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tdlib-fork/td/telegram/files/FileEncryptionKey.cpp
levlam eaebfad034 Update copyright year.
GitOrigin-RevId: 359e2b43322222922c44c430d3814b0a4c778dc6
2019-01-01 01:02:34 +03:00

102 lines
3.1 KiB
C++

//
// 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/telegram/files/FileEncryptionKey.h"
#include "td/telegram/SecureStorage.h"
#include "td/utils/as.h"
#include "td/utils/crypto.h"
#include "td/utils/Random.h"
namespace td {
FileEncryptionKey::FileEncryptionKey(Slice key, Slice iv) : key_iv_(key.size() + iv.size(), '\0'), type_(Type::Secret) {
if (key.size() != 32 || iv.size() != 32) {
LOG(ERROR) << "Wrong key/iv sizes: " << key.size() << " " << iv.size();
type_ = Type::None;
return;
}
CHECK(key_iv_.size() == 64);
MutableSlice(key_iv_).copy_from(key);
MutableSlice(key_iv_).substr(key.size()).copy_from(iv);
}
FileEncryptionKey::FileEncryptionKey(const secure_storage::Secret &secret) : type_(Type::Secure) {
key_iv_ = secret.as_slice().str();
}
FileEncryptionKey FileEncryptionKey::create() {
FileEncryptionKey res;
res.key_iv_.resize(64);
Random::secure_bytes(res.key_iv_);
res.type_ = Type::Secret;
return res;
}
FileEncryptionKey FileEncryptionKey::create_secure_key() {
return FileEncryptionKey(secure_storage::Secret::create_new());
}
const UInt256 &FileEncryptionKey::key() const {
CHECK(is_secret());
CHECK(key_iv_.size() == 64);
return *reinterpret_cast<const UInt256 *>(key_iv_.data());
}
Slice FileEncryptionKey::key_slice() const {
CHECK(is_secret());
CHECK(key_iv_.size() == 64);
return Slice(key_iv_.data(), 32);
}
secure_storage::Secret FileEncryptionKey::secret() const {
CHECK(is_secure());
return secure_storage::Secret::create(Slice(key_iv_).truncate(32)).move_as_ok();
}
bool FileEncryptionKey::has_value_hash() const {
CHECK(is_secure());
return key_iv_.size() > secure_storage::Secret::size();
}
void FileEncryptionKey::set_value_hash(const secure_storage::ValueHash &value_hash) {
key_iv_.resize(secure_storage::Secret::size() + value_hash.as_slice().size());
MutableSlice(key_iv_).remove_prefix(secure_storage::Secret::size()).copy_from(value_hash.as_slice());
}
secure_storage::ValueHash FileEncryptionKey::value_hash() const {
CHECK(has_value_hash());
return secure_storage::ValueHash::create(Slice(key_iv_).remove_prefix(secure_storage::Secret::size())).move_as_ok();
}
UInt256 &FileEncryptionKey::mutable_iv() {
CHECK(is_secret());
CHECK(key_iv_.size() == 64);
return *reinterpret_cast<UInt256 *>(&key_iv_[0] + 32);
}
Slice FileEncryptionKey::iv_slice() const {
CHECK(is_secret());
CHECK(key_iv_.size() == 64);
return Slice(key_iv_.data() + 32, 32);
}
int32 FileEncryptionKey::calc_fingerprint() const {
CHECK(is_secret());
char buf[16];
md5(key_iv_, {buf, sizeof(buf)});
return as<int32>(buf) ^ as<int32>(buf + 4);
}
StringBuilder &operator<<(StringBuilder &string_builder, const FileEncryptionKey &key) {
if (key.is_secret()) {
return string_builder << "SecretKey{" << key.size() << "}";
}
if (key.is_secret()) {
return string_builder << "SecureKey{" << key.size() << "}";
}
return string_builder << "NoKey{}";
}
} // namespace td