RepoMirrors
/
tdesktop
mirror of https://github.com/telegramdesktop/tdesktop
1
0
Fork 0
Code Issues Projects Releases Wiki Activity
tdesktop/Telegram/SourceFiles/apiwrap.cpp

2714 lines
88 KiB
C++
Raw Blame History

/*
This file is part of Telegram Desktop,
the official desktop version of Telegram messaging app, see https://telegram.org
Telegram Desktop is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
It is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
In addition, as a special exception, the copyright holders give permission
to link the code of portions of this program with the OpenSSL library.
Full license: https://github.com/telegramdesktop/tdesktop/blob/master/LICENSE
Copyright (c) 2014-2017 John Preston, https://desktop.telegram.org
*/
#include "apiwrap.h"
#include "data/data_drafts.h"
#include "data/data_photo.h"
#include "data/data_web_page.h"
#include "core/tl_help.h"
#include "base/overload.h"
#include "observer_peer.h"
#include "lang/lang_keys.h"
#include "application.h"
#include "mainwindow.h"
#include "messenger.h"
#include "mainwidget.h"
#include "boxes/add_contact_box.h"
#include "history/history_message.h"
#include "storage/localstorage.h"
#include "auth_session.h"
#include "boxes/confirm_box.h"
#include "window/themes/window_theme.h"
#include "window/notifications_manager.h"
#include "chat_helpers/message_field.h"
#include "chat_helpers/stickers.h"
#include "storage/storage_facade.h"
#include "storage/storage_shared_media.h"
#include "storage/storage_user_photos.h"
#include "data/data_sparse_ids.h"
#include "data/data_search_controller.h"
#include "data/data_channel_admins.h"
namespace {
constexpr auto kReloadChannelMembersTimeout = 1000; // 1 second wait before reload members in channel after adding
constexpr auto kSaveCloudDraftTimeout = 1000; // save draft to the cloud with 1 sec extra delay
constexpr auto kSaveDraftBeforeQuitTimeout = 1500; // give the app 1.5 secs to save drafts to cloud when quitting
constexpr auto kSmallDelayMs = 5;
constexpr auto kUnreadMentionsPreloadIfLess = 5;
constexpr auto kUnreadMentionsFirstRequestLimit = 10;
constexpr auto kUnreadMentionsNextRequestLimit = 100;
constexpr auto kSharedMediaLimit = 100;
constexpr auto kReadFeaturedSetsTimeout = TimeMs(1000);
} // namespace
ApiWrap::ApiWrap(not_null<AuthSession*> session)
: _session(session)
, _messageDataResolveDelayed([this] { resolveMessageDatas(); })
, _webPagesTimer([this] { resolveWebPages(); })
, _draftsSaveTimer([this] { saveDraftsToCloud(); })
, _featuredSetsReadTimer([this] { readFeaturedSets(); }) {
}
void ApiWrap::start() {
Window::Theme::Background()->start();
requestAppChangelogs();
}
void ApiWrap::requestAppChangelogs() {
auto oldAppVersion = Local::oldMapVersion();
if (oldAppVersion > 0 && oldAppVersion < AppVersion) {
_changelogSubscription = subscribe(_session->data().moreChatsLoaded(), [this, oldAppVersion] {
auto oldVersionString = qsl("%1.%2.%3").arg(oldAppVersion / 1000000).arg((oldAppVersion % 1000000) / 1000).arg(oldAppVersion % 1000);
request(MTPhelp_GetAppChangelog(MTP_string(oldVersionString))).done([this, oldAppVersion](const MTPUpdates &result) {
applyUpdates(result);
auto resultEmpty = true;
switch (result.type()) {
case mtpc_updateShortMessage:
case mtpc_updateShortChatMessage:
case mtpc_updateShort: resultEmpty = false; break;
case mtpc_updatesCombined: resultEmpty = result.c_updatesCombined().vupdates.v.isEmpty(); break;
case mtpc_updates: resultEmpty = result.c_updates().vupdates.v.isEmpty(); break;
case mtpc_updatesTooLong:
case mtpc_updateShortSentMessage: LOG(("API Error: Bad updates type in app changelog.")); break;
}
if (resultEmpty) {
addLocalChangelogs(oldAppVersion);
}
}).send();
unsubscribe(base::take(_changelogSubscription));
});
}
}
void ApiWrap::addLocalChangelogs(int oldAppVersion) {
auto addedSome = false;
auto addLocalChangelog = [this, &addedSome](const QString &text) {
auto textWithEntities = TextWithEntities { text };
TextUtilities::ParseEntities(textWithEntities, TextParseLinks);
App::wnd()->serviceNotification(textWithEntities, MTP_messageMediaEmpty(), unixtime());
addedSome = true;
};
if (cAlphaVersion() || cBetaVersion()) {
auto addLocalAlphaChangelog = [this, oldAppVersion, addLocalChangelog](int changeVersion, const char *changes) {
if (oldAppVersion < changeVersion) {
auto changeVersionString = QString::number(changeVersion / 1000000) + '.' + QString::number((changeVersion % 1000000) / 1000) + ((changeVersion % 1000) ? ('.' + QString::number(changeVersion % 1000)) : QString());
auto text = qsl("New in version %1:\n\n").arg(changeVersionString) + QString::fromUtf8(changes).trimmed();
addLocalChangelog(text);
}
};
addLocalAlphaChangelog(1001024, "\xE2\x80\x94 Radically improved navigation. New side panel on the right with quick access to shared media and group members.\n\xE2\x80\x94 Pinned Messages. If you are a channel admin, pin messages to focus your subscribers\xE2\x80\x99 attention on important announcements.\n\xE2\x80\x94 Also supported clearing history in supergroups and added a host of minor improvements.");
addLocalAlphaChangelog(1001026, "\xE2\x80\x94 Admin badges in supergroup messages.\n\xE2\x80\x94 Fix crashing on launch in OS X 10.6.\n\xE2\x80\x94 Bug fixes and other minor improvements.");
addLocalAlphaChangelog(1001027, "\xE2\x80\x94 Saved Messages. Bookmark messages by forwarding them to \xE2\x80\x9C""Saved Messages\xE2\x80\x9D. Access them from the Chats list or from the side menu.");
}
if (!addedSome) {
auto text = lng_new_version_wrap(lt_version, str_const_toString(AppVersionStr), lt_changes, lang(lng_new_version_minor), lt_link, qsl("https://desktop.telegram.org/changelog")).trimmed();
addLocalChangelog(text);
}
}
void ApiWrap::applyUpdates(const MTPUpdates &updates, uint64 sentMessageRandomId) {
App::main()->feedUpdates(updates, sentMessageRandomId);
}
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<MTPint> ApiWrap::collectMessageIds(const MessageDataRequests &requests) {
auto result = QVector<MTPint>();
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_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 0;
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<MTPint>(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<MTPint>(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) {
auto handleResult = [&](auto &&result) {
App::feedUsers(result.vusers);
App::feedChats(result.vchats);
App::feedMsgs(result.vmessages, NewMessageExisting);
};
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);
}
}
}
void ApiWrap::requestFullPeer(PeerData *peer) {
if (!peer || _fullPeerRequests.contains(peer)) return;
auto sendRequest = [this, peer] {
auto failHandler = [this, peer](const RPCError &error) {
_fullPeerRequests.remove(peer);
};
if (auto user = peer->asUser()) {
return request(MTPusers_GetFullUser(user->inputUser)).done([this, user](const MTPUserFull &result, mtpRequestId requestId) {
gotUserFull(user, result, requestId);
}).fail(failHandler).send();
} else if (auto chat = peer->asChat()) {
return request(MTPmessages_GetFullChat(chat->inputChat)).done([this, peer](const MTPmessages_ChatFull &result, mtpRequestId requestId) {
gotChatFull(peer, result, requestId);
}).fail(failHandler).send();
} else if (auto channel = peer->asChannel()) {
return request(MTPchannels_GetFullChannel(channel->inputChannel)).done([this, peer](const MTPmessages_ChatFull &result, mtpRequestId requestId) {
gotChatFull(peer, result, requestId);
}).fail(failHandler).send();
}
return 0;
};
if (auto requestId = sendRequest()) {
_fullPeerRequests.insert(peer, requestId);
}
}
void ApiWrap::processFullPeer(PeerData *peer, const MTPmessages_ChatFull &result) {
gotChatFull(peer, result, mtpRequestId(0));
}
void ApiWrap::processFullPeer(UserData *user, const MTPUserFull &result) {
gotUserFull(user, result, mtpRequestId(0));
}
void ApiWrap::gotChatFull(PeerData *peer, const MTPmessages_ChatFull &result, mtpRequestId req) {
auto &d = result.c_messages_chatFull();
auto &vc = d.vchats.v;
auto badVersion = false;
if (peer->isChat()) {
badVersion = (!vc.isEmpty() && vc[0].type() == mtpc_chat && vc[0].c_chat().vversion.v < peer->asChat()->version);
} else if (peer->isChannel()) {
badVersion = (!vc.isEmpty() && vc[0].type() == mtpc_channel && vc[0].c_channel().vversion.v < peer->asChannel()->version);
}
App::feedUsers(d.vusers);
App::feedChats(d.vchats);
using UpdateFlag = Notify::PeerUpdate::Flag;
if (auto chat = peer->asChat()) {
if (d.vfull_chat.type() != mtpc_chatFull) {
LOG(("MTP Error: bad type in gotChatFull for chat: %1").arg(d.vfull_chat.type()));
return;
}
auto &f = d.vfull_chat.c_chatFull();
App::feedParticipants(f.vparticipants, false);
auto &v = f.vbot_info.v;
for_const (auto &item, v) {
switch (item.type()) {
case mtpc_botInfo: {
auto &b = item.c_botInfo();
if (auto user = App::userLoaded(b.vuser_id.v)) {
user->setBotInfo(item);
fullPeerUpdated().notify(user);
}
} break;
}
}
chat->setUserpicPhoto(f.vchat_photo);
chat->setInviteLink((f.vexported_invite.type() == mtpc_chatInviteExported) ? qs(f.vexported_invite.c_chatInviteExported().vlink) : QString());
chat->fullUpdated();
notifySettingReceived(MTP_inputNotifyPeer(peer->input), f.vnotify_settings);
} else if (auto channel = peer->asChannel()) {
if (d.vfull_chat.type() != mtpc_channelFull) {
LOG(("MTP Error: bad type in gotChatFull for channel: %1").arg(d.vfull_chat.type()));
return;
}
auto &f = d.vfull_chat.c_channelFull();
channel->setAvailableMinId(f.vavailable_min_id.v);
auto canViewAdmins = channel->canViewAdmins();
auto canViewMembers = channel->canViewMembers();
auto canEditStickers = channel->canEditStickers();
channel->setFullFlags(f.vflags.v);
channel->setUserpicPhoto(f.vchat_photo);
if (f.has_migrated_from_chat_id()) {
channel->addFlags(MTPDchannel::Flag::f_megagroup);
auto cfrom = App::chat(peerFromChat(f.vmigrated_from_chat_id));
bool updatedTo = (cfrom->migrateToPtr != channel), updatedFrom = (channel->mgInfo->migrateFromPtr != cfrom);
if (updatedTo) {
cfrom->migrateToPtr = channel;
}
if (updatedFrom) {
channel->mgInfo->migrateFromPtr = cfrom;
if (auto h = App::historyLoaded(cfrom->id)) {
if (auto hto = App::historyLoaded(channel->id)) {
if (!h->isEmpty()) {
h->clear(true);
}
if (hto->inChatList(Dialogs::Mode::All) && h->inChatList(Dialogs::Mode::All)) {
App::removeDialog(h);
}
}
}
Notify::migrateUpdated(channel);
}
if (updatedTo) {
Notify::migrateUpdated(cfrom);
}
}
auto &v = f.vbot_info.v;
for_const (auto &item, v) {
switch (item.type()) {
case mtpc_botInfo: {
auto &b = item.c_botInfo();
if (auto user = App::userLoaded(b.vuser_id.v)) {
user->setBotInfo(item);
fullPeerUpdated().notify(user);
}
} break;
}
}
channel->setAbout(qs(f.vabout));
channel->setMembersCount(f.has_participants_count() ? f.vparticipants_count.v : 0);
channel->setAdminsCount(f.has_admins_count() ? f.vadmins_count.v : 0);
channel->setRestrictedCount(f.has_banned_count() ? f.vbanned_count.v : 0);
channel->setKickedCount(f.has_kicked_count() ? f.vkicked_count.v : 0);
channel->setInviteLink((f.vexported_invite.type() == mtpc_chatInviteExported) ? qs(f.vexported_invite.c_chatInviteExported().vlink) : QString());
if (auto h = App::historyLoaded(channel->id)) {
if (h->inboxReadBefore < f.vread_inbox_max_id.v + 1) {
h->setUnreadCount(f.vunread_count.v);
h->inboxReadBefore = f.vread_inbox_max_id.v + 1;
}
accumulate_max(h->outboxReadBefore, f.vread_outbox_max_id.v + 1);
}
ranges::overload([] {}, [](int a) {});
if (f.has_pinned_msg_id()) {
channel->setPinnedMessageId(f.vpinned_msg_id.v);
} else {
channel->clearPinnedMessage();
}
if (channel->isMegagroup()) {
auto stickersChanged = (canEditStickers != channel->canEditStickers());
auto stickerSet = (f.has_stickerset() ? &f.vstickerset.c_stickerSet() : nullptr);
auto newSetId = (stickerSet ? stickerSet->vid.v : 0);
auto oldSetId = (channel->mgInfo->stickerSet.type() == mtpc_inputStickerSetID) ? channel->mgInfo->stickerSet.c_inputStickerSetID().vid.v : 0;
if (oldSetId != newSetId) {
channel->mgInfo->stickerSet = stickerSet ? MTP_inputStickerSetID(stickerSet->vid, stickerSet->vaccess_hash) : MTP_inputStickerSetEmpty();
stickersChanged = true;
}
if (stickersChanged) {
Notify::peerUpdatedDelayed(channel, UpdateFlag::ChannelStickersChanged);
}
}
channel->fullUpdated();
if (canViewAdmins != channel->canViewAdmins()
|| canViewMembers != channel->canViewMembers()) {
Notify::peerUpdatedDelayed(channel, UpdateFlag::ChannelRightsChanged);
}
notifySettingReceived(MTP_inputNotifyPeer(peer->input), f.vnotify_settings);
}
if (req) {
auto i = _fullPeerRequests.find(peer);
if (i != _fullPeerRequests.cend() && i.value() == req) {
_fullPeerRequests.erase(i);
}
}
if (badVersion) {
if (auto chat = peer->asChat()) {
chat->version = vc[0].c_chat().vversion.v;
} else if (auto channel = peer->asChannel()) {
channel->version = vc[0].c_channel().vversion.v;
}
requestPeer(peer);
}
fullPeerUpdated().notify(peer);
}
void ApiWrap::gotUserFull(UserData *user, const MTPUserFull &result, mtpRequestId req) {
auto &d = result.c_userFull();
App::feedUsers(MTP_vector<MTPUser>(1, d.vuser));
if (d.has_profile_photo()) {
App::feedPhoto(d.vprofile_photo);
}
App::feedUserLink(MTP_int(peerToUser(user->id)), d.vlink.c_contacts_link().vmy_link, d.vlink.c_contacts_link().vforeign_link);
if (App::main()) {
notifySettingReceived(MTP_inputNotifyPeer(user->input), d.vnotify_settings);
}
if (d.has_bot_info()) {
user->setBotInfo(d.vbot_info);
} else {
user->setBotInfoVersion(-1);
}
user->setBlockStatus(d.is_blocked() ? UserData::BlockStatus::Blocked : UserData::BlockStatus::NotBlocked);
user->setCallsStatus(d.is_phone_calls_private() ? UserData::CallsStatus::Private : d.is_phone_calls_available() ? UserData::CallsStatus::Enabled : UserData::CallsStatus::Disabled);
user->setAbout(d.has_about() ? qs(d.vabout) : QString());
user->setCommonChatsCount(d.vcommon_chats_count.v);
user->fullUpdated();
if (req) {
auto i = _fullPeerRequests.find(user);
if (i != _fullPeerRequests.cend() && i.value() == req) {
_fullPeerRequests.erase(i);
}
}
fullPeerUpdated().notify(user);
}
void ApiWrap::requestPeer(PeerData *peer) {
if (!peer || _fullPeerRequests.contains(peer) || _peerRequests.contains(peer)) return;
auto sendRequest = [this, peer] {
auto failHandler = [this, peer](const RPCError &error) {
_peerRequests.remove(peer);
};
auto chatHandler = [this, peer](const MTPmessages_Chats &result) {
_peerRequests.remove(peer);
if (auto chats = Api::getChatsFromMessagesChats(result)) {
auto &v = chats->v;
bool badVersion = false;
if (auto chat = peer->asChat()) {
badVersion = (!v.isEmpty() && v[0].type() == mtpc_chat && v[0].c_chat().vversion.v < chat->version);
} else if (auto channel = peer->asChannel()) {
badVersion = (!v.isEmpty() && v[0].type() == mtpc_channel && v[0].c_channel().vversion.v < channel->version);
}
auto chat = App::feedChats(*chats);
if (chat == peer) {
if (badVersion) {
if (auto chat = peer->asChat()) {
chat->version = v[0].c_chat().vversion.v;
} else if (auto channel = peer->asChannel()) {
channel->version = v[0].c_channel().vversion.v;
}
requestPeer(peer);
}
}
}
};
if (auto user = peer->asUser()) {
return request(MTPusers_GetUsers(MTP_vector<MTPInputUser>(1, user->inputUser))).done([this, user](const MTPVector<MTPUser> &result) {
_peerRequests.remove(user);
App::feedUsers(result);
}).fail(failHandler).send();
} else if (auto chat = peer->asChat()) {
return request(MTPmessages_GetChats(MTP_vector<MTPint>(1, chat->inputChat))).done(chatHandler).fail(failHandler).send();
} else if (auto channel = peer->asChannel()) {
return request(MTPchannels_GetChannels(MTP_vector<MTPInputChannel>(1, channel->inputChannel))).done(chatHandler).fail(failHandler).send();
}
return 0;
};
if (auto requestId = sendRequest()) {
_peerRequests.insert(peer, requestId);
}
}
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 (QList<PeerData*>::const_iterator i = peers.cbegin(), e = peers.cend(); i != e; ++i) {
if (!*i || _fullPeerRequests.contains(*i) || _peerRequests.contains(*i)) continue;
if ((*i)->isUser()) {
users.push_back((*i)->asUser()->inputUser);
} else if ((*i)->isChat()) {
chats.push_back((*i)->asChat()->inputChat);
} else if ((*i)->isChannel()) {
channels.push_back((*i)->asChannel()->inputChannel);
}
}
auto handleChats = [this](const MTPmessages_Chats &result) {
if (auto chats = Api::getChatsFromMessagesChats(result)) {
App::feedChats(*chats);
}
};
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([this](const MTPVector<MTPUser> &result) {
App::feedUsers(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(Global::ChatSizeMax()),
MTP_int(participantsHash)
)).done([this, channel](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(Global::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(Global::ChatSizeMax()),
MTP_int(participantsHash)
)).done([this, channel](const MTPchannels_ChannelParticipants &result) {
_adminsRequests.remove(channel);
TLHelp::VisitChannelParticipants(result, base::overload([&](
const MTPDchannels_channelParticipants &data) {
App::feedUsers(data.vusers);
applyAdminsList(
channel,
data.vcount.v,
data.vparticipants.v);
}, [&](mtpTypeId) {
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;
auto botStatus = channel->mgInfo->botStatus;
const auto emptyAdminRights = MTP_channelAdminRights(MTP_flags(0));
const auto emptyRestrictedRights = MTP_channelBannedRights(
MTP_flags(0),
MTP_int(0));
for (const auto &p : list) {
const auto userId = TLHelp::ReadChannelParticipantUserId(p);
const auto adminCanEdit = (p.type() == mtpc_channelParticipantAdmin)
? p.c_channelParticipantAdmin().is_can_edit()
: false;
const auto adminRights = (p.type() == mtpc_channelParticipantAdmin)
? p.c_channelParticipantAdmin().vadmin_rights
: emptyAdminRights;
const auto restrictedRights = (p.type() == mtpc_channelParticipantBanned)
? p.c_channelParticipantBanned().vbanned_rights
: emptyRestrictedRights;
if (!userId) {
continue;
}
auto user = App::user(userId);
if (p.type() == mtpc_channelParticipantCreator) {
channel->mgInfo->creator = user;
if (!channel->mgInfo->admins.empty()
&& !channel->mgInfo->admins.contains(userId)) {
Data::ChannelAdminChanges changes(channel);
changes.feed(userId, true);
}
}
if (!base::contains(channel->mgInfo->lastParticipants, user)) {
channel->mgInfo->lastParticipants.push_back(user);
if (adminRights.c_channelAdminRights().vflags.v) {
channel->mgInfo->lastAdmins.emplace(
user,
MegagroupInfo::Admin{ adminRights, adminCanEdit });
} else if (restrictedRights.c_channelBannedRights().vflags.v != 0) {
channel->mgInfo->lastRestricted.emplace(
user,
MegagroupInfo::Restricted{ restrictedRights });
}
if (user->botInfo) {
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);
//}
Notify::PeerUpdate update(channel);
update.flags |= Notify::PeerUpdate::Flag::MembersChanged | Notify::PeerUpdate::Flag::AdminsChanged;
Notify::peerUpdatedDelayed(update);
channel->mgInfo->botStatus = botStatus;
if (App::main()) fullPeerUpdated().notify(channel);
}
void ApiWrap::applyBotsList(
not_null<ChannelData*> channel,
int availableCount,
const QVector<MTPChannelParticipant> &list) {
const auto history = App::historyLoaded(channel->id);
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 = TLHelp::ReadChannelParticipantUserId(p);
if (!userId) {
continue;
}
auto user = App::user(userId);
if (user->botInfo) {
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;
if (App::main()) fullPeerUpdated().notify(channel);
}
void ApiWrap::applyAdminsList(
not_null<ChannelData*> channel,
int availableCount,
const QVector<MTPChannelParticipant> &list) {
auto admins = ranges::make_iterator_range(
list.begin(), list.end()
) | ranges::view::transform([](const MTPChannelParticipant &p) {
return TLHelp::ReadChannelParticipantUserId(p);
});
auto adding = base::flat_set<UserId>{ admins.begin(), admins.end() };
if (channel->mgInfo->creator) {
adding.insert(peerToUser(channel->mgInfo->creator->id));
}
auto removing = channel->mgInfo->admins;
if (removing.empty() && adding.empty()) {
// Add some admin-placeholder so we don't DDOS
// server with admins list requests.
LOG(("API Error: Got empty admins list from server."));
adding.insert(0);
}
Data::ChannelAdminChanges changes(channel);
for (const auto addingId : adding) {
if (!removing.remove(addingId)) {
changes.feed(addingId, true);
}
}
for (const auto removingId : removing) {
changes.feed(removingId, false);
}
}
void ApiWrap::requestSelfParticipant(ChannelData *channel) {
if (_selfParticipantRequests.contains(channel)) {
return;
}
auto requestId = request(MTPchannels_GetParticipant(
channel->inputChannel,
MTP_inputUserSelf()
)).done([this, channel](const MTPchannels_ChannelParticipant &result) {
_selfParticipantRequests.remove(channel);
if (result.type() != mtpc_channels_channelParticipant) {
LOG(("API Error: unknown type in gotSelfParticipant (%1)").arg(result.type()));
channel->inviter = -1;
if (App::main()) App::main()->onSelfParticipantUpdated(channel);
return;
}
auto &p = result.c_channels_channelParticipant();
App::feedUsers(p.vusers);
switch (p.vparticipant.type()) {
case mtpc_channelParticipantSelf: {
auto &d = p.vparticipant.c_channelParticipantSelf();
channel->inviter = d.vinviter_id.v;
channel->inviteDate = date(d.vdate);
} break;
case mtpc_channelParticipantCreator: {
auto &d = p.vparticipant.c_channelParticipantCreator();
channel->inviter = _session->userId();
channel->inviteDate = date(MTP_int(channel->date));
if (channel->mgInfo) {
channel->mgInfo->creator = App::self();
}
} break;
case mtpc_channelParticipantAdmin: {
auto &d = p.vparticipant.c_channelParticipantAdmin();
channel->inviter = d.vinviter_id.v;
channel->inviteDate = date(d.vdate);
} break;
}
if (App::main()) App::main()->onSelfParticipantUpdated(channel);
}).fail([this, channel](const RPCError &error) {
_selfParticipantRequests.remove(channel);
if (error.type() == qstr("USER_NOT_PARTICIPANT")) {
channel->inviter = -1;
}
}).afterDelay(kSmallDelayMs).send();
_selfParticipantRequests.insert(channel, requestId);
}
void ApiWrap::kickParticipant(PeerData *peer, UserData *user, const MTPChannelBannedRights &currentRights) {
auto kick = KickRequest(peer, user);
if (_kickRequests.contains(kick)) return;
if (auto channel = peer->asChannel()) {
auto rights = ChannelData::KickedRestrictedRights();
auto requestId = request(MTPchannels_EditBanned(channel->inputChannel, user->inputUser, rights)).done([this, channel, user, currentRights, rights](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.insert(kick, requestId);
}
}
void ApiWrap::unblockParticipant(PeerData *peer, UserData *user) {
auto kick = KickRequest(peer, user);
if (_kickRequests.contains(kick)) return;
if (auto channel = peer->asChannel()) {
auto requestId = request(MTPchannels_EditBanned(channel->inputChannel, user->inputUser, MTP_channelBannedRights(MTP_flags(0), MTP_int(0)))).done([this, peer, user](const MTPUpdates &result) {
applyUpdates(result);
_kickRequests.remove(KickRequest(peer, user));
if (auto channel = peer->asMegagroup()) {
if (channel->kickedCount() > 0) {
channel->setKickedCount(channel->kickedCount() - 1);
} else {
channel->updateFullForced();
}
}
}).fail([this, kick](const RPCError &error) {
_kickRequests.remove(kick);
}).send();
_kickRequests.insert(kick, requestId);
}
}
void ApiWrap::requestChannelMembersForAdd(
not_null<ChannelData*> channel,
base::lambda<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(Global::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 Stickers::Order &localOrder, const Stickers::Order &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 = Stickers::GetRecentPack();
auto &sets = Auth().data().stickerSetsRef();
_stickersOrder = localOrder;
for_const (auto removedSetId, localRemoved) {
if (removedSetId == Stickers::CloudRecentSetId) {
if (sets.remove(Stickers::CloudRecentSetId) != 0) {
writeCloudRecent = true;
}
if (sets.remove(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()) {
for (auto i = recent.begin(); i != recent.cend();) {
if (it->stickers.indexOf(i->first) >= 0) {
i = recent.erase(i);
writeRecent = true;
} else {
++i;
}
}
if (!(it->flags & MTPDstickerSet::Flag::f_archived)) {
MTPInputStickerSet setId = (it->id && it->access) ? MTP_inputStickerSetID(MTP_long(it->id), MTP_long(it->access)) : MTP_inputStickerSetShortName(MTP_string(it->shortName));
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 = Auth().data().stickerSetsOrder().indexOf(it->id);
if (removeIndex >= 0) Auth().data().stickerSetsOrderRef().removeAt(removeIndex);
if (!(it->flags & MTPDstickerSet_ClientFlag::f_featured) && !(it->flags & MTPDstickerSet_ClientFlag::f_special)) {
sets.erase(it);
} else {
if (it->flags & MTPDstickerSet::Flag::f_archived) {
writeArchived = true;
}
it->flags &= ~(MTPDstickerSet::Flag::f_installed | MTPDstickerSet::Flag::f_archived);
}
}
}
}
// Clear all installed flags, set only for sets from order.
for (auto &set : sets) {
if (!(set.flags & MTPDstickerSet::Flag::f_archived)) {
set.flags &= ~MTPDstickerSet::Flag::f_installed;
}
}
auto &order = Auth().data().stickerSetsOrderRef();
order.clear();
for_const (auto setId, _stickersOrder) {
auto it = sets.find(setId);
if (it != sets.cend()) {
if ((it->flags & MTPDstickerSet::Flag::f_archived) && !localRemoved.contains(it->id)) {
MTPInputStickerSet mtpSetId = (it->id && it->access) ? MTP_inputStickerSetID(MTP_long(it->id), MTP_long(it->access)) : MTP_inputStickerSetShortName(MTP_string(it->shortName));
auto requestId = request(MTPmessages_InstallStickerSet(mtpSetId, MTP_boolFalse())).done([this](const MTPmessages_StickerSetInstallResult &result, mtpRequestId requestId) {
stickerSetDisenabled(requestId);
}).fail([this](const RPCError &error, mtpRequestId requestId) {
stickerSetDisenabled(requestId);
}).afterDelay(kSmallDelayMs).send();
_stickerSetDisenableRequests.insert(requestId);
it->flags &= ~MTPDstickerSet::Flag::f_archived;
writeArchived = true;
}
order.push_back(setId);
it->flags |= MTPDstickerSet::Flag::f_installed;
}
}
for (auto it = sets.begin(); it != sets.cend();) {
if ((it->flags & MTPDstickerSet_ClientFlag::f_featured)
|| (it->flags & MTPDstickerSet::Flag::f_installed)
|| (it->flags & MTPDstickerSet::Flag::f_archived)
|| (it->flags & MTPDstickerSet_ClientFlag::f_special)) {
++it;
} else {
it = sets.erase(it);
}
}
if (writeInstalled) Local::writeInstalledStickers();
if (writeRecent) Local::writeUserSettings();
if (writeArchived) Local::writeArchivedStickers();
if (writeCloudRecent) Local::writeRecentStickers();
if (writeFaved) Local::writeFavedStickers();
Auth().data().markStickersUpdated();
if (_stickerSetDisenableRequests.empty()) {
stickersSaveOrder();
} else {
requestSendDelayed();
}
}
void ApiWrap::stickerSetDisenabled(mtpRequestId requestId) {
_stickerSetDisenableRequests.remove(requestId);
if (_stickerSetDisenableRequests.empty()) {
stickersSaveOrder();
}
};
void ApiWrap::joinChannel(ChannelData *channel) {
if (channel->amIn()) {
Notify::peerUpdatedDelayed(channel, Notify::PeerUpdate::Flag::ChannelAmIn);
} else if (!_channelAmInRequests.contains(channel)) {
auto requestId = request(MTPchannels_JoinChannel(channel->inputChannel)).done([this, channel](const MTPUpdates &result) {
_channelAmInRequests.remove(channel);
applyUpdates(result);
}).fail([this, channel](const RPCError &error) {
if (error.type() == qstr("CHANNELS_TOO_MUCH")) {
Ui::show(Box<InformBox>(lang(lng_join_channel_error)));
}
_channelAmInRequests.remove(channel);
}).send();
_channelAmInRequests.insert(channel, requestId);
}
}
void ApiWrap::leaveChannel(ChannelData *channel) {
if (!channel->amIn()) {
Notify::peerUpdatedDelayed(channel, Notify::PeerUpdate::Flag::ChannelAmIn);
} else if (!_channelAmInRequests.contains(channel)) {
auto requestId = request(MTPchannels_LeaveChannel(channel->inputChannel)).done([this, channel](const MTPUpdates &result) {
_channelAmInRequests.remove(channel);
applyUpdates(result);
}).fail([this, channel](const RPCError &error) {
_channelAmInRequests.remove(channel);
}).send();
_channelAmInRequests.insert(channel, requestId);
}
}
void ApiWrap::blockUser(UserData *user) {
if (user->isBlocked()) {
Notify::peerUpdatedDelayed(user, Notify::PeerUpdate::Flag::UserIsBlocked);
} else if (!_blockRequests.contains(user)) {
auto requestId = request(MTPcontacts_Block(user->inputUser)).done([this, user](const MTPBool &result) {
_blockRequests.remove(user);
user->setBlockStatus(UserData::BlockStatus::Blocked);
}).fail([this, user](const RPCError &error) {
_blockRequests.remove(user);
}).send();
_blockRequests.insert(user, requestId);
}
}
void ApiWrap::unblockUser(UserData *user) {
if (!user->isBlocked()) {
Notify::peerUpdatedDelayed(user, Notify::PeerUpdate::Flag::UserIsBlocked);
} else if (!_blockRequests.contains(user)) {
auto requestId = request(MTPcontacts_Unblock(user->inputUser)).done([this, user](const MTPBool &result) {
_blockRequests.remove(user);
user->setBlockStatus(UserData::BlockStatus::NotBlocked);
}).fail([this, user](const RPCError &error) {
_blockRequests.remove(user);
}).send();
_blockRequests.insert(user, requestId);
}
}
void ApiWrap::exportInviteLink(PeerData *peer) {
if (_exportInviteRequests.contains(peer)) {
return;
}
auto sendRequest = [this, peer] {
auto exportFail = [this, peer](const RPCError &error) {
_exportInviteRequests.remove(peer);
};
if (auto chat = peer->asChat()) {
return request(MTPmessages_ExportChatInvite(chat->inputChat)).done([this, chat](const MTPExportedChatInvite &result) {
_exportInviteRequests.remove(chat);
chat->setInviteLink((result.type() == mtpc_chatInviteExported) ? qs(result.c_chatInviteExported().vlink) : QString());
}).fail(exportFail).send();
} else if (auto channel = peer->asChannel()) {
return request(MTPchannels_ExportInvite(channel->inputChannel)).done([this, channel](const MTPExportedChatInvite &result) {
_exportInviteRequests.remove(channel);
channel->setInviteLink((result.type() == mtpc_chatInviteExported) ? qs(result.c_chatInviteExported().vlink) : QString());
}).fail(exportFail).send();
}
return 0;
};
if (auto requestId = sendRequest()) {
_exportInviteRequests.insert(peer, requestId);
}
}
void ApiWrap::requestNotifySetting(PeerData *peer) {
if (_notifySettingRequests.contains(peer)) return;
auto notifyPeer = MTP_inputNotifyPeer(peer->input);
auto requestId = request(MTPaccount_GetNotifySettings(notifyPeer)).done([this, notifyPeer, peer](const MTPPeerNotifySettings &result) {
notifySettingReceived(notifyPeer, result);
_notifySettingRequests.remove(peer);
}).fail([this, notifyPeer, peer](const RPCError &error) {
notifySettingReceived(notifyPeer, MTP_peerNotifySettingsEmpty());
_notifySettingRequests.remove(peer);
}).send();
_notifySettingRequests.insert(peer, requestId);
}
void ApiWrap::saveDraftToCloudDelayed(History *history) {
_draftsSaveRequestIds.insert(history, 0);
if (!_draftsSaveTimer.isActive()) {
_draftsSaveTimer.callOnce(kSaveCloudDraftTimeout);
}
}
void ApiWrap::savePrivacy(const MTPInputPrivacyKey &key, QVector<MTPInputPrivacyRule> &&rules) {
auto keyTypeId = key.type();
auto it = _privacySaveRequests.find(keyTypeId);
if (it != _privacySaveRequests.cend()) {
request(it.value()).cancel();
_privacySaveRequests.erase(it);
}
auto requestId = request(MTPaccount_SetPrivacy(key, MTP_vector<MTPInputPrivacyRule>(std::move(rules)))).done([this, keyTypeId](const MTPaccount_PrivacyRules &result) {
Expects(result.type() == mtpc_account_privacyRules);
auto &rules = result.c_account_privacyRules();
App::feedUsers(rules.vusers);
_privacySaveRequests.remove(keyTypeId);
handlePrivacyChange(keyTypeId, rules.vrules);
}).fail([this, keyTypeId](const RPCError &error) {
_privacySaveRequests.remove(keyTypeId);
}).send();
_privacySaveRequests.insert(keyTypeId, requestId);
}
void ApiWrap::handlePrivacyChange(mtpTypeId keyTypeId, const MTPVector<MTPPrivacyRule> &rules) {
if (keyTypeId == mtpc_privacyKeyStatusTimestamp) {
enum class Rule {
Unknown,
Allow,
Disallow,
};
auto userRules = QMap<UserId, Rule>();
auto contactsRule = Rule::Unknown;
auto everyoneRule = Rule::Unknown;
for (auto &rule : rules.v) {
auto type = rule.type();
if (type != mtpc_privacyValueAllowAll && type != mtpc_privacyValueDisallowAll && contactsRule != Rule::Unknown) {
// This is simplified: we ignore per-user rules that come after a contacts rule.
// But none of the official apps provide such complicated rule sets, so its fine.
continue;
}
switch (type) {
case mtpc_privacyValueAllowAll: everyoneRule = Rule::Allow; break;
case mtpc_privacyValueDisallowAll: everyoneRule = Rule::Disallow; break;
case mtpc_privacyValueAllowContacts: contactsRule = Rule::Allow; break;
case mtpc_privacyValueDisallowContacts: contactsRule = Rule::Disallow; break;
case mtpc_privacyValueAllowUsers: {
for_const (auto &userId, rule.c_privacyValueAllowUsers().vusers.v) {
if (!userRules.contains(userId.v)) {
userRules.insert(userId.v, Rule::Allow);
}
}
} break;
case mtpc_privacyValueDisallowUsers: {
for_const (auto &userId, rule.c_privacyValueDisallowUsers().vusers.v) {
if (!userRules.contains(userId.v)) {
userRules.insert(userId.v, Rule::Disallow);
}
}
} break;
}
if (everyoneRule != Rule::Unknown) {
break;
}
}
auto now = unixtime();
App::enumerateUsers([&userRules, contactsRule, everyoneRule, now](UserData *user) {
if (user->isSelf() || user->loadedStatus != PeerData::FullLoaded) {
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;
}
Notify::peerUpdatedDelayed(user, Notify::PeerUpdate::Flag::UserOnlineChanged);
});
if (_contactsStatusesRequestId) {
request(_contactsStatusesRequestId).cancel();
}
_contactsStatusesRequestId = request(MTPcontacts_GetStatuses()).done([this](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 = App::userLoaded(data.vuser_id.v)) {
auto oldOnlineTill = user->onlineTill;
auto newOnlineTill = onlineTillFromStatus(data.vstatus, oldOnlineTill);
if (oldOnlineTill != newOnlineTill) {
user->onlineTill = newOnlineTill;
Notify::peerUpdatedDelayed(user, Notify::PeerUpdate::Flag::UserOnlineChanged);
}
}
}
}).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: return (currentOnlineTill > -10) ? -2 : currentOnlineTill; // don't modify pseudo-online
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) {
auto lastMsgId = MsgId(0);
if (auto history = App::historyLoaded(peer->id)) {
if (history->lastMsg) {
lastMsgId = history->lastMsg->id;
Local::addSavedPeer(history->peer, history->lastMsg->date);
}
history->clear();
history->newLoaded = history->oldLoaded = true;
}
if (auto channel = peer->asChannel()) {
if (auto migrated = peer->migrateFrom()) {
clearHistory(migrated);
}
if (IsServerMsgId(lastMsgId)) {
request(MTPchannels_DeleteHistory(
channel->inputChannel,
MTP_int(lastMsgId)
)).send();
}
} else {
request(MTPmessages_DeleteHistory(
MTP_flags(MTPmessages_DeleteHistory::Flag::f_just_clear),
peer->input,
MTP_int(0)
)).done([=](const MTPmessages_AffectedHistory &result) {
auto offset = applyAffectedHistory(peer, result);
if (offset > 0) {
clearHistory(peer);
}
}).send();
}
}
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 {
App::main()->ptsUpdateAndApply(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();
App::main()->ptsUpdateAndApply(data.vpts.v, data.vpts_count.v);
}
void ApiWrap::saveDraftsToCloud() {
for (auto i = _draftsSaveRequestIds.begin(), e = _draftsSaveRequestIds.end(); i != e; ++i) {
if (i.value()) continue; // sent already
auto history = i.key();
auto cloudDraft = history->cloudDraft();
auto localDraft = history->localDraft();
if (cloudDraft && cloudDraft->saveRequestId) {
request(base::take(cloudDraft->saveRequestId)).cancel();
}
cloudDraft = history->createCloudDraft(localDraft);
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 = TextUtilities::EntitiesToMTP(ConvertTextTagsToEntities(textWithTags.tags), TextUtilities::ConvertOption::SkipLocal);
cloudDraft->saveRequestId = request(MTPmessages_SaveDraft(MTP_flags(flags), MTP_int(cloudDraft->msgId), history->peer->input, MTP_string(textWithTags.text), entities)).done([this, history](const MTPBool &result, mtpRequestId requestId) {
if (auto cloudDraft = history->cloudDraft()) {
if (cloudDraft->saveRequestId == requestId) {
cloudDraft->saveRequestId = 0;
history->draftSavedToCloud();
}
}
auto i = _draftsSaveRequestIds.find(history);
if (i != _draftsSaveRequestIds.cend() && i.value() == requestId) {
_draftsSaveRequestIds.remove(history);
checkQuitPreventFinished();
}
}).fail([this, history](const RPCError &error, mtpRequestId requestId) {
if (auto cloudDraft = history->cloudDraft()) {
if (cloudDraft->saveRequestId == requestId) {
history->clearCloudDraft();
}
}
auto i = _draftsSaveRequestIds.find(history);
if (i != _draftsSaveRequestIds.cend() && i.value() == requestId) {
_draftsSaveRequestIds.remove(history);
checkQuitPreventFinished();
}
}).send();
i.value() = cloudDraft->saveRequestId;
}
}
bool ApiWrap::isQuitPrevent() {
if (_draftsSaveRequestIds.isEmpty()) {
return false;
}
LOG(("ApiWrap prevents quit, saving drafts..."));
saveDraftsToCloud();
return true;
}
void ApiWrap::checkQuitPreventFinished() {
if (_draftsSaveRequestIds.isEmpty()) {
if (App::quitting()) {
LOG(("ApiWrap doesn't prevent quit any more."));
}
Messenger::Instance().quitPreventFinished();
}
}
PeerData *ApiWrap::notifySettingReceived(
MTPInputNotifyPeer notifyPeer,
const MTPPeerNotifySettings &settings) {
PeerData *requestedPeer = nullptr;
switch (notifyPeer.type()) {
case mtpc_inputNotifyAll:
App::main()->applyNotifySetting(MTP_notifyAll(), settings);
break;
case mtpc_inputNotifyUsers:
App::main()->applyNotifySetting(MTP_notifyUsers(), settings);
break;
case mtpc_inputNotifyChats:
App::main()->applyNotifySetting(MTP_notifyChats(), settings);
break;
case mtpc_inputNotifyPeer: {
auto &peer = notifyPeer.c_inputNotifyPeer().vpeer;
switch (peer.type()) {
case mtpc_inputPeerEmpty: App::main()->applyNotifySetting(
MTP_notifyPeer(MTP_peerUser(MTP_int(0))),
settings);
break;
case mtpc_inputPeerSelf: requestedPeer = App::self(); break;
case mtpc_inputPeerUser: requestedPeer = App::user(peerFromUser(peer.c_inputPeerUser().vuser_id)); break;
case mtpc_inputPeerChat: requestedPeer = App::chat(peerFromChat(peer.c_inputPeerChat().vchat_id)); break;
case mtpc_inputPeerChannel: requestedPeer = App::channel(peerFromChannel(peer.c_inputPeerChannel().vchannel_id)); break;
}
if (requestedPeer) {
App::main()->applyNotifySetting(
MTP_notifyPeer(peerToMTP(requestedPeer->id)),
settings);
}
} break;
}
_session->notifications().checkDelayed();
return requestedPeer;
}
void ApiWrap::gotStickerSet(uint64 setId, const MTPmessages_StickerSet &result) {
_stickerSetRequests.remove(setId);
Stickers::FeedSetFull(result);
}
void ApiWrap::requestWebPageDelayed(WebPageData *page) {
if (page->pendingTill <= 0) return;
_webPagesPending.insert(page, 0);
auto left = (page->pendingTill - unixtime()) * 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<MTPint>(); // temp_req_id = -1
using IndexAndMessageIds = QPair<int32, QVector<MTPint>>;
using MessageIdsByChannel = QMap<ChannelData*, IndexAndMessageIds>;
MessageIdsByChannel idsByChannel; // temp_req_id = -index - 2
auto &items = App::webPageItems();
ids.reserve(_webPagesPending.size());
int32 t = unixtime(), m = INT_MAX;
for (auto i = _webPagesPending.begin(); i != _webPagesPending.cend(); ++i) {
if (i.value() > 0) continue;
if (i.key()->pendingTill <= t) {
auto j = items.constFind(i.key());
if (j != items.cend() && !j.value().isEmpty()) {
for_const (auto item, j.value()) {
if (item->id > 0) {
if (item->channelId() == NoChannel) {
ids.push_back(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<MTPint>(1, MTP_int(item->id))));
} else {
channelMap.value().second.push_back(MTP_int(item->id));
}
i.value() = -channelMap.value().first - 2;
}
break;
}
}
}
} else {
m = qMin(m, i.key()->pendingTill - t);
}
}
auto requestId = mtpRequestId(0);
if (!ids.isEmpty()) {
requestId = request(MTPmessages_GetMessages(MTP_vector<MTPint>(ids))).done([this](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<MTPint>(i.value().second))).done([this, 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,
[this, channel] { channel->updateFullForced(); });
}
void ApiWrap::gotWebPages(ChannelData *channel, const MTPmessages_Messages &msgs, mtpRequestId req) {
const QVector<MTPMessage> *v = 0;
switch (msgs.type()) {
case mtpc_messages_messages: {
auto &d = msgs.c_messages_messages();
App::feedUsers(d.vusers);
App::feedChats(d.vchats);
v = &d.vmessages.v;
} break;
case mtpc_messages_messagesSlice: {
auto &d = msgs.c_messages_messagesSlice();
App::feedUsers(d.vusers);
App::feedChats(d.vchats);
v = &d.vmessages.v;
} break;
case mtpc_messages_channelMessages: {
auto &d = msgs.c_messages_channelMessages();
if (channel) {
channel->ptsReceived(d.vpts.v);
} else {
LOG(("API Error: received messages.channelMessages when no channel was passed! (ApiWrap::gotWebPages)"));
}
App::feedUsers(d.vusers);
App::feedChats(d.vchats);
v = &d.vmessages.v;
} break;
case mtpc_messages_messagesNotModified: {
LOG(("API Error: received messages.messagesNotModified! (ApiWrap::gotWebPages)"));
} break;
}
if (!v) return;
auto indices = base::flat_map<uint64, int>(); // copied from feedMsgs
for (auto i = 0, l = v->size(); i != l; ++i) {
const auto msgId = idFromMessage(v->at(i));
indices.emplace((uint64(uint32(msgId)) << 32) | uint64(i), i);
}
for (const auto [position, index] : indices) {
const auto item = App::histories().addNewMessage(
v->at(index),
NewMessageExisting);
if (item) {
item->setPendingInitDimensions();
}
}
auto &items = App::webPageItems();
for (auto i = _webPagesPending.begin(); i != _webPagesPending.cend();) {
if (i.value() == req) {
if (i.key()->pendingTill > 0) {
i.key()->pendingTill = -1;
auto j = items.constFind(i.key());
if (j != items.cend()) {
for_const (auto item, j.value()) {
item->setPendingInitDimensions();
}
}
}
i = _webPagesPending.erase(i);
} else {
++i;
}
}
}
void ApiWrap::stickersSaveOrder() {
if (_stickersOrder.size() > 1) {
QVector<MTPlong> mtpOrder;
mtpOrder.reserve(_stickersOrder.size());
for_const (auto setId, _stickersOrder) {
mtpOrder.push_back(MTP_long(setId));
}
_stickersReorderRequestId = request(MTPmessages_ReorderStickerSets(MTP_flags(0), MTP_vector<MTPlong>(mtpOrder))).done([this](const MTPBool &result) {
_stickersReorderRequestId = 0;
}).fail([this](const RPCError &error) {
_stickersReorderRequestId = 0;
Auth().data().setLastStickersUpdate(0);
updateStickers();
}).send();
}
}
void ApiWrap::updateStickers() {
auto now = getms(true);
requestStickers(now);
requestRecentStickers(now);
requestFavedStickers(now);
requestFeaturedStickers(now);
requestSavedGifs(now);
}
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();
Auth().data().markStickersUpdated();
}
void ApiWrap::requestStickers(TimeId now) {
if (!Auth().data().stickersUpdateNeeded(now)
|| _stickersUpdateRequest) {
return;
}
auto onDone = [this](const MTPmessages_AllStickers &result) {
Auth().data().setLastStickersUpdate(getms(true));
_stickersUpdateRequest = 0;
switch (result.type()) {
case mtpc_messages_allStickersNotModified: return;
case mtpc_messages_allStickers: {
auto &d = result.c_messages_allStickers();
Stickers::SetsReceived(d.vsets.v, d.vhash.v);
} return;
default: Unexpected("Type in ApiWrap::stickersDone()");
}
};
_stickersUpdateRequest = request(MTPmessages_GetAllStickers(MTP_int(Local::countStickersHash(true)))).done(onDone).fail([this, onDone](const RPCError &error) {
LOG(("App Fail: Failed to get stickers!"));
onDone(MTP_messages_allStickersNotModified());
}).send();
}
void ApiWrap::requestRecentStickers(TimeId now) {
if (!Auth().data().recentStickersUpdateNeeded(now)
|| _recentStickersUpdateRequest) {
return;
}
auto onDone = [this](const MTPmessages_RecentStickers &result) {
Auth().data().setLastRecentStickersUpdate(getms(true));
_recentStickersUpdateRequest = 0;
switch (result.type()) {
case mtpc_messages_recentStickersNotModified: return;
case mtpc_messages_recentStickers: {
auto &d = result.c_messages_recentStickers();
Stickers::SpecialSetReceived(Stickers::CloudRecentSetId, lang(lng_recent_stickers), d.vstickers.v, d.vhash.v);
} return;
default: Unexpected("Type in ApiWrap::recentStickersDone()");
}
};
_recentStickersUpdateRequest = request(MTPmessages_GetRecentStickers(MTP_flags(0), MTP_int(Local::countRecentStickersHash()))).done(onDone).fail([this, onDone](const RPCError &error) {
LOG(("App Fail: Failed to get recent stickers!"));
onDone(MTP_messages_recentStickersNotModified());
}).send();
}
void ApiWrap::requestFavedStickers(TimeId now) {
if (!Auth().data().favedStickersUpdateNeeded(now)
|| _favedStickersUpdateRequest) {
return;
}
auto onDone = [this](const MTPmessages_FavedStickers &result) {
Auth().data().setLastFavedStickersUpdate(getms(true));
_favedStickersUpdateRequest = 0;
switch (result.type()) {
case mtpc_messages_favedStickersNotModified: return;
case mtpc_messages_favedStickers: {
auto &d = result.c_messages_favedStickers();
Stickers::SpecialSetReceived(Stickers::FavedSetId, Lang::Hard::FavedSetTitle(), d.vstickers.v, d.vhash.v, d.vpacks.v);
} return;
default: Unexpected("Type in ApiWrap::favedStickersDone()");
}
};
_favedStickersUpdateRequest = request(MTPmessages_GetFavedStickers(MTP_int(Local::countFavedStickersHash()))).done(onDone).fail([this, onDone](const RPCError &error) {
LOG(("App Fail: Failed to get faved stickers!"));
onDone(MTP_messages_favedStickersNotModified());
}).send();
}
void ApiWrap::requestFeaturedStickers(TimeId now) {
if (!Auth().data().featuredStickersUpdateNeeded(now)
|| _featuredStickersUpdateRequest) {
return;
}
auto onDone = [this](const MTPmessages_FeaturedStickers &result) {
Auth().data().setLastFeaturedStickersUpdate(getms(true));
_featuredStickersUpdateRequest = 0;
switch (result.type()) {
case mtpc_messages_featuredStickersNotModified: return;
case mtpc_messages_featuredStickers: {
auto &d = result.c_messages_featuredStickers();
Stickers::FeaturedSetsReceived(d.vsets.v, d.vunread.v, d.vhash.v);
} return;
default: Unexpected("Type in ApiWrap::featuredStickersDone()");
}
};
_featuredStickersUpdateRequest = request(MTPmessages_GetFeaturedStickers(MTP_int(Local::countFeaturedStickersHash()))).done(onDone).fail([this, onDone](const RPCError &error) {
LOG(("App Fail: Failed to get featured stickers!"));
onDone(MTP_messages_featuredStickersNotModified());
}).send();
}
void ApiWrap::requestSavedGifs(TimeId now) {
if (!Auth().data().savedGifsUpdateNeeded(now)
|| _savedGifsUpdateRequest) {
return;
}
auto onDone = [this](const MTPmessages_SavedGifs &result) {
Auth().data().setLastSavedGifsUpdate(getms(true));
_savedGifsUpdateRequest = 0;
switch (result.type()) {
case mtpc_messages_savedGifsNotModified: return;
case mtpc_messages_savedGifs: {
auto &d = result.c_messages_savedGifs();
Stickers::GifsReceived(d.vgifs.v, d.vhash.v);
} return;
default: Unexpected("Type in ApiWrap::savedGifsDone()");
}
};
_savedGifsUpdateRequest = request(MTPmessages_GetSavedGifs(MTP_int(Local::countSavedGifsHash()))).done(onDone).fail([this, onDone](const RPCError &error) {
LOG(("App Fail: Failed to get saved gifs!"));
onDone(MTP_messages_savedGifsNotModified());
}).send();
}
void ApiWrap::readFeaturedSetDelayed(uint64 setId) {
if (!_featuredSetsRead.contains(setId)) {
_featuredSetsRead.insert(setId);
_featuredSetsReadTimer.callOnce(kReadFeaturedSetsTimeout);
}
}
void ApiWrap::readFeaturedSets() {
auto &sets = Auth().data().stickerSetsRef();
auto count = Auth().data().featuredStickerSetsUnreadCount();
QVector<MTPlong> wrappedIds;
wrappedIds.reserve(_featuredSetsRead.size());
for (auto setId : _featuredSetsRead) {
auto it = sets.find(setId);
if (it != sets.cend()) {
it->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();
Auth().data().markStickersUpdated();
}).send();
Auth().data().setFeaturedStickerSetsUnreadCount(count);
}
}
void ApiWrap::parseChannelParticipants(
not_null<ChannelData*> channel,
const MTPchannels_ChannelParticipants &result,
base::lambda<void(
int availableCount,
const QVector<MTPChannelParticipant> &list)> callbackList,
base::lambda<void()> callbackNotModified) {
TLHelp::VisitChannelParticipants(result, base::overload([&](
const MTPDchannels_channelParticipants &data) {
App::feedUsers(data.vusers);
if (channel->mgInfo) {
refreshChannelAdmins(channel, data.vparticipants.v);
}
if (callbackList) {
callbackList(data.vcount.v, data.vparticipants.v);
}
}, [&](mtpTypeId) {
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 (auto &p : participants) {
const auto userId = TLHelp::ReadChannelParticipantUserId(p);
const auto isAdmin = (p.type() == mtpc_channelParticipantAdmin)
|| (p.type() == mtpc_channelParticipantCreator);
changes.feed(userId, isAdmin);
}
}
void ApiWrap::parseRecentChannelParticipants(
not_null<ChannelData*> channel,
const MTPchannels_ChannelParticipants &result,
base::lambda<void(
int availableCount,
const QVector<MTPChannelParticipant> &list)> callbackList,
base::lambda<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);
}
callbackList(availableCount, list);
}, std::move(callbackNotModified));
}
void ApiWrap::applyUpdatesNoPtsCheck(const MTPUpdates &updates) {
switch (updates.type()) {
case mtpc_updateShortMessage: {
auto &d = updates.c_updateShortMessage();
auto flags = mtpCastFlags(d.vflags.v) | MTPDmessage::Flag::f_from_id;
App::histories().addNewMessage(MTP_message(
MTP_flags(flags),
d.vid,
d.is_out() ? MTP_int(Auth().userId()) : d.vuser_id,
MTP_peerUser(d.is_out() ? d.vuser_id : MTP_int(Auth().userId())),
d.vfwd_from,
d.vvia_bot_id,
d.vreply_to_msg_id,
d.vdate,
d.vmessage,
MTP_messageMediaEmpty(),
MTPnullMarkup,
d.has_entities() ? d.ventities : MTPnullEntities,
MTPint(),
MTPint(),
MTPstring(),
MTPlong()), NewMessageUnread);
} break;
case mtpc_updateShortChatMessage: {
auto &d = updates.c_updateShortChatMessage();
auto flags = mtpCastFlags(d.vflags.v) | MTPDmessage::Flag::f_from_id;
App::histories().addNewMessage(MTP_message(
MTP_flags(flags),
d.vid,
d.vfrom_id,
MTP_peerChat(d.vchat_id),
d.vfwd_from,
d.vvia_bot_id,
d.vreply_to_msg_id,
d.vdate,
d.vmessage,
MTP_messageMediaEmpty(),
MTPnullMarkup,
d.has_entities() ? d.ventities : MTPnullEntities,
MTPint(),
MTPint(),
MTPstring(),
MTPlong()), NewMessageUnread);
} break;
case mtpc_updateShortSentMessage: {
auto &d = updates.c_updateShortSentMessage();
Q_UNUSED(d); // Sent message data was applied anyway.
} break;
default: Unexpected("Type in applyUpdatesNoPtsCheck()");
}
}
void ApiWrap::applyUpdateNoPtsCheck(const MTPUpdate &update) {
switch (update.type()) {
case mtpc_updateNewMessage: {
auto &d = update.c_updateNewMessage();
auto needToAdd = true;
if (d.vmessage.type() == mtpc_message) { // index forwarded messages to links _overview
if (App::checkEntitiesAndViewsUpdate(d.vmessage.c_message())) { // already in blocks
LOG(("Skipping message, because it is already in blocks!"));
needToAdd = false;
}
}
if (needToAdd) {
App::histories().addNewMessage(d.vmessage, NewMessageUnread);
}
} break;
case mtpc_updateReadMessagesContents: {
auto &d = update.c_updateReadMessagesContents();
auto possiblyReadMentions = base::flat_set<MsgId>();
for_const (auto &msgId, d.vmessages.v) {
if (auto item = App::histItemById(NoChannel, msgId.v)) {
if (item->isMediaUnread()) {
item->markMediaRead();
Auth().data().requestItemRepaint(item);
if (item->out() && item->history()->peer->isUser()) {
auto when = App::main()->requestingDifference() ? 0 : unixtime();
item->history()->peer->asUser()->madeAction(when);
}
}
} else {
// Perhaps it was an unread mention!
possiblyReadMentions.insert(msgId.v);
}
}
checkForUnreadMentions(possiblyReadMentions);
} break;
case mtpc_updateReadHistoryInbox: {
auto &d = update.c_updateReadHistoryInbox();
App::feedInboxRead(peerFromMTP(d.vpeer), d.vmax_id.v);
} break;
case mtpc_updateReadHistoryOutbox: {
auto &d = update.c_updateReadHistoryOutbox();
auto peerId = peerFromMTP(d.vpeer);
auto when = App::main()->requestingDifference() ? 0 : unixtime();
App::feedOutboxRead(peerId, d.vmax_id.v, when);
} break;
case mtpc_updateWebPage: {
auto &d = update.c_updateWebPage();
Q_UNUSED(d); // Web page was updated anyway.
} break;
case mtpc_updateDeleteMessages: {
auto &d = update.c_updateDeleteMessages();
App::feedWereDeleted(NoChannel, d.vmessages.v);
} break;
case mtpc_updateNewChannelMessage: {
auto &d = update.c_updateNewChannelMessage();
auto needToAdd = true;
if (d.vmessage.type() == mtpc_message) { // index forwarded messages to links _overview
if (App::checkEntitiesAndViewsUpdate(d.vmessage.c_message())) { // already in blocks
LOG(("Skipping message, because it is already in blocks!"));
needToAdd = false;
}
}
if (needToAdd) {
App::histories().addNewMessage(d.vmessage, NewMessageUnread);
}
} break;
case mtpc_updateEditChannelMessage: {
auto &d = update.c_updateEditChannelMessage();
App::updateEditedMessage(d.vmessage);
} break;
case mtpc_updateEditMessage: {
auto &d = update.c_updateEditMessage();
App::updateEditedMessage(d.vmessage);
} break;
case mtpc_updateChannelWebPage: {
auto &d = update.c_updateChannelWebPage();
Q_UNUSED(d); // Web page was updated anyway.
} break;
case mtpc_updateDeleteChannelMessages: {
auto &d = update.c_updateDeleteChannelMessages();
App::feedWereDeleted(d.vchannel_id.v, d.vmessages.v);
} break;
default: Unexpected("Type in applyUpdateNoPtsCheck()");
}
}
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([
peer,
offsetDate,
callback = std::forward<Callback>(callback)
](const MTPmessages_Messages &result) {
auto getMessagesList = [&result, peer]() -> const QVector<MTPMessage>* {
auto handleMessages = [](auto &messages) {
App::feedUsers(messages.vusers);
App::feedChats(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 (auto list = getMessagesList()) {
App::feedMsgs(*list, NewMessageExisting);
for (auto &message : *list) {
if (dateFromMessage(message) >= offsetDate) {
callback(idFromMessage(message));
return;
}
}
}
callback(ShowAtUnreadMsgId);
}).send();
}
void ApiWrap::jumpToDate(not_null<PeerData*> peer, const QDate &date) {
if (auto channel = peer->migrateTo()) {
jumpToDate(channel, date);
return;
}
auto jumpToDateInPeer = [peer, date, this] {
requestMessageAfterDate(peer, date, [peer](MsgId resultId) {
Ui::showPeerHistory(peer, resultId);
});
};
if (auto chat = peer->migrateFrom()) {
requestMessageAfterDate(chat, date, [=](MsgId resultId) {
if (resultId) {
Ui::showPeerHistory(chat, resultId);
} else {
jumpToDateInPeer();
}
});
} else {
jumpToDateInPeer();
}
}
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 (auto item = App::histItemById(channel, msgId)) {
if (item->mentionsMe()) {
item->markMediaRead();
}
}
});
}
}
void ApiWrap::cancelEditChatAdmins(not_null<ChatData*> chat) {
_chatAdminsEnabledRequests.take(
chat
) | requestCanceller();
_chatAdminsSaveRequests.take(
chat
) | [&](auto &&requests) {
ranges::for_each(std::move(requests), requestCanceller());
};
_chatAdminsToSave.remove(chat);
}
void ApiWrap::editChatAdmins(
not_null<ChatData*> chat,
bool adminsEnabled,
base::flat_set<not_null<UserData*>> &&admins) {
cancelEditChatAdmins(chat);
if (adminsEnabled) {
_chatAdminsToSave.emplace(chat, std::move(admins));
}
auto requestId = request(MTPmessages_ToggleChatAdmins(chat->inputChat, MTP_bool(adminsEnabled))).done([this, chat](const MTPUpdates &updates) {
_chatAdminsEnabledRequests.remove(chat);
applyUpdates(updates);
saveChatAdmins(chat);
}).fail([this, chat](const RPCError &error) {
_chatAdminsEnabledRequests.remove(chat);
if (error.type() == qstr("CHAT_NOT_MODIFIED")) {
saveChatAdmins(chat);
}
}).send();
_chatAdminsEnabledRequests.emplace(chat, requestId);
}
void ApiWrap::saveChatAdmins(not_null<ChatData*> chat) {
if (!_chatAdminsToSave.contains(chat)) {
return;
}
auto requestId = request(MTPmessages_GetFullChat(chat->inputChat)).done([this, chat](const MTPmessages_ChatFull &result) {
_chatAdminsEnabledRequests.remove(chat);
processFullPeer(chat, result);
sendSaveChatAdminsRequests(chat);
}).fail([this, chat](const RPCError &error) {
_chatAdminsEnabledRequests.remove(chat);
_chatAdminsToSave.remove(chat);
}).send();
_chatAdminsEnabledRequests.emplace(chat, requestId);
}
void ApiWrap::sendSaveChatAdminsRequests(not_null<ChatData*> chat) {
auto editOne = [this, chat](not_null<UserData*> user, bool admin) {
auto requestId = request(MTPmessages_EditChatAdmin(
chat->inputChat,
user->inputUser,
MTP_bool(admin)))
.done([this, chat, user, admin](
const MTPBool &result,
mtpRequestId requestId) {
_chatAdminsSaveRequests[chat].remove(requestId);
if (_chatAdminsSaveRequests[chat].empty()) {
_chatAdminsSaveRequests.remove(chat);
Notify::peerUpdatedDelayed(chat, Notify::PeerUpdate::Flag::AdminsChanged);
}
if (mtpIsTrue(result)) {
if (admin) {
if (chat->noParticipantInfo()) {
requestFullPeer(chat);
} else {
chat->admins.insert(user);
}
} else {
chat->admins.remove(user);
}
}
}).fail([this, chat](
const RPCError &error,
mtpRequestId requestId) {
_chatAdminsSaveRequests[chat].remove(requestId);
if (_chatAdminsSaveRequests[chat].empty()) {
_chatAdminsSaveRequests.remove(chat);
}
chat->invalidateParticipants();
if (error.type() == qstr("USER_RESTRICTED")) {
Ui::show(Box<InformBox>(lang(lng_cant_do_this)));
}
}).afterDelay(kSmallDelayMs).send();
_chatAdminsSaveRequests[chat].insert(requestId);
};
auto appointOne = [&](auto user) { editOne(user, true); };
auto removeOne = [&](auto user) { editOne(user, false); };
auto admins = _chatAdminsToSave.take(chat);
Assert(!!admins);
auto toRemove = chat->admins;
auto toAppoint = std::vector<not_null<UserData*>>();
if (!admins->empty()) {
toAppoint.reserve(admins->size());
for (auto user : *admins) {
if (!toRemove.remove(user) && user->id != peerFromUser(chat->creator)) {
toAppoint.push_back(user);
}
}
}
ranges::for_each(toRemove, removeOne);
ranges::for_each(toAppoint, appointOne);
requestSendDelayed();
}
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) {
auto key = std::make_tuple(peer, type, messageId, slice);
if (_sharedMediaRequests.contains(key)) {
return;
}
auto prepared = Api::PrepareSearchRequest(
peer,
type,
QString(),
messageId,
slice);
if (prepared.vfilter.type() == mtpc_inputMessagesFilterEmpty) {
return;
}
auto requestId = request(
std::move(prepared)
).done([this, peer, type, messageId, slice](
const MTPmessages_Messages &result) {
auto key = std::make_tuple(peer, type, messageId, slice);
_sharedMediaRequests.remove(key);
sharedMediaDone(peer, type, messageId, slice, result);
}).fail([this, key](const RPCError &error) {
_sharedMediaRequests.remove(key);
}).send();
_sharedMediaRequests.emplace(key, requestId);
}
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);
Auth().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();
App::feedUsers(d.vusers);
fullCount = d.vphotos.v.size();
return &d.vphotos.v;
} break;
case mtpc_photos_photosSlice: {
auto &d = result.c_photos_photosSlice();
App::feedUsers(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 = App::feedPhoto(photo)) {
photoIds.push_back(photoData->id);
}
}
Auth().storage().add(Storage::UserPhotosAddSlice(
user->id,
std::move(photoIds),
fullCount
));
}
void ApiWrap::sendAction(const SendOptions &options) {
readServerHistory(options.history);
options.history->getReadyFor(ShowAtTheEndMsgId);
_sendActions.fire_copy(options);
}
void ApiWrap::forwardMessages(
HistoryItemsList &&items,
const SendOptions &options,
base::lambda_once<void()> &&successCallback) {
Expects(!items.empty());
struct SharedCallback {
int requestsLeft = 0;
base::lambda_once<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 = options.generateLocal && (count < 2);
const auto history = options.history;
const auto peer = history->peer;
readServerHistory(history);
const auto channelPost = peer->isChannel() && !peer->isMegagroup();
const auto silentPost = channelPost && peer->notifySilentPosts();
auto flags = MTPDmessage::Flags(0);
auto sendFlags = MTPmessages_ForwardMessages::Flags(0);
if (channelPost) {
flags |= MTPDmessage::Flag::f_views;
flags |= MTPDmessage::Flag::f_post;
}
if (!channelPost) {
flags |= MTPDmessage::Flag::f_from_id;
} else if (peer->asChannel()->addsSignature()) {
flags |= MTPDmessage::Flag::f_post_author;
}
if (silentPost) {
sendFlags |= MTPmessages_ForwardMessages::Flag::f_silent;
}
auto forwardFrom = items.front()->history()->peer;
auto currentGroupId = items.front()->groupId();
auto ids = QVector<MTPint>();
auto randomIds = QVector<MTPlong>();
const auto sendAccumulated = [&] {
if (shared) {
++shared->requestsLeft;
}
const auto finalFlags = sendFlags
| (currentGroupId == MessageGroupId()
? MTPmessages_ForwardMessages::Flag(0)
: MTPmessages_ForwardMessages::Flag::f_grouped);
history->sendRequestId = request(MTPmessages_ForwardMessages(
MTP_flags(finalFlags),
forwardFrom->input,
MTP_vector<MTPint>(ids),
MTP_vector<MTPlong>(randomIds),
peer->input
)).done([=, callback = std::move(successCallback)](
const MTPUpdates &updates) {
applyUpdates(updates);
if (shared && !--shared->requestsLeft) {
shared->callback();
}
}).afterRequest(
history->sendRequestId
).send();
ids.resize(0);
randomIds.resize(0);
};
ids.reserve(count);
randomIds.reserve(count);
for (const auto item : items) {
auto randomId = rand_value<uint64>();
if (genClientSideMessage) {
if (auto message = item->toHistoryMessage()) {
const auto newId = FullMsgId(
peerToChannel(peer->id),
clientMsgId());
const auto self = Auth().user();
const auto messageFromId = channelPost
? UserId(0)
: peerToUser(self->id);
const auto messagePostAuthor = channelPost
? (self->firstName + ' ' + self->lastName)
: QString();
history->addNewForwarded(
newId.msg,
flags,
date(MTP_int(unixtime())),
messageFromId,
messagePostAuthor,
message);
App::historyRegRandom(randomId, newId);
}
}
const auto newFrom = item->history()->peer;
const auto newGroupId = item->groupId();
if (forwardFrom != newFrom
|| currentGroupId != newGroupId) {
sendAccumulated();
forwardFrom = newFrom;
currentGroupId = newGroupId;
}
ids.push_back(MTP_int(item->id));
randomIds.push_back(MTP_long(randomId));
}
sendAccumulated();
}
void ApiWrap::shareContact(
const QString &phone,
const QString &firstName,
const QString &lastName,
const SendOptions &options) {
const auto userId = UserId(0);
sendSharedContact(phone, firstName, lastName, userId, options);
}
void ApiWrap::shareContact(
not_null<UserData*> user,
const SendOptions &options) {
const auto userId = peerToUser(user->id);
const auto phone = user->phone().isEmpty()
? App::phoneFromSharedContact(userId)
: user->phone();
if (phone.isEmpty()) {
return;
}
sendSharedContact(
phone,
user->firstName,
user->lastName,
userId,
options);
}
void ApiWrap::sendSharedContact(
const QString &phone,
const QString &firstName,
const QString &lastName,
UserId userId,
const SendOptions &options) {
sendAction(options);
const auto history = options.history;
const auto peer = history->peer;
const auto randomId = rand_value<uint64>();
const auto newId = FullMsgId(history->channelId(), clientMsgId());
const auto channelPost = peer->isChannel() && !peer->isMegagroup();
const auto silentPost = channelPost && peer->notifySilentPosts();
auto flags = NewMessageFlags(peer) | MTPDmessage::Flag::f_media;
auto sendFlags = MTPmessages_SendMedia::Flags(0);
if (options.replyTo) {
flags |= MTPDmessage::Flag::f_reply_to_msg_id;
sendFlags |= MTPmessages_SendMedia::Flag::f_reply_to_msg_id;
}
if (channelPost) {
flags |= MTPDmessage::Flag::f_views;
flags |= MTPDmessage::Flag::f_post;
if (peer->asChannel()->addsSignature()) {
flags |= MTPDmessage::Flag::f_post_author;
}
} else {
flags |= MTPDmessage::Flag::f_from_id;
}
if (silentPost) {
sendFlags |= MTPmessages_SendMedia::Flag::f_silent;
}
const auto messageFromId = channelPost ? 0 : Auth().userId();
const auto messagePostAuthor = channelPost
? (Auth().user()->firstName + ' ' + Auth().user()->lastName)
: QString();
history->addNewMessage(
MTP_message(
MTP_flags(flags),
MTP_int(newId.msg),
MTP_int(messageFromId),
peerToMTP(peer->id),
MTPnullFwdHeader,
MTPint(),
MTP_int(options.replyTo),
MTP_int(unixtime()),
MTP_string(""),
MTP_messageMediaContact(
MTP_string(phone),
MTP_string(firstName),
MTP_string(lastName),
MTP_int(userId)),
MTPnullMarkup,
MTPnullEntities,
MTP_int(1),
MTPint(),
MTP_string(messagePostAuthor),
MTPlong()),
NewMessageUnread);
history->sendRequestId = request(MTPmessages_SendMedia(
MTP_flags(sendFlags),
peer->input,
MTP_int(options.replyTo),
MTP_inputMediaContact(
MTP_string(phone),
MTP_string(firstName),
MTP_string(lastName)),
MTP_long(randomId),
MTPnullMarkup
)).done([=](const MTPUpdates &result) {
applyUpdates(result);
}).fail([](const RPCError &error) {
if (error.type() == qstr("PEER_FLOOD")) {
Ui::show(Box<InformBox>(
PeerFloodErrorText(PeerFloodType::Send)));
} else if (error.type() == qstr("USER_BANNED_IN_CHANNEL")) {
const auto link = textcmdLink(
Messenger::Instance().createInternalLinkFull(qsl("spambot")),
lang(lng_cant_more_info));
Ui::show(Box<InformBox>(lng_error_public_groups_denied(
lt_more_info,
link)));
}
}).afterRequest(
history->sendRequestId
).send();
App::historyRegRandom(randomId, newId);
}
void ApiWrap::readServerHistory(not_null<History*> history) {
if (history->unreadCount()) {
readServerHistoryForce(history);
}
}
void ApiWrap::readServerHistoryForce(not_null<History*> history) {
const auto peer = history->peer;
const auto upTo = history->inboxRead(0);
if (const auto channel = peer->asChannel()) {
if (!channel->amIn()) {
return; // no read request for channels that I didn't join
} else if (const auto migrateFrom = channel->migrateFrom()) {
if (const auto migrated = App::historyLoaded(migrateFrom)) {
readServerHistory(migrated);
}
}
}
if (_readRequests.contains(peer)) {
const auto i = _readRequestsPending.find(peer);
if (i == _readRequestsPending.cend()) {
_readRequestsPending.emplace(peer, upTo);
} else if (i->second < upTo) {
i->second = upTo;
}
} else {
sendReadRequest(peer, upTo);
}
}
void ApiWrap::sendReadRequest(not_null<PeerData*> peer, MsgId upTo) {
const auto requestId = [&] {
const auto finished = [=] {
_readRequests.remove(peer);
if (const auto next = _readRequestsPending.take(peer)) {
sendReadRequest(peer, *next);
}
};
if (const auto channel = peer->asChannel()) {
return request(MTPchannels_ReadHistory(
channel->inputChannel,
MTP_int(upTo)
)).done([=](const MTPBool &result) {
finished();
}).fail([=](const RPCError &error) {
finished();
}).send();
}
return request(MTPmessages_ReadHistory(
peer->input,
MTP_int(upTo)
)).done([=](const MTPmessages_AffectedMessages &result) {
applyAffectedMessages(peer, result);
finished();
}).fail([=](const RPCError &error) {
finished();
}).send();
}();
_readRequests.emplace(peer, requestId, upTo);
}
ApiWrap::~ApiWrap() = default;
Reference in New Issue View Git Blame Copy Permalink