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tdlib-fork/td/mtproto/TlsInit.cpp

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//
// 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/TlsInit.h"
#include "td/utils/as.h"
#include "td/utils/BigNum.h"
#include "td/utils/common.h"
#include "td/utils/crypto.h"
#include "td/utils/logging.h"
#include "td/utils/Random.h"
#include "td/utils/Span.h"
#include "td/utils/Time.h"
#include <algorithm>
#include <cstring>
namespace td {
namespace mtproto {
void Grease::init(MutableSlice res) {
Random::secure_bytes(res);
for (auto &c : res) {
c = static_cast<char>((c & 0xF0) + 0x0A);
}
for (size_t i = 1; i < res.size(); i += 2) {
if (res[i] == res[i - 1]) {
res[i] ^= 0x10;
}
}
}
class TlsHello {
public:
struct Op {
enum class Type { String, Random, Zero, Domain, Grease, Key, BeginScope, EndScope };
Type type;
int length;
int seed;
std::string data;
static Op string(Slice str) {
Op res;
res.type = Type::String;
res.data = str.str();
return res;
}
static Op random(int length) {
Op res;
res.type = Type::Random;
res.length = length;
return res;
}
static Op zero(int length) {
Op res;
res.type = Type::Zero;
res.length = length;
return res;
}
static Op domain() {
Op res;
res.type = Type::Domain;
return res;
}
static Op grease(int seed) {
Op res;
res.type = Type::Grease;
res.seed = seed;
return res;
}
static Op begin_scope() {
Op res;
res.type = Type::BeginScope;
return res;
}
static Op end_scope() {
Op res;
res.type = Type::EndScope;
return res;
}
static Op key() {
Op res;
res.type = Type::Key;
return res;
}
};
static const TlsHello &get_default() {
static TlsHello result = [] {
TlsHello res;
res.ops_ = {
Op::string("\x16\x03\x01\x02\x00\x01\x00\x01\xfc\x03\x03"),
Op::zero(32),
Op::string("\x20"),
Op::random(32),
Op::string("\x00\x22"),
Op::grease(0),
Op::string("\x13\x01\x13\x02\x13\x03\xc0\x2b\xc0\x2f\xc0\x2c\xc0\x30\xcc\xa9\xcc\xa8\xc0\x13\xc0\x14\x00\x9c"
"\x00\x9d\x00\x2f\x00\x35\x00\x0a\x01\x00\x01\x91"),
Op::grease(2),
Op::string("\x00\x00\x00\x00"),
Op::begin_scope(),
Op::begin_scope(),
Op::string("\x00"),
Op::begin_scope(),
Op::domain(),
Op::end_scope(),
Op::end_scope(),
Op::end_scope(),
Op::string("\x00\x17\x00\x00\xff\x01\x00\x01\x00\x00\x0a\x00\x0a\x00\x08"),
Op::grease(4),
Op::string(
"\x00\x1d\x00\x17\x00\x18\x00\x0b\x00\x02\x01\x00\x00\x23\x00\x00\x00\x10\x00\x0e\x00\x0c\x02\x68\x32\x08"
"\x68\x74\x74\x70\x2f\x31\x2e\x31\x00\x05\x00\x05\x01\x00\x00\x00\x00\x00\x0d\x00\x14\x00\x12\x04\x03\x08"
"\x04\x04\x01\x05\x03\x08\x05\x05\x01\x08\x06\x06\x01\x02\x01\x00\x12\x00\x00\x00\x33\x00\x2b\x00\x29"),
Op::grease(4),
Op::string("\x00\x01\x00\x00\x1d\x00\x20"),
Op::key(),
Op::string("\x00\x2d\x00\x02\x01\x01\x00\x2b\x00\x0b\x0a"),
Op::grease(6),
Op::string("\x03\x04\x03\x03\x03\x02\x03\x01\x00\x1b\x00\x03\x02\x00\x02"),
Op::grease(3),
Op::string("\x00\x01\x00\x00\x15")};
res.grease_size_ = 7;
return res;
}();
return result;
}
Span<Op> get_ops() const {
return ops_;
}
size_t get_grease_size() const {
return grease_size_;
}
private:
std::vector<Op> ops_;
size_t grease_size_;
};
class TlsHelloContext {
public:
TlsHelloContext(size_t grease_size, std::string domain) : grease_(grease_size, '\0'), domain_(std::move(domain)) {
Grease::init(grease_);
}
char get_grease(size_t i) const {
CHECK(i < grease_.size());
return grease_[i];
}
size_t get_grease_size() const {
return grease_.size();
}
Slice get_domain() const {
return domain_;
}
private:
std::string grease_;
std::string domain_;
};
class TlsHelloCalcLength {
public:
void do_op(const TlsHello::Op &op, const TlsHelloContext *context) {
if (status_.is_error()) {
return;
}
using Type = TlsHello::Op::Type;
switch (op.type) {
case Type::String:
size_ += op.data.size();
break;
case Type::Random:
if (op.length <= 0 || op.length > 1024) {
return on_error(Status::Error("Invalid random length"));
}
size_ += op.length;
break;
case Type::Zero:
if (op.length <= 0 || op.length > 1024) {
return on_error(Status::Error("Invalid zero length"));
}
size_ += op.length;
break;
case Type::Domain:
CHECK(context);
size_ += context->get_domain().size();
break;
case Type::Grease:
CHECK(context);
if (op.seed < 0 || static_cast<size_t>(op.seed) >= context->get_grease_size()) {
return on_error(Status::Error("Invalid grease seed"));
}
size_ += 2;
break;
case Type::Key:
size_ += 32;
break;
case Type::BeginScope:
size_ += 2;
scope_offset_.push_back(size_);
break;
case Type::EndScope: {
if (scope_offset_.empty()) {
return on_error(Status::Error("Unbalanced scopes"));
}
auto begin_offset = scope_offset_.back();
scope_offset_.pop_back();
auto end_offset = size_;
auto size = end_offset - begin_offset;
if (size >= (1 << 14)) {
return on_error(Status::Error("Scope is too big"));
}
break;
}
default:
UNREACHABLE();
}
}
Result<size_t> finish() {
if (size_ > 515) {
on_error(Status::Error("Too long for zero padding"));
}
if (size_ < 11 + 32) {
on_error(Status::Error("Too small for hash"));
}
int zero_pad = 515 - static_cast<int>(size_);
using Op = TlsHello::Op;
do_op(Op::begin_scope(), nullptr);
do_op(Op::zero(zero_pad), nullptr);
do_op(Op::end_scope(), nullptr);
if (!scope_offset_.empty()) {
on_error(Status::Error("Unbalanced scopes"));
}
TRY_STATUS(std::move(status_));
return size_;
}
private:
size_t size_{0};
Status status_;
std::vector<size_t> scope_offset_;
void on_error(Status error) {
if (status_.is_ok()) {
status_ = std::move(error);
}
}
};
class TlsHelloStore {
public:
explicit TlsHelloStore(MutableSlice dest) : data_(dest), dest_(dest) {
}
void do_op(const TlsHello::Op &op, const TlsHelloContext *context) {
using Type = TlsHello::Op::Type;
switch (op.type) {
case Type::String:
dest_.copy_from(op.data);
dest_.remove_prefix(op.data.size());
break;
case Type::Random:
Random::secure_bytes(dest_.substr(0, op.length));
dest_.remove_prefix(op.length);
break;
case Type::Zero:
std::memset(dest_.begin(), 0, op.length);
dest_.remove_prefix(op.length);
break;
case Type::Domain: {
CHECK(context);
auto domain = context->get_domain();
dest_.copy_from(domain);
dest_.remove_prefix(domain.size());
break;
}
case Type::Grease: {
CHECK(context)
auto grease = context->get_grease(op.seed);
dest_[0] = grease;
dest_[1] = grease;
dest_.remove_prefix(2);
break;
}
case Type::Key: {
BigNum mod = BigNum::from_hex("7fffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffed").move_as_ok();
BigNumContext big_num_context;
auto key = dest_.substr(0, 32);
while (true) {
Random::secure_bytes(key);
key[31] = static_cast<char>(key[31] & 127);
BigNum x = BigNum::from_binary(key);
BigNum y = get_y2(x, mod, big_num_context);
if (is_quadratic_residue(y)) {
for (int i = 0; i < 3; i++) {
x = get_double_x(x, mod, big_num_context);
}
key.copy_from(x.to_le_binary(32));
break;
}
}
dest_.remove_prefix(32);
break;
}
case Type::BeginScope:
scope_offset_.push_back(get_offset());
dest_.remove_prefix(2);
break;
case Type::EndScope: {
CHECK(!scope_offset_.empty());
auto begin_offset = scope_offset_.back();
scope_offset_.pop_back();
auto end_offset = get_offset();
size_t size = end_offset - begin_offset - 2;
CHECK(size < (1 << 14));
data_[begin_offset] = static_cast<char>((size >> 8) & 0xff);
data_[begin_offset + 1] = static_cast<char>(size & 0xff);
break;
}
default:
UNREACHABLE();
}
}
void finish(Slice secret, int32 unix_time) {
int zero_pad = 515 - static_cast<int>(get_offset());
using Op = TlsHello::Op;
do_op(Op::begin_scope(), nullptr);
do_op(Op::zero(zero_pad), nullptr);
do_op(Op::end_scope(), nullptr);
auto hash_dest = data_.substr(11, 32);
hmac_sha256(secret, data_, hash_dest);
int32 old = as<int32>(hash_dest.substr(28).data());
as<int32>(hash_dest.substr(28).data()) = old ^ unix_time;
CHECK(dest_.empty());
}
private:
MutableSlice data_;
MutableSlice dest_;
std::vector<size_t> scope_offset_;
static BigNum get_y2(BigNum &x, const BigNum &mod, BigNumContext &big_num_context) {
// returns y = x^3 + 486662 * x^2 + x
BigNum y = x.clone();
BigNum coef = BigNum::from_decimal("486662").move_as_ok();
BigNum::mod_add(y, y, coef, mod, big_num_context);
BigNum::mod_mul(y, y, x, mod, big_num_context);
BigNum one = BigNum::from_decimal("1").move_as_ok();
BigNum::mod_add(y, y, one, mod, big_num_context);
BigNum::mod_mul(y, y, x, mod, big_num_context);
return y;
}
static BigNum get_double_x(BigNum &x, const BigNum &mod, BigNumContext &big_num_context) {
// returns x_2 = (x^2 - 1)^2/(4*y^2)
BigNum denominator = get_y2(x, mod, big_num_context);
BigNum coef = BigNum::from_decimal("4").move_as_ok();
BigNum::mod_mul(denominator, denominator, coef, mod, big_num_context);
BigNum numerator;
BigNum::mod_mul(numerator, x, x, mod, big_num_context);
BigNum one = BigNum::from_decimal("1").move_as_ok();
BigNum::mod_sub(numerator, numerator, one, mod, big_num_context);
BigNum::mod_mul(numerator, numerator, numerator, mod, big_num_context);
BigNum::mod_inverse(denominator, denominator, mod, big_num_context);
BigNum::mod_mul(numerator, numerator, denominator, mod, big_num_context);
return numerator;
}
static bool is_quadratic_residue(const BigNum &a) {
// 2^255 - 19
BigNum mod = BigNum::from_hex("7fffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffed").move_as_ok();
// (mod - 1) / 2 = 2^254 - 10
BigNum pow = BigNum::from_hex("3ffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff6").move_as_ok();
BigNumContext context;
BigNum r;
BigNum::mod_exp(r, a, pow, mod, context);
return r.to_decimal() == "1";
}
size_t get_offset() const {
return data_.size() - dest_.size();
}
};
class TlsObfusaction {
public:
static std::string generate_header(std::string domain, Slice secret, int32 unix_time) {
CHECK(!domain.empty());
CHECK(secret.size() == 16);
auto &hello = TlsHello::get_default();
TlsHelloContext context(hello.get_grease_size(), std::move(domain));
TlsHelloCalcLength calc_length;
for (auto &op : hello.get_ops()) {
calc_length.do_op(op, &context);
}
auto length = calc_length.finish().move_as_ok();
std::string data(length, '\0');
TlsHelloStore storer(data);
for (auto &op : hello.get_ops()) {
storer.do_op(op, &context);
}
storer.finish(secret, unix_time);
return data;
}
};
void TlsInit::send_hello() {
auto hello =
TlsObfusaction::generate_header(username_, password_, static_cast<int32>(Time::now() + server_time_difference_));
hello_rand_ = hello.substr(11, 32);
fd_.output_buffer().append(hello);
state_ = State::WaitHelloResponse;
}
Status TlsInit::wait_hello_response() {
auto it = fd_.input_buffer().clone();
for (auto first : {Slice("\x16\x03\x03"), Slice("\x14\x03\x03\x00\x01\x01\x17\x03\x03")}) {
if (it.size() < first.size() + 2) {
return Status::OK();
}
std::string got_first(first.size(), '\0');
it.advance(first.size(), got_first);
if (first != got_first) {
return Status::Error("First part of response to hello is invalid");
}
uint8 tmp[2];
it.advance(2, MutableSlice(tmp, 2));
size_t skip_size = (tmp[0] << 8) + tmp[1];
if (it.size() < skip_size) {
return Status::OK();
}
it.advance(skip_size);
}
auto response = fd_.input_buffer().cut_head(it.begin().clone()).move_as_buffer_slice();
auto response_rand_slice = response.as_slice().substr(11, 32);
auto response_rand = response_rand_slice.str();
std::fill(response_rand_slice.begin(), response_rand_slice.end(), '\0');
std::string hash_dest(32, '\0');
hmac_sha256(password_, PSLICE() << hello_rand_ << response.as_slice(), hash_dest);
if (hash_dest != response_rand) {
return Status::Error("Response hash mismatch");
}
stop();
return Status::OK();
}
Status TlsInit::loop_impl() {
switch (state_) {
case State::SendHello:
send_hello();
break;
case State::WaitHelloResponse:
TRY_STATUS(wait_hello_response());
break;
}
return Status::OK();
}
} // namespace mtproto
} // namespace td