nstool/lib/crypto/rsa.h

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#pragma once
#include <cstdint>
#include <cstring>
#include <crypto/sha.h>
namespace crypto
{
namespace rsa
{
const size_t kRsa1024Size = 0x80;
const size_t kRsa2048Size = 0x100;
const size_t kRsa4096Size = 0x200;
const size_t kRsaPublicExponentSize = 4;
enum RsaType
{
RSA_1024,
RSA_2048,
RSA_4096,
};
#pragma pack (push, 1)
struct sRsa1024Key
{
uint8_t modulus[kRsa1024Size];
uint8_t priv_exponent[kRsa1024Size];
uint8_t public_exponent[kRsaPublicExponentSize];
void operator=(const sRsa1024Key& other)
{
memcpy(this->modulus, modulus, kRsa1024Size);
memcpy(this->priv_exponent, priv_exponent, kRsa1024Size);
memcpy(this->public_exponent, other.public_exponent, kRsaPublicExponentSize);
}
bool operator==(const sRsa1024Key& other)
{
return memcmp(this->modulus, other.modulus, kRsa1024Size) == 0 \
&& memcmp(this->priv_exponent, other.priv_exponent, kRsa1024Size) == 0 \
&& memcpy(this->public_exponent, other.public_exponent, kRsaPublicExponentSize) == 0;
}
bool operator!=(const sRsa1024Key& other)
{
return !operator==(other);
}
};
struct sRsa2048Key
{
uint8_t modulus[kRsa2048Size];
uint8_t priv_exponent[kRsa2048Size];
uint8_t public_exponent[kRsaPublicExponentSize];
void operator=(const sRsa2048Key& other)
{
memcpy(this->modulus, other.modulus, kRsa2048Size);
memcpy(this->priv_exponent, other.priv_exponent, kRsa2048Size);
memcpy(this->public_exponent, other.public_exponent, kRsaPublicExponentSize);
}
bool operator==(const sRsa2048Key& other)
{
return memcmp(this->modulus, other.modulus, kRsa2048Size) == 0 && memcmp(this->priv_exponent, other.priv_exponent, kRsa2048Size) == 0 && memcpy(this->public_exponent, other.public_exponent, kRsaPublicExponentSize) == 0;
}
bool operator!=(const sRsa2048Key& other)
{
return !operator==(other);
}
};
struct sRsa4096Key
{
uint8_t modulus[kRsa4096Size];
uint8_t priv_exponent[kRsa4096Size];
uint8_t public_exponent[kRsaPublicExponentSize];
void operator=(const sRsa4096Key& other)
{
memcpy(this->modulus, other.modulus, kRsa4096Size);
memcpy(this->priv_exponent, other.priv_exponent, kRsa4096Size);
memcpy(this->public_exponent, other.public_exponent, kRsaPublicExponentSize);
}
bool operator==(const sRsa4096Key& other)
{
return memcmp(this->modulus, other.modulus, kRsa4096Size) == 0 && memcmp(this->priv_exponent, other.priv_exponent, kRsa4096Size) == 0 && memcpy(this->public_exponent, other.public_exponent, kRsaPublicExponentSize) == 0;
}
bool operator!=(const sRsa4096Key& other)
{
return !operator==(other);
}
};
#pragma pack (pop)
namespace pkcs
{
// rsa1024
int rsaSign(const sRsa1024Key& key, sha::HashType hash_type, const uint8_t* hash, uint8_t signature[kRsa1024Size]);
int rsaVerify(const sRsa1024Key& key, sha::HashType hash_type, const uint8_t* hash, const uint8_t signature[kRsa1024Size]);
// rsa2048
int rsaSign(const sRsa2048Key& key, sha::HashType hash_type, const uint8_t* hash, uint8_t signature[kRsa2048Size]);
int rsaVerify(const sRsa2048Key& key, sha::HashType hash_type, const uint8_t* hash, const uint8_t signature[kRsa2048Size]);
// rsa4096
int rsaSign(const sRsa4096Key& key, sha::HashType hash_type, const uint8_t* hash, uint8_t signature[kRsa4096Size]);
int rsaVerify(const sRsa4096Key& key, sha::HashType hash_type, const uint8_t* hash, const uint8_t signature[kRsa4096Size]);
}
}
}