0xdd quick ack

GitOrigin-RevId: 3e35df493f46f91cd1cf81671819848d9640fedd
This commit is contained in:
Arseny Smirnov 2018-06-17 20:52:40 +03:00
parent 3827fb91eb
commit 69cf867d47
6 changed files with 148 additions and 53 deletions

View File

@ -76,51 +76,69 @@ Status RawConnection::flush_read(const AuthKey &auth_key, Callback &callback) {
} }
if (quick_ack != 0) { if (quick_ack != 0) {
auto it = quick_ack_to_token_.find(quick_ack); on_quick_ack(quick_ack, callback);
if (it == quick_ack_to_token_.end()) {
LOG(WARNING) << Status::Error(PSLICE() << "Unknown " << tag("quick_ack", quick_ack));
continue;
// TODO: return Status::Error(PSLICE() << "Unknown " << tag("quick_ack", quick_ack));
}
auto token = it->second;
quick_ack_to_token_.erase(it);
callback.on_quick_ack(token);
continue; continue;
} }
MutableSlice data = packet.as_slice();
PacketInfo info; PacketInfo info;
info.version = 2; info.version = 2;
int32 error_code = 0; TRY_RESULT(read_result, mtproto::Transport::read(packet.as_slice(), auth_key, &info));
TRY_STATUS(mtproto::Transport::read(data, auth_key, &info, &data, &error_code)); switch (read_result.type()) {
case mtproto::Transport::ReadResult::Quickack: {
if (error_code) { TRY_STATUS(on_quick_ack(read_result.quick_ack(), callback));
if (error_code == -429) { break;
if (stats_callback_) { }
stats_callback_->on_mtproto_error(); case mtproto::Transport::ReadResult::Error: {
TRY_STATUS(on_read_mtproto_error(read_result.error()));
break;
}
case mtproto::Transport::ReadResult::Packet: {
// If a packet was successfully decrypted, then it is ok to assume that the connection is alive
if (!auth_key.empty()) {
if (stats_callback_) {
stats_callback_->on_pong();
}
} }
return Status::Error(500, PSLICE() << "Mtproto error: " << error_code);
}
if (error_code == -404) {
return Status::Error(-404, PSLICE() << "Mtproto error: " << error_code);
}
return Status::Error(PSLICE() << "Mtproto error: " << error_code);
}
// If a packet was successfully decrypted, then it is ok to assume that the connection is alive TRY_STATUS(callback.on_raw_packet(info, packet.from_slice(read_result.packet())));
if (!auth_key.empty()) { break;
if (stats_callback_) {
stats_callback_->on_pong();
} }
case mtproto::Transport::ReadResult::Nop:
break;
} }
TRY_STATUS(callback.on_raw_packet(info, packet.from_slice(data)));
} }
TRY_STATUS(std::move(r)); TRY_STATUS(std::move(r));
return Status::OK(); return Status::OK();
} }
Status RawConnection::on_read_mtproto_error(int32 error_code) {
if (error_code == -429) {
if (stats_callback_) {
stats_callback_->on_mtproto_error();
}
return Status::Error(500, PSLICE() << "Mtproto error: " << error_code);
}
if (error_code == -404) {
return Status::Error(-404, PSLICE() << "Mtproto error: " << error_code);
}
return Status::Error(PSLICE() << "Mtproto error: " << error_code);
}
Status RawConnection::on_quick_ack(uint32 quick_ack, Callback &callback) {
auto it = quick_ack_to_token_.find(quick_ack);
if (it == quick_ack_to_token_.end()) {
LOG(WARNING) << Status::Error(PSLICE() << "Unknown " << tag("quick_ack", quick_ack));
return Status::OK();
// TODO: return Status::Error(PSLICE() << "Unknown " << tag("quick_ack", quick_ack));
}
auto token = it->second;
quick_ack_to_token_.erase(it);
callback.on_quick_ack(token);
return Status::OK();
}
Status RawConnection::flush_write() { Status RawConnection::flush_write() {
TRY_RESULT(size, socket_fd_.flush_write()); TRY_RESULT(size, socket_fd_.flush_write());
if (size > 0 && stats_callback_) { if (size > 0 && stats_callback_) {

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@ -122,6 +122,9 @@ class RawConnection {
Status flush_read(const AuthKey &auth_key, Callback &callback); Status flush_read(const AuthKey &auth_key, Callback &callback);
Status flush_write(); Status flush_write();
Status on_quick_ack(uint32 quick_ack, Callback &callback);
Status on_read_mtproto_error(int32 error_code);
Status do_flush(const AuthKey &auth_key, Callback &callback) TD_WARN_UNUSED_RESULT { Status do_flush(const AuthKey &auth_key, Callback &callback) TD_WARN_UNUSED_RESULT {
if (has_error_) { if (has_error_) {
return Status::Error("Connection has already failed"); return Status::Error("Connection has already failed");

View File

@ -285,29 +285,41 @@ Result<uint64> Transport::read_auth_key_id(Slice message) {
return as<uint64>(message.begin()); return as<uint64>(message.begin());
} }
Status Transport::read(MutableSlice message, const AuthKey &auth_key, PacketInfo *info, MutableSlice *data, Result<Transport::ReadResult> Transport::read(MutableSlice message, const AuthKey &auth_key, PacketInfo *info) {
int32 *error_code) { if (message.size() < 16) {
if (message.size() < 8) { if (message.size() < 4) {
if (message.size() >= 4) { return Status::Error(PSLICE() << "Invalid mtproto message: smaller than 4 bytes [size=" << message.size() << "]");
*error_code = as<int32>(message.begin());
return Status::OK();
} }
return Status::Error(PSLICE() << "Invalid mtproto message: smaller than 8 bytes [size=" << message.size() << "]");
auto code = as<int32>(message.begin());
if (code == 0) {
return ReadResult::make_nop();
} else if (code == -1) {
if (message.size() >= 8) {
return ReadResult::make_quick_ack(as<uint32>(message.begin() + 4));
}
} else {
return ReadResult::make_error(code);
}
return Status::Error(PSLICE() << "Invalid small mtproto message");
} }
info->auth_key_id = as<int64>(message.begin()); info->auth_key_id = as<int64>(message.begin());
info->no_crypto_flag = info->auth_key_id == 0; info->no_crypto_flag = info->auth_key_id == 0;
MutableSlice data;
if (info->type == PacketInfo::EndToEnd) { if (info->type == PacketInfo::EndToEnd) {
return read_e2e_crypto(message, auth_key, info, data); TRY_STATUS(read_e2e_crypto(message, auth_key, info, &data));
} }
if (info->no_crypto_flag) { if (info->no_crypto_flag) {
return read_no_crypto(message, info, data); TRY_STATUS(read_no_crypto(message, info, &data));
} else { } else {
if (auth_key.empty()) { if (auth_key.empty()) {
return Status::Error("Failed to decrypt mtproto message: auth key is empty"); return Status::Error("Failed to decrypt mtproto message: auth key is empty");
} }
return read_crypto(message, auth_key, info, data); TRY_STATUS(read_crypto(message, auth_key, info, &data));
} }
} return ReadResult::make_packet(data);
} // namespace mtproto
size_t Transport::write(const Storer &storer, const AuthKey &auth_key, PacketInfo *info, MutableSlice dest) { size_t Transport::write(const Storer &storer, const AuthKey &auth_key, PacketInfo *info, MutableSlice dest) {
if (info->type == PacketInfo::EndToEnd) { if (info->type == PacketInfo::EndToEnd) {

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@ -137,6 +137,57 @@ struct PacketInfo {
class Transport { class Transport {
public: public:
class ReadResult {
public:
enum Type { Packet, Nop, Error, Quickack };
static ReadResult make_nop() {
return {};
}
static ReadResult make_error(int32 error_code) {
ReadResult res;
res.type_ = Error;
res.error_code_ = error_code;
return res;
}
static ReadResult make_packet(MutableSlice packet) {
CHECK(!packet.empty());
ReadResult res;
res.type_ = Packet;
res.packet_ = packet;
return res;
}
static ReadResult make_quick_ack(uint32 quick_ack) {
ReadResult res;
res.type_ = Quickack;
res.quick_ack_ = quick_ack;
return res;
}
Type type() const {
return type_;
}
MutableSlice packet() const {
CHECK(type_ == Packet);
return packet_;
}
uint32 quick_ack() const {
CHECK(type_ == Quickack);
return quick_ack_;
}
int32 error() const {
CHECK(type_ == Error);
return error_code_;
}
private:
Type type_ = Nop;
MutableSlice packet_;
int32 error_code_;
uint32 quick_ack_;
};
static Result<uint64> read_auth_key_id(Slice message); static Result<uint64> read_auth_key_id(Slice message);
// Reads mtproto packet from [message] and saves into [data]. // Reads mtproto packet from [message] and saves into [data].
@ -145,8 +196,7 @@ class Transport {
// Returns size of mtproto packet. // Returns size of mtproto packet.
// If dest.size() >= size, the packet is also written into [dest]. // If dest.size() >= size, the packet is also written into [dest].
// If auth_key is nonempty, encryption will be used. // If auth_key is nonempty, encryption will be used.
static Status read(MutableSlice message, const AuthKey &auth_key, PacketInfo *info, MutableSlice *data, static Result<ReadResult> read(MutableSlice message, const AuthKey &auth_key, PacketInfo *info) TD_WARN_UNUSED_RESULT;
int32 *error_code) TD_WARN_UNUSED_RESULT;
static size_t write(const Storer &storer, const AuthKey &auth_key, PacketInfo *info, static size_t write(const Storer &storer, const AuthKey &auth_key, PacketInfo *info,
MutableSlice dest = MutableSlice()); MutableSlice dest = MutableSlice());

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@ -805,7 +805,7 @@ Result<std::tuple<uint64, BufferSlice, int32>> SecretChatActor::decrypt(BufferSl
BufferSlice encrypted_message_copy; BufferSlice encrypted_message_copy;
int32 mtproto_version = -1; int32 mtproto_version = -1;
int32 error_code = 0; Result<mtproto::Transport::ReadResult> r_read_result;
for (size_t i = 0; i < versions.size(); i++) { for (size_t i = 0; i < versions.size(); i++) {
bool is_last = i + 1 == versions.size(); bool is_last = i + 1 == versions.size();
encrypted_message_copy = encrypted_message.copy(); encrypted_message_copy = encrypted_message.copy();
@ -817,19 +817,31 @@ Result<std::tuple<uint64, BufferSlice, int32>> SecretChatActor::decrypt(BufferSl
mtproto_version = versions[i]; mtproto_version = versions[i];
info.version = mtproto_version; info.version = mtproto_version;
info.is_creator = auth_state_.x == 0; info.is_creator = auth_state_.x == 0;
auto status = mtproto::Transport::read(data, *auth_key, &info, &data, &error_code); r_read_result = mtproto::Transport::read(data, *auth_key, &info);
if (is_last) { if (!is_last && r_read_result.is_error()) {
TRY_STATUS(std::move(status)); LOG(WARNING) << tag("mtproto", mtproto_version) << " decryption failed " << r_read_result.error();
} else if (status.is_error()) {
LOG(WARNING) << tag("mtproto", mtproto_version) << " decryption failed " << status;
continue; continue;
} }
break; break;
} }
TRY_RESULT(read_result, std::move(r_read_result));
if (error_code) { switch (read_result.type()) {
return Status::Error(PSLICE() << "Got mtproto error code: " << error_code); case mtproto::Transport::ReadResult::Quickack: {
return Status::Error("Got quickack instead of a message");
}
case mtproto::Transport::ReadResult::Error: {
return Status::Error(PSLICE() << "Got mtproto error code instead of a message: " << read_result.error());
}
case mtproto::Transport::ReadResult::Nop: {
return Status::Error("Got nop instead of a message");
break;
}
case mtproto::Transport::ReadResult::Packet: {
data = read_result.packet();
break;
}
} }
auto len = as<int32>(data.begin()); auto len = as<int32>(data.begin());
data = data.substr(4, len); data = data.substr(4, len);
if (!is_aligned_pointer<4>(data.data())) { if (!is_aligned_pointer<4>(data.data())) {

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@ -14,7 +14,7 @@ int32 VERBOSITY_NAME(binlog) = VERBOSITY_NAME(DEBUG) + 8;
Status BinlogEvent::init(BufferSlice &&raw_event, bool check_crc) { Status BinlogEvent::init(BufferSlice &&raw_event, bool check_crc) {
TlParser parser(raw_event.as_slice()); TlParser parser(raw_event.as_slice());
size_ = parser.fetch_int(); size_ = parser.fetch_int();
CHECK(size_ == raw_event.size()); CHECK(size_ == raw_event.size()) << size_ << " " << raw_event.size();
id_ = parser.fetch_long(); id_ = parser.fetch_long();
type_ = parser.fetch_int(); type_ = parser.fetch_int();
flags_ = parser.fetch_int(); flags_ = parser.fetch_int();