tdlight/tdutils/td/utils/crypto.h

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//
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// Copyright Aliaksei Levin (levlam@telegram.org), Arseny Smirnov (arseny30@gmail.com) 2014-2023
//
// 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)
//
#pragma once
#include "td/utils/buffer.h"
#include "td/utils/common.h"
#include "td/utils/SharedSlice.h"
#include "td/utils/Slice.h"
#include "td/utils/Status.h"
namespace td {
uint64 pq_factorize(uint64 pq);
#if TD_HAVE_OPENSSL
void init_crypto();
int pq_factorize(Slice pq_str, string *p_str, string *q_str);
class AesState {
public:
AesState();
AesState(const AesState &from) = delete;
AesState &operator=(const AesState &from) = delete;
AesState(AesState &&from) noexcept;
AesState &operator=(AesState &&from) noexcept;
~AesState();
void init(Slice key, bool encrypt);
void encrypt(const uint8 *src, uint8 *dst, int size);
void decrypt(const uint8 *src, uint8 *dst, int size);
private:
struct Impl;
unique_ptr<Impl> impl_;
};
void aes_ige_encrypt(Slice aes_key, MutableSlice aes_iv, Slice from, MutableSlice to);
void aes_ige_decrypt(Slice aes_key, MutableSlice aes_iv, Slice from, MutableSlice to);
class AesIgeStateImpl;
class AesIgeState {
public:
AesIgeState();
AesIgeState(const AesIgeState &from) = delete;
AesIgeState &operator=(const AesIgeState &from) = delete;
AesIgeState(AesIgeState &&from) noexcept;
AesIgeState &operator=(AesIgeState &&from) noexcept;
~AesIgeState();
void init(Slice key, Slice iv, bool encrypt);
void encrypt(Slice from, MutableSlice to);
void decrypt(Slice from, MutableSlice to);
private:
unique_ptr<AesIgeStateImpl> impl_;
};
void aes_cbc_encrypt(Slice aes_key, MutableSlice aes_iv, Slice from, MutableSlice to);
void aes_cbc_decrypt(Slice aes_key, MutableSlice aes_iv, Slice from, MutableSlice to);
class AesCtrState {
public:
AesCtrState();
AesCtrState(const AesCtrState &from) = delete;
AesCtrState &operator=(const AesCtrState &from) = delete;
AesCtrState(AesCtrState &&from) noexcept;
AesCtrState &operator=(AesCtrState &&from) noexcept;
~AesCtrState();
void init(Slice key, Slice iv);
void encrypt(Slice from, MutableSlice to);
void decrypt(Slice from, MutableSlice to);
private:
struct Impl;
unique_ptr<Impl> ctx_;
};
class AesCbcState {
public:
AesCbcState(Slice key256, Slice iv128);
AesCbcState(const AesCbcState &from) = delete;
AesCbcState &operator=(const AesCbcState &from) = delete;
AesCbcState(AesCbcState &&from) noexcept;
AesCbcState &operator=(AesCbcState &&from) noexcept;
~AesCbcState();
void encrypt(Slice from, MutableSlice to);
void decrypt(Slice from, MutableSlice to);
struct Raw {
SecureString key;
SecureString iv;
};
const Raw &raw() const {
return raw_;
}
private:
struct Impl;
unique_ptr<Impl> ctx_;
Raw raw_;
bool is_encrypt_ = false;
};
void sha1(Slice data, unsigned char output[20]);
void sha256(Slice data, MutableSlice output);
void sha512(Slice data, MutableSlice output);
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string sha1(Slice data) TD_WARN_UNUSED_RESULT;
string sha256(Slice data) TD_WARN_UNUSED_RESULT;
string sha512(Slice data) TD_WARN_UNUSED_RESULT;
class Sha256State {
public:
Sha256State();
Sha256State(const Sha256State &other) = delete;
Sha256State &operator=(const Sha256State &other) = delete;
Sha256State(Sha256State &&other) noexcept;
Sha256State &operator=(Sha256State &&other) noexcept;
~Sha256State();
void init();
void feed(Slice data);
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void extract(MutableSlice output, bool destroy = false);
private:
class Impl;
unique_ptr<Impl> impl_;
bool is_inited_ = false;
};
void md5(Slice input, MutableSlice output);
void pbkdf2_sha256(Slice password, Slice salt, int iteration_count, MutableSlice dest);
void pbkdf2_sha512(Slice password, Slice salt, int iteration_count, MutableSlice dest);
void hmac_sha256(Slice key, Slice message, MutableSlice dest);
void hmac_sha512(Slice key, Slice message, MutableSlice dest);
// Interface may be improved
Result<BufferSlice> rsa_encrypt_pkcs1_oaep(Slice public_key, Slice data);
Result<BufferSlice> rsa_decrypt_pkcs1_oaep(Slice private_key, Slice data);
void init_openssl_threads();
Status create_openssl_error(int code, Slice message);
void clear_openssl_errors(Slice source);
#endif
#if TD_HAVE_ZLIB
uint32 crc32(Slice data);
#endif
#if TD_HAVE_CRC32C
uint32 crc32c(Slice data);
uint32 crc32c_extend(uint32 old_crc, Slice data);
uint32 crc32c_extend(uint32 old_crc, uint32 new_crc, size_t data_size);
#endif
uint64 crc64(Slice data);
uint16 crc16(Slice data);
} // namespace td