6d6bffaa7b
GitOrigin-RevId: 5fb3eb0acee44aa1db4d943e99ddd19a1e005c44
280 lines
8.1 KiB
C++
280 lines
8.1 KiB
C++
//
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// Copyright Aliaksei Levin (levlam@telegram.org), Arseny Smirnov (arseny30@gmail.com) 2014-2019
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//
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// Distributed under the Boost Software License, Version 1.0. (See accompanying
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// file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
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//
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#include "td/mtproto/TcpTransport.h"
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#include "td/utils/as.h"
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#include "td/utils/common.h"
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#include "td/utils/Random.h"
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#include "td/utils/Slice.h"
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#include <algorithm>
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namespace td {
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namespace mtproto {
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namespace tcp {
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size_t IntermediateTransport::read_from_stream(ChainBufferReader *stream, BufferSlice *message, uint32 *quick_ack) {
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CHECK(message);
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size_t stream_size = stream->size();
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size_t header_size = 4;
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if (stream->size() < header_size) {
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return header_size;
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}
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uint32 data_size;
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auto it = stream->clone();
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it.advance(header_size, MutableSlice(reinterpret_cast<uint8 *>(&data_size), sizeof(data_size)));
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if (data_size & (1u << 31)) {
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if (quick_ack) {
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*quick_ack = data_size;
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}
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stream->advance(header_size);
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return 0;
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}
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size_t total_size = data_size + header_size;
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if (stream_size < total_size) {
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// optimization
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// stream->make_solid(total_size);
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return total_size;
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}
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stream->advance(header_size);
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*message = stream->cut_head(data_size).move_as_buffer_slice();
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return 0;
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}
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void IntermediateTransport::write_prepare_inplace(BufferWriter *message, bool quick_ack) {
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size_t size = message->size();
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CHECK(size % 4 == 0);
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CHECK(size < (1 << 24));
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if (quick_ack) {
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size |= static_cast<size_t>(1) << 31;
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}
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size_t prepend_size = 4;
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MutableSlice prepend = message->prepare_prepend();
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CHECK(prepend.size() >= prepend_size);
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message->confirm_prepend(prepend_size);
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size_t append_size = 0;
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if (with_padding()) {
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append_size = static_cast<uint32>(Random::secure_int32()) % 16;
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MutableSlice append = message->prepare_append().truncate(append_size);
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CHECK(append.size() == append_size);
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Random::secure_bytes(append);
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message->confirm_append(append.size());
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}
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as<uint32>(message->as_slice().begin()) = static_cast<uint32>(size + append_size);
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}
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void IntermediateTransport::init_output_stream(ChainBufferWriter *stream) {
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const uint32 magic = with_padding() ? 0xdddddddd : 0xeeeeeeee;
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stream->append(Slice(reinterpret_cast<const char *>(&magic), 4));
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}
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size_t AbridgedTransport::read_from_stream(ChainBufferReader *stream, BufferSlice *message, uint32 *quick_ack) {
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if (stream->empty()) {
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return 1;
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}
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uint8 byte = 0;
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stream->clone().advance(1, MutableSlice(&byte, 1));
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size_t header_size;
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uint32 data_size;
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if (byte < 0x7f) {
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header_size = 1;
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data_size = byte * 4u;
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} else {
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if (stream->size() < 4) {
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return 4;
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}
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header_size = 4;
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stream->clone().advance(4, MutableSlice(reinterpret_cast<char *>(&data_size), sizeof(data_size)));
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data_size >>= 8;
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data_size = data_size * 4;
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}
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size_t total_size = header_size + data_size;
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if (stream->size() < total_size) {
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// optimization
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// stream->make_solid(total_size);
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return total_size;
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}
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stream->advance(header_size);
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*message = stream->cut_head(data_size).move_as_buffer_slice();
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return 0;
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}
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void AbridgedTransport::write_prepare_inplace(BufferWriter *message, bool quick_ack) {
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CHECK(!quick_ack);
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size_t size = message->size() / 4;
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CHECK(size % 4 == 0);
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CHECK(size < 1 << 24);
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size_t prepend_size = size >= 0x7f ? 4 : 1;
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MutableSlice prepend = message->prepare_prepend();
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CHECK(prepend.size() >= prepend_size);
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message->confirm_prepend(prepend_size);
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MutableSlice data = message->as_slice();
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if (size >= 0x7f) {
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uint32 size_encoded = 0x7f + (static_cast<uint32>(size) << 8);
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as<uint32>(data.begin()) = size_encoded;
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} else {
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as<uint8>(data.begin()) = static_cast<uint8>(size);
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}
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}
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void AbridgedTransport::init_output_stream(ChainBufferWriter *stream) {
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stream->append("\xef");
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}
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void ObfuscatedTransport::init(ChainBufferReader *input, ChainBufferWriter *output) {
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input_ = input;
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output_ = output;
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const size_t header_size = 64;
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string header(header_size, '\0');
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MutableSlice header_slice = header;
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int32 try_cnt = 0;
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while (true) {
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try_cnt++;
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CHECK(try_cnt < 10);
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Random::secure_bytes(header_slice.ubegin(), header.size());
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if (as<uint8>(header.data()) == 0xef) {
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continue;
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}
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uint32 first_int = as<uint32>(header.data());
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if (first_int == 0x44414548 || first_int == 0x54534f50 || first_int == 0x20544547 || first_int == 0x4954504f ||
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first_int == 0xdddddddd || first_int == 0xeeeeeeee) {
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continue;
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}
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uint32 second_int = as<uint32>(header.data() + sizeof(uint32));
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if (second_int == 0) {
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continue;
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}
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break;
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}
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// TODO: It is actually IntermediateTransport::init_output_stream, so it will work only with
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// TransportImpl==IntermediateTransport
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as<uint32>(header_slice.begin() + 56) = impl_.with_padding() ? 0xdddddddd : 0xeeeeeeee;
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if (dc_id_ != 0) {
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as<int16>(header_slice.begin() + 60) = dc_id_;
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}
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string rheader = header;
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std::reverse(rheader.begin(), rheader.end());
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UInt256 key = as<UInt256>(rheader.data() + 8);
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if (secret_.size() == 17) {
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secret_ = secret_.substr(1);
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}
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auto fix_key = [&](UInt256 &key) {
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if (secret_.size() == 16) {
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Sha256State state;
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sha256_init(&state);
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sha256_update(as_slice(key), &state);
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sha256_update(secret_, &state);
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sha256_final(&state, as_slice(key));
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}
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};
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fix_key(key);
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aes_ctr_byte_flow_.init(key, as<UInt128>(rheader.data() + 8 + 32));
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if (emulate_tls_) {
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tls_reader_byte_flow_.set_input(input_);
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tls_reader_byte_flow_ >> aes_ctr_byte_flow_;
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} else {
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aes_ctr_byte_flow_.set_input(input_);
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}
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aes_ctr_byte_flow_ >> byte_flow_sink_;
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output_key_ = as<UInt256>(header.data() + 8);
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fix_key(output_key_);
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output_state_.init(output_key_, as<UInt128>(header.data() + 8 + 32));
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header_ = header;
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output_state_.encrypt(header_slice, header_slice);
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MutableSlice(header_).substr(56).copy_from(header_slice.substr(56));
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}
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Result<size_t> ObfuscatedTransport::read_next(BufferSlice *message, uint32 *quick_ack) {
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if (emulate_tls_) {
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tls_reader_byte_flow_.wakeup();
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} else {
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aes_ctr_byte_flow_.wakeup();
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}
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return impl_.read_from_stream(byte_flow_sink_.get_output(), message, quick_ack);
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}
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void ObfuscatedTransport::write(BufferWriter &&message, bool quick_ack) {
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impl_.write_prepare_inplace(&message, quick_ack);
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output_state_.encrypt(message.as_slice(), message.as_slice());
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if (emulate_tls_) {
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do_write_tls(std::move(message));
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} else {
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do_write_main(std::move(message));
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}
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}
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void ObfuscatedTransport::do_write_main(BufferWriter &&message) {
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BufferBuilder builder(std::move(message));
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if (!header_.empty()) {
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builder.prepend(header_);
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header_ = {};
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}
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do_write(builder.extract());
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}
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void ObfuscatedTransport::do_write_tls(BufferWriter &&message) {
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CHECK(header_.size() <= MAX_TLS_PACKET_LENGTH);
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if (message.size() + header_.size() > MAX_TLS_PACKET_LENGTH) {
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auto buffer_slice = message.as_buffer_slice();
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auto slice = buffer_slice.as_slice();
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while (!slice.empty()) {
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auto buf = buffer_slice.from_slice(slice.substr(0, MAX_TLS_PACKET_LENGTH - header_.size()));
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slice.remove_prefix(buf.size());
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BufferBuilder builder;
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builder.append(std::move(buf));
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do_write_tls(std::move(builder));
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}
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return;
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}
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BufferBuilder builder(std::move(message));
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do_write_tls(std::move(builder));
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}
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void ObfuscatedTransport::do_write_tls(BufferBuilder &&builder) {
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if (!header_.empty()) {
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builder.prepend(header_);
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header_ = {};
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}
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size_t size = builder.size();
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CHECK(size <= MAX_TLS_PACKET_LENGTH);
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char buf[] = "\x17\x03\x03\x00\x00";
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buf[3] = static_cast<char>((size >> 8) & 0xff);
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buf[4] = static_cast<char>(size & 0xff);
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builder.prepend(Slice(buf, 5));
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if (is_first_tls_packet_) {
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is_first_tls_packet_ = false;
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Slice first_prefix("\x14\x03\x03\x00\x01\x01");
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builder.prepend(first_prefix);
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}
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do_write(builder.extract());
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}
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void ObfuscatedTransport::do_write(BufferSlice &&slice) {
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output_->append(std::move(slice));
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}
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} // namespace tcp
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} // namespace mtproto
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} // namespace td
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