// CkDhW.h: interface for the CkDhW class. // ////////////////////////////////////////////////////////////////////// // This header is generated for Chilkat 9.5.0.75 #ifndef _CkDhW_H #define _CkDhW_H #include "chilkatDefs.h" #include "CkString.h" #include "CkWideCharBase.h" #if !defined(__sun__) && !defined(__sun) #pragma pack (push, 8) #endif // CLASS: CkDhW class CK_VISIBLE_PUBLIC CkDhW : public CkWideCharBase { private: // Don't allow assignment or copying these objects. CkDhW(const CkDhW &); CkDhW &operator=(const CkDhW &); public: CkDhW(void); virtual ~CkDhW(void); static CkDhW *createNew(void); void CK_VISIBLE_PRIVATE inject(void *impl); // May be called when finished with the object to free/dispose of any // internal resources held by the object. void dispose(void); // BEGIN PUBLIC INTERFACE // ---------------------- // Properties // ---------------------- // The generator. The value of G should be either 2 or 5. int get_G(void); // A "safe" large prime returned as a hex string. The hex string represent a bignum // in SSH1 format. void get_P(CkString &str); // A "safe" large prime returned as a hex string. The hex string represent a bignum // in SSH1 format. const wchar_t *p(void); // ---------------------- // Methods // ---------------------- // The 1st step in Diffie-Hellman key exchange (to generate a shared-secret). The // numBits should be twice the size (in bits) of the shared secret to be generated. // For example, if you are using DH to create a 128-bit AES session key, then numBits // should be set to 256. Returns E as a bignum in SSH-format as a hex string. bool CreateE(int numBits, CkString &outStr); // The 1st step in Diffie-Hellman key exchange (to generate a shared-secret). The // numBits should be twice the size (in bits) of the shared secret to be generated. // For example, if you are using DH to create a 128-bit AES session key, then numBits // should be set to 256. Returns E as a bignum in SSH-format as a hex string. const wchar_t *createE(int numBits); // The 2nd and final step in Diffie-Hellman (DH) key exchange. E is the E // created by the other party. Returns the shared secret (K) as an SSH1-format // bignum encoded as a hex string. bool FindK(const wchar_t *E, CkString &outStr); // The 2nd and final step in Diffie-Hellman (DH) key exchange. E is the E // created by the other party. Returns the shared secret (K) as an SSH1-format // bignum encoded as a hex string. const wchar_t *findK(const wchar_t *E); // Generates a large safe prime that is numBits bits in size using the generator G. // Generating a new (random) P is expensive in both time and CPU cycles. A prime // should be 1024 or more bits in length. bool GenPG(int numBits, int G); // Sets explicit values for P and G. Returns true if P and G conform to the // requirements for Diffie-Hellman. P is an SSH1-format bignum passed as a // hexidecimalized string. bool SetPG(const wchar_t *p, int g); // Unlocks the component. This must be called once prior to calling any other // method. A fully-functional 30-day trial is automatically started when an // arbitrary string is passed to this method. For example, passing "Hello", or // "abc123" will unlock the component for the 1st thirty days after the initial // install. bool UnlockComponent(const wchar_t *unlockCode); // Sets P and G to a known safe prime. The index may have the following values: // // 1: First Oakley Default Group from RFC2409, section 6.1. Generator is 2. The // prime is: 2^768 - 2 ^704 - 1 + 2^64 * { [2^638 pi] + 149686 } // // 2: Prime for 2nd Oakley Group (RFC 2409) -- 1024-bit MODP Group. Generator is 2. // The prime is: 2^1024 - 2^960 - 1 + 2^64 * { [2^894 pi] + 129093 }. // // 3: 1536-bit MODP Group from RFC3526, Section 2. Generator is 2. The prime is: // 2^1536 - 2^1472 - 1 + 2^64 * { [2^1406 pi] + 741804 } // // 4: Prime for 14th Oakley Group (RFC 3526) -- 2048-bit MODP Group. Generator is // 2. The prime is: 2^2048 - 2^1984 - 1 + 2^64 * { [2^1918 pi] + 124476 } // // 5: 3072-bit MODP Group from RFC3526, Section 4. Generator is 2. The prime is: // 2^3072 - 2^3008 - 1 + 2^64 * { [2^2942 pi] + 1690314 } // // 6: 4096-bit MODP Group from RFC3526, Section 5. Generator is 2. The prime is: // 2^4096 - 2^4032 - 1 + 2^64 * { [2^3966 pi] + 240904 } // // 7: 6144-bit MODP Group from RFC3526, Section 6. Generator is 2. The prime is: // 2^6144 - 2^6080 - 1 + 2^64 * { [2^6014 pi] + 929484 } // // 8: 8192-bit MODP Group from RFC3526, Section 7. Generator is 2. The prime is: // 2^8192 - 2^8128 - 1 + 2^64 * { [2^8062 pi] + 4743158 } // void UseKnownPrime(int index); // END PUBLIC INTERFACE }; #if !defined(__sun__) && !defined(__sun) #pragma pack (pop) #endif #endif