// // 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) // #pragma once #include "td/mtproto/PacketInfo.h" #include "td/mtproto/utils.h" #include "td/utils/common.h" #include "td/utils/logging.h" #include "td/utils/Slice.h" #include "td/utils/Status.h" #include "td/utils/UInt.h" #include namespace td { namespace mtproto { class AuthKey; #pragma pack(push, 4) #if TD_MSVC #pragma warning(push) #pragma warning(disable : 4200) #endif struct CryptoHeader { uint64 auth_key_id; UInt128 message_key; // encrypted part uint64 salt; uint64 session_id; // It is weird to generate message_id and seq_no while writing a packet. // // uint64 message_id; // uint32 seq_no; // uint32 message_data_length; uint8 data[0]; // use compiler extension static size_t encrypted_header_size() { return sizeof(salt) + sizeof(session_id); } uint8 *encrypt_begin() { return reinterpret_cast(&salt); } const uint8 *encrypt_begin() const { return reinterpret_cast(&salt); } CryptoHeader() = delete; CryptoHeader(const CryptoHeader &) = delete; CryptoHeader(CryptoHeader &&) = delete; CryptoHeader &operator=(const CryptoHeader &) = delete; CryptoHeader &operator=(CryptoHeader &&) = delete; ~CryptoHeader() = delete; }; struct CryptoPrefix { uint64 message_id; uint32 seq_no; uint32 message_data_length; }; struct EndToEndHeader { uint64 auth_key_id; UInt128 message_key; // encrypted part // uint32 message_data_length; uint8 data[0]; // use compiler extension static size_t encrypted_header_size() { return 0; } uint8 *encrypt_begin() { return reinterpret_cast(&data); } const uint8 *encrypt_begin() const { return reinterpret_cast(&data); } EndToEndHeader() = delete; EndToEndHeader(const EndToEndHeader &) = delete; EndToEndHeader(EndToEndHeader &&) = delete; EndToEndHeader &operator=(const EndToEndHeader &) = delete; EndToEndHeader &operator=(EndToEndHeader &&) = delete; ~EndToEndHeader() = delete; }; struct EndToEndPrefix { uint32 message_data_length; }; struct NoCryptoHeader { uint64 auth_key_id; // message_id is removed from CryptoHeader. Should be removed from here too. // // int64 message_id; // uint32 message_data_length; uint8 data[0]; // use compiler extension NoCryptoHeader() = delete; NoCryptoHeader(const NoCryptoHeader &) = delete; NoCryptoHeader(NoCryptoHeader &&) = delete; NoCryptoHeader &operator=(const NoCryptoHeader &) = delete; NoCryptoHeader &operator=(NoCryptoHeader &&) = delete; ~NoCryptoHeader() = delete; }; #if TD_MSVC #pragma warning(pop) #endif #pragma pack(pop) class Transport { 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_ = 0; uint32 quick_ack_ = 0; }; static Result read_auth_key_id(Slice message); // Reads mtproto packet from [message] and saves into [data]. // If message is encrypted, [auth_key] is used. // Decryption and unpacking is made inplace, so [data] will be subslice of [message]. // Returns size of mtproto packet. // If dest.size() >= size, the packet is also written into [dest]. // If auth_key is nonempty, encryption will be used. static Result read(MutableSlice message, const AuthKey &auth_key, PacketInfo *info) TD_WARN_UNUSED_RESULT; static size_t write(const Storer &storer, const AuthKey &auth_key, PacketInfo *info, MutableSlice dest = MutableSlice()); private: template static std::tuple calc_message_ack_and_key(const HeaderT &head, size_t data_size); static std::tuple calc_message_key2(const AuthKey &auth_key, int X, Slice to_encrypt); template static size_t calc_crypto_size(size_t data_size); template static size_t calc_crypto_size2(size_t data_size); static size_t calc_no_crypto_size(size_t data_size); static Status read_no_crypto(MutableSlice message, PacketInfo *info, MutableSlice *data) TD_WARN_UNUSED_RESULT; static Status read_crypto(MutableSlice message, const AuthKey &auth_key, PacketInfo *info, MutableSlice *data) TD_WARN_UNUSED_RESULT; static Status read_e2e_crypto(MutableSlice message, const AuthKey &auth_key, PacketInfo *info, MutableSlice *data) TD_WARN_UNUSED_RESULT; template static Status read_crypto_impl(int X, MutableSlice message, const AuthKey &auth_key, HeaderT **header_ptr, PrefixT **prefix_ptr, MutableSlice *data, PacketInfo *info) TD_WARN_UNUSED_RESULT; static size_t write_no_crypto(const Storer &storer, PacketInfo *info, MutableSlice dest); static size_t write_crypto(const Storer &storer, const AuthKey &auth_key, PacketInfo *info, MutableSlice dest); static size_t write_e2e_crypto(const Storer &storer, const AuthKey &auth_key, PacketInfo *info, MutableSlice dest); template static void write_crypto_impl(int X, const Storer &storer, const AuthKey &auth_key, PacketInfo *info, HeaderT *header, size_t data_size); }; } // namespace mtproto } // namespace td