nstool/lib/libfnd/include/fnd/aes.h

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#pragma once
#include <cstdint>
#include <cstring>
namespace fnd
{
namespace aes
{
const size_t kAes128KeySize = 0x10;
const size_t kAesBlockSize = 0x10;
const size_t KAesCcmNonceSize = 0xc;
#pragma pack (push, 1)
struct sAes128Key
{
uint8_t key[kAes128KeySize];
void set(const uint8_t key[kAes128KeySize])
{
memcpy(this->key, key, kAes128KeySize);
}
bool compare(const sAes128Key& other) const
{
return memcmp(this->key, other.key, kAes128KeySize) == 0;
}
void operator=(const sAes128Key& other)
{
set(other.key);
}
bool operator==(const sAes128Key& other) const
{
return compare(other);
}
bool operator!=(const sAes128Key& other) const
{
return !compare(other);
}
};
struct sAesXts128Key
{
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uint8_t key[2][kAes128KeySize];
void set(const uint8_t key_0[kAes128KeySize], const uint8_t key_1[kAes128KeySize])
{
memcpy(this->key[0], key_0, kAes128KeySize);
memcpy(this->key[1], key_1, kAes128KeySize);
}
bool compare(const sAesXts128Key& other) const
{
return memcmp(this->key[0], other.key[0], kAes128KeySize) == 0 && memcmp(this->key[1], other.key[1], kAes128KeySize) == 0;
}
void operator=(const sAesXts128Key& other)
{
set(other.key[0], other.key[1]);
}
bool operator==(const sAesXts128Key& other) const
{
return compare(other);
}
bool operator!=(const sAesXts128Key& other) const
{
return !compare(other);
}
};
struct sAesIvCtr
{
uint8_t iv[kAesBlockSize];
void set(const uint8_t iv[kAes128KeySize])
{
memcpy(this->iv, iv, kAes128KeySize);
}
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bool compare(const sAesIvCtr& other) const
{
return memcmp(this->iv, other.iv, kAesBlockSize) == 0;
}
void operator=(const sAesIvCtr& other)
{
set(other.iv);
}
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bool operator==(const sAesIvCtr& other) const
{
return compare(other);
}
bool operator!=(const sAesIvCtr& other) const
{
return !compare(other);
}
};
#pragma pack (pop)
// aes-128
void AesEcbDecrypt(const uint8_t* in, uint64_t size, const uint8_t key[kAes128KeySize], uint8_t* out);
void AesEcbEncrypt(const uint8_t* in, uint64_t size, const uint8_t key[kAes128KeySize], uint8_t* out);
void AesCtr(const uint8_t* in, uint64_t size, const uint8_t key[kAes128KeySize], uint8_t ctr[kAesBlockSize], uint8_t* out);
void AesIncrementCounter(const uint8_t in[kAesBlockSize], size_t block_num, uint8_t out[kAesBlockSize]);
void AesCbcDecrypt(const uint8_t* in, uint64_t size, const uint8_t key[kAes128KeySize], uint8_t iv[kAesBlockSize], uint8_t* out);
void AesCbcEncrypt(const uint8_t* in, uint64_t size, const uint8_t key[kAes128KeySize], uint8_t iv[kAesBlockSize], uint8_t* out);
void AesXtsDecryptSector(const uint8_t* in, uint64_t sector_size, const uint8_t key1[kAes128KeySize], const uint8_t key2[kAes128KeySize], uint8_t tweak[kAesBlockSize], uint8_t* out);
void AesXtsEncryptSector(const uint8_t* in, uint64_t sector_size, const uint8_t key1[kAes128KeySize], const uint8_t key2[kAes128KeySize], uint8_t tweak[kAesBlockSize], uint8_t* out);
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void AesXtsMakeTweak(uint8_t tweak[kAesBlockSize], size_t block_index);
void GaloisFunc(uint8_t x[kAesBlockSize]);
}
}