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hashcat/deps/unrar/crypt.hpp

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#ifndef _RAR_CRYPT_
#define _RAR_CRYPT_
enum CRYPT_METHOD {
CRYPT_NONE,CRYPT_RAR13,CRYPT_RAR15,CRYPT_RAR20,CRYPT_RAR30,CRYPT_RAR50
};
#define SIZE_SALT50 16
#define SIZE_SALT30 8
#define SIZE_INITV 16
#define SIZE_PSWCHECK 8
#define SIZE_PSWCHECK_CSUM 4
#define CRYPT_BLOCK_SIZE 16
#define CRYPT_BLOCK_MASK (CRYPT_BLOCK_SIZE-1) // 0xf
#define CRYPT5_KDF_LG2_COUNT 15 // LOG2 of PDKDF2 iteration count.
#define CRYPT5_KDF_LG2_COUNT_MAX 24 // LOG2 of maximum accepted iteration count.
#define CRYPT_VERSION 0 // Supported encryption version.
class CryptData
{
struct KDF5CacheItem
{
SecPassword Pwd;
byte Salt[SIZE_SALT50];
byte Key[32];
uint Lg2Count; // Log2 of PBKDF2 repetition count.
byte PswCheckValue[SHA256_DIGEST_SIZE];
byte HashKeyValue[SHA256_DIGEST_SIZE];
KDF5CacheItem() {Clean();}
~KDF5CacheItem() {Clean();}
void Clean()
{
cleandata(Salt,sizeof(Salt));
cleandata(Key,sizeof(Key));
cleandata(&Lg2Count,sizeof(Lg2Count));
cleandata(PswCheckValue,sizeof(PswCheckValue));
cleandata(HashKeyValue,sizeof(HashKeyValue));
}
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};
struct KDF3CacheItem
{
SecPassword Pwd;
byte Salt[SIZE_SALT30];
byte Key[16];
byte Init[16];
bool SaltPresent;
KDF3CacheItem() {Clean();}
~KDF3CacheItem() {Clean();}
void Clean()
{
cleandata(Salt,sizeof(Salt));
cleandata(Key,sizeof(Key));
cleandata(Init,sizeof(Init));
cleandata(&SaltPresent,sizeof(SaltPresent));
}
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};
private:
void SetKey13(const char *Password);
void Decrypt13(byte *Data,size_t Count);
void SetKey15(const char *Password);
void Crypt15(byte *Data,size_t Count);
void SetKey20(const char *Password);
void Swap20(byte *Ch1,byte *Ch2);
void UpdKeys20(byte *Buf);
void EncryptBlock20(byte *Buf);
void DecryptBlock20(byte *Buf);
void SetKey30(bool Encrypt,SecPassword *Password,const wchar *PwdW,const byte *Salt);
void SetKey50(bool Encrypt,SecPassword *Password,const wchar *PwdW,const byte *Salt,const byte *InitV,uint Lg2Cnt,byte *HashKey,byte *PswCheck);
KDF3CacheItem KDF3Cache[4];
uint KDF3CachePos;
KDF5CacheItem KDF5Cache[4];
uint KDF5CachePos;
CRYPT_METHOD Method;
Rijndael rin;
uint CRCTab[256]; // For RAR 1.5 and RAR 2.0 encryption.
byte SubstTable20[256];
uint Key20[4];
byte Key13[3];
ushort Key15[4];
public:
CryptData();
bool SetCryptKeys(bool Encrypt,CRYPT_METHOD Method,SecPassword *Password,
const byte *Salt,const byte *InitV,uint Lg2Cnt,
byte *HashKey,byte *PswCheck);
void SetRijndalDecryptKey(byte *Key,byte *InitV);
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void SetAV15Encryption();
void SetCmt13Encryption();
void EncryptBlock(byte *Buf,size_t Size);
void DecryptBlock(byte *Buf,size_t Size);
static void SetSalt(byte *Salt,size_t SaltSize);
};
class CheckPassword
{
public:
enum CONFIDENCE {CONFIDENCE_HIGH,CONFIDENCE_MEDIUM,CONFIDENCE_LOW};
virtual CONFIDENCE GetConfidence()=0;
virtual bool Check(SecPassword *Password)=0;
};
class RarCheckPassword:public CheckPassword
{
private:
CryptData *Crypt;
uint Lg2Count;
byte Salt[SIZE_SALT50];
byte InitV[SIZE_INITV];
byte PswCheck[SIZE_PSWCHECK];
public:
RarCheckPassword()
{
Crypt=NULL;
}
~RarCheckPassword()
{
delete Crypt;
}
void Set(byte *Salt,byte *InitV,uint Lg2Count,byte *PswCheck)
{
if (Crypt==NULL)
Crypt=new CryptData;
memcpy(this->Salt,Salt,sizeof(this->Salt));
memcpy(this->InitV,InitV,sizeof(this->InitV));
this->Lg2Count=Lg2Count;
memcpy(this->PswCheck,PswCheck,sizeof(this->PswCheck));
}
bool IsSet() {return Crypt!=NULL;}
// RAR5 provides the higly reliable 64 bit password verification value.
CONFIDENCE GetConfidence() {return CONFIDENCE_HIGH;}
bool Check(SecPassword *Password)
{
byte PswCheck[SIZE_PSWCHECK];
Crypt->SetCryptKeys(false,CRYPT_RAR50,Password,Salt,InitV,Lg2Count,NULL,PswCheck);
return memcmp(PswCheck,this->PswCheck,sizeof(this->PswCheck))==0;
}
};
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void GetRnd(byte *RndBuf,size_t BufSize);
void hmac_sha256(const byte *Key,size_t KeyLength,const byte *Data,
size_t DataLength,byte *ResDigest);
void pbkdf2(const byte *pass, size_t pass_len, const byte *salt,
size_t salt_len,byte *key, byte *Value1, byte *Value2,
uint rounds);
void ConvertHashToMAC(HashValue *Value,byte *Key);
#endif