tdesktop/Telegram/SourceFiles/data/data_scheduled_messages.cpp

572 lines
16 KiB
C++

/*
This file is part of Telegram Desktop,
the official desktop application for the Telegram messaging service.
For license and copyright information please follow this link:
https://github.com/telegramdesktop/tdesktop/blob/master/LEGAL
*/
#include "data/data_scheduled_messages.h"
#include "base/unixtime.h"
#include "data/data_peer.h"
#include "data/data_session.h"
#include "api/api_hash.h"
#include "api/api_text_entities.h"
#include "main/main_session.h"
#include "history/history.h"
#include "history/history_item_components.h"
#include "history/history_message.h"
#include "apiwrap.h"
namespace Data {
namespace {
constexpr auto kRequestTimeLimit = 60 * crl::time(1000);
[[nodiscard]] bool TooEarlyForRequest(crl::time received) {
return (received > 0) && (received + kRequestTimeLimit > crl::now());
}
[[nodiscard]] bool HasScheduledDate(not_null<HistoryItem*> item) {
return (item->date() != ScheduledMessages::kScheduledUntilOnlineTimestamp)
&& (item->date() > base::unixtime::now());
}
MTPMessage PrepareMessage(const MTPMessage &message, MsgId id) {
return message.match([&](const MTPDmessageEmpty &data) {
return MTP_messageEmpty(
data.vflags(),
MTP_int(id),
data.vpeer_id() ? *data.vpeer_id() : MTPPeer());
}, [&](const MTPDmessageService &data) {
return MTP_messageService(
MTP_flags(data.vflags().v
| MTPDmessageService::Flag(
MTPDmessage::Flag::f_from_scheduled)),
MTP_int(id),
data.vfrom_id() ? *data.vfrom_id() : MTPPeer(),
data.vpeer_id(),
data.vreply_to() ? *data.vreply_to() : MTPMessageReplyHeader(),
data.vdate(),
data.vaction());
}, [&](const MTPDmessage &data) {
return MTP_message(
MTP_flags(data.vflags().v | MTPDmessage::Flag::f_from_scheduled),
MTP_int(id),
data.vfrom_id() ? *data.vfrom_id() : MTPPeer(),
data.vpeer_id(),
data.vfwd_from() ? *data.vfwd_from() : MTPMessageFwdHeader(),
MTP_int(data.vvia_bot_id().value_or_empty()),
data.vreply_to() ? *data.vreply_to() : MTPMessageReplyHeader(),
data.vdate(),
data.vmessage(),
data.vmedia() ? *data.vmedia() : MTPMessageMedia(),
data.vreply_markup() ? *data.vreply_markup() : MTPReplyMarkup(),
(data.ventities()
? *data.ventities()
: MTPVector<MTPMessageEntity>()),
MTP_int(data.vviews().value_or_empty()),
MTP_int(data.vforwards().value_or_empty()),
data.vreplies() ? *data.vreplies() : MTPMessageReplies(),
MTP_int(data.vedit_date().value_or_empty()),
MTP_bytes(data.vpost_author().value_or_empty()),
MTP_long(data.vgrouped_id().value_or_empty()),
//MTPMessageReactions(),
MTPVector<MTPRestrictionReason>());
});
}
} // namespace
ScheduledMessages::ScheduledMessages(not_null<Session*> owner)
: _session(&owner->session())
, _clearTimer([=] { clearOldRequests(); }) {
owner->itemRemoved(
) | rpl::filter([](not_null<const HistoryItem*> item) {
return item->isScheduled();
}) | rpl::start_with_next([=](not_null<const HistoryItem*> item) {
remove(item);
}, _lifetime);
}
ScheduledMessages::~ScheduledMessages() {
for (const auto &request : _requests) {
_session->api().request(request.second.requestId).cancel();
}
}
void ScheduledMessages::clearOldRequests() {
const auto now = crl::now();
while (true) {
const auto i = ranges::find_if(_requests, [&](const auto &value) {
const auto &request = value.second;
return !request.requestId
&& (request.lastReceived + kRequestTimeLimit <= now);
});
if (i == end(_requests)) {
break;
}
_requests.erase(i);
}
}
MsgId ScheduledMessages::lookupId(not_null<HistoryItem*> item) const {
Expects(item->isScheduled());
const auto i = _data.find(item->history());
Assert(i != end(_data));
const auto &list = i->second;
const auto j = list.idByItem.find(item);
Assert(j != end(list.idByItem));
return j->second;
}
HistoryItem *ScheduledMessages::lookupItem(PeerId peer, MsgId msg) const {
const auto history = _session->data().historyLoaded(peer);
if (!history) {
return nullptr;
}
const auto i = _data.find(history);
if (i == end(_data)) {
return nullptr;
}
const auto &items = i->second.items;
const auto j = ranges::find_if(items, [&](auto &item) {
return item->id == msg;
});
if (j == end(items)) {
return nullptr;
}
return (*j).get();
}
HistoryItem *ScheduledMessages::lookupItem(FullMsgId itemId) const {
return lookupItem(peerFromChannel(itemId.channel), itemId.msg);
}
int ScheduledMessages::count(not_null<History*> history) const {
const auto i = _data.find(history);
return (i != end(_data)) ? i->second.items.size() : 0;
}
void ScheduledMessages::sendNowSimpleMessage(
const MTPDupdateShortSentMessage &update,
not_null<HistoryItem*> local) {
Expects(local->isSending());
Expects(local->isScheduled());
if (HasScheduledDate(local)) {
LOG(("Error: trying to put to history a new local message, "
"that has scheduled date."));
return;
}
// When the user sends a text message scheduled until online
// while the recipient is already online, the server sends
// updateShortSentMessage to the client and the client calls this method.
// Since such messages can only be sent to recipients,
// we know for sure that a message can't have fields such as the author,
// views count, etc.
const auto history = local->history();
auto action = Api::SendAction(history);
action.replyTo = local->replyToId();
const auto replyHeader = NewMessageReplyHeader(action);
auto flags = NewMessageFlags(history->peer)
| MTPDmessage::Flag::f_entities
| MTPDmessage::Flag::f_from_id
| (local->replyToId()
? MTPDmessage::Flag::f_reply_to
: MTPDmessage::Flag(0));
auto clientFlags = NewMessageClientFlags()
| MTPDmessage_ClientFlag::f_local_history_entry;
const auto views = 1;
const auto forwards = 0;
history->addNewMessage(
MTP_message(
MTP_flags(flags),
update.vid(),
peerToMTP(_session->userPeerId()),
peerToMTP(history->peer->id),
MTPMessageFwdHeader(),
MTPint(),
replyHeader,
update.vdate(),
MTP_string(local->originalText().text),
MTP_messageMediaEmpty(),
MTPReplyMarkup(),
Api::EntitiesToMTP(
&history->session(),
local->originalText().entities),
MTP_int(views),
MTP_int(forwards),
MTPMessageReplies(),
MTPint(), // edit_date
MTP_string(),
MTPlong(),
//MTPMessageReactions(),
MTPVector<MTPRestrictionReason>()),
clientFlags,
NewMessageType::Unread);
local->destroy();
}
void ScheduledMessages::apply(const MTPDupdateNewScheduledMessage &update) {
const auto &message = update.vmessage();
const auto peer = PeerFromMessage(message);
if (!peer) {
return;
}
const auto history = _session->data().historyLoaded(peer);
if (!history) {
return;
}
auto &list = _data[history];
append(history, list, message);
sort(list);
_updates.fire_copy(history);
}
void ScheduledMessages::checkEntitiesAndUpdate(const MTPDmessage &data) {
// When the user sends a message with a media scheduled until online
// while the recipient is already online, or scheduled message
// is already due and is sent immediately, the server sends
// updateNewMessage or updateNewChannelMessage to the client
// and the client calls this method.
const auto peer = peerFromMTP(data.vpeer_id());
const auto history = _session->data().historyLoaded(peer);
if (!history) {
return;
}
const auto i = _data.find(history);
if (i == end(_data)) {
return;
}
const auto &itemMap = i->second.itemById;
const auto j = itemMap.find(data.vid().v);
if (j == end(itemMap)) {
return;
}
const auto existing = j->second;
if (!HasScheduledDate(existing)) {
// Destroy a local message, that should be in history.
existing->updateSentContent({
qs(data.vmessage()),
Api::EntitiesFromMTP(_session, data.ventities().value_or_empty())
}, data.vmedia());
existing->updateReplyMarkup(data.vreply_markup());
existing->updateForwardedInfo(data.vfwd_from());
_session->data().requestItemTextRefresh(existing);
existing->destroy();
}
}
void ScheduledMessages::apply(
const MTPDupdateDeleteScheduledMessages &update) {
const auto peer = peerFromMTP(update.vpeer());
if (!peer) {
return;
}
const auto history = _session->data().historyLoaded(peer);
if (!history) {
return;
}
auto i = _data.find(history);
if (i == end(_data)) {
return;
}
for (const auto &id : update.vmessages().v) {
const auto &list = i->second;
const auto j = list.itemById.find(id.v);
if (j != end(list.itemById)) {
j->second->destroy();
i = _data.find(history);
if (i == end(_data)) {
break;
}
}
}
_updates.fire_copy(history);
}
void ScheduledMessages::apply(
const MTPDupdateMessageID &update,
not_null<HistoryItem*> local) {
const auto id = update.vid().v;
const auto i = _data.find(local->history());
Assert(i != end(_data));
auto &list = i->second;
const auto j = list.itemById.find(id);
if (j != end(list.itemById)) {
local->destroy();
} else {
Assert(!list.itemById.contains(local->id));
Assert(!list.idByItem.contains(local));
local->setRealId(local->history()->nextNonHistoryEntryId());
list.idByItem.emplace(local, id);
list.itemById.emplace(id, local);
}
}
void ScheduledMessages::appendSending(not_null<HistoryItem*> item) {
Expects(item->isSending());
Expects(item->isScheduled());
const auto history = item->history();
auto &list = _data[history];
list.items.emplace_back(item);
sort(list);
_updates.fire_copy(history);
}
void ScheduledMessages::removeSending(not_null<HistoryItem*> item) {
Expects(item->isSending() || item->hasFailed());
Expects(item->isScheduled());
item->destroy();
}
rpl::producer<> ScheduledMessages::updates(not_null<History*> history) {
request(history);
return _updates.events(
) | rpl::filter([=](not_null<History*> value) {
return (value == history);
}) | rpl::to_empty;
}
Data::MessagesSlice ScheduledMessages::list(not_null<History*> history) {
auto result = Data::MessagesSlice();
const auto i = _data.find(history);
if (i == end(_data)) {
const auto i = _requests.find(history);
if (i == end(_requests)) {
return result;
}
result.fullCount = result.skippedAfter = result.skippedBefore = 0;
return result;
}
const auto &list = i->second.items;
result.skippedAfter = result.skippedBefore = 0;
result.fullCount = int(list.size());
result.ids = ranges::view::all(
list
) | ranges::view::transform(
&HistoryItem::fullId
) | ranges::to_vector;
return result;
}
void ScheduledMessages::request(not_null<History*> history) {
auto &request = _requests[history];
if (request.requestId || TooEarlyForRequest(request.lastReceived)) {
return;
}
const auto i = _data.find(history);
const auto hash = (i != end(_data)) ? countListHash(i->second) : 0;
request.requestId = _session->api().request(
MTPmessages_GetScheduledHistory(
history->peer->input,
MTP_int(hash))
).done([=](const MTPmessages_Messages &result) {
parse(history, result);
}).fail([=](const RPCError &error) {
_requests.remove(history);
}).send();
}
void ScheduledMessages::parse(
not_null<History*> history,
const MTPmessages_Messages &list) {
auto &request = _requests[history];
request.lastReceived = crl::now();
request.requestId = 0;
if (!_clearTimer.isActive()) {
_clearTimer.callOnce(kRequestTimeLimit * 2);
}
list.match([&](const MTPDmessages_messagesNotModified &data) {
}, [&](const auto &data) {
_session->data().processUsers(data.vusers());
_session->data().processChats(data.vchats());
const auto &messages = data.vmessages().v;
if (messages.isEmpty()) {
clearNotSending(history);
return;
}
auto received = base::flat_set<not_null<HistoryItem*>>();
auto clear = base::flat_set<not_null<HistoryItem*>>();
auto &list = _data.emplace(history, List()).first->second;
for (const auto &message : messages) {
if (const auto item = append(history, list, message)) {
received.emplace(item);
}
}
for (const auto &owned : list.items) {
const auto item = owned.get();
if (!item->isSending() && !received.contains(item)) {
clear.emplace(item);
}
}
updated(history, received, clear);
});
}
HistoryItem *ScheduledMessages::append(
not_null<History*> history,
List &list,
const MTPMessage &message) {
const auto id = message.match([&](const auto &data) {
return data.vid().v;
});
const auto i = list.itemById.find(id);
if (i != end(list.itemById)) {
const auto existing = i->second;
message.match([&](const MTPDmessage &data) {
// Scheduled messages never have an edit date,
// so if we receive a flag about it,
// probably this message was edited.
if (data.is_edit_hide()) {
existing->applyEdition(data);
}
existing->updateSentContent({
qs(data.vmessage()),
Api::EntitiesFromMTP(
_session,
data.ventities().value_or_empty())
}, data.vmedia());
existing->updateReplyMarkup(data.vreply_markup());
existing->updateForwardedInfo(data.vfwd_from());
existing->updateDate(data.vdate().v);
history->owner().requestItemTextRefresh(existing);
}, [&](const auto &data) {});
return existing;
}
const auto item = _session->data().addNewMessage(
PrepareMessage(message, history->nextNonHistoryEntryId()),
MTPDmessage_ClientFlags(),
NewMessageType::Existing);
if (!item || item->history() != history) {
LOG(("API Error: Bad data received in scheduled messages."));
return nullptr;
}
list.items.emplace_back(item);
list.itemById.emplace(id, item);
list.idByItem.emplace(item, id);
return item;
}
void ScheduledMessages::clearNotSending(not_null<History*> history) {
const auto i = _data.find(history);
if (i == end(_data)) {
return;
}
auto clear = base::flat_set<not_null<HistoryItem*>>();
for (const auto &owned : i->second.items) {
if (!owned->isSending() && !owned->hasFailed()) {
clear.emplace(owned.get());
}
}
updated(history, {}, clear);
}
void ScheduledMessages::updated(
not_null<History*> history,
const base::flat_set<not_null<HistoryItem*>> &added,
const base::flat_set<not_null<HistoryItem*>> &clear) {
if (!clear.empty()) {
for (const auto item : clear) {
item->destroy();
}
}
const auto i = _data.find(history);
if (i != end(_data)) {
sort(i->second);
}
if (!added.empty() || !clear.empty()) {
_updates.fire_copy(history);
}
}
void ScheduledMessages::sort(List &list) {
ranges::sort(list.items, ranges::less(), &HistoryItem::position);
}
void ScheduledMessages::remove(not_null<const HistoryItem*> item) {
const auto history = item->history();
const auto i = _data.find(history);
Assert(i != end(_data));
auto &list = i->second;
if (!item->isSending() && !item->hasFailed()) {
const auto j = list.idByItem.find(item);
Assert(j != end(list.idByItem));
list.itemById.remove(j->second);
list.idByItem.erase(j);
}
const auto k = ranges::find(list.items, item, &OwnedItem::get);
Assert(k != list.items.end());
k->release();
list.items.erase(k);
if (list.items.empty()) {
_data.erase(i);
}
_updates.fire_copy(history);
}
int32 ScheduledMessages::countListHash(const List &list) const {
using namespace Api;
auto hash = HashInit();
auto &&serverside = ranges::view::all(
list.items
) | ranges::view::filter([](const OwnedItem &item) {
return !item->isSending() && !item->hasFailed();
}) | ranges::view::reverse;
for (const auto &item : serverside) {
const auto j = list.idByItem.find(item.get());
HashUpdate(hash, j->second);
if (const auto edited = item->Get<HistoryMessageEdited>()) {
HashUpdate(hash, edited->date);
} else {
HashUpdate(hash, int32(0));
}
HashUpdate(hash, item->date());
}
return HashFinalize(hash);
}
HistoryItem *ScheduledMessages::lastEditableMessage(
not_null<History*> history) {
const auto i = _data.find(history);
if (i == end(_data)) {
return nullptr;
}
auto &list = i->second;
sort(list);
const auto items = ranges::view::reverse(list.items);
const auto now = base::unixtime::now();
auto proj = [&](const OwnedItem &item) {
return item->allowsEdit(now);
};
const auto it = ranges::find_if(items, std::move(proj));
return (it == end(items))
? nullptr
: history->owner().groups().findItemToEdit((*it).get()).get();
}
} // namespace Data