Beispiel #1
0
void md4_mac(char *key, size_t key_size, char *message, size_t message_size, char *mac) {
    MD4_CTX ctx;
    MD4Init(&ctx);
    MD4Update(&ctx, (uint8_t *)key, key_size);
    MD4Update(&ctx, (uint8_t *)message, message_size);
    MD4Final((uint8_t *)mac, &ctx);
}
Beispiel #2
0
unsigned char * ntpwdhash (unsigned char *szHash, const unsigned char *szPassword, int ctohex)
{
	unsigned char szUnicodePass[513];
	unsigned int nPasswordLen;
	MD4_CTX ctx;
	unsigned int i;

	/*
	 *	NT passwords are unicode.  Convert plain text password
	 *	to unicode by inserting a zero every other byte
	 */
	nPasswordLen = (int)strlen((char *)szPassword);
	if(nPasswordLen > 255)nPasswordLen = 255;
	for (i = 0; i < nPasswordLen; i++) {
		szUnicodePass[i << 1] = szPassword[i];
		szUnicodePass[(i << 1) + 1] = 0;
	}

	/* Encrypt Unicode password to a 16-byte MD4 hash */
	MD4Init(&ctx);
	MD4Update(&ctx, szUnicodePass, (nPasswordLen<<1));
	MD4Final(szUnicodePass, &ctx);
	if (ctohex){
		tohex(szUnicodePass, szHash, 16);
	}
	else memcpy(szHash, szUnicodePass, 16);
	return szHash;
}
Beispiel #3
0
char *
MD4Data(const u_char *data, size_t len, char *buf)
{
	MD4_CTX ctx;

	MD4Init(&ctx);
	MD4Update(&ctx, data, len);
	return (MD4End(&ctx, buf));
}
Beispiel #4
0
static void
NTPasswordHash(u_char *secret, int secret_len, u_char hash[MD4_SIGNATURE_SIZE])
{
    MD4_CTX		md4Context;
    unsigned char * secret_ch = (unsigned char *)secret;

    MD4Init(&md4Context);

    /* MD4Update() process maximum 64 bytes at a time. */
    for( ; secret_len >= 64; secret_len -=64  )
    {
        MD4Update(&md4Context, secret_ch, 64*8);
        secret_ch += 64;
    }

    MD4Update(&md4Context, secret_ch, secret_len*8);

    MD4Final(hash, &md4Context);
}
Beispiel #5
0
static void
md4(const char *src, const char *out)
{
	MD4_CTX ctx;
	unsigned char digest[16];
	char s_digest[34];

	assert(strlen(out) == 32);
	MD4Init(&ctx);
	if (strlen(src) > 12) {
		MD4Update(&ctx, (const unsigned char *) src, 5);
		MD4Update(&ctx, (const unsigned char *) src+5, strlen(src) - 5);
	} else {
		MD4Update(&ctx, (const unsigned char *) src, strlen(src));
	}
	MD4Final(&ctx, digest);
	if (strcasecmp(bin2ascii(s_digest, digest, 16), out) != 0) {
		fprintf(stderr, "Wrong md4(%s) -> %s expected %s\n", src, s_digest, out);
		exit(1);
	}
}
Beispiel #6
0
/*!
 *  \see http://blogs.msdn.com/b/michael_howard/archive/2005/01/14/353379.aspx
 */
NTSTATUS
NTAPI
KsecGatherEntropyData(
    PKSEC_ENTROPY_DATA EntropyData)
{
    MD4_CTX Md4Context;
    PTEB Teb;
    PPEB Peb;
    PWSTR String;
    SIZE_T ReturnLength;
    NTSTATUS Status;

    /* Query some generic values */
    EntropyData->CurrentProcessId = PsGetCurrentProcessId();
    EntropyData->CurrentThreadId = PsGetCurrentThreadId();
    KeQueryTickCount(&EntropyData->TickCount);
    KeQuerySystemTime(&EntropyData->SystemTime);
    EntropyData->PerformanceCounter = KeQueryPerformanceCounter(
                                            &EntropyData->PerformanceFrequency);

    /* Check if we have a TEB/PEB for the process environment */
    Teb = PsGetCurrentThread()->Tcb.Teb;
    if (Teb != NULL)
    {
        Peb = Teb->ProcessEnvironmentBlock;

        /* Initialize the MD4 context */
        MD4Init(&Md4Context);
        _SEH2_TRY
        {
            /* Get the end of the environment */
            String = Peb->ProcessParameters->Environment;
            while (*String)
            {
                String += wcslen(String) + 1;
            }

            /* Update the MD4 context from the environment data */
            MD4Update(&Md4Context,
                      (PUCHAR)Peb->ProcessParameters->Environment,
                      (ULONG)((PUCHAR)String - (PUCHAR)Peb->ProcessParameters->Environment));
        }
        _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER)
        {
            /* Simply ignore the exception */
        }
        _SEH2_END;

        /* Finalize and copy the MD4 hash */
        MD4Final(&Md4Context);
        RtlCopyMemory(&EntropyData->EnvironmentHash, Md4Context.digest, 16);
    }
/* quick wrapper for easy md4 */
void
md4(unsigned char *from, int from_len, unsigned char *to)
{
  MD4_CTX Context;

#ifndef __NetBSD__
  from_len <<= 3; /* bytes->bits */
#endif

  MD4Init(&Context);
  MD4Update(&Context, from, from_len);
  MD4Final(to, &Context);
}
Beispiel #8
0
/*
 * Finish up MD4 computation and return message digest.
 */
void
BCMROMFN(MD4Final)(unsigned char *buf, MD4_CTX *MD)
{
	int i, j;
	unsigned int w;

	MD4Update(MD, NULL, 0);
	for (i = 0; i < 4; ++i) {
		w = MD->buffer[i];
		for (j = 0; j < 4; ++j) {
			*buf++ = (unsigned char) w;
			w >>= 8;
		}
	}
}
Beispiel #9
0
static int
keycrunch_md4(char *result, char *seed, char *passwd)
{
	char *buf = NULL;
	MD4_CTX md;
	u_int32_t results[4];
	unsigned int buflen;

	/*
	 * If seed and passwd are defined we are in keycrunch() mode,
	 * else we are in f() mode.
	 */
	if (seed && passwd) {
		buflen = strlen(seed) + strlen(passwd);
		if ((buf = malloc(buflen + 1)) == NULL)
			return(-1);
		(void)strlcpy(buf, seed, buflen + 1);
		lowcase(buf);
		(void)strlcat(buf, passwd, buflen + 1);
		sevenbit(buf);
	} else {
		buf = result;
		buflen = SKEY_BINKEY_SIZE;
	}

	/* Crunch the key through MD4 */
	MD4Init(&md);
	MD4Update(&md, (unsigned char *)buf, buflen);
	MD4Final((unsigned char *)results, &md);

	/* Fold result from 128 to 64 bits */
	results[0] ^= results[2];
	results[1] ^= results[3];

	(void)memcpy((void *)result, (void *)results, SKEY_BINKEY_SIZE);

	if (buf != result)
		(void)free(buf);

	return(0);
}
Beispiel #10
0
static void md4drv_from_erlang(ErlDrvData drv_data, char *buf, int len)
{
    MD4_CTX context;
    unsigned char digest[16];
    t_md4drv *md4 = (t_md4drv *) drv_data;
    ErlDrvBinary *bin = NULL;

    MD4Init(&context);
    MD4Update(&context, buf, len);
    MD4Final(digest, &context);

    if (!(bin = driver_alloc_binary(16))) {
	driver_send_error(md4, &am_enomem);
    }
    else {
	memcpy(bin->orig_bytes, digest, 16);
	driver_send_bin(md4, bin, 16);
	driver_free_binary(bin);
    }
    return;
}
Beispiel #11
0
static NTSTATUS hash_update( struct hash_impl *hash, enum alg_id alg_id,
                             UCHAR *input, ULONG size )
{
    switch (alg_id)
    {
    case ALG_ID_MD2:
        md2_update( &hash->u.md2, input, size );
        break;

    case ALG_ID_MD4:
        MD4Update( &hash->u.md4, input, size );
        break;

    case ALG_ID_MD5:
        MD5Update( &hash->u.md5, input, size );
        break;

    case ALG_ID_SHA1:
        A_SHAUpdate( &hash->u.sha1, input, size );
        break;

    case ALG_ID_SHA256:
        sha256_update( &hash->u.sha256, input, size );
        break;

    case ALG_ID_SHA384:
        sha384_update( &hash->u.sha512, input, size );
        break;

    case ALG_ID_SHA512:
        sha512_update( &hash->u.sha512, input, size );
        break;

    default:
        ERR( "unhandled id %u\n", alg_id );
        return STATUS_NOT_IMPLEMENTED;
    }
    return STATUS_SUCCESS;
}
Beispiel #12
0
char *
MD4FileChunk(const char *filename, char *buf, off_t off, off_t len)
{
	struct stat sb;
	u_char buffer[BUFSIZ];
	MD4_CTX ctx;
	int fd, save_errno;
	ssize_t nr;

	MD4Init(&ctx);

	if ((fd = open(filename, O_RDONLY)) < 0)
		return (NULL);
	if (len == 0) {
		if (fstat(fd, &sb) == -1) {
			close(fd);
			return (NULL);
		}
		len = sb.st_size;
	}
	if (off > 0 && lseek(fd, off, SEEK_SET) < 0) {
		close(fd);
		return (NULL);
	}

	while ((nr = read(fd, buffer, MIN(sizeof(buffer), len))) > 0) {
		MD4Update(&ctx, buffer, (size_t)nr);
		if (len > 0 && (len -= nr) == 0)
			break;
	}

	save_errno = errno;
	close(fd);
	errno = save_errno;
	return (nr < 0 ? NULL : MD4End(&ctx, buf));
}
Beispiel #13
0
void main (int nargs, char *args[])
{
  char *filename  = args[1];
  unsigned char digest[16];
  FILE *file;
  MD4_CTX context;
  int len;
  unsigned char buffer[BUFFER_LEN];

  if ((file = fopen (filename, "rb")) == NULL){
    exit(2);
  }   else {
    int i;
    MD4Init (&context);
    while ((len = fread (buffer, 1, BUFFER_LEN, file))!=0){
      MD4Update (&context, buffer, len);}
    MD4Final (digest, &context);
    for(i=0; i<16; i++) printf("%d", digest[i]);
    printf("\n");


    fclose (file);
  }
}
Beispiel #14
0
static char *
chap_BuildAnswer(char *name, char *key, u_char id, char *challenge
#ifndef NODES
		 , u_char type, char *peerchallenge, char *authresponse,
		 int lanman
#endif
                )
{
  char *result, *digest;
  size_t nlen, klen;

  nlen = strlen(name);
  klen = strlen(key);

#ifndef NODES
  if (type == 0x80) {
    char expkey[AUTHLEN << 2];
    MD4_CTX MD4context;
    size_t f;

    if ((result = malloc(1 + nlen + MS_CHAP_RESPONSE_LEN)) == NULL)
      return result;

    digest = result;					/* the response */
    *digest++ = MS_CHAP_RESPONSE_LEN;			/* 49 */
    memcpy(digest + MS_CHAP_RESPONSE_LEN, name, nlen);
    if (lanman) {
      memset(digest + 24, '\0', 25);
      mschap_LANMan(digest, challenge + 1, key);	/* LANMan response */
    } else {
      memset(digest, '\0', 25);
      digest += 24;

      for (f = 0; f < klen; f++) {
        expkey[2*f] = key[f];
        expkey[2*f+1] = '\0';
      }
      /*
       *           -----------
       * expkey = | k\0e\0y\0 |
       *           -----------
       */
      MD4Init(&MD4context);
      MD4Update(&MD4context, expkey, klen << 1);
      MD4Final(digest, &MD4context);

      /*
       *           ---- -------- ---------------- ------- ------
       * result = | 49 | LANMan | 16 byte digest | 9 * ? | name |
       *           ---- -------- ---------------- ------- ------
       */
      mschap_NT(digest, challenge + 1);
    }
    /*
     *           ---- -------- ------------- ----- ------
     *          |    |  struct MS_ChapResponse24  |      |
     * result = | 49 | LANMan  |  NT digest | 0/1 | name |
     *           ---- -------- ------------- ----- ------
     * where only one of LANMan & NT digest are set.
     */
  } else if (type == 0x81) {
    char expkey[AUTHLEN << 2];
    char pwdhash[CHAP81_HASH_LEN];
    char pwdhashhash[CHAP81_HASH_LEN];
    char *ntresponse;
    size_t f;

    if ((result = malloc(1 + nlen + CHAP81_RESPONSE_LEN)) == NULL)
      return result;

    memset(result, 0, 1 + nlen + CHAP81_RESPONSE_LEN);

    digest = result;
    *digest++ = CHAP81_RESPONSE_LEN;		/* value size */

    /* Copy our challenge */
    memcpy(digest, peerchallenge + 1, CHAP81_CHALLENGE_LEN);

    /* Expand password to Unicode XXX */
    for (f = 0; f < klen; f++) {
      expkey[2*f] = key[f];
      expkey[2*f+1] = '\0';
    }

    ntresponse = digest + CHAP81_NTRESPONSE_OFF;

    /* Get some needed hashes */
    NtPasswordHash(expkey, klen * 2, pwdhash);
    HashNtPasswordHash(pwdhash, pwdhashhash);

    /* Generate NTRESPONSE to respond on challenge call */
    GenerateNTResponse(challenge + 1, peerchallenge + 1, name,
                       expkey, klen * 2, ntresponse);

    /* Generate MPPE MASTERKEY */
    GetMasterKey(pwdhashhash, ntresponse, MPPE_MasterKey);    /* XXX Global ! */

    /* Generate AUTHRESPONSE to verify on auth success */
    GenerateAuthenticatorResponse(expkey, klen * 2, ntresponse,
                                  peerchallenge + 1, challenge + 1, name,
                                  authresponse);

    authresponse[CHAP81_AUTHRESPONSE_LEN] = 0;

    memcpy(digest + CHAP81_RESPONSE_LEN, name, nlen);
  } else
#endif
  if ((result = malloc(nlen + 17)) != NULL) {
    /* Normal MD5 stuff */
    MD5_CTX MD5context;

    digest = result;
    *digest++ = 16;				/* value size */

    MD5Init(&MD5context);
    MD5Update(&MD5context, &id, 1);
    MD5Update(&MD5context, key, klen);
    MD5Update(&MD5context, challenge + 1, *challenge);
    MD5Final(digest, &MD5context);

    memcpy(digest + 16, name, nlen);
    /*
     *           ---- -------- ------
     * result = | 16 | digest | name |
     *           ---- -------- ------
     */
  }

  return result;
}
static char *
chap_BuildAnswer_old(char *name, char *key, u_char id, char *challenge, u_char type
#ifdef HAVE_DES
                     , int lanman
#endif
                    )
{
    char *result;
#ifndef __GNU__
    char *digest;
#endif /* __GNU__ */
    size_t nlen, klen;

    nlen = strlen(name);
    klen = strlen(key);

#ifdef HAVE_DES
    if (type == 0x80) {
        char expkey[AUTHLEN << 2];
        MD4_CTX MD4context;
        int f;

        if ((result = malloc(1 + nlen + MS_CHAP_RESPONSE_LEN)) == NULL)
            return result;

        digest = result;					/* the response */
        *digest++ = MS_CHAP_RESPONSE_LEN;			/* 49 */
        memcpy(digest + MS_CHAP_RESPONSE_LEN, name, nlen);
        if (lanman) {
            memset(digest + 24, '\0', 25);
            mschap_LANMan(digest, challenge + 1, key);	/* LANMan response */
        } else {
            memset(digest, '\0', 25);
            digest += 24;

            for (f = 0; f < klen; f++) {
                expkey[2*f] = key[f];
                expkey[2*f+1] = '\0';
            }
            /*
             *           -----------
             * expkey = | k\0e\0y\0 |
             *           -----------
             */
            MD4Init(&MD4context);
            MD4Update(&MD4context, expkey, klen << 1);
            MD4Final(digest, &MD4context);

            /*
             *           ---- -------- ---------------- ------- ------
             * result = | 49 | LANMan | 16 byte digest | 9 * ? | name |
             *           ---- -------- ---------------- ------- ------
             */
            mschap_NT(digest, challenge + 1);
        }
        /*
         *           ---- -------- ------------- ----- ------
         *          |    |  struct MS_ChapResponse24  |      |
         * result = | 49 | LANMan  |  NT digest | 0/1 | name |
         *           ---- -------- ------------- ----- ------
         * where only one of LANMan & NT digest are set.
         */
    } else
#endif
        if ((result = malloc(nlen + 17)) != NULL) {
            /* Normal MD5 stuff */
#ifdef __GNU__
            _exit (240); /* Critical */
#else
            MD5_CTX MD5context;

            digest = result;
            *digest++ = 16;				/* value size */

            MD5Init(&MD5context);
            MD5Update(&MD5context, &id, 1);
            MD5Update(&MD5context, key, klen);
            MD5Update(&MD5context, challenge + 1, *challenge);
            MD5Final(digest, &MD5context);

            memcpy(digest + 16, name, nlen);
            /*
             *           ---- -------- ------
             * result = | 16 | digest | name |
             *           ---- -------- ------
             */
#endif
        }

    return result;
}
Beispiel #16
0
/// Set Ed2k hash from a file
// returns false if aborted
bool Ed2kHash::SetED2KHashFromFile(const wxFileName& filename, MD4Hook hook)
{
  // Open file and let wxFFile destructor close the file
  // Closing it explicitly may crash on Win32 ...
  wxFFile file(filename.GetFullPath(), wxT("rbS"));
  if (! file.IsOpened())
    {
      wxLogError (_("Unable to open %s"),unicode2char(filename.GetFullPath()));
      return (false);
    }
  else
    {
      unsigned char ret[MD4_HASHLEN_BYTE];
      MD4Context hdc;

      size_t read;
      size_t partcount;
      size_t dataread;
      wxFileOffset totalread;

      char *buf = new char[BUFSIZE];

      bool goAhead = true;

#ifdef WANT_STRING_IMPLEMENTATION

      wxString tmpHash(wxEmptyString);
#else

      unsigned char* tmpCharHash = NULL;
#endif
      // Clear Ed2k Hash
      m_ed2kArrayOfHashes.Clear();

      // Processing each block
      totalread=0;
      partcount = 0;
      while (!file.Eof())
        {
          dataread = 0;
          MD4Init(&hdc);
          while (dataread < PARTSIZE && !file.Eof())
            {
              if (hook)
                {
                  goAhead = hook((int)((double)(100.0 * totalread) / file.Length()));
                }
              if (goAhead)
                {
                  if ((dataread + BUFSIZE) > PARTSIZE)
                    {
                      read = file.Read(buf, PARTSIZE - dataread);
                    }
                  else
                    {
                      read = file.Read(buf, BUFSIZE);
                    }
                  dataread += read;
                  totalread += read;
                  MD4Update(&hdc, reinterpret_cast<unsigned char const *>(buf),
                            read);
                }
              else
                {
                  return (false);
                }

            }
          MD4Final(&hdc, ret);

          // Add part-hash
          m_ed2kArrayOfHashes.Add(charToHex(reinterpret_cast<const char *>(ret),
                                            MD4_HASHLEN_BYTE));

          partcount++;

#ifdef WANT_STRING_IMPLEMENTATION
          // MD4_HASHLEN_BYTE is ABSOLUTLY needed as we dont want NULL
          // character to be interpreted as the end of the parthash string
#if wxUSE_UNICODE

          tmpHash += wxString(reinterpret_cast<const wchar_t *>(ret),MD4_HASHLEN_BYTE);
#else

          tmpHash += wxString(reinterpret_cast<const char *>(ret),MD4_HASHLEN_BYTE);
#endif
#else

          tmpCharHash = (unsigned char*)realloc(tmpCharHash,
                                                sizeof(unsigned char) * (MD4_HASHLEN_BYTE * partcount));
          memcpy ( tmpCharHash + MD4_HASHLEN_BYTE * (partcount - 1), ret, MD4_HASHLEN_BYTE );
#endif

        }

      delete [] buf;

      // hash == hash of concatenned parthashes
      if (partcount > 1)
        {
          wxString finalHash;

#ifdef WANT_STRING_IMPLEMENTATION

          finalHash=calcMd4FromString(tmpHash);
#else

          MD4Init(&hdc);
          MD4Update(&hdc, tmpCharHash, MD4_HASHLEN_BYTE * partcount);
          MD4Final(&hdc, ret);

          finalHash = charToHex(reinterpret_cast<const char *>(ret),
                                MD4_HASHLEN_BYTE);
#endif

          m_ed2kArrayOfHashes.Add(finalHash);
        }

#ifndef WANT_STRING_IMPLEMENTATION
      free(tmpCharHash);
      tmpCharHash=NULL;
#endif

      m_ed2kArrayOfHashes.Shrink();

      // Set members
      m_fileSize = file.Length();
      m_filename = filename.GetFullName();

      return true;
    }
}
Beispiel #17
0
int CHashManager::HashFile(char *pszFile)
{
	FILE *fp = NULL;
	unsigned char pBuf[SIZE_HASH_BUFFER];
	unsigned long uRead = 0;
	unsigned char pTemp[256];
	char szTemp[RH_MAX_BUFFER];
	int i = 0;

	printf("File: <");
	printf(pszFile);
	printf(">");
	printf(CPS_NEWLINE);

	fp = fopen(pszFile, "rb");
	if(fp == NULL) return RH_CANNOT_OPEN_FILE;

	if(m_bAlgorithm[HASHID_CRC16]) crc16_init(&m_crc16);
	if(m_bAlgorithm[HASHID_CRC16CCITT]) crc16ccitt_init(&m_crc16ccitt);
	if(m_bAlgorithm[HASHID_CRC32]) crc32Init(&m_crc32);
	if(m_bAlgorithm[HASHID_FCS_16]) fcs16_init(&m_fcs16);
	if(m_bAlgorithm[HASHID_FCS_32]) fcs32_init(&m_fcs32);
	if(m_bAlgorithm[HASHID_GHASH_32_3] || m_bAlgorithm[HASHID_GHASH_32_5]) m_ghash.Init();
	if(m_bAlgorithm[HASHID_GOST]) gosthash_reset(&m_gost);
	if(m_bAlgorithm[HASHID_HAVAL]) haval_start(&m_haval);
	if(m_bAlgorithm[HASHID_MD2]) m_md2.Init();
	if(m_bAlgorithm[HASHID_MD4]) MD4Init(&m_md4);
	if(m_bAlgorithm[HASHID_MD5]) MD5Init(&m_md5, 0);
	if(m_bAlgorithm[HASHID_SHA1]) sha1_begin(&m_sha1);
	if(m_bAlgorithm[HASHID_SHA2_256]) sha256_begin(&m_sha256);
	if(m_bAlgorithm[HASHID_SHA2_384]) sha384_begin(&m_sha384);
	if(m_bAlgorithm[HASHID_SHA2_512]) sha512_begin(&m_sha512);
	if(m_bAlgorithm[HASHID_SIZE_32]) sizehash32_begin(&m_uSizeHash32);
	if(m_bAlgorithm[HASHID_TIGER]) tiger_init(&m_tiger);

	while(1)
	{
		uRead = fread(pBuf, 1, SIZE_HASH_BUFFER, fp);

		if(uRead != 0)
		{
			if(m_bAlgorithm[HASHID_CRC16])
				crc16_update(&m_crc16, pBuf, uRead);

			if(m_bAlgorithm[HASHID_CRC16CCITT])
				crc16ccitt_update(&m_crc16ccitt, pBuf, uRead);

			if(m_bAlgorithm[HASHID_CRC32])
				crc32Update(&m_crc32, pBuf, uRead);

			if(m_bAlgorithm[HASHID_FCS_16])
				fcs16_update(&m_fcs16, pBuf, uRead);

			if(m_bAlgorithm[HASHID_FCS_32])
				fcs32_update(&m_fcs32, pBuf, uRead);

			if(m_bAlgorithm[HASHID_GHASH_32_3] || m_bAlgorithm[HASHID_GHASH_32_5])
				m_ghash.Update(pBuf, uRead);

			if(m_bAlgorithm[HASHID_GOST])
				gosthash_update(&m_gost, pBuf, uRead);

			if(m_bAlgorithm[HASHID_HAVAL])
				haval_hash(&m_haval, pBuf, uRead);

			if(m_bAlgorithm[HASHID_MD2])
				m_md2.Update(pBuf, uRead);

			if(m_bAlgorithm[HASHID_MD4])
				MD4Update(&m_md4, pBuf, uRead);

			if(m_bAlgorithm[HASHID_MD5])
				MD5Update(&m_md5, pBuf, uRead);

			if(m_bAlgorithm[HASHID_SHA1])
				sha1_hash(pBuf, uRead, &m_sha1);

			if(m_bAlgorithm[HASHID_SHA2_256])
				sha256_hash(pBuf, uRead, &m_sha256);

			if(m_bAlgorithm[HASHID_SHA2_384])
				sha384_hash(pBuf, uRead, &m_sha384);

			if(m_bAlgorithm[HASHID_SHA2_512])
				sha512_hash(pBuf, uRead, &m_sha512);

			if(m_bAlgorithm[HASHID_SIZE_32])
				sizehash32_hash(&m_uSizeHash32, uRead);

			if(m_bAlgorithm[HASHID_TIGER])
				tiger_process(&m_tiger, pBuf, uRead);
		}

		if(uRead != SIZE_HASH_BUFFER) break;
	}

	fclose(fp); fp = NULL;

	// SizeHash-32 is the first hash, because it's the simplest one,
	// the fastest, and most widely used one. ;-)
	if(m_bAlgorithm[HASHID_SIZE_32])
	{
		sizehash32_end(&m_uSizeHash32);
		printf(SZ_SIZEHASH_32);
		printf(SZ_HASHPRE);

		printf("%08X", m_uSizeHash32);

		printf(CPS_NEWLINE);
	}

	if(m_bAlgorithm[HASHID_CRC16])
	{
		crc16_final(&m_crc16);
		printf(SZ_CRC16);
		printf(SZ_HASHPRE);

		printf("%04X", m_crc16);

		printf(CPS_NEWLINE);
	}

	if(m_bAlgorithm[HASHID_CRC16CCITT])
	{
		crc16ccitt_final(&m_crc16ccitt);
		printf(SZ_CRC16CCITT);
		printf(SZ_HASHPRE);

		printf("%04X", m_crc16ccitt);

		printf(CPS_NEWLINE);
	}

	if(m_bAlgorithm[HASHID_CRC32])
	{
		crc32Finish(&m_crc32);
		printf(SZ_CRC32);
		printf(SZ_HASHPRE);

		printf("%08X", m_crc32);

		printf(CPS_NEWLINE);
	}

	if(m_bAlgorithm[HASHID_FCS_16])
	{
		fcs16_final(&m_fcs16);
		printf(SZ_FCS_16);
		printf(SZ_HASHPRE);

		printf("%04X", m_fcs16);

		printf(CPS_NEWLINE);
	}

	if(m_bAlgorithm[HASHID_FCS_32])
	{
		fcs32_final(&m_fcs32);
		printf(SZ_FCS_32);
		printf(SZ_HASHPRE);

		printf("%08X", m_fcs32);

		printf(CPS_NEWLINE);
	}

	if(m_bAlgorithm[HASHID_GHASH_32_3])
	{
		m_ghash.FinalToStr(szTemp, 3);
		printf(SZ_GHASH_32_3);
		printf(SZ_HASHPRE);

		printf(szTemp);

		printf(CPS_NEWLINE);
	}
	if(m_bAlgorithm[HASHID_GHASH_32_5])
	{
		m_ghash.FinalToStr(szTemp, 5);
		printf(SZ_GHASH_32_5);
		printf(SZ_HASHPRE);

		printf(szTemp);

		printf(CPS_NEWLINE);
	}

	if(m_bAlgorithm[HASHID_GOST])
	{
		gosthash_final(&m_gost, pTemp);
		printf(SZ_GOST);
		printf(SZ_HASHPRE);

		for(i = 0; i < 32; i++)
		{
			fmtFixHashOutput(i);
			printf("%02X", pTemp[i]);
		}

		printf(CPS_NEWLINE);
	}

	if(m_bAlgorithm[HASHID_HAVAL])
	{
		haval_end(&m_haval, pTemp);
		printf(SZ_HAVAL);
		printf(SZ_HASHPRE);

		for(i = 0; i < 32; i++)
		{
			fmtFixHashOutput(i);
			printf("%02X", pTemp[i]);
		}

		printf(CPS_NEWLINE);
	}

	if(m_bAlgorithm[HASHID_MD2])
	{
		m_md2.TruncatedFinal(pTemp, 16);
		printf(SZ_MD2);
		printf(SZ_HASHPRE);

		for(i = 0; i < 16; i++)
		{
			fmtFixHashOutput(i);
			printf("%02X", pTemp[i]);
		}

		printf(CPS_NEWLINE);
	}

	if(m_bAlgorithm[HASHID_MD4])
	{
		MD4Final(pTemp, &m_md4);
		printf(SZ_MD4);
		printf(SZ_HASHPRE);

		for(i = 0; i < 16; i++)
		{
			fmtFixHashOutput(i);
			printf("%02X", pTemp[i]);
		}

		printf(CPS_NEWLINE);
	}

	if(m_bAlgorithm[HASHID_MD5])
	{
		MD5Final(&m_md5);
		printf(SZ_MD5);
		printf(SZ_HASHPRE);

		for(i = 0; i < 16; i++)
		{
			fmtFixHashOutput(i);
			printf("%02X", m_md5.digest[i]);
		}

		printf(CPS_NEWLINE);
	}

	if(m_bAlgorithm[HASHID_SHA1])
	{
		sha1_end(pTemp, &m_sha1);
		printf(SZ_SHA1);
		printf(SZ_HASHPRE);

		for(i = 0; i < 20; i++)
		{
			fmtFixHashOutput(i);
			printf("%02X", pTemp[i]);
		}

		printf(CPS_NEWLINE);
	}

	if(m_bAlgorithm[HASHID_SHA2_256])
	{
		sha256_end(pTemp, &m_sha256);
		printf(SZ_SHA2_256);
		printf(SZ_HASHPRE);

		for(i = 0; i < 32; i++)
		{
			fmtFixHashOutput(i);
			printf("%02X", pTemp[i]);
		}

		printf(CPS_NEWLINE);
	}
	if(m_bAlgorithm[HASHID_SHA2_384])
	{
		sha384_end(pTemp, &m_sha384);
		printf(SZ_SHA2_384);
		printf(SZ_HASHPRE);

		for(i = 0; i < 48; i++)
		{
			fmtFixHashOutput(i);
			printf("%02X", pTemp[i]);
		}

		printf(CPS_NEWLINE);
	}
	if(m_bAlgorithm[HASHID_SHA2_512])
	{
		sha512_end(pTemp, &m_sha512);
		printf(SZ_SHA2_512);
		printf(SZ_HASHPRE);

		for(i = 0; i < 64; i++)
		{
			fmtFixHashOutput(i);
			printf("%02X", pTemp[i]);
		}

		printf(CPS_NEWLINE);
	}

	if(m_bAlgorithm[HASHID_TIGER])
	{
		tiger_done(&m_tiger, pTemp);
		printf(SZ_TIGER);
		printf(SZ_HASHPRE);

		for(i = 0; i < 8; i++) { fmtFixHashOutput(i); printf("%02X", pTemp[7-i]); }
		for(i = 8; i < 16; i++) { fmtFixHashOutput(i); printf("%02X", pTemp[23-i]); }
		for(i = 16; i < 24; i++) { fmtFixHashOutput(i); printf("%02X", pTemp[39-i]); }

		printf(CPS_NEWLINE);
	}

	return RH_SUCCESS;
}
Beispiel #18
0
int md4_low_update(MD4_CTX *context, const unsigned char *in, size_t in_len) {
	MD4Update(context, in, in_len);

	return 0;
}