tdlight/td/mtproto/SessionConnection.cpp
levlam ce7c9feef1 Minor.
GitOrigin-RevId: dce97d9fae9b22ea19385cd73ab914a19d9b03f6
2019-02-13 00:47:48 +03:00

1032 lines
35 KiB
C++

//
// Copyright Aliaksei Levin (levlam@telegram.org), Arseny Smirnov (arseny30@gmail.com) 2014-2019
//
// Distributed under the Boost Software License, Version 1.0. (See accompanying
// file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
//
#include "td/mtproto/SessionConnection.h"
#include "td/mtproto/AuthData.h"
#include "td/mtproto/CryptoStorer.h"
#include "td/mtproto/PacketStorer.h"
#include "td/mtproto/Transport.h"
#include "td/mtproto/utils.h"
#include "td/utils/as.h"
#include "td/utils/common.h"
#include "td/utils/format.h"
#include "td/utils/Gzip.h"
#include "td/utils/logging.h"
#include "td/utils/misc.h"
#include "td/utils/Random.h"
#include "td/utils/ScopeGuard.h"
#include "td/utils/Time.h"
#include "td/utils/tl_parsers.h"
#include "td/mtproto/mtproto_api.h"
#include "td/mtproto/mtproto_api.hpp"
#include <algorithm>
#include <iterator>
#include <type_traits>
namespace td {
namespace mtproto_api {
const int32 msg_container::ID;
class rpc_result {
public:
static const int32 ID = -212046591;
};
} // namespace mtproto_api
namespace mtproto {
/**
* TODO-list.
*
* 1. Should I check input salt?
*
* 1. Cancellation of rpc request
* input:
* - rpc_drop_answer#58e4a740 req_msg_id:long = RpcDropAnswer;
* output:
* - rpc_answer_unknown#5e2ad36e = RpcDropAnswer;
* no ack
* - rpc_answer_dropped_running#cd78e586 = RpcDropAnswer;
* same answer will be returned to original query
* ack
* - rpc_answer_dropped#a43ad8b7 msg_id:long seq_no:int bytes:int = RpcDropAnswer;
* ack
* Alternative is destroy session
*
* 5. Destroy session
* (?) when session will be destroyed otherwise
* Must be call in different session
* input:
* - destroy_session#e7512126 session_id:long = DestroySessionRes;
* output:
* - destroy_session_ok#e22045fc session_id:long = DestroySessionRes;
* - destroy_session_none#62d350c9 session_id:long = DestroySessionRes;
*
* DONE:
* 3. Ping pong
* input:
* - ping#7abe77ec ping_id:long = Pong;
* - pong#347773c5 msg_id:long ping_id:long = Pong;
*
* 4. Ping + deferred connection closure
* input:
* - ping_delay_disconnect#f3427b8c ping_id:long disconnect_delay:int = Pong;
*
* 6. New session creation
* A notification about new session.
* It is reasonable to store unique_id with current session, in order to process duplicated notifications once.
*
* Causes all older than first_msg_id to be re-sent.
* Also there is a gap in updates, so getDifference MUST be sent
* output:
* - new_session_created#9ec20908 first_msg_id:long unique_id:long server_salt:long = NewSession
*
*
* 7. Containers
* I should pack output messages as containers
* - msg_container#73f1f8dc messages:vector message = MessageContainer;
* message msg_id:long seqno:int bytes:int body:Object = Message;
*
* 8. Packed Object
* I should pack big output messages with gzip
* - gzip_packed#3072cfa1 packed_data:string = Object;
*
* 9. Ack
* I should actually send acks
* (?) Does updates need ack
* - msgs_ack#62d6b459 msg_ids:Vector long = MsgsAck;
*
* 10. Errors
* output:
* - bad_msg_notification#a7eff811 bad_msg_id:long bad_msg_seqno:int error_code:int = BadMsgNotification;
* - bad_server_salt#edab447b bad_msg_id:long bad_msg_seqno:int error_code:int new_server_salt:long =
* BadMsgNotification;
*
* error codes:
* 16: msg_id is too low. -- lite resend. It will be automatially packed in a container. I hope.
* 17: msg_id is too high. -- fail connection.
* 18: msg_id % 4 != 0. -- Error and fail connection.
* 19: container msg_id is the same as msg_id of a previously received message. MUST NEVER HAPPENS. Error and fail
* connection.
*
* 20: message is to old -- full resend. (or fail query, if we are afraid of double send)
*
* 32: seq_no is too low. (msg_id1 < msg_id2 <==> seq_no1 < seq_no2). Error and fail connection
* 33: seq_no is too high. Error and fail connection.
* 34: (?) an even msg_seqno expected (irrelevant message), but odd received. (Fail and call a developer...)
* 35: (?) odd msg_seqno expected (relevant message), but even received (Fail and call a developer)
*
* 48: incorrect server salt (in bad_server_salt message)
*
* 64: (?) invalid container
*
* 2. Get future salts
* input:
* - get_future_salts#b921bd04 num:int = FutureSalts;
* output:
* - future_salts#ae500895 req_msg_id:long now:int salts:vector future_salt = FutureSalts;
* future_salt#0949d9dc valid_since:int valid_until:int salt:long = FutureSalt;
*
* 1. ping-pong
* 3. Delayed ack.
* 4. Delayed packet.
* HTTP transport (support of several connections)
* get future salts
*
* 11. Explicit request of messages states
* input:
* - msgs_state_req#da69fb52 msg_ids:Vector long = MsgsStateReq;
* 12. States of messages in answer
* output:
* - msgs_state_info#04deb57d req_msg_id:long info:string = MsgsStateInfo;
* info contain one byte for each queired msg_id
* bytes:
* 1: unknown message_id
* 2: message not received (msg_id in stored range)
* 3: message not receiver (msg_id is too high)
* 4: message received. No extra ack will be sent
* +8: message is already acknowledged
* +16: message don't requires acknowledgement
* +32: RPC query contained in message being processed or the processing has already been completed
* +64: content-related response to message has already been generated
* +128: other party knows for a fact that message is already received
*
* 13. Voluntary Communication of Status of Messages
* output:
* - msgs_all_info#8cc0d131 msg_ids:Vector long info:string = MsgsAllInfo
*
*/
class OnPacket {
const MsgInfo &info_;
SessionConnection *connection_;
Status *status_;
public:
OnPacket(const MsgInfo &info, SessionConnection *connection, Status *status)
: info_(info), connection_(connection), status_(status) {
}
template <class T>
void operator()(const T &func) const {
*status_ = connection_->on_packet(info_, func);
}
};
/*** SessionConnection ***/
BufferSlice SessionConnection::as_buffer_slice(Slice packet) {
return current_buffer_slice_->from_slice(packet);
}
Status SessionConnection::parse_message(TlParser &parser, MsgInfo *info, Slice *packet, bool crypto_flag) {
// msg_id:long seqno:int bytes:int
parser.check_len(sizeof(int64) + (crypto_flag ? sizeof(int32) : 0) + sizeof(int32));
if (parser.get_error() != nullptr) {
return Status::Error(PSLICE() << "Failed to parse mtproto_api::message: " << parser.get_error());
}
info->message_id = parser.fetch_long_unsafe();
if (crypto_flag) {
info->seq_no = parser.fetch_int_unsafe();
}
uint32 bytes = parser.fetch_int_unsafe();
if (bytes % sizeof(int32) != 0) {
return Status::Error(PSLICE() << "Failed to parse mtproto_api::message: size of message [" << bytes
<< "] is not divisible by 4");
}
*packet = parser.fetch_string_raw<Slice>(bytes);
if (parser.get_error() != nullptr) {
return Status::Error(PSLICE() << "Failed to parse mtproto_api::message: " << parser.get_error());
}
info->size = bytes;
return Status::OK();
}
Status SessionConnection::on_packet_container(const MsgInfo &info, Slice packet) {
auto old_container_id = container_id_;
container_id_ = info.message_id;
SCOPE_EXIT {
container_id_ = old_container_id;
};
TlParser parser(packet);
parser.fetch_int();
int32 size = parser.fetch_int();
if (parser.get_error()) {
return Status::Error(PSLICE() << "Failed to parse mtproto_api::rpc_container: " << parser.get_error());
}
for (int i = 0; i < size; i++) {
TRY_STATUS(parse_packet(parser));
}
return Status::OK();
}
Status SessionConnection::on_packet_rpc_result(const MsgInfo &info, Slice packet) {
TlParser parser(packet);
parser.fetch_int();
uint64 req_msg_id = parser.fetch_long();
if (parser.get_error()) {
return Status::Error(PSLICE() << "Failed to parse mtproto_api::rpc_result: " << parser.get_error());
}
auto object_begin_pos = packet.size() - parser.get_left_len();
int32 id = parser.fetch_int();
if (id == mtproto_api::rpc_error::ID) {
mtproto_api::rpc_error rpc_error(parser);
if (parser.get_error()) {
return Status::Error(PSLICE() << "Failed to parse mtproto_api::rpc_error: " << parser.get_error());
}
return on_packet(info, req_msg_id, rpc_error);
} else if (id == mtproto_api::gzip_packed::ID) {
mtproto_api::gzip_packed gzip(parser);
if (parser.get_error()) {
return Status::Error(PSLICE() << "Failed to parse mtproto_api::gzip_packed: " << parser.get_error());
}
// yep, gzip in rpc_result
BufferSlice object = gzdecode(gzip.packed_data_);
// send header no more optimization
return callback_->on_message_result_ok(req_msg_id, std::move(object), info.size);
}
return callback_->on_message_result_ok(req_msg_id, as_buffer_slice(packet.substr(object_begin_pos)), info.size);
}
template <class T>
Status SessionConnection::on_packet(const MsgInfo &info, const T &packet) {
LOG(ERROR) << "Unsupported: " << to_string(packet);
return Status::OK();
}
Status SessionConnection::on_packet(const MsgInfo &info, const mtproto_api::destroy_auth_key_ok &destroy_auth_key) {
return on_destroy_auth_key(destroy_auth_key);
}
Status SessionConnection::on_packet(const MsgInfo &info, const mtproto_api::destroy_auth_key_none &destroy_auth_key) {
return on_destroy_auth_key(destroy_auth_key);
}
Status SessionConnection::on_packet(const MsgInfo &info, const mtproto_api::destroy_auth_key_fail &destroy_auth_key) {
return on_destroy_auth_key(destroy_auth_key);
}
Status SessionConnection::on_destroy_auth_key(const mtproto_api::DestroyAuthKeyRes &destroy_auth_key) {
CHECK(need_destroy_auth_key_);
LOG(INFO) << to_string(destroy_auth_key);
return callback_->on_destroy_auth_key();
}
Status SessionConnection::on_packet(const MsgInfo &info, const mtproto_api::rpc_error &rpc_error) {
return on_packet(info, 0, rpc_error);
}
Status SessionConnection::on_packet(const MsgInfo &info, uint64 req_msg_id, const mtproto_api::rpc_error &rpc_error) {
VLOG(mtproto) << "ERROR " << tag("code", rpc_error.error_code_) << tag("message", rpc_error.error_message_)
<< tag("req_msg_id", req_msg_id);
if (req_msg_id != 0) {
callback_->on_message_result_error(req_msg_id, rpc_error.error_code_, as_buffer_slice(rpc_error.error_message_));
} else {
LOG(WARNING) << "rpc_error as update: [" << rpc_error.error_code_ << "][" << rpc_error.error_message_ << "]";
}
return Status::OK();
}
Status SessionConnection::on_packet(const MsgInfo &info, const mtproto_api::new_session_created &new_session_created) {
VLOG(mtproto) << "NEW_SESSION_CREATED: [first_msg_id:" << format::as_hex(new_session_created.first_msg_id_)
<< "] [unique_id:" << format::as_hex(new_session_created.unique_id_)
<< "] [server_salt:" << format::as_hex(new_session_created.server_salt_) << "]";
callback_->on_session_created(new_session_created.unique_id_, new_session_created.first_msg_id_);
return Status::OK();
}
Status SessionConnection::on_packet(const MsgInfo &info,
const mtproto_api::bad_msg_notification &bad_msg_notification) {
MsgInfo bad_info{info.session_id, bad_msg_notification.bad_msg_id_, bad_msg_notification.bad_msg_seqno_, 0};
enum Code {
MsgIdTooLow = 16,
MsgIdTooHigh = 17,
MsgIdMod4 = 18,
MsgIdCollision = 19,
MsgIdTooOld = 20,
SeqNoTooLow = 32,
SeqNoTooHigh = 33,
SeqNoNotEven = 34,
SeqNoNotOdd = 35,
InvalidContainer = 64
};
Slice common = " BUG! CALL FOR A DEVELOPER! Session will be closed";
switch (bad_msg_notification.error_code_) {
case MsgIdTooLow: {
LOG(WARNING) << bad_info << ": MessageId is too low. Message will be re-sent";
// time will be updated automagically
on_message_failed(bad_info.message_id, Status::Error("MessageId is too low"));
break;
}
case MsgIdTooHigh: {
LOG(ERROR) << bad_info << ": MessageId is too high. Session will be closed";
// All this queries will be re-sent by parent
to_send_.clear();
callback_->on_session_failed(Status::Error("MessageId is too high"));
return Status::Error("MessageId is too high");
}
case MsgIdMod4: {
LOG(ERROR) << bad_info << ": MessageId is not divisible by 4." << common;
return Status::Error("MessageId is not divisible by 4");
}
case MsgIdCollision: {
LOG(ERROR) << bad_info << ": Container and older message MessageId collision." << common;
return Status::Error("Container and older message MessageId collision");
}
case MsgIdTooOld: {
LOG(WARNING) << bad_info << ": MessageId is too old. Message will be re-sent";
on_message_failed(bad_info.message_id, Status::Error("MessageId is too old"));
break;
}
case SeqNoTooLow: {
LOG(ERROR) << bad_info << ": SeqNo is too low." << common;
return Status::Error("SeqNo is too low");
}
case SeqNoTooHigh: {
LOG(ERROR) << bad_info << ": SeqNo is too high." << common;
return Status::Error("SeqNo is too high");
}
case SeqNoNotEven: {
LOG(ERROR) << bad_info << ": SeqNo is not even for an irrelevant message." << common;
return Status::Error("SeqNo is not even for an irrelevant message");
}
case SeqNoNotOdd: {
LOG(ERROR) << bad_info << ": SeqNo is not odd for an irrelevant message." << common;
return Status::Error("SeqNo is not odd for an irrelevant message");
}
case InvalidContainer: {
LOG(ERROR) << bad_info << ": Invalid Contailer." << common;
return Status::Error("Invalid Contailer");
}
default: {
LOG(ERROR) << bad_info << ": Unknown error [code:" << bad_msg_notification.error_code_ << "]." << common;
return Status::Error("Unknown error code");
}
}
return Status::OK();
}
Status SessionConnection::on_packet(const MsgInfo &info, const mtproto_api::bad_server_salt &bad_server_salt) {
MsgInfo bad_info{info.session_id, bad_server_salt.bad_msg_id_, bad_server_salt.bad_msg_seqno_, 0};
VLOG(mtproto) << "BAD_SERVER_SALT: " << bad_info;
auth_data_->set_server_salt(bad_server_salt.new_server_salt_, Time::now_cached());
callback_->on_server_salt_updated();
on_message_failed(bad_info.message_id, Status::Error("Bad server salt"));
return Status::OK();
}
Status SessionConnection::on_packet(const MsgInfo &info, const mtproto_api::msgs_ack &msgs_ack) {
for (auto id : msgs_ack.msg_ids_) {
callback_->on_message_ack(id);
}
return Status::OK();
}
Status SessionConnection::on_packet(const MsgInfo &info, const mtproto_api::gzip_packed &gzip_packed) {
BufferSlice res = gzdecode(gzip_packed.packed_data_);
auto guard = set_buffer_slice(&res);
return on_slice_packet(info, res.as_slice());
}
Status SessionConnection::on_packet(const MsgInfo &info, const mtproto_api::pong &pong) {
VLOG(mtproto) << "PONG";
last_pong_at_ = Time::now_cached();
return callback_->on_pong();
}
Status SessionConnection::on_packet(const MsgInfo &info, const mtproto_api::future_salts &salts) {
VLOG(mtproto) << "FUTURE_SALTS";
std::vector<ServerSalt> new_salts;
for (auto &it : salts.salts_) {
new_salts.push_back(
ServerSalt{it->salt_, static_cast<double>(it->valid_since_), static_cast<double>(it->valid_until_)});
}
auth_data_->set_future_salts(new_salts, Time::now_cached());
callback_->on_server_salt_updated();
return Status::OK();
}
Status SessionConnection::on_msgs_state_info(const std::vector<int64> &ids, Slice info) {
if (ids.size() != info.size()) {
return Status::Error(PSLICE() << tag("ids.size()", ids.size()) << "!=" << tag("info.size()", info.size()));
}
size_t i = 0;
for (auto id : ids) {
callback_->on_message_info(id, info[i], 0, 0);
i++;
}
return Status::OK();
}
Status SessionConnection::on_packet(const MsgInfo &info, const mtproto_api::msgs_state_info &msgs_state_info) {
auto it = service_queries_.find(msgs_state_info.req_msg_id_);
if (it == service_queries_.end()) {
return Status::Error("Unknown msgs_state_info");
}
SCOPE_EXIT {
service_queries_.erase(it);
};
if (it->second.type != ServiceQuery::GetStateInfo) {
return Status::Error("Got msg_state_info in response not to GetStateInfo");
}
return on_msgs_state_info(it->second.message_ids, msgs_state_info.info_);
}
Status SessionConnection::on_packet(const MsgInfo &info, const mtproto_api::msgs_all_info &msgs_all_info) {
return on_msgs_state_info(msgs_all_info.msg_ids_, msgs_all_info.info_);
}
Status SessionConnection::on_packet(const MsgInfo &info, const mtproto_api::msg_detailed_info &msg_detailed_info) {
callback_->on_message_info(msg_detailed_info.msg_id_, msg_detailed_info.status_, msg_detailed_info.answer_msg_id_,
msg_detailed_info.bytes_);
return Status::OK();
}
Status SessionConnection::on_packet(const MsgInfo &info,
const mtproto_api::msg_new_detailed_info &msg_new_detailed_info) {
callback_->on_message_info(0, 0, msg_new_detailed_info.answer_msg_id_, msg_new_detailed_info.bytes_);
return Status::OK();
}
Status SessionConnection::on_slice_packet(const MsgInfo &info, Slice packet) {
if (info.seq_no & 1) {
send_ack(info.message_id);
}
TlParser parser(packet);
tl_object_ptr<mtproto_api::Object> object = mtproto_api::Object::fetch(parser);
if (parser.get_error()) {
// msg_container is not real tl object
if (packet.size() >= 4 && as<int32>(packet.begin()) == mtproto_api::msg_container::ID) {
return on_packet_container(info, packet);
}
if (packet.size() >= 4 && as<int32>(packet.begin()) == mtproto_api::rpc_result::ID) {
return on_packet_rpc_result(info, packet);
}
// It is an update... I hope.
auto status = auth_data_->check_update(info.message_id);
if (status.is_error()) {
if (status.code() == 2) {
LOG(WARNING) << "Receive too old update: " << status;
callback_->on_session_failed(Status::Error("Receive too old update"));
return status;
}
VLOG(mtproto) << "Skip update " << info.message_id << " from " << get_name() << " created in "
<< (Time::now() - created_at_) << ": " << status;
return Status::OK();
} else {
VLOG(mtproto) << "Got update from " << get_name() << " created in " << (Time::now() - created_at_)
<< " in container " << container_id_ << " from session " << auth_data_->get_session_id()
<< " with message_id " << info.message_id << ", main_message_id = " << main_message_id_
<< ", seq_no = " << info.seq_no << " and original size " << info.size;
return callback_->on_message_result_ok(0, as_buffer_slice(packet), info.size);
}
}
Status status;
downcast_call(*object, OnPacket(info, this, &status));
return status;
}
Status SessionConnection::parse_packet(TlParser &parser) {
MsgInfo info;
Slice packet;
TRY_STATUS(parse_message(parser, &info, &packet, true));
return on_slice_packet(info, packet);
}
Status SessionConnection::on_main_packet(const PacketInfo &info, Slice packet) {
// Update pong here too. Real pong can be delayed by lots of big packets
last_pong_at_ = Time::now_cached();
if (!connected_flag_) {
connected_flag_ = true;
callback_->on_connected();
}
VLOG(raw_mtproto) << "Got packet of size " << packet.size() << " from session " << format::as_hex(info.session_id)
<< ":" << format::as_hex_dump<4>(packet);
if (info.no_crypto_flag) {
return Status::Error("Unencrypted packet");
}
TlParser parser(packet);
TRY_STATUS(parse_packet(parser));
parser.fetch_end();
if (parser.get_error()) {
return Status::Error(PSLICE() << "Failed to parse packet: " << parser.get_error());
}
return Status::OK();
}
void SessionConnection::on_message_failed(uint64 id, Status status) {
callback_->on_message_failed(id, std::move(status));
sent_destroy_auth_key_ = false;
if (id == last_ping_message_id_ || id == last_ping_container_id_) {
// restart ping immediately
last_ping_at_ = 0;
last_ping_message_id_ = 0;
last_ping_container_id_ = 0;
}
auto cit = container_to_service_msg_.find(id);
if (cit != container_to_service_msg_.end()) {
for (auto nid : cit->second) {
on_message_failed_inner(nid);
}
} else {
on_message_failed_inner(id);
}
}
void SessionConnection::on_message_failed_inner(uint64 id) {
auto it = service_queries_.find(id);
if (it == service_queries_.end()) {
return;
}
switch (it->second.type) {
case ServiceQuery::ResendAnswer: {
for (auto message_id : it->second.message_ids) {
resend_answer(message_id);
}
break;
}
case ServiceQuery::GetStateInfo: {
for (auto message_id : it->second.message_ids) {
get_state_info(message_id);
}
break;
}
}
service_queries_.erase(id);
}
bool SessionConnection::must_flush_packet() {
flush_packet_at_ = 0;
// we need key to send just something
if (!auth_data_->has_auth_key(Time::now_cached())) {
return false;
}
// transport is ready
if (!raw_connection_->can_send()) {
return false;
}
bool has_salt = auth_data_->has_salt(Time::now_cached());
// do not send anything in long poll connection before we have salt
if (mode_ == Mode::HttpLongPoll && !has_salt) {
return false;
}
// http_wait
if (mode_ == Mode::HttpLongPoll) {
return true;
}
// queries and acks (+ resend & get_info)
if (has_salt && force_send_at_ != 0) {
if (Time::now_cached() > force_send_at_) {
return true;
} else {
relax_timeout_at(&flush_packet_at_, force_send_at_);
}
}
// ping
if (has_salt) {
if (must_ping()) {
return true;
}
relax_timeout_at(&flush_packet_at_, last_ping_at_ + ping_must_delay());
}
// get_future_salt
if (!has_salt) {
if (last_get_future_salt_at_ == 0) {
return true;
}
auto get_future_salts_at = last_get_future_salt_at_ + 60;
if (get_future_salts_at < Time::now_cached()) {
return true;
}
relax_timeout_at(&flush_packet_at_, get_future_salts_at);
}
if (has_salt && need_destroy_auth_key_ && !sent_destroy_auth_key_) {
return true;
}
return false;
}
Status SessionConnection::before_write() {
while (must_flush_packet()) {
flush_packet();
}
return Status::OK();
}
Status SessionConnection::on_raw_packet(const PacketInfo &info, BufferSlice packet) {
auto old_main_message_id = main_message_id_;
main_message_id_ = info.message_id;
SCOPE_EXIT {
main_message_id_ = old_main_message_id;
};
if (info.no_crypto_flag) {
return Status::Error("Unexpected unencrypted packet");
}
bool time_difference_was_updated = false;
auto status =
auth_data_->check_packet(info.session_id, info.message_id, Time::now_cached(), time_difference_was_updated);
if (time_difference_was_updated) {
callback_->on_server_time_difference_updated();
}
if (status.is_error()) {
if (status.code() == 1) {
LOG(WARNING) << "Packet ignored " << status;
send_ack(info.message_id);
return Status::OK();
} else if (status.code() == 2) {
LOG(WARNING) << "Receive too old packet: " << status;
callback_->on_session_failed(Status::Error("Receive too old packet"));
return status;
} else {
return status;
}
}
auto guard = set_buffer_slice(&packet);
TRY_STATUS(on_main_packet(info, packet.as_slice()));
return Status::OK();
}
Status SessionConnection::on_quick_ack(uint64 quick_ack_token) {
callback_->on_message_ack(quick_ack_token);
return Status::OK();
}
void SessionConnection::on_read(size_t size) {
last_read_at_ = Time::now_cached();
}
SessionConnection::SessionConnection(Mode mode, unique_ptr<RawConnection> raw_connection, AuthData *auth_data)
: raw_connection_(std::move(raw_connection)), auth_data_(auth_data) {
state_ = Init;
mode_ = mode;
created_at_ = Time::now();
}
PollableFdInfo &SessionConnection::get_poll_info() {
return raw_connection_->get_poll_info();
}
Status SessionConnection::init() {
CHECK(state_ == Init);
last_pong_at_ = Time::now_cached();
last_read_at_ = Time::now_cached();
state_ = Run;
return Status::OK();
}
void SessionConnection::set_online(bool online_flag, bool is_main) {
online_flag_ = online_flag;
is_main_ = is_main;
auto now = Time::now();
if (online_flag_) {
last_pong_at_ = now - ping_disconnect_delay() + rtt();
last_read_at_ = now - read_disconnect_delay() + rtt();
} else {
last_pong_at_ = now;
last_read_at_ = now;
}
last_ping_at_ = 0;
last_ping_message_id_ = 0;
last_ping_container_id_ = 0;
}
void SessionConnection::do_close(Status status) {
state_ = Closed;
callback_->on_before_close();
raw_connection_->close();
// NB: this could be destroyed after on_closed
callback_->on_closed(std::move(status));
}
void SessionConnection::send_crypto(const Storer &storer, uint64 quick_ack_token) {
CHECK(state_ != Closed);
raw_connection_->send_crypto(storer, auth_data_->get_session_id(), auth_data_->get_server_salt(Time::now_cached()),
auth_data_->get_auth_key(), quick_ack_token);
}
Result<uint64> SessionConnection::send_query(BufferSlice buffer, bool gzip_flag, int64 message_id,
uint64 invoke_after_id, bool use_quick_ack) {
CHECK(mode_ != Mode::HttpLongPoll); // "LongPoll connection is only for http_wait"
if (message_id == 0) {
message_id = auth_data_->next_message_id(Time::now_cached());
}
auto seq_no = auth_data_->next_seq_no(true);
if (to_send_.empty()) {
send_before(Time::now_cached() + QUERY_DELAY);
}
to_send_.push_back(MtprotoQuery{message_id, seq_no, std::move(buffer), gzip_flag, invoke_after_id, use_quick_ack});
VLOG(mtproto) << "Invoke query " << message_id << " of size " << to_send_.back().packet.size() << " with seq_no "
<< seq_no << " after " << invoke_after_id << (use_quick_ack ? " with quick ack" : "");
return message_id;
}
void SessionConnection::get_state_info(int64 message_id) {
if (to_get_state_info_.empty()) {
send_before(Time::now_cached());
}
to_get_state_info_.push_back(message_id);
}
void SessionConnection::resend_answer(int64 message_id) {
if (to_resend_answer_.empty()) {
send_before(Time::now_cached() + RESEND_ANSWER_DELAY);
}
to_resend_answer_.push_back(message_id);
}
void SessionConnection::cancel_answer(int64 message_id) {
if (to_cancel_answer_.empty()) {
send_before(Time::now_cached() + RESEND_ANSWER_DELAY);
}
to_cancel_answer_.push_back(message_id);
}
void SessionConnection::destroy_key() {
LOG(INFO) << "need_destroy_key = true";
need_destroy_auth_key_ = true;
}
std::pair<uint64, BufferSlice> SessionConnection::encrypted_bind(int64 perm_key, int64 nonce, int32 expires_at) {
int64 temp_key = auth_data_->get_tmp_auth_key().id();
mtproto_api::bind_auth_key_inner object(nonce, temp_key, perm_key, auth_data_->get_session_id(), expires_at);
auto object_storer = create_storer(object);
auto size = object_storer.size();
auto object_packet = BufferWriter{size, 0, 0};
auto real_size = object_storer.store(object_packet.as_slice().ubegin());
CHECK(size == real_size);
MtprotoQuery query{
auth_data_->next_message_id(Time::now_cached()), 0, object_packet.as_buffer_slice(), false, 0, false};
PacketStorer<QueryImpl> query_storer(query, Slice());
PacketInfo info;
info.version = 1;
info.no_crypto_flag = false;
info.salt = Random::secure_int64();
info.session_id = Random::secure_int64();
auto packet = BufferWriter{Transport::write(query_storer, auth_data_->get_main_auth_key(), &info), 0, 0};
Transport::write(query_storer, auth_data_->get_main_auth_key(), &info, packet.as_slice());
return std::make_pair(query.message_id, packet.as_buffer_slice());
}
void SessionConnection::send_ack(uint64 message_id) {
VLOG(mtproto) << "Send ack: [msg_id:" << format::as_hex(message_id) << "]";
if (to_ack_.empty()) {
send_before(Time::now_cached() + ACK_DELAY);
}
auto ack = static_cast<int64>(message_id);
// an easiest way to eliminate duplicated acks for gzipped packets
if (to_ack_.empty() || to_ack_.back() != ack) {
to_ack_.push_back(ack);
}
}
// don't send ping in poll mode.
bool SessionConnection::may_ping() const {
return last_ping_at_ == 0 || (mode_ != Mode::HttpLongPoll && last_ping_at_ + ping_may_delay() < Time::now_cached());
}
bool SessionConnection::must_ping() const {
return last_ping_at_ == 0 || (mode_ != Mode::HttpLongPoll && last_ping_at_ + ping_must_delay() < Time::now_cached());
}
void SessionConnection::flush_packet() {
bool has_salt = auth_data_->has_salt(Time::now_cached());
// ping
uint64 container_id = 0;
int64 ping_id = 0;
if (has_salt && may_ping()) {
ping_id = ++cur_ping_id_;
last_ping_at_ = Time::now_cached();
}
// http_wait
int max_delay = -1;
int max_after = -1;
int max_wait = -1;
if (mode_ == Mode::HttpLongPoll) {
max_delay = HTTP_MAX_DELAY;
max_after = HTTP_MAX_AFTER;
auto time_to_disconnect =
std::min(ping_disconnect_delay() + last_pong_at_, read_disconnect_delay() + last_read_at_) - Time::now_cached();
max_wait = min(http_max_wait(), static_cast<int>(1000 * max(0.1, time_to_disconnect - rtt())));
} else if (mode_ == Mode::Http) {
max_delay = HTTP_MAX_DELAY;
max_after = HTTP_MAX_AFTER;
max_wait = 0;
}
// future salts
int future_salt_n = 0;
if (mode_ != Mode::HttpLongPoll) {
if (auth_data_->need_future_salts(Time::now_cached()) &&
(last_get_future_salt_at_ == 0 || last_get_future_salt_at_ + 60 < Time::now_cached())) {
last_get_future_salt_at_ = Time::now_cached();
future_salt_n = 64;
}
}
size_t send_till = 0, send_size = 0;
// send at most 1020 queries, of total size 2^15
// don't send anything if have no salt
if (has_salt) {
while (send_till < to_send_.size() && send_till < 1020 && send_size < (1 << 15)) {
send_size += to_send_[send_till].packet.size();
send_till++;
}
}
std::vector<MtprotoQuery> queries;
if (send_till == to_send_.size()) {
queries = std::move(to_send_);
} else if (send_till != 0) {
queries.reserve(send_till);
std::move(to_send_.begin(), to_send_.begin() + send_till, std::back_inserter(queries));
to_send_.erase(to_send_.begin(), to_send_.begin() + send_till);
}
bool destroy_auth_key = need_destroy_auth_key_ && !sent_destroy_auth_key_;
if (queries.empty() && to_ack_.empty() && ping_id == 0 && max_delay < 0 && future_salt_n == 0 &&
to_resend_answer_.empty() && to_cancel_answer_.empty() && to_get_state_info_.empty() && !destroy_auth_key) {
force_send_at_ = 0;
return;
}
sent_destroy_auth_key_ |= destroy_auth_key;
VLOG(mtproto) << "Sent packet: " << tag("query_count", queries.size()) << tag("ack_cnt", to_ack_.size())
<< tag("ping", ping_id != 0) << tag("http_wait", max_delay >= 0)
<< tag("future_salt", future_salt_n > 0) << tag("get_info", to_get_state_info_.size())
<< tag("resend", to_resend_answer_.size()) << tag("cancel", to_cancel_answer_.size())
<< tag("destroy_key", destroy_auth_key) << tag("auth_id", auth_data_->get_auth_key().id());
auto cut_tail = [](auto &v, size_t size, Slice name) {
if (size >= v.size()) {
return std::move(v);
}
LOG(WARNING) << "Too much ids in container: " << v.size() << " " << name;
std::decay_t<decltype(v)> res(std::make_move_iterator(v.end() - size), std::make_move_iterator(v.end()));
v.resize(v.size() - size);
return res;
};
// no more than 8192 ids per container..
auto to_resend_answer = cut_tail(to_resend_answer_, 8192, "resend_answer");
uint64 resend_answer_id = 0;
CHECK(queries.size() <= 1020);
auto to_cancel_answer = cut_tail(to_cancel_answer_, 1020 - queries.size(), "cancel_answer");
auto to_get_state_info = cut_tail(to_get_state_info_, 8192, "get_state_info");
uint64 get_state_info_id = 0;
auto to_ack = cut_tail(to_ack_, 8192, "ack");
uint64 ping_message_id = 0;
bool use_quick_ack =
std::any_of(queries.begin(), queries.end(), [](const auto &query) { return query.use_quick_ack; });
{
uint64 parent_message_id = 0;
auto storer = PacketStorer<CryptoImpl>(
queries, auth_data_->get_header(), std::move(to_ack), ping_id, ping_disconnect_delay() + 2, max_delay,
max_after, max_wait, future_salt_n, to_get_state_info, to_resend_answer, to_cancel_answer, destroy_auth_key,
auth_data_, &container_id, &get_state_info_id, &resend_answer_id, &ping_message_id, &parent_message_id);
auto quick_ack_token = use_quick_ack ? parent_message_id : 0;
send_crypto(storer, quick_ack_token);
}
if (resend_answer_id) {
service_queries_.insert({resend_answer_id, ServiceQuery{ServiceQuery::ResendAnswer, std::move(to_resend_answer)}});
}
if (get_state_info_id) {
service_queries_.insert(
{get_state_info_id, ServiceQuery{ServiceQuery::GetStateInfo, std::move(to_get_state_info)}});
}
if (ping_id != 0) {
last_ping_container_id_ = container_id;
last_ping_message_id_ = ping_message_id;
}
if (container_id != 0) {
vector<uint64> ids = transform(queries, [](const MtprotoQuery &x) { return static_cast<uint64>(x.message_id); });
// some acks may be lost here. Nobody will resend them if something goes wrong with query.
// It is mostly problem for server. We will just drop this answers in next connection
//
// get future salt too.
// So I will re-ask salt if have no answer in 60 second.
callback_->on_container_sent(container_id, std::move(ids));
if (resend_answer_id) {
container_to_service_msg_[container_id].push_back(resend_answer_id);
}
if (get_state_info_id) {
container_to_service_msg_[container_id].push_back(get_state_info_id);
}
}
to_ack_.clear();
if (to_send_.empty()) {
force_send_at_ = 0;
}
}
void SessionConnection::send_before(double tm) {
if (force_send_at_ == 0 || force_send_at_ > tm) {
force_send_at_ = tm;
}
}
Status SessionConnection::do_flush() {
CHECK(state_ != Closed);
if (state_ == Init) {
TRY_STATUS(init());
}
if (!auth_data_->has_auth_key(Time::now_cached())) {
return Status::Error("No auth key");
}
TRY_STATUS(raw_connection_->flush(auth_data_->get_auth_key(), *this));
if (last_pong_at_ + ping_disconnect_delay() < Time::now_cached()) {
raw_connection_->stats_callback()->on_error();
return Status::Error(PSLICE() << "Ping timeout of " << ping_disconnect_delay() << " seconds expired");
}
if (last_read_at_ + read_disconnect_delay() < Time::now_cached()) {
raw_connection_->stats_callback()->on_error();
return Status::Error(PSLICE() << "Read timeout of " << read_disconnect_delay() << " seconds expired");
}
return Status::OK();
}
double SessionConnection::flush(SessionConnection::Callback *callback) {
callback_ = callback;
wakeup_at_ = 0;
auto status = do_flush();
// check error
if (status.is_error()) {
do_close(std::move(status));
return 0;
}
// wakeup_at
// two independent timeouts
// 1. close connection after PING_DISCONNECT_DELAY after last_pong.
// 2. the one returned by must_flush_packet
relax_timeout_at(&wakeup_at_, last_pong_at_ + ping_disconnect_delay() + 0.002);
relax_timeout_at(&wakeup_at_, last_read_at_ + read_disconnect_delay() + 0.002);
// CHECK(wakeup_at > Time::now_cached());
relax_timeout_at(&wakeup_at_, flush_packet_at_);
return wakeup_at_;
}
void SessionConnection::force_close(SessionConnection::Callback *callback) {
CHECK(state_ != Closed);
callback_ = callback;
do_close(Status::OK());
}
} // namespace mtproto
} // namespace td