mirror of
https://github.com/danog/ton.git
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322 lines
9.5 KiB
C++
322 lines
9.5 KiB
C++
/*
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This file is part of TON Blockchain Library.
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TON Blockchain Library is free software: you can redistribute it and/or modify
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it under the terms of the GNU Lesser General Public License as published by
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the Free Software Foundation, either version 2 of the License, or
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(at your option) any later version.
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TON Blockchain Library is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU Lesser General Public License for more details.
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You should have received a copy of the GNU Lesser General Public License
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along with TON Blockchain Library. If not, see <http://www.gnu.org/licenses/>.
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Copyright 2017-2019 Telegram Systems LLP
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*/
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#include "td/utils/BigNum.h"
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char disable_linker_warning_about_empty_file_bignum_cpp TD_UNUSED;
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#if TD_HAVE_OPENSSL
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#include "td/utils/logging.h"
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#include "td/utils/misc.h"
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#include <openssl/bn.h>
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#include <openssl/crypto.h>
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namespace td {
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class BigNumContext::Impl {
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public:
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BN_CTX *big_num_context;
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Impl() : big_num_context(BN_CTX_new()) {
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LOG_IF(FATAL, big_num_context == nullptr);
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}
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Impl(const Impl &other) = delete;
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Impl &operator=(const Impl &other) = delete;
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Impl(Impl &&other) = delete;
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Impl &operator=(Impl &&other) = delete;
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~Impl() {
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BN_CTX_free(big_num_context);
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}
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};
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BigNumContext::BigNumContext() : impl_(make_unique<Impl>()) {
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}
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BigNumContext::BigNumContext(BigNumContext &&other) = default;
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BigNumContext &BigNumContext::operator=(BigNumContext &&other) = default;
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BigNumContext::~BigNumContext() = default;
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class BigNum::Impl {
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public:
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BIGNUM *big_num;
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Impl() : Impl(BN_new()) {
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}
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explicit Impl(BIGNUM *big_num) : big_num(big_num) {
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LOG_IF(FATAL, big_num == nullptr);
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}
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Impl(const Impl &other) = delete;
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Impl &operator=(const Impl &other) = delete;
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Impl(Impl &&other) = delete;
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Impl &operator=(Impl &&other) = delete;
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~Impl() {
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BN_clear_free(big_num);
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}
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};
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BigNum::BigNum() : impl_(make_unique<Impl>()) {
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}
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BigNum::BigNum(const BigNum &other) : BigNum() {
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*this = other;
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}
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BigNum &BigNum::operator=(const BigNum &other) {
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CHECK(impl_ != nullptr);
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CHECK(other.impl_ != nullptr);
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BIGNUM *result = BN_copy(impl_->big_num, other.impl_->big_num);
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LOG_IF(FATAL, result == nullptr);
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return *this;
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}
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BigNum::BigNum(BigNum &&other) = default;
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BigNum &BigNum::operator=(BigNum &&other) = default;
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BigNum::~BigNum() = default;
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BigNum BigNum::from_binary(Slice str) {
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return BigNum(make_unique<Impl>(BN_bin2bn(str.ubegin(), narrow_cast<int>(str.size()), nullptr)));
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}
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BigNum BigNum::from_le_binary(Slice str) {
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#if OPENSSL_VERSION_NUMBER >= 0x10100000L && !defined(LIBRESSL_VERSION_NUMBER)
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return BigNum(make_unique<Impl>(BN_lebin2bn(str.ubegin(), narrow_cast<int>(str.size()), nullptr)));
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#else
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LOG(FATAL) << "Unsupported from_le_binary";
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return BigNum();
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#endif
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}
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Result<BigNum> BigNum::from_decimal(CSlice str) {
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BigNum result;
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int res = BN_dec2bn(&result.impl_->big_num, str.c_str());
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if (res == 0 || static_cast<size_t>(res) != str.size()) {
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return Status::Error(PSLICE() << "Failed to parse \"" << str << "\" as BigNum");
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}
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return result;
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}
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Result<BigNum> BigNum::from_hex(CSlice str) {
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BigNum result;
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int res = BN_hex2bn(&result.impl_->big_num, str.c_str());
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if (res == 0 || static_cast<size_t>(res) != str.size()) {
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return Status::Error(PSLICE() << "Failed to parse \"" << str << "\" as hexadecimal BigNum");
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}
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return result;
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}
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BigNum BigNum::from_raw(void *openssl_big_num) {
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return BigNum(make_unique<Impl>(static_cast<BIGNUM *>(openssl_big_num)));
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}
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BigNum::BigNum(unique_ptr<Impl> &&impl) : impl_(std::move(impl)) {
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}
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void BigNum::ensure_const_time() {
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BN_set_flags(impl_->big_num, BN_FLG_CONSTTIME);
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}
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int BigNum::get_num_bits() const {
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return BN_num_bits(impl_->big_num);
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}
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int BigNum::get_num_bytes() const {
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return BN_num_bytes(impl_->big_num);
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}
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void BigNum::set_bit(int num) {
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int result = BN_set_bit(impl_->big_num, num);
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LOG_IF(FATAL, result != 1);
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}
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void BigNum::clear_bit(int num) {
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int result = BN_clear_bit(impl_->big_num, num);
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LOG_IF(FATAL, result != 1);
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}
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bool BigNum::is_bit_set(int num) const {
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return BN_is_bit_set(impl_->big_num, num) != 0;
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}
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bool BigNum::is_prime(BigNumContext &context) const {
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int result = BN_is_prime_ex(impl_->big_num, BN_prime_checks, context.impl_->big_num_context, nullptr);
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LOG_IF(FATAL, result == -1);
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return result == 1;
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}
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void BigNum::operator+=(uint32 value) {
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int result = BN_add_word(impl_->big_num, value);
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LOG_IF(FATAL, result != 1);
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}
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void BigNum::operator-=(uint32 value) {
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int result = BN_sub_word(impl_->big_num, value);
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LOG_IF(FATAL, result != 1);
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}
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void BigNum::operator*=(uint32 value) {
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int result = BN_mul_word(impl_->big_num, value);
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LOG_IF(FATAL, result != 1);
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}
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void BigNum::operator/=(uint32 value) {
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BN_ULONG result = BN_div_word(impl_->big_num, value);
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LOG_IF(FATAL, result == static_cast<BN_ULONG>(-1));
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}
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uint32 BigNum::operator%(uint32 value) const {
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BN_ULONG result = BN_mod_word(impl_->big_num, value);
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LOG_IF(FATAL, result == static_cast<BN_ULONG>(-1));
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return narrow_cast<uint32>(result);
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}
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void BigNum::set_value(uint32 new_value) {
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if (new_value == 0) {
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BN_zero(impl_->big_num);
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} else {
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int result = BN_set_word(impl_->big_num, new_value);
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LOG_IF(FATAL, result != 1);
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}
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}
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BigNum BigNum::clone() const {
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BIGNUM *result = BN_dup(impl_->big_num);
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LOG_IF(FATAL, result == nullptr);
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return BigNum(make_unique<Impl>(result));
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}
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string BigNum::to_binary(int exact_size) const {
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int num_size = get_num_bytes();
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if (exact_size == -1) {
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exact_size = num_size;
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} else {
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CHECK(exact_size >= num_size);
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}
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string res(exact_size, '\0');
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BN_bn2bin(impl_->big_num, MutableSlice(res).ubegin() + (exact_size - num_size));
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return res;
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}
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string BigNum::to_le_binary(int exact_size) const {
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#if OPENSSL_VERSION_NUMBER >= 0x10100000L && !defined(LIBRESSL_VERSION_NUMBER)
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int num_size = get_num_bytes();
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if (exact_size == -1) {
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exact_size = num_size;
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} else {
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CHECK(exact_size >= num_size);
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}
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string res(exact_size, '\0');
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BN_bn2lebinpad(impl_->big_num, MutableSlice(res).ubegin(), exact_size);
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return res;
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#else
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LOG(FATAL) << "Unsupported to_le_binary";
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return "";
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#endif
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}
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string BigNum::to_decimal() const {
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char *result = BN_bn2dec(impl_->big_num);
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CHECK(result != nullptr);
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string res(result);
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OPENSSL_free(result);
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return res;
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}
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void BigNum::random(BigNum &r, int bits, int top, int bottom) {
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int result = BN_rand(r.impl_->big_num, bits, top, bottom);
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LOG_IF(FATAL, result != 1);
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}
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void BigNum::add(BigNum &r, const BigNum &a, const BigNum &b) {
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int result = BN_add(r.impl_->big_num, a.impl_->big_num, b.impl_->big_num);
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LOG_IF(FATAL, result != 1);
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}
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void BigNum::sub(BigNum &r, const BigNum &a, const BigNum &b) {
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CHECK(r.impl_->big_num != a.impl_->big_num);
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CHECK(r.impl_->big_num != b.impl_->big_num);
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int result = BN_sub(r.impl_->big_num, a.impl_->big_num, b.impl_->big_num);
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LOG_IF(FATAL, result != 1);
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}
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void BigNum::mul(BigNum &r, BigNum &a, BigNum &b, BigNumContext &context) {
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int result = BN_mul(r.impl_->big_num, a.impl_->big_num, b.impl_->big_num, context.impl_->big_num_context);
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LOG_IF(FATAL, result != 1);
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}
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void BigNum::mod_add(BigNum &r, BigNum &a, BigNum &b, const BigNum &m, BigNumContext &context) {
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int result = BN_mod_add(r.impl_->big_num, a.impl_->big_num, b.impl_->big_num, m.impl_->big_num,
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context.impl_->big_num_context);
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LOG_IF(FATAL, result != 1);
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}
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void BigNum::mod_sub(BigNum &r, BigNum &a, BigNum &b, const BigNum &m, BigNumContext &context) {
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int result = BN_mod_sub(r.impl_->big_num, a.impl_->big_num, b.impl_->big_num, m.impl_->big_num,
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context.impl_->big_num_context);
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LOG_IF(FATAL, result != 1);
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}
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void BigNum::mod_mul(BigNum &r, BigNum &a, BigNum &b, const BigNum &m, BigNumContext &context) {
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int result = BN_mod_mul(r.impl_->big_num, a.impl_->big_num, b.impl_->big_num, m.impl_->big_num,
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context.impl_->big_num_context);
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LOG_IF(FATAL, result != 1);
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}
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void BigNum::mod_inverse(BigNum &r, BigNum &a, const BigNum &m, BigNumContext &context) {
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auto result = BN_mod_inverse(r.impl_->big_num, a.impl_->big_num, m.impl_->big_num, context.impl_->big_num_context);
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LOG_IF(FATAL, result != r.impl_->big_num);
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}
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void BigNum::div(BigNum *quotient, BigNum *remainder, const BigNum ÷nd, const BigNum &divisor,
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BigNumContext &context) {
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auto q = quotient == nullptr ? nullptr : quotient->impl_->big_num;
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auto r = remainder == nullptr ? nullptr : remainder->impl_->big_num;
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if (q == nullptr && r == nullptr) {
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return;
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}
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auto result = BN_div(q, r, dividend.impl_->big_num, divisor.impl_->big_num, context.impl_->big_num_context);
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LOG_IF(FATAL, result != 1);
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}
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void BigNum::mod_exp(BigNum &r, const BigNum &a, const BigNum &p, const BigNum &m, BigNumContext &context) {
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int result = BN_mod_exp(r.impl_->big_num, a.impl_->big_num, p.impl_->big_num, m.impl_->big_num,
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context.impl_->big_num_context);
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LOG_IF(FATAL, result != 1);
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}
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void BigNum::gcd(BigNum &r, BigNum &a, BigNum &b, BigNumContext &context) {
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int result = BN_gcd(r.impl_->big_num, a.impl_->big_num, b.impl_->big_num, context.impl_->big_num_context);
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LOG_IF(FATAL, result != 1);
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}
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int BigNum::compare(const BigNum &a, const BigNum &b) {
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return BN_cmp(a.impl_->big_num, b.impl_->big_num);
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}
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StringBuilder &operator<<(StringBuilder &sb, const BigNum &bn) {
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return sb << bn.to_decimal();
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}
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} // namespace td
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#endif
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