// // Copyright Aliaksei Levin (levlam@telegram.org), Arseny Smirnov (arseny30@gmail.com) 2014-2021 // // 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/utils/common.h" #include "td/utils/logging.h" #include "td/utils/SharedSlice.h" #include "td/utils/Slice.h" #include "td/utils/StorerBase.h" #include namespace td { class TlStorerUnsafe { unsigned char *buf_; public: explicit TlStorerUnsafe(unsigned char *buf) : buf_(buf) { } TlStorerUnsafe(const TlStorerUnsafe &other) = delete; TlStorerUnsafe &operator=(const TlStorerUnsafe &other) = delete; template void store_binary(const T &x) { std::memcpy(buf_, &x, sizeof(T)); buf_ += sizeof(T); } void store_int(int32 x) { store_binary(x); } void store_long(int64 x) { store_binary(x); } void store_slice(Slice slice) { std::memcpy(buf_, slice.begin(), slice.size()); buf_ += slice.size(); } void store_storer(const Storer &storer) { size_t size = storer.store(buf_); buf_ += size; } template void store_string(const T &str) { size_t len = str.size(); if (len < 254) { *buf_++ = static_cast(len); len++; } else if (len < (1 << 24)) { *buf_++ = static_cast(254); *buf_++ = static_cast(len & 255); *buf_++ = static_cast((len >> 8) & 255); *buf_++ = static_cast(len >> 16); } else if (static_cast(len) < (static_cast(1) << 32)) { *buf_++ = static_cast(255); *buf_++ = static_cast(len & 255); *buf_++ = static_cast((len >> 8) & 255); *buf_++ = static_cast((len >> 16) & 255); *buf_++ = static_cast((len >> 24) & 255); *buf_++ = static_cast(0); *buf_++ = static_cast(0); *buf_++ = static_cast(0); } else { LOG(FATAL) << "String size " << len << " is too big to be stored"; } std::memcpy(buf_, str.data(), str.size()); buf_ += str.size(); switch (len & 3) { case 1: *buf_++ = 0; // fallthrough case 2: *buf_++ = 0; // fallthrough case 3: *buf_++ = 0; } } unsigned char *get_buf() const { return buf_; } }; class TlStorerCalcLength { size_t length = 0; public: TlStorerCalcLength() = default; TlStorerCalcLength(const TlStorerCalcLength &other) = delete; TlStorerCalcLength &operator=(const TlStorerCalcLength &other) = delete; template void store_binary(const T &x) { length += sizeof(T); } void store_int(int32 x) { store_binary(x); } void store_long(int64 x) { store_binary(x); } void store_slice(Slice slice) { length += slice.size(); } void store_storer(const Storer &storer) { length += storer.size(); } template void store_string(const T &str) { size_t add = str.size(); if (add < 254) { add += 1; } else if (add < (1 << 24)) { add += 4; } else { add += 8; } add = (add + 3) & -4; length += add; } size_t get_length() const { return length; } }; template size_t tl_calc_length(const T &data) { TlStorerCalcLength storer_calc_length; data.store(storer_calc_length); return storer_calc_length.get_length(); } template size_t tl_store_unsafe(const T &data, unsigned char *dst) TD_WARN_UNUSED_RESULT; template size_t tl_store_unsafe(const T &data, unsigned char *dst) { TlStorerUnsafe storer_unsafe(dst); data.store(storer_unsafe); return static_cast(storer_unsafe.get_buf() - dst); } } // namespace td