mirror of
https://github.com/danog/ton.git
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206 lines
7.0 KiB
C++
206 lines
7.0 KiB
C++
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/*
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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/crypto.h"
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#include "td/utils/overloaded.h"
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#include "encryptor.h"
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#include "encryptor.hpp"
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#include "auto/tl/ton_api.hpp"
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#include "common/status.h"
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#include "common/errorcode.h"
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#include "keys.hpp"
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namespace ton {
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td::Result<std::unique_ptr<Encryptor>> Encryptor::create(const ton_api::PublicKey *id) {
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td::Result<std::unique_ptr<Encryptor>> res;
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ton_api::downcast_call(
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*const_cast<ton_api::PublicKey *>(id),
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td::overloaded([&](const ton_api::pub_unenc &obj) { res = std::make_unique<EncryptorNone>(); },
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[&](const ton_api::pub_ed25519 &obj) { res = std::make_unique<EncryptorEd25519>(obj.key_); },
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[&](const ton_api::pub_overlay &obj) { res = std::make_unique<EncryptorOverlay>(); },
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[&](const ton_api::pub_aes &obj) { res = std::make_unique<EncryptorAES>(obj.key_); }));
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return res;
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}
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td::Result<std::unique_ptr<Decryptor>> Decryptor::create(const ton_api::PrivateKey *id) {
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td::Result<std::unique_ptr<Decryptor>> res;
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ton_api::downcast_call(
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*const_cast<ton_api::PrivateKey *>(id),
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td::overloaded([&](const ton_api::pk_unenc &obj) { res = std::make_unique<DecryptorNone>(); },
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[&](const ton_api::pk_ed25519 &obj) { res = std::make_unique<DecryptorEd25519>(obj.key_); },
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[&](const ton_api::pk_overlay &obj) { res = std::make_unique<DecryptorFail>(); },
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[&](const ton_api::pk_aes &obj) { res = std::make_unique<DecryptorAES>(obj.key_); }));
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return res;
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}
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td::Result<td::BufferSlice> EncryptorEd25519::encrypt(td::Slice data) {
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TRY_RESULT_PREFIX(pk, td::Ed25519::generate_private_key(), "failed to generate private key: ");
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TRY_RESULT_PREFIX(pubkey, pk.get_public_key(), "failed to get public key from private: ");
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auto pubkey_str = pubkey.as_octet_string();
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td::BufferSlice msg(pubkey_str.size() + 32 + data.size());
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td::MutableSlice slice = msg.as_slice();
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slice.copy_from(pubkey_str);
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slice.remove_prefix(pubkey_str.size());
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TRY_RESULT_PREFIX(shared_secret, td::Ed25519::compute_shared_secret(pub_, pk), "failed to compute shared secret: ");
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td::MutableSlice digest = slice.substr(0, 32);
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slice.remove_prefix(32);
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td::sha256(data, digest);
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td::SecureString key(32);
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{
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auto S = key.as_mutable_slice();
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S.copy_from(td::Slice(shared_secret).truncate(16));
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S.remove_prefix(16);
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S.copy_from(digest.copy().remove_prefix(16).truncate(16));
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}
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td::SecureString iv(16);
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{
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auto S = iv.as_mutable_slice();
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S.copy_from(digest.copy().truncate(4));
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S.remove_prefix(4);
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S.copy_from(td::Slice(shared_secret).remove_prefix(20).truncate(12));
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}
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td::AesCtrState ctr;
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ctr.init(key, iv);
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ctr.encrypt(data, slice);
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return std::move(msg);
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}
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td::Status EncryptorEd25519::check_signature(td::Slice message, td::Slice signature) {
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return td::status_prefix(pub_.verify_signature(message, signature), "bad signature: ");
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}
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td::Result<td::BufferSlice> DecryptorEd25519::decrypt(td::Slice data) {
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if (data.size() < td::Ed25519::PublicKey::LENGTH + 32) {
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return td::Status::Error(ErrorCode::protoviolation, "message is too short");
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}
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td::Slice pub = data.substr(0, td::Ed25519::PublicKey::LENGTH);
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data.remove_prefix(td::Ed25519::PublicKey::LENGTH);
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td::Slice digest = data.substr(0, 32);
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data.remove_prefix(32);
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TRY_RESULT_PREFIX(shared_secret,
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td::Ed25519::compute_shared_secret(td::Ed25519::PublicKey(td::SecureString(pub)), pk_),
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"failed to generate shared secret: ");
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td::SecureString key(32);
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key.as_mutable_slice().copy_from(td::Slice(shared_secret).substr(0, 16));
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key.as_mutable_slice().substr(16).copy_from(digest.substr(16, 16));
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td::SecureString iv(16);
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iv.as_mutable_slice().copy_from(digest.substr(0, 4));
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iv.as_mutable_slice().substr(4).copy_from(td::Slice(shared_secret).substr(20, 12));
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td::BufferSlice res(data.size());
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td::AesCtrState ctr;
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ctr.init(key, iv);
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ctr.encrypt(data, res.as_slice());
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td::UInt256 real_digest;
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td::sha256(res.as_slice(), as_slice(real_digest));
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if (as_slice(real_digest) != digest) {
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return td::Status::Error(ErrorCode::protoviolation, "sha256 mismatch after decryption");
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}
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return std::move(res);
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}
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td::Result<td::BufferSlice> DecryptorEd25519::sign(td::Slice data) {
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TRY_RESULT_PREFIX(signature, pk_.sign(data), "failed to sign: ");
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return td::BufferSlice(signature);
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}
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td::Result<td::BufferSlice> EncryptorAES::encrypt(td::Slice data) {
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td::BufferSlice msg(32 + data.size());
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td::MutableSlice slice = msg.as_slice();
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td::MutableSlice digest = slice.substr(0, 32);
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slice.remove_prefix(32);
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td::sha256(data, digest);
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td::SecureString key(32);
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key.as_mutable_slice().copy_from(shared_secret_.as_slice().substr(0, 16));
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key.as_mutable_slice().substr(16).copy_from(digest.substr(16, 16));
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td::SecureString iv(16);
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iv.as_mutable_slice().copy_from(digest.substr(0, 4));
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iv.as_mutable_slice().substr(4).copy_from(shared_secret_.as_slice().substr(20, 12));
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td::AesCtrState ctr;
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ctr.init(key, iv);
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ctr.encrypt(data, slice);
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return std::move(msg);
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}
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td::Result<td::BufferSlice> DecryptorAES::decrypt(td::Slice data) {
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if (data.size() < 32) {
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return td::Status::Error(ErrorCode::protoviolation, "message is too short");
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}
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td::Slice digest = data.substr(0, 32);
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data.remove_prefix(32);
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td::SecureString key(32);
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key.as_mutable_slice().copy_from(shared_secret_.as_slice().substr(0, 16));
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key.as_mutable_slice().substr(16).copy_from(digest.substr(16, 16));
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td::SecureString iv(16);
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iv.as_mutable_slice().copy_from(digest.substr(0, 4));
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iv.as_mutable_slice().substr(4).copy_from(shared_secret_.as_slice().substr(20, 12));
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td::BufferSlice res(data.size());
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td::AesCtrState ctr;
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ctr.init(key, iv);
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ctr.encrypt(data, res.as_slice());
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td::UInt256 real_digest;
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td::sha256(res.as_slice(), as_slice(real_digest));
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if (as_slice(real_digest) != digest) {
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return td::Status::Error(ErrorCode::protoviolation, "sha256 mismatch after decryption");
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}
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return std::move(res);
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}
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std::vector<td::Result<td::BufferSlice>> Decryptor::sign_batch(std::vector<td::Slice> data) {
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std::vector<td::Result<td::BufferSlice>> r;
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r.resize(data.size());
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for (size_t i = 0; i < data.size(); i++) {
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r[i] = sign(data[i]);
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}
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return r;
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}
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} // namespace ton
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