestRecentStickersForce() {
requestRecentStickersWithHash(0);
}
void ApiWrap::setGroupStickerSet(not_null<ChannelData*> megagroup, const MTPInputStickerSet &set) {
Expects(megagroup->mgInfo != nullptr);
megagroup->mgInfo->stickerSet = set;
request(MTPchannels_SetStickers(megagroup->inputChannel, set)).send();
_session->data().stickers().notifyUpdated();
}
std::vector<not_null<DocumentData*>> *ApiWrap::stickersByEmoji(
not_null<EmojiPtr> emoji) {
const auto it = _stickersByEmoji.find(emoji);
const auto sendRequest = [&] {
if (it == _stickersByEmoji.end()) {
return true;
}
const auto received = it->second.received;
const auto now = crl::now();
return (received > 0)
&& (received + kStickersByEmojiInvalidateTimeout) <= now;
}();
if (sendRequest) {
const auto hash = (it != _stickersByEmoji.end())
? it->second.hash
: int32(0);
request(MTPmessages_GetStickers(
MTP_string(emoji->text()),
MTP_int(hash)
)).done([=](const MTPmessages_Stickers &result) {
if (result.type() == mtpc_messages_stickersNotModified) {
return;
}
Assert(result.type() == mtpc_messages_stickers);
const auto &data = result.c_messages_stickers();
auto &entry = _stickersByEmoji[emoji];
entry.list.clear();
entry.list.reserve(data.vstickers().v.size());
for (const auto &sticker : data.vstickers().v) {
const auto document = _session->data().processDocument(
sticker);
if (document->sticker()) {
entry.list.push_back(document);
}
}
entry.hash = data.vhash().v;
entry.received = crl::now();
_session->data().stickers().notifyUpdated();
}).send();
}
if (it == _stickersByEmoji.end()) {
_stickersByEmoji.emplace(emoji, StickersByEmoji());
} else if (it->second.received > 0) {
return &it->second.list;
}
return nullptr;
}
void ApiWrap::requestStickers(TimeId now) {
if (!_session->data().stickers().updateNeeded(now)
|| _stickersUpdateRequest) {
return;
}
auto onDone = [this](const MTPmessages_AllStickers &result) {
_session->data().stickers().setLastUpdate(crl::now());
_stickersUpdateRequest = 0;
switch (result.type()) {
case mtpc_messages_allStickersNotModified: return;
case mtpc_messages_allStickers: {
auto &d = result.c_messages_allStickers();
_session->data().stickers().setsReceived(
d.vsets().v,
d.vhash().v);
} return;
default: Unexpected("Type in ApiWrap::stickersDone()");
}
};
_stickersUpdateRequest = request(MTPmessages_GetAllStickers(
MTP_int(Api::CountStickersHash(_session, true))
)).done(onDone).fail([=](const RPCError &error) {
LOG(("App Fail: Failed to get stickers!"));
onDone(MTP_messages_allStickersNotModified());
}).send();
}
void ApiWrap::requestRecentStickers(TimeId now) {
if (!_session->data().stickers().recentUpdateNeeded(now)) {
return;
}
requestRecentStickersWithHash(
Api::CountRecentStickersHash(_session));
}
void ApiWrap::requestRecentStickersWithHash(int32 hash) {
if (_recentStickersUpdateRequest) {
return;
}
_recentStickersUpdateRequest = request(MTPmessages_GetRecentStickers(
MTP_flags(0),
MTP_int(hash)
)).done([=](const MTPmessages_RecentStickers &result) {
_session->data().stickers().setLastRecentUpdate(crl::now());
_recentStickersUpdateRequest = 0;
switch (result.type()) {
case mtpc_messages_recentStickersNotModified: return;
case mtpc_messages_recentStickers: {
auto &d = result.c_messages_recentStickers();
_session->data().stickers().specialSetReceived(
Data::Stickers::CloudRecentSetId,
tr::lng_recent_stickers(tr::now),
d.vstickers().v,
d.vhash().v,
d.vpacks().v,
d.vdates().v);
} return;
default: Unexpected("Type in ApiWrap::recentStickersDone()");
}
}).fail([=](const RPCError &error) {
_session->data().stickers().setLastRecentUpdate(crl::now());
_recentStickersUpdateRequest = 0;
LOG(("App Fail: Failed to get recent stickers!"));
}).send();
}
void ApiWrap::requestFavedStickers(TimeId now) {
if (!_session->data().stickers().favedUpdateNeeded(now)
|| _favedStickersUpdateRequest) {
return;
}
_favedStickersUpdateRequest = request(MTPmessages_GetFavedStickers(
MTP_int(Api::CountFavedStickersHash(_session))
)).done([=](const MTPmessages_FavedStickers &result) {
_session->data().stickers().setLastFavedUpdate(crl::now());
_favedStickersUpdateRequest = 0;
switch (result.type()) {
case mtpc_messages_favedStickersNotModified: return;
case mtpc_messages_favedStickers: {
auto &d = result.c_messages_favedStickers();
_session->data().stickers().specialSetReceived(
Data::Stickers::FavedSetId,
Lang::Hard::FavedSetTitle(),
d.vstickers().v,
d.vhash().v,
d.vpacks().v);
} return;
default: Unexpected("Type in ApiWrap::favedStickersDone()");
}
}).fail([=](const RPCError &error) {
_session->data().stickers().setLastFavedUpdate(crl::now());
_favedStickersUpdateRequest = 0;
LOG(("App Fail: Failed to get faved stickers!"));
}).send();
}
void ApiWrap::requestFeaturedStickers(TimeId now) {
if (!_session->data().stickers().featuredUpdateNeeded(now)
|| _featuredStickersUpdateRequest) {
return;
}
_featuredStickersUpdateRequest = request(MTPmessages_GetFeaturedStickers(
MTP_int(Api::CountFeaturedStickersHash(_session))
)).done([=](const MTPmessages_FeaturedStickers &result) {
_session->data().stickers().setLastFeaturedUpdate(crl::now());
_featuredStickersUpdateRequest = 0;
switch (result.type()) {
case mtpc_messages_featuredStickersNotModified: return;
case mtpc_messages_featuredStickers: {
auto &d = result.c_messages_featuredStickers();
_session->data().stickers().featuredSetsReceived(
d.vsets().v,
d.vunread().v,
d.vhash().v);
} return;
default: Unexpected("Type in ApiWrap::featuredStickersDone()");
}
}).fail([=](const RPCError &error) {
_session->data().stickers().setLastFeaturedUpdate(crl::now());
_featuredStickersUpdateRequest = 0;
LOG(("App Fail: Failed to get featured stickers!"));
}).send();
}
void ApiWrap::requestSavedGifs(TimeId now) {
if (!_session->data().stickers().savedGifsUpdateNeeded(now)
|| _savedGifsUpdateRequest) {
return;
}
_savedGifsUpdateRequest = request(MTPmessages_GetSavedGifs(
MTP_int(Api::CountSavedGifsHash(_session))
)).done([=](const MTPmessages_SavedGifs &result) {
_session->data().stickers().setLastSavedGifsUpdate(crl::now());
_savedGifsUpdateRequest = 0;
switch (result.type()) {
case mtpc_messages_savedGifsNotModified: return;
case mtpc_messages_savedGifs: {
auto &d = result.c_messages_savedGifs();
_session->data().stickers().gifsReceived(
d.vgifs().v,
d.vhash().v);
} return;
default: Unexpected("Type in ApiWrap::savedGifsDone()");
}
}).fail([=](const RPCError &error) {
_session->data().stickers().setLastSavedGifsUpdate(crl::now());
_savedGifsUpdateRequest = 0;
LOG(("App Fail: Failed to get saved gifs!"));
}).send();
}
void ApiWrap::readFeaturedSetDelayed(uint64 setId) {
if (!_featuredSetsRead.contains(setId)) {
_featuredSetsRead.insert(setId);
_featuredSetsReadTimer.callOnce(kReadFeaturedSetsTimeout);
}
}
void ApiWrap::readFeaturedSets() {
const auto &sets = _session->data().stickers().sets();
auto count = _session->data().stickers().featuredSetsUnreadCount();
QVector<MTPlong> wrappedIds;
wrappedIds.reserve(_featuredSetsRead.size());
for (const auto setId : _featuredSetsRead) {
const auto it = sets.find(setId);
if (it != sets.cend()) {
it->second->flags &= ~MTPDstickerSet_ClientFlag::f_unread;
wrappedIds.append(MTP_long(setId));
if (count) {
--count;
}
}
}
_featuredSetsRead.clear();
if (!wrappedIds.empty()) {
auto requestData = MTPmessages_ReadFeaturedStickers(
MTP_vector<MTPlong>(wrappedIds));
request(std::move(requestData)).done([=](const MTPBool &result) {
local().writeFeaturedStickers();
_session->data().stickers().notifyUpdated();
}).send();
_session->data().stickers().setFeaturedSetsUnreadCount(count);
}
}
void ApiWrap::parseChannelParticipants(
not_null<ChannelData*> channel,
const MTPchannels_ChannelParticipants &result,
Fn<void(
int availableCount,
const QVector<MTPChannelParticipant> &list)> callbackList,
Fn<void()> callbackNotModified) {
result.match([&](const MTPDchannels_channelParticipants &data) {
_session->data().processUsers(data.vusers());
if (channel->mgInfo) {
refreshChannelAdmins(channel, data.vparticipants().v);
}
if (callbackList) {
callbackList(data.vcount().v, data.vparticipants().v);
}
}, [&](const MTPDchannels_channelParticipantsNotModified &) {
if (callbackNotModified) {
callbackNotModified();
} else {
LOG(("API Error: "
"channels.channelParticipantsNotModified received!"));
}
});
}
void ApiWrap::refreshChannelAdmins(
not_null<ChannelData*> channel,
const QVector<MTPChannelParticipant> &participants) {
Data::ChannelAdminChanges changes(channel);
for (const auto &p : participants) {
const auto userId = p.match([](const auto &data) {
return data.vuser_id().v;
});
p.match([&](const MTPDchannelParticipantAdmin &data) {
changes.add(userId, qs(data.vrank().value_or_empty()));
}, [&](const MTPDchannelParticipantCreator &data) {
const auto rank = qs(data.vrank().value_or_empty());
if (const auto info = channel->mgInfo.get()) {
info->creator = channel->owner().userLoaded(userId);
info->creatorRank = rank;
}
changes.add(userId, rank);
}, [&](const auto &data) {
changes.remove(userId);
});
}
}
void ApiWrap::parseRecentChannelParticipants(
not_null<ChannelData*> channel,
const MTPchannels_ChannelParticipants &result,
Fn<void(
int availableCount,
const QVector<MTPChannelParticipant> &list)> callbackList,
Fn<void()> callbackNotModified) {
parseChannelParticipants(channel, result, [&](
int availableCount,
const QVector<MTPChannelParticipant> &list) {
auto applyLast = channel->isMegagroup()
&& (channel->mgInfo->lastParticipants.size() <= list.size());
if (applyLast) {
applyLastParticipantsList(
channel,
availableCount,
list);
}
if (callbackList) {
callbackList(availableCount, list);
}
}, std::move(callbackNotModified));
}
void ApiWrap::jumpToDate(Dialogs::Key chat, const QDate &date) {
if (const auto peer = chat.peer()) {
jumpToHistoryDate(peer, date);
//} else if (const auto feed = chat.feed()) { // #feed
// jumpToFeedDate(feed, date);
}
}
template <typename Callback>
void ApiWrap::requestMessageAfterDate(
not_null<PeerData*> peer,
const QDate &date,
Callback &&callback) {
// API returns a message with date <= offset_date.
// So we request a message with offset_date = desired_date - 1 and add_offset = -1.
// This should give us the first message with date >= desired_date.
auto offsetId = 0;
auto offsetDate = static_cast<int>(QDateTime(date).toTime_t()) - 1;
auto addOffset = -1;
auto limit = 1;
auto maxId = 0;
auto minId = 0;
auto historyHash = 0;
request(MTPmessages_GetHistory(
peer->input,
MTP_int(offsetId),
MTP_int(offsetDate),
MTP_int(addOffset),
MTP_int(limit),
MTP_int(maxId),
MTP_int(minId),
MTP_int(historyHash)
)).done([
=,
callback = std::forward<Callback>(callback)
](const MTPmessages_Messages &result) {
auto getMessagesList = [&]() -> const QVector<MTPMessage>* {
auto handleMessages = [&](auto &messages) {
_session->data().processUsers(messages.vusers());
_session->data().processChats(messages.vchats());
return &messages.vmessages().v;
};
switch (result.type()) {
case mtpc_messages_messages:
return handleMessages(result.c_messages_messages());
case mtpc_messages_messagesSlice:
return handleMessages(result.c_messages_messagesSlice());
case mtpc_messages_channelMessages: {
auto &messages = result.c_messages_channelMessages();
if (peer && peer->isChannel()) {
peer->asChannel()->ptsReceived(messages.vpts().v);
} else {
LOG(("API Error: received messages.channelMessages when no channel was passed! (ApiWrap::jumpToDate)"));
}
return handleMessages(messages);
} break;
case mtpc_messages_messagesNotModified: {
LOG(("API Error: received messages.messagesNotModified! (ApiWrap::jumpToDate)"));
} break;
}
return nullptr;
};
if (const auto list = getMessagesList()) {
_session->data().processMessages(*list, NewMessageType::Existing);
for (const auto &message : *list) {
if (DateFromMessage(message) >= offsetDate) {
callback(IdFromMessage(message));
return;
}
}
}
callback(ShowAtUnreadMsgId);
}).send();
}
void ApiWrap::jumpToHistoryDate(not_null<PeerData*> peer, const QDate &date) {
if (const auto channel = peer->migrateTo()) {
jumpToHistoryDate(channel, date);
return;
}
const auto jumpToDateInPeer = [=] {
requestMessageAfterDate(peer, date, [=](MsgId resultId) {
Ui::showPeerHistory(peer, resultId);
});
};
if (const auto chat = peer->migrateFrom()) {
requestMessageAfterDate(chat, date, [=](MsgId resultId) {
if (resultId) {
Ui::showPeerHistory(chat, resultId);
} else {
jumpToDateInPeer();
}
});
} else {
jumpToDateInPeer();
}
}
// // #feed
//template <typename Callback>
//void ApiWrap::requestMessageAfterDate(
// not_null<Data::Feed*> feed,
// const QDate &date,
// Callback &&callback) {
// const auto offsetId = 0;
// const auto offsetDate = static_cast<TimeId>(QDateTime(date).toTime_t());
// const auto addOffset = -2;
// const auto limit = 1;
// const auto hash = 0;
// request(MTPchannels_GetFeed(
// MTP_flags(MTPchannels_GetFeed::Flag::f_offset_position),
// MTP_int(feed->id()),
// MTP_feedPosition(
// MTP_int(offsetDate),
// MTP_peerUser(MTP_int(_session->userId())),
// MTP_int(0)),
// MTP_int(addOffset),
// MTP_int(limit),
// MTPfeedPosition(), // max_id
// MTPfeedPosition(), // min_id
// MTP_int(hash)
// )).done([
// =,
// callback = std::forward<Callback>(callback)
// ](const MTPmessages_FeedMessages &result) {
// if (result.type() == mtpc_messages_feedMessagesNotModified) {
// LOG(("API Error: "
// "Unexpected messages.feedMessagesNotModified."));
// callback(Data::UnreadMessagePosition);
// return;
// }
// Assert(result.type() == mtpc_messages_feedMessages);
// const auto &data = result.c_messages_feedMessages();
// const auto &messages = data.vmessages().v;
// const auto type = NewMessageExisting;
// _session->data().processUsers(data.vusers());
// _session->data().processChats(data.vchats());
// for (const auto &msg : messages) {
// if (const auto item = _session->data().addNewMessage(msg, type)) {
// if (item->date() >= offsetDate || true) {
// callback(item->position());
// return;
// }
// }
// }
// callback(Data::UnreadMessagePosition);
// }).send();
//}
//
//void ApiWrap::jumpToFeedDate(not_null<Data::Feed*> feed, const QDate &date) {
// requestMessageAfterDate(feed, date, [=](Data::MessagePosition result) {
// Ui::hideLayer();
// App::wnd()->sessionController()->showSection(
// HistoryFeed::Memento(feed, result));
// });
//}
void ApiWrap::preloadEnoughUnreadMentions(not_null<History*> history) {
auto fullCount = history->getUnreadMentionsCount();
auto loadedCount = history->getUnreadMentionsLoadedCount();
auto allLoaded = (fullCount >= 0) ? (loadedCount >= fullCount) : false;
if (fullCount < 0 || loadedCount >= kUnreadMentionsPreloadIfLess || allLoaded) {
return;
}
if (_unreadMentionsRequests.contains(history)) {
return;
}
auto offsetId = loadedCount ? history->getMaxLoadedUnreadMention() : 1;
auto limit = loadedCount ? kUnreadMentionsNextRequestLimit : kUnreadMentionsFirstRequestLimit;
auto addOffset = loadedCount ? -(limit + 1) : -limit;
auto maxId = 0;
auto minId = 0;
auto requestId = request(MTPmessages_GetUnreadMentions(history->peer->input, MTP_int(offsetId), MTP_int(addOffset), MTP_int(limit), MTP_int(maxId), MTP_int(minId))).done([this, history](const MTPmessages_Messages &result) {
_unreadMentionsRequests.remove(history);
history->addUnreadMentionsSlice(result);
}).fail([this, history](const RPCError &error) {
_unreadMentionsRequests.remove(history);
}).send();
_unreadMentionsRequests.emplace(history, requestId);
}
void ApiWrap::checkForUnreadMentions(
const base::flat_set<MsgId> &possiblyReadMentions,
ChannelData *channel) {
for (auto msgId : possiblyReadMentions) {
requestMessageData(channel, msgId, [=](
ChannelData *channel,
MsgId msgId) {
if (const auto item = _session->data().message(channel, msgId)) {
if (item->mentionsMe()) {
item->markMediaRead();
}
}
});
}
}
void ApiWrap::addChatParticipants(
not_null<PeerData*> peer,
const std::vector<not_null<UserData*>> &users) {
if (const auto chat = peer->asChat()) {
for (const auto user : users) {
request(MTPmessages_AddChatUser(
chat->inputChat,
user->inputUser,
MTP_int(kForwardMessagesOnAdd)
)).done([=](const MTPUpdates &result) {
applyUpdates(result);
}).fail([=](const RPCError &error) {
ShowAddParticipantsError(error.type(), peer, { 1, user });
}).afterDelay(crl::time(5)).send();
}
} else if (const auto channel = peer->asChannel()) {
const auto hasBot = ranges::any_of(users, &UserData::isBot);
if (!peer->isMegagroup() && hasBot) {
ShowAddParticipantsError("USER_BOT", peer, users);
return;
}
auto list = QVector<MTPInputUser>();
list.reserve(qMin(int(users.size()), int(kMaxUsersPerInvite)));
const auto send = [&] {
request(MTPchannels_InviteToChannel(
channel->inputChannel,
MTP_vector<MTPInputUser>(list)
)).done([=](const MTPUpdates &result) {
applyUpdates(result);
requestParticipantsCountDelayed(channel);
}).fail([=](const RPCError &error) {
ShowAddParticipantsError(error.type(), peer, users);
}).afterDelay(crl::time(5)).send();
};
for (const auto user : users) {
list.push_back(user->inputUser);
if (list.size() == kMaxUsersPerInvite) {
send();
list.clear();
}
}
if (!list.empty()) {
send();
}
} else {
Unexpected("User in ApiWrap::addChatParticipants.");
}
}
void ApiWrap::requestSharedMediaCount(
not_null<PeerData*> peer,
Storage::SharedMediaType type) {
requestSharedMedia(peer, type, 0, SliceType::Before);
}
void ApiWrap::requestSharedMedia(
not_null<PeerData*> peer,
SharedMediaType type,
MsgId messageId,
SliceType slice) {
const auto key = std::make_tuple(peer, type, messageId, slice);
if (_sharedMediaRequests.contains(key)) {
return;
}
const auto prepared = Api::PrepareSearchRequest(
peer,
type,
QString(),
messageId,
slice);
if (!prepared) {
return;
}
const auto history = _session->data().history(peer);
auto &histories = history->owner().histories();
const auto requestType = Data::Histories::RequestType::History;
histories.sendRequest(history, requestType, [=](Fn<void()> finish) {
return request(
std::move(*prepared)
).done([=](const MTPmessages_Messages &result) {
const auto key = std::make_tuple(peer, type, messageId, slice);
_sharedMediaRequests.remove(key);
sharedMediaDone(peer, type, messageId, slice, result);
finish();
}).fail([=](const RPCError &error) {
_sharedMediaRequests.remove(key);
finish();
}).send();
});
_sharedMediaRequests.emplace(key);
}
void ApiWrap::sharedMediaDone(
not_null<PeerData*> peer,
SharedMediaType type,
MsgId messageId,
SliceType slice,
const MTPmessages_Messages &result) {
auto parsed = Api::ParseSearchResult(
peer,
type,
messageId,
slice,
result);
_session->storage().add(Storage::SharedMediaAddSlice(
peer->id,
type,
std::move(parsed.messageIds),
parsed.noSkipRange,
parsed.fullCount
));
}
void ApiWrap::requestUserPhotos(
not_null<UserData*> user,
PhotoId afterId) {
if (_userPhotosRequests.contains(user)) {
return;
}
auto limit = kSharedMediaLimit;
auto requestId = request(MTPphotos_GetUserPhotos(
user->inputUser,
MTP_int(0),
MTP_long(afterId),
MTP_int(limit)
)).done([this, user, afterId](const MTPphotos_Photos &result) {
_userPhotosRequests.remove(user);
userPhotosDone(user, afterId, result);
}).fail([this, user](const RPCError &error) {
_userPhotosRequests.remove(user);
}).send();
_userPhotosRequests.emplace(user, requestId);
}
void ApiWrap::userPhotosDone(
not_null<UserData*> user,
PhotoId photoId,
const MTPphotos_Photos &result) {
auto fullCount = 0;
auto &photos = *[&] {
switch (result.type()) {
case mtpc_photos_photos: {
auto &d = result.c_photos_photos();
_session->data().processUsers(d.vusers());
fullCount = d.vphotos().v.size();
return &d.vphotos().v;
} break;
case mtpc_photos_photosSlice: {
auto &d = result.c_photos_photosSlice();
_session->data().processUsers(d.vusers());
fullCount = d.vcount().v;
return &d.vphotos().v;
} break;
}
Unexpected("photos.Photos type in userPhotosDone()");
}();
auto photoIds = std::vector<PhotoId>();
photoIds.reserve(photos.size());
for (auto &photo : photos) {
if (auto photoData = _session->data().processPhoto(photo)) {
photoIds.push_back(photoData->id);
}
}
_session->storage().add(Storage::UserPhotosAddSlice(
user->id,
std::move(photoIds),
fullCount
));
}
// #feed
//void ApiWrap::requestFeedChannels(not_null<Data::Feed*> feed) {
// if (_feedChannelsGetRequests.contains(feed)) {
// return;
// }
// const auto hash = feed->channelsHash();
// request(MTPchannels_GetFeedSources(
// MTP_flags(MTPchannels_GetFeedSources::Flag::f_feed_id),
// MTP_int(feed->id()),
// MTP_int(hash)
// )).done([=](const MTPchannels_FeedSources &result) {
// _feedChannelsGetRequests.remove(feed);
//
// switch (result.type()) {
// case mtpc_channels_feedSourcesNotModified:
// if (feed->channelsHash() == hash) {
// feedChannelsDone(feed);
// } else {
// requestFeedChannels(feed);
// }
// break;
//
// case mtpc_channels_feedSources: {
// const auto &data = result.c_channels_feedSources();
// applyFeedSources(data);
// if (feed->channelsLoaded()) {
// feedChannelsDone(feed);
// } else {
// LOG(("API Error: feed channels not received for "
// ).arg(feed->id()));
// }
// } break;
//
// default: Unexpected("Type in channels.getFeedSources response.");
// }
// }).fail([=](const RPCError &error) {
// _feedChannelsGetRequests.remove(feed);
// }).send();
// _feedChannelsGetRequests.emplace(feed);
//}
//
//void ApiWrap::applyFeedSources(const MTPDchannels_feedSources &data) {
// // First we set channels without reading them from data.
// // This allows us to apply them all at once without registering
// // them one by one.
// for (const auto &broadcasts : data.vfeeds().v) {
// if (broadcasts.type() == mtpc_feedBroadcasts) {
// const auto &list = broadcasts.c_feedBroadcasts();
// const auto feedId = list.vfeed_id().v;
// const auto feed = _session->data().feed(feedId);
// auto channels = std::vector<not_null<ChannelData*>>();
// for (const auto &channelId : list.vchannels().v) {
// channels.push_back(_session->data().channel(channelId.v));
// }
// feed->setChannels(std::move(channels));
// }
// }
//
// _session->data().processUsers(data.vusers());
// _session->data().processChats(data.vchats());
//
// if (const auto id = data.vnewly_joined_feed()) {
// _session->data().setDefaultFeedId(id->v);
// }
//}
//
//void ApiWrap::setFeedChannels(
// not_null<Data::Feed*> feed,
// const std::vector<not_null<ChannelData*>> &channels) {
// if (const auto already = _feedChannelsSetRequests.take(feed)) {
// request(*already).cancel();
// }
// auto inputs = QVector<MTPInputChannel>();
// inputs.reserve(channels.size());
// for (const auto channel : channels) {
// inputs.push_back(channel->inputChannel);
// }
// const auto requestId = request(MTPchannels_SetFeedBroadcasts(
// MTP_flags(MTPchannels_SetFeedBroadcasts::Flag::f_channels),
// MTP_int(feed->id()),
// MTP_vector<MTPInputChannel>(inputs),
// MTPbool()
// )).done([=](const MTPUpdates &result) {
// applyUpdates(result);
//
// _feedChannelsSetRequests.remove(feed);
// }).fail([=](const RPCError &error) {
// _feedChannelsSetRequests.remove(feed);
// }).send();
//
//}
//
//void ApiWrap::feedChannelsDone(not_null<Data::Feed*> feed) {
// feed->setChannelsLoaded(true);
// for (const auto key : base::take(_feedMessagesRequestsPending)) {
// std::apply(
// [=](auto&&...args) { requestFeedMessages(args...); },
// key);
// }
//}
//
//void ApiWrap::requestFeedMessages(
// not_null<Data::Feed*> feed,
// Data::MessagePosition messageId,
// SliceType slice) {
// const auto key = std::make_tuple(feed, messageId, slice);
// if (_feedMessagesRequests.contains(key)
// || _feedMessagesRequestsPending.contains(key)) {
// return;
// }
//
// if (!feed->channelsLoaded()) {
// _feedMessagesRequestsPending.emplace(key);
// requestFeedChannels(feed);
// return;
// }
//
// // We request messages with overlapping and skip overlapped in response.
// const auto limit = kFeedMessagesLimit;
// const auto addOffset = [&] {
// switch (slice) {
// case SliceType::Before: return -2;
// case SliceType::Around: return -limit / 2;
// case SliceType::After: return 1 - limit;
// }
// Unexpected("Direction in PrepareSearchRequest");
// }();
// const auto hash = int32(0);
// const auto flags = (messageId && messageId.fullId.channel)
// ? MTPchannels_GetFeed::Flag::f_offset_position
// : MTPchannels_GetFeed::Flag::f_offset_to_max_read;
// const auto requestId = request(MTPchannels_GetFeed(
// MTP_flags(flags),
// MTP_int(feed->id()),
// MTP_feedPosition(
// MTP_int(messageId.date),
// MTP_peerChannel(MTP_int(messageId.fullId.channel)),
// MTP_int(messageId.fullId.msg)),
// MTP_int(addOffset),
// MTP_int(limit),
// MTPFeedPosition(),
// MTPFeedPosition(),
// MTP_int(hash)
// )).done([=](const MTPmessages_FeedMessages &result) {
// const auto key = std::make_tuple(feed, messageId, slice);
// _feedMessagesRequests.remove(key);
// feedMessagesDone(feed, messageId, slice, result);
// }).fail([=](const RPCError &error) {
// _feedMessagesRequests.remove(key);
// if (error.type() == qstr("SOURCES_HASH_INVALID")) {
// _feedMessagesRequestsPending.emplace(key);
// requestFeedChannels(feed);
// }
// }).send();
// _feedMessagesRequests.emplace(key);
//}
//
//void ApiWrap::feedMessagesDone(
// not_null<Data::Feed*> feed,
// Data::MessagePosition messageId,
// SliceType slice,
// const MTPmessages_FeedMessages &result) {
// if (result.type() == mtpc_messages_feedMessagesNotModified) {
// LOG(("API Error: Unexpected messages.feedMessagesNotModified."));
// _session->storage().add(Storage::FeedMessagesAddSlice(
// feed->id(),
// std::vector<Data::MessagePosition>(),
// Data::FullMessagesRange));
// return;
// }
// Assert(result.type() == mtpc_messages_feedMessages);
// const auto &data = result.c_messages_feedMessages();
// const auto &messages = data.vmessages().v;
// const auto type = NewMessageExisting;
//
// auto ids = std::vector<Data::MessagePosition>();
// auto noSkipRange = Data::MessagesRange(messageId, messageId);
// const auto accumulateFrom = [](auto &from, const auto &candidate) {
// if (!from || from > candidate) {
// from = candidate;
// }
// };
// const auto accumulateTill = [](auto &till, const auto &candidate) {
// if (!till || till < candidate) {
// till = candidate;
// }
// };
// const auto tooLargePosition = [&](const auto &position) {
// return (slice == SliceType::Before) && !(position < messageId);
// };
// const auto tooSmallPosition = [&](const auto &position) {
// return (slice == SliceType::After) && !(messageId < position);
// };
// _session->data().processUsers(data.vusers());
// _session->data().processChats(data.vchats());
// if (!messages.empty()) {
// ids.reserve(messages.size());
// for (const auto &msg : messages) {
// if (const auto item = _session->data().addNewMessage(msg, type)) {
// const auto position = item->position();
// if (tooLargePosition(position)) {
// accumulateTill(noSkipRange.till, position);
// continue;
// } else if (tooSmallPosition(position)) {
// accumulateFrom(noSkipRange.from, position);
// continue;
// }
// ids.push_back(position);
// accumulateFrom(noSkipRange.from, position);
// accumulateTill(noSkipRange.till, position);
// }
// }
// ranges::reverse(ids);
// }
// if (data.vmin_position() && !ids.empty()) {
// accumulateFrom(
// noSkipRange.from,
// Data::FeedPositionFromMTP(*data.vmin_position()));
// } else if (slice == SliceType::Before) {
// noSkipRange.from = Data::MinMessagePosition;
// }
// if (data.vmax_position() && !ids.empty()) {
// accumulateTill(
// noSkipRange.till,
// Data::FeedPositionFromMTP(*data.vmax_position()));
// } else if (slice == SliceType::After) {
// noSkipRange.till = Data::MaxMessagePosition;
// }
//
// const auto unreadPosition = [&] {
// if (data.vread_max_position()) {
// return Data::FeedPositionFromMTP(*data.vread_max_position());
// } else if (!messageId) {
// const auto result = ids.empty()
// ? noSkipRange.till
// : ids.back();
// return Data::MessagePosition(
// result.date,
// FullMsgId(result.fullId.channel, result.fullId.msg - 1));
// }
// return Data::MessagePosition();
// }();
//
// _session->storage().add(Storage::FeedMessagesAddSlice(
// feed->id(),
// std::move(ids),
// noSkipRange));
//
// if (unreadPosition) {
// feed->setUnreadPosition(unreadPosition);
// }
//}
//
//void ApiWrap::saveDefaultFeedId(FeedId id, bool isDefaultFeedId) {
// if (const auto already = base::take(_saveDefaultFeedIdRequest)) {
// request(already).cancel();
// }
// _saveDefaultFeedIdRequest = request(MTPchannels_SetFeedBroadcasts(
// MTP_flags(MTPchannels_SetFeedBroadcasts::Flag::f_also_newly_joined),
// MTP_int(id),
// MTPVector<MTPInputChannel>(),
// MTP_bool(isDefaultFeedId)
// )).send();
//}
void ApiWrap::sendAction(const SendAction &action) {
if (!action.options.scheduled) {
_session->data().histories().readInbox(action.history);
action.history->getReadyFor(ShowAtTheEndMsgId);
}
_sendActions.fire_copy(action);
}
void ApiWrap::finishForwarding(const SendAction &action) {
const auto history = action.history;
auto toForward = history->validateForwardDraft();
if (!toForward.empty()) {
const auto error = GetErrorTextForSending(history->peer, toForward);
if (!error.isEmpty()) {
return;
}
forwardMessages(std::move(toForward), action);
_session->data().cancelForwarding(history);
}
_session->data().sendHistoryChangeNotifications();
_session->changes().historyUpdated(
history,
(action.options.scheduled
? Data::HistoryUpdate::Flag::ScheduledSent
: Data::HistoryUpdate::Flag::MessageSent));
}
void ApiWrap::forwardMessages(
HistoryItemsList &&items,
const SendAction &action,
FnMut<void()> &&successCallback) {
Expects(!items.empty());
auto &histories = _session->data().histories();
struct SharedCallback {
int requestsLeft = 0;
FnMut<void()> callback;
};
const auto shared = successCallback
? std::make_shared<SharedCallback>()
: std::shared_ptr<SharedCallback>();
if (successCallback) {
shared->callback = std::move(successCallback);
}
const auto count = int(items.size());
const auto genClientSideMessage = action.generateLocal && (count < 2);
const auto history = action.history;
const auto peer = history->peer;
histories.readInbox(history);
const auto anonymousPost = peer->amAnonymous();
const auto silentPost = action.options.silent
|| (peer->isBroadcast() && _session->data().notifySilentPosts(peer));
auto flags = MTPDmessage::Flags(0);
auto clientFlags = MTPDmessage_ClientFlags();
auto sendFlags = MTPmessages_ForwardMessages::Flags(0);
FillMessagePostFlags(action, peer, flags);
if (silentPost) {
sendFlags |= MTPmessages_ForwardMessages::Flag::f_silent;
}
if (action.options.scheduled) {
flags |= MTPDmessage::Flag::f_from_scheduled;
sendFlags |= MTPmessages_ForwardMessages::Flag::f_schedule_date;
} else {
clientFlags |= MTPDmessage_ClientFlag::f_local_history_entry;
}
auto forwardFrom = items.front()->history()->peer;
auto ids = QVector<MTPint>();
auto randomIds = QVector<MTPlong>();
auto localIds = std::shared_ptr<base::flat_map<uint64, FullMsgId>>();
const auto sendAccumulated = [&] {
if (shared) {
++shared->requestsLeft;
}
const auto requestType = Data::Histories::RequestType::Send;
histories.sendRequest(history, requestType, [=](Fn<void()> finish) {
history->sendRequestId = request(MTPmessages_ForwardMessages(
MTP_flags(sendFlags),
forwardFrom->input,
MTP_vector<MTPint>(ids),
MTP_vector<MTPlong>(randomIds),
peer->input,
MTP_int(action.options.scheduled)
)).done([=](const MTPUpdates &result) {
applyUpdates(result);
if (shared && !--shared->requestsLeft) {
shared->callback();
}
finish();
}).fail([=, ids = localIds](const RPCError &error) {
if (ids) {
for (const auto &[randomId, itemId] : *ids) {
sendMessageFail(error, peer, randomId, itemId);
}
} else {
sendMessageFail(error, peer);
}
finish();
}).afterRequest(
history->sendRequestId
).send();
return history->sendRequestId;
});
ids.resize(0);
randomIds.resize(0);
localIds = nullptr;
};
ids.reserve(count);
randomIds.reserve(count);
for (const auto item : items) {
const auto randomId = rand_value<uint64>();
if (genClientSideMessage) {
if (const auto message = item->toHistoryMessage()) {
const auto newId = FullMsgId(
peerToChannel(peer->id),
_session->data().nextLocalMessageId());
const auto self = _session->user();
const auto messageFromId = anonymousPost
? PeerId(0)
: self->id;
const auto messagePostAuthor = peer->isBroadcast()
? self->name
: QString();
history->addNewLocalMessage(
newId.msg,
flags,
clientFlags,
HistoryItem::NewMessageDate(action.options.scheduled),
messageFromId,
messagePostAuthor,
message);
_session->data().registerMessageRandomId(randomId, newId);
if (!localIds) {
localIds = std::make_shared<base::flat_map<uint64, FullMsgId>>();
}
localIds->emplace(randomId, newId);
}
}
const auto newFrom = item->history()->peer;
const auto newGroupId = item->groupId();
if (forwardFrom != newFrom) {
sendAccumulated();
forwardFrom = newFrom;
}
ids.push_back(MTP_int(item->id));
randomIds.push_back(MTP_long(randomId));
}
sendAccumulated();
_session->data().sendHistoryChangeNotifications();
}
void ApiWrap::shareContact(
const QString &phone,
const QString &firstName,
const QString &lastName,
const SendAction &action) {
const auto userId = UserId(0);
sendSharedContact(phone, firstName, lastName, userId, action);
}
void ApiWrap::shareContact(
not_null<UserData*> user,
const SendAction &action) {
const auto userId = peerToUser(user->id);
const auto phone = _session->data().findContactPhone(user);
if (phone.isEmpty()) {
return;
}
sendSharedContact(
phone,
user->firstName,
user->lastName,
userId,
action);
}
void ApiWrap::sendSharedContact(
const QString &phone,
const QString &firstName,
const QString &lastName,
UserId userId,
const SendAction &action) {
sendAction(action);
const auto history = action.history;
const auto peer = history->peer;
const auto newId = FullMsgId(
history->channelId(),
_session->data().nextLocalMessageId());
const auto anonymousPost = peer->amAnonymous();
auto flags = NewMessageFlags(peer) | MTPDmessage::Flag::f_media;
auto clientFlags = NewMessageClientFlags();
if (action.replyTo) {
flags |= MTPDmessage::Flag::f_reply_to;
}
const auto replyHeader = NewMessageReplyHeader(action);
FillMessagePostFlags(action, peer, flags);
if (action.options.scheduled) {
flags |= MTPDmessage::Flag::f_from_scheduled;
} else {
clientFlags |= MTPDmessage_ClientFlag::f_local_history_entry;
}
const auto messageFromId = anonymousPost ? 0 : _session->userPeerId();
const auto messagePostAuthor = peer->isBroadcast()
? _session->user()->name
: QString();
const auto vcard = QString();
const auto views = 1;
const auto forwards = 0;
const auto item = history->addNewMessage(
MTP_message(
MTP_flags(flags),
MTP_int(newId.msg),
peerToMTP(messageFromId),
peerToMTP(peer->id),
MTPMessageFwdHeader(),
MTPint(), // via_bot_id
replyHeader,
MTP_int(HistoryItem::NewMessageDate(action.options.scheduled)),
MTP_string(),
MTP_messageMediaContact(
MTP_string(phone),
MTP_string(firstName),
MTP_string(lastName),
MTP_string(vcard),
MTP_int(userId)),
MTPReplyMarkup(),
MTPVector<MTPMessageEntity>(),
MTP_int(views),
MTP_int(forwards),
MTPMessageReplies(),
MTPint(), // edit_date
MTP_string(messagePostAuthor),
MTPlong(),
//MTPMessageReactions(),
MTPVector<MTPRestrictionReason>()),
clientFlags,
NewMessageType::Unread);
const auto media = MTP_inputMediaContact(
MTP_string(phone),
MTP_string(firstName),
MTP_string(lastName),
MTP_string(vcard));
auto options = action.options;
if (_session->data().notifySilentPosts(peer)) {
options.silent = true;
}
sendMedia(item, media, options);
_session->data().sendHistoryChangeNotifications();
_session->changes().historyUpdated(
history,
(action.options.scheduled
? Data::HistoryUpdate::Flag::ScheduledSent
: Data::HistoryUpdate::Flag::MessageSent));
}
void ApiWrap::sendVoiceMessage(
QByteArray result,
VoiceWaveform waveform,
int duration,
const SendAction &action) {
const auto caption = TextWithTags();
const auto to = fileLoadTaskOptions(action);
_fileLoader->addTask(std::make_unique<FileLoadTask>(
&session(),
result,
duration,
waveform,
to,
caption));
}
void ApiWrap::editMedia(
Storage::PreparedList &&list,
SendMediaType type,
TextWithTags &&caption,
const SendAction &action,
MsgId msgIdToEdit) {
if (list.files.empty()) return;
auto &file = list.files.front();
const auto to = fileLoadTaskOptions(action);
_fileLoader->addTask(std::make_unique<FileLoadTask>(
&session(),
file.path,
file.content,
std::move(file.information),
type,
to,
caption,
nullptr,
msgIdToEdit));
}
void ApiWrap::sendFiles(
Storage::PreparedList &&list,
SendMediaType type,
TextWithTags &&caption,
std::shared_ptr<SendingAlbum> album,
const SendAction &action) {
const auto haveCaption = !caption.text.isEmpty();
const auto isAlbum = (album != nullptr);
const auto compressImages = (type == SendMediaType::Photo);
if (haveCaption && !list.canAddCaption(isAlbum, compressImages)) {
auto message = MessageToSend(action.history);
message.textWithTags = std::move(caption);
message.action = action;
message.action.clearDraft = false;
sendMessage(std::move(message));
caption = TextWithTags();
}
const auto to = fileLoadTaskOptions(action);
if (album) {
album->options = to.options;
}
auto tasks = std::vector<std::unique_ptr<Task>>();
tasks.reserve(list.files.size());
for (auto &file : list.files) {
if (album) {
switch (file.type) {
case Storage::PreparedFile::AlbumType::Photo:
type = SendMediaType::Photo;
break;
case Storage::PreparedFile::AlbumType::Video:
type = SendMediaType::File;
break;
default: Unexpected("AlbumType in uploadFilesAfterConfirmation");
}
}
tasks.push_back(std::make_unique<FileLoadTask>(
&session(),
file.path,
file.content,
std::move(file.information),
type,
to,
caption,
album));
caption = TextWithTags();
}
if (album) {
_sendingAlbums.emplace(album->groupId, album);
album->items.reserve(tasks.size());
for (const auto &task : tasks) {
album->items.emplace_back(task->id());
}
}
_fileLoader->addTasks(std::move(tasks));
}
void ApiWrap::sendFile(
const QByteArray &fileContent,
SendMediaType type,
const SendAction &action) {
const auto to = fileLoadTaskOptions(action);
auto caption = TextWithTags();
_fileLoader->addTask(std::make_unique<FileLoadTask>(
&session(),
QString(),
fileContent,
nullptr,
type,
to,
caption));
}
void ApiWrap::sendUploadedPhoto(
FullMsgId localId,
const MTPInputFile &file,
Api::SendOptions options) {
if (const auto item = _session->data().message(localId)) {
const auto media = Api::PrepareUploadedPhoto(file);
if (const auto groupId = item->groupId()) {
uploadAlbumMedia(item, groupId, media);
} else {
sendMedia(item, media, options);
}
}
}
void ApiWrap::sendUploadedDocument(
FullMsgId localId,
const MTPInputFile &file,
const std::optional<MTPInputFile> &thumb,
Api::SendOptions options) {
if (const auto item = _session->data().message(localId)) {
if (!item->media() || !item->media()->document()) {
return;
}
const auto media = Api::PrepareUploadedDocument(item, file, thumb);
const auto groupId = item->groupId();
if (groupId) {
uploadAlbumMedia(item, groupId, media);
} else {
sendMedia(item, media, options);
}
}
}
void ApiWrap::cancelLocalItem(not_null<HistoryItem*> item) {
Expects(!IsServerMsgId(item->id));
if (const auto groupId = item->groupId()) {
sendAlbumWithCancelled(item, groupId);
}
}
void ApiWrap::sendMessage(MessageToSend &&message) {
const auto history = message.action.history;
const auto peer = history->peer;
auto &textWithTags = message.textWithTags;
auto action = message.action;
action.generateLocal = true;
sendAction(action);
if (!peer->canWrite() || Api::SendDice(message)) {
return;
}
local().saveRecentSentHashtags(textWithTags.text);
auto sending = TextWithEntities();
auto left = TextWithEntities {
textWithTags.text,
TextUtilities::ConvertTextTagsToEntities(textWithTags.tags)
};
auto prepareFlags = Ui::ItemTextOptions(
history,
_session->user()).flags;
TextUtilities::PrepareForSending(left, prepareFlags);
HistoryItem *lastMessage = nullptr;
auto &histories = history->owner().histories();
const auto requestType = Data::Histories::RequestType::Send;
while (TextUtilities::CutPart(sending, left, MaxMessageSize)) {
auto newId = FullMsgId(
peerToChannel(peer->id),
_session->data().nextLocalMessageId());
auto randomId = rand_value<uint64>();
TextUtilities::Trim(sending);
_session->data().registerMessageRandomId(randomId, newId);
_session->data().registerMessageSentData(randomId, peer->id, sending.text);
MTPstring msgText(MTP_string(sending.text));
auto flags = NewMessageFlags(peer) | MTPDmessage::Flag::f_entities;
auto clientFlags = NewMessageClientFlags();
auto sendFlags = MTPmessages_SendMessage::Flags(0);
if (action.replyTo) {
flags |= MTPDmessage::Flag::f_reply_to;
sendFlags |= MTPmessages_SendMessage::Flag::f_reply_to_msg_id;
}
const auto replyHeader = NewMessageReplyHeader(action);
MTPMessageMedia media = MTP_messageMediaEmpty();
if (message.webPageId == CancelledWebPageId) {
sendFlags |= MTPmessages_SendMessage::Flag::f_no_webpage;
} else if (message.webPageId) {
auto page = _session->data().webpage(message.webPageId);
media = MTP_messageMediaWebPage(
MTP_webPagePending(
MTP_long(page->id),
MTP_int(page->pendingTill)));
flags |= MTPDmessage::Flag::f_media;
}
const auto anonymousPost = peer->amAnonymous();
const auto silentPost = action.options.silent
|| (peer->isBroadcast() && _session->data().notifySilentPosts(peer));
FillMessagePostFlags(action, peer, flags);
if (silentPost) {
sendFlags |= MTPmessages_SendMessage::Flag::f_silent;
}
auto localEntities = Api::EntitiesToMTP(
_session,
sending.entities);
auto sentEntities = Api::EntitiesToMTP(
_session,
sending.entities,
Api::ConvertOption::SkipLocal);
if (!sentEntities.v.isEmpty()) {
sendFlags |= MTPmessages_SendMessage::Flag::f_entities;
}
if (action.clearDraft) {
sendFlags |= MTPmessages_SendMessage::Flag::f_clear_draft;
history->clearCloudDraft();
history->setSentDraftText(QString());
}
auto messageFromId = anonymousPost ? 0 : _session->userPeerId();
auto messagePostAuthor = peer->isBroadcast()
? _session->user()->name
: QString();
if (action.options.scheduled) {
flags |= MTPDmessage::Flag::f_from_scheduled;
sendFlags |= MTPmessages_SendMessage::Flag::f_schedule_date;
} else {
clientFlags |= MTPDmessage_ClientFlag::f_local_history_entry;
}
const auto views = 1;
const auto forwards = 0;
lastMessage = history->addNewMessage(
MTP_message(
MTP_flags(flags),
MTP_int(newId.msg),
peerToMTP(messageFromId),
peerToMTP(peer->id),
MTPMessageFwdHeader(),
MTPint(), // via_bot_id
replyHeader,
MTP_int(
HistoryItem::NewMessageDate(action.options.scheduled)),
msgText,
media,
MTPReplyMarkup(),
localEntities,
MTP_int(views),
MTP_int(forwards),
MTPMessageReplies(),
MTPint(), // edit_date
MTP_string(messagePostAuthor),
MTPlong(),
//MTPMessageReactions(),
MTPVector<MTPRestrictionReason>()),
clientFlags,
NewMessageType::Unread);
histories.sendRequest(history, requestType, [=](Fn<void()> finish) {
history->sendRequestId = request(MTPmessages_SendMessage(
MTP_flags(sendFlags),
peer->input,
MTP_int(action.replyTo),
msgText,
MTP_long(randomId),
MTPReplyMarkup(),
sentEntities,
MTP_int(action.options.scheduled)
)).done([=](const MTPUpdates &result) {
applyUpdates(result, randomId);
history->clearSentDraftText(QString());
finish();
}).fail([=](const RPCError &error) {
if (error.type() == qstr("MESSAGE_EMPTY")) {
lastMessage->destroy();
} else {
sendMessageFail(error, peer, randomId, newId);
}
history->clearSentDraftText(QString());
finish();
}).afterRequest(history->sendRequestId
).send();
return history->sendRequestId;
});
}
finishForwarding(action);
}
void ApiWrap::sendBotStart(not_null<UserData*> bot, PeerData *chat) {
Expects(bot->isBot());
Expects(chat == nullptr || !bot->botInfo->startGroupToken.isEmpty());
if (chat && chat->isChannel() && !chat->isMegagroup()) {
ShowAddParticipantsError("USER_BOT", chat, { 1, bot });
return;
}
auto &info = bot->botInfo;
auto &token = chat ? info->startGroupToken : info->startToken;
if (token.isEmpty()) {
auto message = ApiWrap::MessageToSend(_session->data().history(bot));
message.textWithTags = { qsl("/start"), TextWithTags::Tags() };
sendMessage(std::move(message));
return;
}
const auto randomId = rand_value<uint64>();
request(MTPmessages_StartBot(
bot->inputUser,
chat ? chat->input : MTP_inputPeerEmpty(),
MTP_long(randomId),
MTP_string(base::take(token))
)).done([=](const MTPUpdates &result) {
applyUpdates(result);
}).fail([=](const RPCError &error) {
if (chat) {
ShowAddParticipantsError(error.type(), chat, { 1, bot });
}
}).send();
}
void ApiWrap::sendInlineResult(
not_null<UserData*> bot,
not_null<InlineBots::Result*> data,
const SendAction &action) {
sendAction(action);
const auto history = action.history;
const auto peer = history->peer;
const auto newId = FullMsgId(
peerToChannel(peer->id),
_session->data().nextLocalMessageId());
const auto randomId = rand_value<uint64>();
auto flags = NewMessageFlags(peer) | MTPDmessage::Flag::f_media;
auto clientFlags = NewMessageClientFlags();
auto sendFlags = MTPmessages_SendInlineBotResult::Flag::f_clear_draft | 0;
if (action.replyTo) {
flags |= MTPDmessage::Flag::f_reply_to;
sendFlags |= MTPmessages_SendInlineBotResult::Flag::f_reply_to_msg_id;
}
const auto anonymousPost = peer->amAnonymous();
const auto silentPost = action.options.silent
|| (peer->isBroadcast() && _session->data().notifySilentPosts(peer));
FillMessagePostFlags(action, peer, flags);
if (silentPost) {
sendFlags |= MTPmessages_SendInlineBotResult::Flag::f_silent;
}
if (bot) {
flags |= MTPDmessage::Flag::f_via_bot_id;
}
if (action.options.scheduled) {
flags |= MTPDmessage::Flag::f_from_scheduled;
sendFlags |= MTPmessages_SendInlineBotResult::Flag::f_schedule_date;
} else {
clientFlags |= MTPDmessage_ClientFlag::f_local_history_entry;
}
const auto messageFromId = anonymousPost ? 0 : _session->userPeerId();
const auto messagePostAuthor = peer->isBroadcast()
? _session->user()->name
: QString();
_session->data().registerMessageRandomId(randomId, newId);
data->addToHistory(
history,
flags,
clientFlags,
newId.msg,
messageFromId,
MTP_int(HistoryItem::NewMessageDate(action.options.scheduled)),
bot ? peerToUser(bot->id) : 0,
action.replyTo,
messagePostAuthor);
history->clearCloudDraft();
history->setSentDraftText(QString());
auto &histories = history->owner().histories();
const auto requestType = Data::Histories::RequestType::Send;
histories.sendRequest(history, requestType, [=](Fn<void()> finish) {
history->sendRequestId = request(MTPmessages_SendInlineBotResult(
MTP_flags(sendFlags),
peer->input,
MTP_int(action.replyTo),
MTP_long(randomId),
MTP_long(data->getQueryId()),
MTP_string(data->getId()),
MTP_int(action.options.scheduled)
)).done([=](const MTPUpdates &result) {
applyUpdates(result, randomId);
history->clearSentDraftText(QString());
finish();
}).fail([=](const RPCError &error) {
sendMessageFail(error, peer, randomId, newId);
history->clearSentDraftText(QString());
finish();
}).afterRequest(history->sendRequestId
).send();
return history->sendRequestId;
});
finishForwarding(action);
}
void ApiWrap::uploadAlbumMedia(
not_null<HistoryItem*> item,
const MessageGroupId &groupId,
const MTPInputMedia &media) {
const auto localId = item->fullId();
const auto failed = [=] {
};
request(MTPmessages_UploadMedia(
item->history()->peer->input,
media
)).done([=](const MTPMessageMedia &result) {
const auto item = _session->data().message(localId);
if (!item) {
failed();
return;
}
if (const auto media = item->media()) {
if (const auto photo = media->photo()) {
photo->setWaitingForAlbum();
} else if (const auto document = media->document()) {
document->setWaitingForAlbum();
}
}
switch (result.type()) {
case mtpc_messageMediaPhoto: {
const auto &data = result.c_messageMediaPhoto();
const auto photo = data.vphoto();
if (!photo || photo->type() != mtpc_photo) {
failed();
return;
}
const auto &fields = photo->c_photo();
const auto flags = MTPDinputMediaPhoto::Flags(0)
| (data.vttl_seconds()
? MTPDinputMediaPhoto::Flag::f_ttl_seconds
: MTPDinputMediaPhoto::Flag(0));
const auto media = MTP_inputMediaPhoto(
MTP_flags(flags),
MTP_inputPhoto(
fields.vid(),
fields.vaccess_hash(),
fields.vfile_reference()),
MTP_int(data.vttl_seconds().value_or_empty()));
sendAlbumWithUploaded(item, groupId, media);
} break;
case mtpc_messageMediaDocument: {
const auto &data = result.c_messageMediaDocument();
const auto document = data.vdocument();
if (!document || document->type() != mtpc_document) {
failed();
return;
}
const auto &fields = document->c_document();
const auto flags = MTPDinputMediaDocument::Flags(0)
| (data.vttl_seconds()
? MTPDinputMediaDocument::Flag::f_ttl_seconds
: MTPDinputMediaDocument::Flag(0));
const auto media = MTP_inputMediaDocument(
MTP_flags(flags),
MTP_inputDocument(
fields.vid(),
fields.vaccess_hash(),
fields.vfile_reference()),
MTP_int(data.vttl_seconds().value_or_empty()));
sendAlbumWithUploaded(item, groupId, media);
} break;
}
}).fail([=](const RPCError &error) {
failed();
}).send();
}
void ApiWrap::sendMedia(
not_null<HistoryItem*> item,
const MTPInputMedia &media,
Api::SendOptions options) {
const auto randomId = rand_value<uint64>();
_session->data().registerMessageRandomId(randomId, item->fullId());
sendMediaWithRandomId(item, media, options, randomId);
}
void ApiWrap::sendMediaWithRandomId(
not_null<HistoryItem*> item,
const MTPInputMedia &media,
Api::SendOptions options,
uint64 randomId) {
const auto history = item->history();
const auto replyTo = item->replyToId();
auto caption = item->originalText();
TextUtilities::Trim(caption);
auto sentEntities = Api::EntitiesToMTP(
_session,
caption.entities,
Api::ConvertOption::SkipLocal);
const auto flags = MTPmessages_SendMedia::Flags(0)
| (replyTo
? MTPmessages_SendMedia::Flag::f_reply_to_msg_id
: MTPmessages_SendMedia::Flag(0))
| (options.silent
? MTPmessages_SendMedia::Flag::f_silent
: MTPmessages_SendMedia::Flag(0))
| (!sentEntities.v.isEmpty()
? MTPmessages_SendMedia::Flag::f_entities
: MTPmessages_SendMedia::Flag(0))
| (options.scheduled
? MTPmessages_SendMedia::Flag::f_schedule_date
: MTPmessages_SendMedia::Flag(0));
auto &histories = history->owner().histories();
const auto requestType = Data::Histories::RequestType::Send;
histories.sendRequest(history, requestType, [=](Fn<void()> finish) {
const auto peer = history->peer;
const auto itemId = item->fullId();
history->sendRequestId = request(MTPmessages_SendMedia(
MTP_flags(flags),
peer->input,
MTP_int(replyTo),
media,
MTP_string(caption.text),
MTP_long(randomId),
MTPReplyMarkup(),
sentEntities,
MTP_int(options.scheduled)
)).done([=](const MTPUpdates &result) {
applyUpdates(result);
finish();
}).fail([=](const RPCError &error) {
sendMessageFail(error, peer, randomId, itemId);
finish();
}).afterRequest(
history->sendRequestId
).send();
return history->sendRequestId;
});
}
void ApiWrap::sendAlbumWithUploaded(
not_null<HistoryItem*> item,
const MessageGroupId &groupId,
const MTPInputMedia &media) {
const auto localId = item->fullId();
const auto randomId = rand_value<uint64>();
_session->data().registerMessageRandomId(randomId, localId);
const auto albumIt = _sendingAlbums.find(groupId.raw());
Assert(albumIt != _sendingAlbums.end());
const auto &album = albumIt->second;
album->fillMedia(item, media, randomId);
sendAlbumIfReady(album.get());
}
void ApiWrap::sendAlbumWithCancelled(
not_null<HistoryItem*> item,
const MessageGroupId &groupId) {
const auto albumIt = _sendingAlbums.find(groupId.raw());
if (albumIt == _sendingAlbums.end()) {
// Sometimes we destroy item being sent already after the album
// was sent successfully. For example the message could be loaded
// from server (by messages.getHistory or updateNewMessage) and
// added to history and after that updateMessageID was received with
// the same message id, in this case we destroy a detached local
// item and sendAlbumWithCancelled is called for already sent album.
return;
}
const auto &album = albumIt->second;
album->removeItem(item);
sendAlbumIfReady(album.get());
}
void ApiWrap::sendAlbumIfReady(not_null<SendingAlbum*> album) {
const auto groupId = album->groupId;
if (album->items.empty()) {
_sendingAlbums.remove(groupId);
return;
}
auto sample = (HistoryItem*)nullptr;
auto medias = QVector<MTPInputSingleMedia>();
medias.reserve(album->items.size());
for (const auto &item : album->items) {
if (!item.media) {
return;
} else if (!sample) {
sample = _session->data().message(item.msgId);
}
medias.push_back(*item.media);
}
if (!sample) {
_sendingAlbums.remove(groupId);
return;
} else if (medias.size() < 2) {
const auto &single = medias.front().c_inputSingleMedia();
sendMediaWithRandomId(
sample,
single.vmedia(),
album->options,
single.vrandom_id().v);
_sendingAlbums.remove(groupId);
return;
}
const auto history = sample->history();
const auto replyTo = sample->replyToId();
const auto flags = MTPmessages_SendMultiMedia::Flags(0)
| (replyTo
? MTPmessages_SendMultiMedia::Flag::f_reply_to_msg_id
: MTPmessages_SendMultiMedia::Flag(0))
| (album->options.silent
? MTPmessages_SendMultiMedia::Flag::f_silent
: MTPmessages_SendMultiMedia::Flag(0))
| (album->options.scheduled
? MTPmessages_SendMultiMedia::Flag::f_schedule_date
: MTPmessages_SendMultiMedia::Flag(0));
auto &histories = history->owner().histories();
const auto requestType = Data::Histories::RequestType::Send;
histories.sendRequest(history, requestType, [=](Fn<void()> finish) {
const auto peer = history->peer;
history->sendRequestId = request(MTPmessages_SendMultiMedia(
MTP_flags(flags),
peer->input,
MTP_int(replyTo),
MTP_vector<MTPInputSingleMedia>(medias),
MTP_int(album->options.scheduled)
)).done([=](const MTPUpdates &result) {
_sendingAlbums.remove(groupId);
applyUpdates(result);
finish();
}).fail([=](const RPCError &error) {
if (const auto album = _sendingAlbums.take(groupId)) {
for (const auto &item : (*album)->items) {
sendMessageFail(error, peer, item.randomId, item.msgId);
}
} else {
sendMessageFail(error, peer);
}
finish();
}).afterRequest(
history->sendRequestId
).send();
return history->sendRequestId;
});
}
FileLoadTo ApiWrap::fileLoadTaskOptions(const SendAction &action) const {
const auto peer = action.history->peer;
auto options = action.options;
if (_session->data().notifySilentPosts(peer)) {
options.silent = true;
}
return FileLoadTo(peer->id, action.options, action.replyTo);
}
void ApiWrap::uploadPeerPhoto(not_null<PeerData*> peer, QImage &&image) {
peer = peer->migrateToOrMe();
const auto ready = PreparePeerPhoto(
instance().mainDcId(),
peer->id,
std::move(image));
const auto fakeId = FullMsgId(
peerToChannel(peer->id),
_session->data().nextLocalMessageId());
const auto already = ranges::find(
_peerPhotoUploads,
peer,
[](const auto &pair) { return pair.second; });
if (already != end(_peerPhotoUploads)) {
_session->uploader().cancel(already->first);
_peerPhotoUploads.erase(already);
}
_peerPhotoUploads.emplace(fakeId, peer);
_session->uploader().uploadMedia(fakeId, ready);
}
void ApiWrap::photoUploadReady(
const FullMsgId &msgId,
const MTPInputFile &file) {
if (const auto maybePeer = _peerPhotoUploads.take(msgId)) {
const auto peer = *maybePeer;
const auto applier = [=](const MTPUpdates &result) {
applyUpdates(result);
};
if (peer->isSelf()) {
request(MTPphotos_UploadProfilePhoto(
MTP_flags(MTPphotos_UploadProfilePhoto::Flag::f_file),
file,
MTPInputFile(), // video
MTPdouble() // video_start_ts
)).done([=](const MTPphotos_Photo &result) {
result.match([&](const MTPDphotos_photo &data) {
_session->data().processPhoto(data.vphoto());
_session->data().processUsers(data.vusers());
});
}).send();
} else if (const auto chat = peer->asChat()) {
const auto history = _session->data().history(chat);
history->sendRequestId = request(MTPmessages_EditChatPhoto(
chat->inputChat,
MTP_inputChatUploadedPhoto(
MTP_flags(MTPDinputChatUploadedPhoto::Flag::f_file),
file,
MTPInputFile(), // video
MTPdouble()) // video_start_ts
)).done(applier).afterRequest(history->sendRequestId).send();
} else if (const auto channel = peer->asChannel()) {
const auto history = _session->data().history(channel);
history->sendRequestId = request(MTPchannels_EditPhoto(
channel->inputChannel,
MTP_inputChatUploadedPhoto(
MTP_flags(MTPDinputChatUploadedPhoto::Flag::f_file),
file,
MTPInputFile(), // video
MTPdouble()) // video_start_ts
)).done(applier).afterRequest(history->sendRequestId).send();
}
}
}
void ApiWrap::clearPeerPhoto(not_null<PhotoData*> photo) {
const auto self = _session->user();
if (self->userpicPhotoId() == photo->id) {
request(MTPphotos_UpdateProfilePhoto(
MTP_inputPhotoEmpty()
)).done([=](const MTPphotos_Photo &result) {
self->setPhoto(MTP_userProfilePhotoEmpty());
}).send();
} else if (photo->peer && photo->peer->userpicPhotoId() == photo->id) {
const auto applier = [=](const MTPUpdates &result) {
applyUpdates(result);
};
if (const auto chat = photo->peer->asChat()) {
request(MTPmessages_EditChatPhoto(
chat->inputChat,
MTP_inputChatPhotoEmpty()
)).done(applier).send();
} else if (const auto channel = photo->peer->asChannel()) {
request(MTPchannels_EditPhoto(
channel->inputChannel,
MTP_inputChatPhotoEmpty()
)).done(applier).send();
}
} else {
request(MTPphotos_DeletePhotos(
MTP_vector<MTPInputPhoto>(1, photo->mtpInput())
)).send();
_session->storage().remove(Storage::UserPhotosRemoveOne(
self->bareId(),
photo->id));
}
}
void ApiWrap::reloadPasswordState() {
if (_passwordRequestId) {
return;
}
_passwordRequestId = request(MTPaccount_GetPassword(
)).done([=](const MTPaccount_Password &result) {
_passwordRequestId = 0;
result.match([&](const MTPDaccount_password &data) {
openssl::AddRandomSeed(bytes::make_span(data.vsecure_random().v));
if (_passwordState) {
*_passwordState = Core::ParseCloudPasswordState(data);
} else {
_passwordState = std::make_unique<Core::CloudPasswordState>(
Core::ParseCloudPasswordState(data));
}
_passwordStateChanges.fire_copy(*_passwordState);
});
}).fail([=](const RPCError &error) {
_passwordRequestId = 0;
}).send();
}
void ApiWrap::clearUnconfirmedPassword() {
_passwordRequestId = request(MTPaccount_CancelPasswordEmail(
)).done([=](const MTPBool &result) {
_passwordRequestId = 0;
reloadPasswordState();
}).fail([=](const RPCError &error) {
_passwordRequestId = 0;
reloadPasswordState();
}).send();
}
rpl::producer<Core::CloudPasswordState> ApiWrap::passwordState() const {
return _passwordState
? _passwordStateChanges.events_starting_with_copy(*_passwordState)
: (_passwordStateChanges.events() | rpl::type_erased());
}
auto ApiWrap::passwordStateCurrent() const
-> std::optional<Core::CloudPasswordState> {
return _passwordState
? base::make_optional(*_passwordState)
: std::nullopt;
}
void ApiWrap::reloadContactSignupSilent() {
if (_contactSignupSilentRequestId) {
return;
}
const auto requestId = request(MTPaccount_GetContactSignUpNotification(
)).done([=](const MTPBool &result) {
_contactSignupSilentRequestId = 0;
const auto silent = mtpIsTrue(result);
_contactSignupSilent = silent;
_contactSignupSilentChanges.fire_copy(silent);
}).fail([=](const RPCError &error) {
_contactSignupSilentRequestId = 0;
}).send();
_contactSignupSilentRequestId = requestId;
}
rpl::producer<bool> ApiWrap::contactSignupSilent() const {
return _contactSignupSilent
? _contactSignupSilentChanges.events_starting_with_copy(
*_contactSignupSilent)
: (_contactSignupSilentChanges.events() | rpl::type_erased());
}
std::optional<bool> ApiWrap::contactSignupSilentCurrent() const {
return _contactSignupSilent;
}
void ApiWrap::saveContactSignupSilent(bool silent) {
request(base::take(_contactSignupSilentRequestId)).cancel();
const auto requestId = request(MTPaccount_SetContactSignUpNotification(
MTP_bool(silent)
)).done([=](const MTPBool &) {
_contactSignupSilentRequestId = 0;
_contactSignupSilent = silent;
_contactSignupSilentChanges.fire_copy(silent);
}).fail([=](const RPCError &error) {
_contactSignupSilentRequestId = 0;
}).send();
_contactSignupSilentRequestId = requestId;
}
void ApiWrap::saveSelfBio(const QString &text, FnMut<void()> done) {
if (_saveBioRequestId) {
if (text != _saveBioText) {
request(_saveBioRequestId).cancel();
} else {
if (done) {
_saveBioDone = std::move(done);
}
return;
}
}
_saveBioText = text;
_saveBioDone = std::move(done);
_saveBioRequestId = request(MTPaccount_UpdateProfile(
MTP_flags(MTPaccount_UpdateProfile::Flag::f_about),
MTPstring(),
MTPstring(),
MTP_string(text)
)).done([=](const MTPUser &result) {
_saveBioRequestId = 0;
_session->data().processUsers(MTP_vector<MTPUser>(1, result));
_session->user()->setAbout(_saveBioText);
if (_saveBioDone) {
_saveBioDone();
}
}).fail([=](const RPCError &error) {
_saveBioRequestId = 0;
}).send();
}
void ApiWrap::reloadPrivacy(Privacy::Key key) {
if (_privacyRequestIds.contains(key)) {
return;
}
const auto requestId = request(MTPaccount_GetPrivacy(
Privacy::Input(key)
)).done([=](const MTPaccount_PrivacyRules &result) {
_privacyRequestIds.erase(key);
result.match([&](const MTPDaccount_privacyRules &data) {
_session->data().processUsers(data.vusers());
_session->data().processChats(data.vchats());
pushPrivacy(key, data.vrules().v);
});
}).fail([=](const RPCError &error) {
_privacyRequestIds.erase(key);
}).send();
_privacyRequestIds.emplace(key, requestId);
}
auto ApiWrap::parsePrivacy(const QVector<MTPPrivacyRule> &rules)
-> Privacy {
using Option = Privacy::Option;
// This is simplified version of privacy rules interpretation.
// But it should be fine for all the apps
// that use the same subset of features.
auto result = Privacy();
auto optionSet = false;
const auto SetOption = [&](Option option) {
if (optionSet) return;
optionSet = true;
result.option = option;
};
auto &always = result.always;
auto &never = result.never;
const auto Feed = [&](const MTPPrivacyRule &rule) {
rule.match([&](const MTPDprivacyValueAllowAll &) {
SetOption(Option::Everyone);
}, [&](const MTPDprivacyValueAllowContacts &) {
SetOption(Option::Contacts);
}, [&](const MTPDprivacyValueAllowUsers &data) {
const auto &users = data.vusers().v;
always.reserve(always.size() + users.size());
for (const auto userId : users) {
const auto user = _session->data().user(UserId(userId.v));
if (!base::contains(never, user)
&& !base::contains(always, user)) {
always.emplace_back(user);
}
}
}, [&](const MTPDprivacyValueAllowChatParticipants &data) {
const auto &chats = data.vchats().v;
always.reserve(always.size() + chats.size());
for (const auto chatId : chats) {
const auto chat = _session->data().chatLoaded(chatId.v);
const auto peer = chat
? static_cast<PeerData*>(chat)
: _session->data().channelLoaded(chatId.v);
if (peer
&& !base::contains(never, peer)
&& !base::contains(always, peer)) {
always.emplace_back(peer);
}
}
}, [&](const MTPDprivacyValueDisallowContacts &) {
// not supported
}, [&](const MTPDprivacyValueDisallowAll &) {
SetOption(Option::Nobody);
}, [&](const MTPDprivacyValueDisallowUsers &data) {
const auto &users = data.vusers().v;
never.reserve(never.size() + users.size());
for (const auto userId : users) {
const auto user = _session->data().user(UserId(userId.v));
if (!base::contains(always, user)
&& !base::contains(never, user)) {
never.emplace_back(user);
}
}
}, [&](const MTPDprivacyValueDisallowChatParticipants &data) {
const auto &chats = data.vchats().v;
never.reserve(never.size() + chats.size());
for (const auto chatId : chats) {
const auto chat = _session->data().chatLoaded(chatId.v);
const auto peer = chat
? static_cast<PeerData*>(chat)
: _session->data().channelLoaded(chatId.v);
if (peer
&& !base::contains(always, peer)
&& !base::contains(never, peer)) {
never.emplace_back(peer);
}
}
});
};
for (const auto &rule : rules) {
Feed(rule);
}
Feed(MTP_privacyValueDisallowAll()); // disallow by default.
return result;
}
void ApiWrap::pushPrivacy(
Privacy::Key key,
const QVector<MTPPrivacyRule> &rules) {
const auto &saved = (_privacyValues[key] = parsePrivacy(rules));
const auto i = _privacyChanges.find(key);
if (i != end(_privacyChanges)) {
i->second.fire_copy(saved);
}
}
auto ApiWrap::privacyValue(Privacy::Key key) -> rpl::producer<Privacy> {
if (const auto i = _privacyValues.find(key); i != end(_privacyValues)) {
return _privacyChanges[key].events_starting_with_copy(i->second);
} else {
return _privacyChanges[key].events();
}
}
void ApiWrap::reloadBlockedPeers() {
if (_blockedPeersRequestId) {
return;
}
_blockedPeersRequestId = request(MTPcontacts_GetBlocked(
MTP_int(0),
MTP_int(kBlockedFirstSlice)
)).done([=](const MTPcontacts_Blocked &result) {
_blockedPeersRequestId = 0;
const auto push = [&](
int count,
const QVector<MTPPeerBlocked> &list) {
auto slice = BlockedPeersSlice();
slice.total = std::max(count, list.size());
slice.list.reserve(list.size());
for (const auto &contact : list) {
contact.match([&](const MTPDpeerBlocked &data) {
const auto peer = _session->data().peerLoaded(
peerFromMTP(data.vpeer_id()));
if (peer) {
peer->setIsBlocked(true);
slice.list.push_back({ peer, data.vdate().v });
}
});
}
if (!_blockedPeersSlice || *_blockedPeersSlice != slice) {
_blockedPeersSlice = slice;
_blockedPeersChanges.fire(std::move(slice));
}
};
result.match([&](const MTPDcontacts_blockedSlice &data) {
_session->data().processUsers(data.vusers());
push(data.vcount().v, data.vblocked().v);
}, [&](const MTPDcontacts_blocked &data) {
_session->data().processUsers(data.vusers());
push(0, data.vblocked().v);
});
}).fail([=](const RPCError &error) {
_blockedPeersRequestId = 0;
}).send();
}
auto ApiWrap::blockedPeersSlice() -> rpl::producer<BlockedPeersSlice> {
if (!_blockedPeersSlice) {
reloadBlockedPeers();
}
return _blockedPeersSlice
? _blockedPeersChanges.events_starting_with_copy(*_blockedPeersSlice)
: (_blockedPeersChanges.events() | rpl::type_erased());
}
Api::Authorizations &ApiWrap::authorizations() {
return *_authorizations;
}
Api::SelfDestruct &ApiWrap::selfDestruct() {
return *_selfDestruct;
}
Api::SensitiveContent &ApiWrap::sensitiveContent() {
return *_sensitiveContent;
}
Api::GlobalPrivacy &ApiWrap::globalPrivacy() {
return *_globalPrivacy;
}
void ApiWrap::createPoll(
const PollData &data,
const SendAction &action,
Fn<void()> done,
Fn<void(const RPCError &error)> fail) {
sendAction(action);
const auto history = action.history;
const auto peer = history->peer;
auto sendFlags = MTPmessages_SendMedia::Flags(0);
if (action.replyTo) {
sendFlags |= MTPmessages_SendMedia::Flag::f_reply_to_msg_id;
}
if (action.clearDraft) {
sendFlags |= MTPmessages_SendMedia::Flag::f_clear_draft;
history->clearLocalDraft();
history->clearCloudDraft();
}
const auto silentPost = action.options.silent
|| (peer->isBroadcast() && _session->data().notifySilentPosts(peer));
if (silentPost) {
sendFlags |= MTPmessages_SendMedia::Flag::f_silent;
}
if (action.options.scheduled) {
sendFlags |= MTPmessages_SendMedia::Flag::f_schedule_date;
}
auto &histories = history->owner().histories();
const auto requestType = Data::Histories::RequestType::Send;
histories.sendRequest(history, requestType, [=](Fn<void()> finish) {
const auto replyTo = action.replyTo;
history->sendRequestId = request(MTPmessages_SendMedia(
MTP_flags(sendFlags),
peer->input,
MTP_int(replyTo),
PollDataToInputMedia(&data),
MTP_string(),
MTP_long(rand_value<uint64>()),
MTPReplyMarkup(),
MTPVector<MTPMessageEntity>(),
MTP_int(action.options.scheduled)
)).done([=](const MTPUpdates &result) mutable {
applyUpdates(result);
done();
finish();
}).fail([=](const RPCError &error) mutable {
fail(error);
finish();
}).afterRequest(history->sendRequestId
).send();
return history->sendRequestId;
});
}
void ApiWrap::sendPollVotes(
FullMsgId itemId,
const std::vector<QByteArray> &options) {
if (_pollVotesRequestIds.contains(itemId)) {
return;
}
const auto item = _session->data().message(itemId);
const auto media = item ? item->media() : nullptr;
const auto poll = media ? media->poll() : nullptr;
if (!item) {
return;
}
const auto showSending = poll && !options.empty();
const auto hideSending = [=] {
if (showSending) {
if (const auto item = _session->data().message(itemId)) {
poll->sendingVotes.clear();
_session->data().requestItemRepaint(item);
}
}
};
if (showSending) {
poll->sendingVotes = options;
_session->data().requestItemRepaint(item);
}
auto prepared = QVector<MTPbytes>();
prepared.reserve(options.size());
ranges::transform(
options,
ranges::back_inserter(prepared),
[](const QByteArray &option) { return MTP_bytes(option); });
const auto requestId = request(MTPmessages_SendVote(
item->history()->peer->input,
MTP_int(item->id),
MTP_vector<MTPbytes>(prepared)
)).done([=](const MTPUpdates &result) {
_pollVotesRequestIds.erase(itemId);
hideSending();
applyUpdates(result);
}).fail([=](const RPCError &error) {
_pollVotesRequestIds.erase(itemId);
hideSending();
}).send();
_pollVotesRequestIds.emplace(itemId, requestId);
}
void ApiWrap::closePoll(not_null<HistoryItem*> item) {
const auto itemId = item->fullId();
if (_pollCloseRequestIds.contains(itemId)) {
return;
}
const auto media = item ? item->media() : nullptr;
const auto poll = media ? media->poll() : nullptr;
if (!poll) {
return;
}
const auto requestId = request(MTPmessages_EditMessage(
MTP_flags(MTPmessages_EditMessage::Flag::f_media),
item->history()->peer->input,
MTP_int(item->id),
MTPstring(),
PollDataToInputMedia(poll, true),
MTPReplyMarkup(),
MTPVector<MTPMessageEntity>(),
MTP_int(0) // schedule_date
)).done([=](const MTPUpdates &result) {
_pollCloseRequestIds.erase(itemId);
applyUpdates(result);
}).fail([=](const RPCError &error) {
_pollCloseRequestIds.erase(itemId);
}).send();
_pollCloseRequestIds.emplace(itemId, requestId);
}
void ApiWrap::reloadPollResults(not_null<HistoryItem*> item) {
const auto itemId = item->fullId();
if (!IsServerMsgId(item->id)
|| _pollReloadRequestIds.contains(itemId)) {
return;
}
const auto requestId = request(MTPmessages_GetPollResults(
item->history()->peer->input,
MTP_int(item->id)
)).done([=](const MTPUpdates &result) {
_pollReloadRequestIds.erase(itemId);
applyUpdates(result);
}).fail([=](const RPCError &error) {
_pollReloadRequestIds.erase(itemId);
}).send();
_pollReloadRequestIds.emplace(itemId, requestId);
}
// // #feed
//void ApiWrap::readFeed(
// not_null<Data::Feed*> feed,
// Data::MessagePosition position) {
// const auto already = feed->unreadPosition();
// if (already && already >= position) {
// return;
// }
// feed->setUnreadPosition(position);
// if (!_feedReadsDelayed.contains(feed)) {
// if (_feedReadsDelayed.empty()) {
// _feedReadTimer.callOnce(kFeedReadTimeout);
// }
// _feedReadsDelayed.emplace(feed, crl::now() + kFeedReadTimeout);
// }
//}
//
//void ApiWrap::readFeeds() {
// auto delay = kFeedReadTimeout;
// const auto now = crl::now();
// for (auto i = begin(_feedReadsDelayed); i != end(_feedReadsDelayed);) {
// const auto feed = i->first;
// const auto time = i->second;
// // Clang fails to capture structure-binded feed to lambda :(
// //const auto [feed, time] = *i;
// if (time > now) {
// accumulate_min(delay, time - now);
// ++i;
// } else if (_feedReadRequests.contains(feed)) {
// ++i;
// } else {
// const auto position = feed->unreadPosition();
// const auto requestId = request(MTPchannels_ReadFeed(
// MTP_int(feed->id()),
// MTP_feedPosition(
// MTP_int(position.date),
// MTP_peerChannel(MTP_int(position.fullId.channel)),
// MTP_int(position.fullId.msg))
// )).done([=](const MTPUpdates &result) {
// applyUpdates(result);
// _feedReadRequests.remove(feed);
// }).fail([=](const RPCError &error) {
// _feedReadRequests.remove(feed);
// }).send();
// _feedReadRequests.emplace(feed, requestId);
//
// i = _feedReadsDelayed.erase(i);
// }
// }
// if (!_feedReadsDelayed.empty()) {
// _feedReadTimer.callOnce(delay);
// }
//}