Exemplo n.º 1
0
int
encryptFinal(void)
{
  CCCryptorStatus status;
  int rv;

  /* finish zlib */
  do {
    strm.next_out = compressed;
    strm.avail_out = sizeof(compressed);

    rv = deflate(&strm, Z_FINISH);
    if (rv != Z_OK && rv != Z_STREAM_END && rv != Z_BUF_ERROR) {
      printf("zlib error %d\n", rv);
    }

    status = CCCryptorUpdate(cryptorRef,
                             compressed, sizeof(compressed) - strm.avail_out,
                             bufOut, sizeof(bufOut), &bufOutLen);
    if (status != kCCSuccess) {
      printf("cryptor update error\n");
      return(-1);
    }

    if (bufOutLen) {
      CCHmacUpdate(&hmacContext, bufOut, bufOutLen);
      writer(bufOut, bufOutLen);
    }
  } while (strm.avail_out == 0);

  deflateEnd(&strm);

  status = CCCryptorFinal(cryptorRef,
                          bufOut, sizeof(bufOut), &bufOutLen);
  if (status != kCCSuccess) {
    printf("cryptor update error: %d\n", status);
  }

  if (bufOutLen) {
      CCHmacUpdate(&hmacContext, bufOut, bufOutLen);
      writer(bufOut, bufOutLen);
  }

  status = CCCryptorRelease(cryptorRef);
  if (status != kCCSuccess) {
    printf("cryptor release error\n");
  }

  CCHmacFinal(&hmacContext, &header.hmacDigest);
  CCHmacFinal(&hmacContextPlain, &header.hmacDigestPlain);

  seeker(0);
  writer(&header, sizeof(header));

  return(0);
}
Exemplo n.º 2
0
/* normal crypt ops */
static OSStatus HMAC_Update(
	HMACContextRef	hmacCtx,
	const void		*data,
	unsigned		dataLen)
{
	CCHmacUpdate(&hmacCtx->ccHmac, data, dataLen);
	return noErr;
}
Exemplo n.º 3
0
void Hmac::Update(const void* buffer, size_t length)
{
	if (!mInitialized)
	{
		Initialize();
	}
	
	CCHmacUpdate(&mHMACContext, buffer, length);
}
Exemplo n.º 4
0
int
decryptFinal(HMACCheck hmacCheck)
{
  CCCryptorStatus status;
  int rv;
  uint8_t hmacDigest[CC_SHA512_DIGEST_LENGTH];

  status = CCCryptorFinal(cryptorRef,
                          compressed, sizeof(compressed), &compressedLen);
  if (status != kCCSuccess) {
    printf("cryptor update error\n");
    return(-1);
  }
  status = CCCryptorRelease(cryptorRef);
  if (status != kCCSuccess) {
    printf("cryptor release error\n");
  }

  if (compressedLen) {
    strm.next_in = compressed;
    strm.avail_in = (uint)compressedLen;

    do {
      strm.next_out = bufOut;
      strm.avail_out = sizeof(bufOut);

      rv = inflate(&strm, Z_FINISH);
      if (rv != Z_OK && rv != Z_STREAM_END && rv != Z_BUF_ERROR) {
         printf("zlib error\n");
      }

      bufOutLen = sizeof(bufOut) - strm.avail_out;
      if (bufOutLen) {
        CCHmacUpdate(&hmacContextPlain, bufOut, bufOutLen);
        writer(bufOut, bufOutLen);
      }

    } while (strm.avail_out == 0);
  }

  inflateEnd(&strm);

  if (hmacCheck == kHmacNoCheck)
    return(0);

  /* CHECK */
  CCHmacFinal(&hmacContext, &hmacDigest);
  if (memcmp(header.hmacDigest, hmacDigest, sizeof(hmacDigest)))
    printf("CRYPT CORRUPT\n");

  CCHmacFinal(&hmacContextPlain, &hmacDigest);
  if (memcmp(header.hmacDigestPlain, hmacDigest, sizeof(hmacDigest)))
    printf("PLAIN CORRUPT\n");

  return(0);
}
Exemplo n.º 5
0
int32_t mz_crypt_hmac_update(void *handle, const void *buf, int32_t size)
{
    mz_crypt_hmac *hmac = (mz_crypt_hmac *)handle;

    if (hmac == NULL || buf == NULL)
        return MZ_PARAM_ERROR;

    CCHmacUpdate(&hmac->ctx, buf, size);
    return MZ_OK;
}
Exemplo n.º 6
0
static void
lib_hmac_update(mrb_state *mrb, struct mrb_hmac *hmac, unsigned char *data, mrb_int len)
{
#if MRB_INT_MAX > SIZE_MAX
  if (len > SIZE_MAX) {
    mrb_raise(mrb, E_ARGUMENT_ERROR, "too long string");
  }
#endif
  CCHmacUpdate(&hmac->ctx, data, len);
}
Exemplo n.º 7
0
extern "C" int AppleCryptoNative_HmacUpdate(HmacCtx* ctx, uint8_t* pbData, int32_t cbData)
{
    if (cbData == 0)
        return 1;
    if (ctx == nullptr || pbData == nullptr)
        return 0;

    // No return value
    CCHmacUpdate(&ctx->hmac, pbData, static_cast<size_t>(cbData));
    return 1;
}
static
void
hmac_sha1(const uint8_t *key, size_t key_len, const uint8_t *text, size_t text_len,
    uint8_t digest[CC_SHA1_DIGEST_LENGTH])
{
    CCHmacContext hmac_sha1_context;

    CCHmacInit(&hmac_sha1_context, kCCHmacAlgSHA1, key, key_len);
    CCHmacUpdate(&hmac_sha1_context, text, text_len);
    CCHmacFinal(&hmac_sha1_context, digest);
}
Exemplo n.º 9
0
int
decryptData(void *bufIn, size_t bufInLen)
{
  CCCryptorStatus status;
  int rv;

  CCHmacUpdate(&hmacContext, bufIn, bufInLen);

  status = CCCryptorUpdate(cryptorRef,
                           bufIn, bufInLen,
                           compressed, sizeof(compressed), &compressedLen);
  if (status != kCCSuccess) {
    printf("cryptor update error\n");
    return(-1);
  }

  if (compressedLen) {
    strm.next_in = compressed;
    strm.avail_in = (uint)compressedLen;

    do {
      strm.next_out = bufOut;
      strm.avail_out = sizeof(bufOut);

      rv = inflate(&strm, Z_NO_FLUSH);
      if (rv != Z_OK && rv != Z_STREAM_END && rv != Z_BUF_ERROR) {
         printf("zlib error %d\n", rv);
      }

      bufOutLen = sizeof(bufOut) - strm.avail_out;
      if (bufOutLen) {
        CCHmacUpdate(&hmacContextPlain, bufOut, bufOutLen);
        writer(bufOut, bufOutLen);
      }

    } while (strm.avail_out == 0);
  }

  return(0);
}
Exemplo n.º 10
0
/*
 * Stateless, one-shot HMAC function. 
 * Output is written to caller-spullied buffer, as in CCHmacFinal().
 */
void CCHmac(
	CCHmacAlgorithm algorithm,	/* kCCHmacSHA1, kCCHmacMD5 */
	const void *key,
	size_t keyLength,			/* length of key in bytes */
	const void *data,
	size_t dataLength,			/* length of data in bytes */
	void *macOut)				/* MAC written here */
{
	CCHmacContext ctx;
	
	CCHmacInit(&ctx, algorithm, key, keyLength);
	CCHmacUpdate(&ctx, data, dataLength);
	CCHmacFinal(&ctx, macOut);
}
/* 
 * Given an initialized CCHmacContext, feed it some data and get the result.
 */
static void hmacRun(
	CCHmacContext *ctx,
	bool randomUpdates,
	const unsigned char *ptext,
	size_t ptextLen,
	void *dataOut)
{
	while(ptextLen) {
		size_t thisMoveIn;			/* input to CCryptUpdate() */
		
		if(randomUpdates) {
			thisMoveIn = genRandomSize(1, ptextLen);
		}
		else {
			thisMoveIn = ptextLen;
		}
		logSize(("###ptext segment (1) len %lu\n", (unsigned long)thisMoveIn)); 
		CCHmacUpdate(ctx, ptext, thisMoveIn);
		ptext	 += thisMoveIn;
		ptextLen -= thisMoveIn;
	}
	CCHmacFinal(ctx, dataOut);
}
Exemplo n.º 12
0
 virtual bool update(const byte *in, int length) {
   CCHmacUpdate(&ctx, in, length);
   return true;
 }
Exemplo n.º 13
0
static void
__hmac_sha1_update(archive_hmac_sha1_ctx *ctx, const uint8_t *data,
    size_t data_len)
{
	CCHmacUpdate(ctx, data, data_len);
}
void MacContext::update(const CssmData &data)
{
	CCHmacUpdate(&hmacCtx, data.data(), data.length());
}
Exemplo n.º 15
0
void Crypto::MACUpdate(MAC m, const StringPiece &in) {
  CCHmacUpdate(&FromVoid<CCMAC*>(m)->ctx, in.data(), in.size());
}
static int doHMacCloneTest(const uint8_t *ptext,
	size_t ptextLen,
	CCHmacAlgorithm hmacAlg,			
	uint32_t keySizeInBytes,
	bool stagedOrig,
	bool stagedClone,
	bool quiet,
	bool verbose)
{
	uint8_t			*keyBytes;
	uint8_t			hmacOrig[MAX_HMAC_SIZE];
	uint8_t			hmacClone[MAX_HMAC_SIZE];
	int				rtn = 1;
	CCHmacContext	ctxOrig;
	CCHmacContext	ctxClone;
	unsigned		die;		/* 0..3 indicates when to clone */
	unsigned		loopNum = 0;
	size_t			hmacLen;
	bool			didClone = false;
	
	switch(hmacAlg) {
		case kCCHmacAlgSHA1:
            if(verbose) diag("hmac-sha1\n");
			hmacLen = CC_SHA1_DIGEST_LENGTH;
			break;
		case kCCHmacAlgMD5:
            if(verbose) diag("hmac-md5\n");
			hmacLen = CC_MD5_DIGEST_LENGTH;
			break;
		case kCCHmacAlgSHA224:
            if(verbose) diag("hmac-sha224\n");
			hmacLen = CC_SHA224_DIGEST_LENGTH;
			break;
		case kCCHmacAlgSHA256:
            if(verbose) diag("hmac-sha256\n");
			hmacLen = CC_SHA256_DIGEST_LENGTH;
			break;
		case kCCHmacAlgSHA384:
            if(verbose) diag("hmac-sha384\n");
			hmacLen = CC_SHA384_DIGEST_LENGTH;
			break;
		case kCCHmacAlgSHA512:
            if(verbose) diag("hmac-sha512\n");
			hmacLen = CC_SHA512_DIGEST_LENGTH;
			break;
		default:
			if(verbose) diag("***BRRRZAP!\n");
			return 0;
	}
	
	/* random key */
    byteBuffer keyBuffer = genRandomByteBuffer(keySizeInBytes, keySizeInBytes);
    keyBytes = keyBuffer->bytes;
	
	/* cook up first context */
	CCHmacInit(&ctxOrig, hmacAlg, keyBytes, keySizeInBytes);
	
	/* roll the dice */
	die = (unsigned) genRandomSize(0, 3);
	
	/* 
	 * In this loop we do updates to the ctxOrig up until we
	 * clone it, then we use hmacRun to finish both of them.
	 */
	while(ptextLen) {
		if((die == loopNum) || !stagedOrig) {
			/* make the clone now */
			if(verbose) {
				diag("   ...cloning at loop %u\n", loopNum);
			}
			ctxClone = ctxOrig;
			didClone = true;
            if(memcmp(&ctxClone, &ctxOrig, CC_HMAC_CONTEXT_SIZE * sizeof(uint32_t))) {
                if(verbose) diag("*** context miscompare\n");
            } else {
                if(verbose) diag("*** context clone worked\n");
            }
			
			/* do all of the clone's updates and final here */
			hmacRun(&ctxClone, stagedClone, ptext, ptextLen, hmacClone);
			
			/* now do all remaining updates and final for original */
			hmacRun(&ctxOrig, stagedOrig, ptext, ptextLen, hmacOrig);
			
			/* we're all done, time to check the HMAC values */
			break;
		}	/* making clone */
		
		/* feed some data into cryptorOrig */
		size_t thisMove;
		if(stagedOrig) {
			thisMove = genRandomSize(1, ptextLen);
		}
		else {
			thisMove = ptextLen;
		}
		logSize(("###ptext segment (2) len %lu\n", (unsigned long)thisMove)); 
		CCHmacUpdate(&ctxOrig, ptext, thisMove);
		ptext += thisMove;
		ptextLen -= thisMove;
		loopNum++;
	}
		
	/* 
	 * It's possible to get here without cloning or doing any finals,
	 * if we ran thru multiple updates and finished ptextLen for cryptorOrig
	 * before we hit the cloning spot.
	 */
	if(!didClone) {
		if(verbose) {
			diag("...ctxOrig finished before we cloned; skipping test\n");
		}
		return 1;
	}
	if(memcmp(hmacOrig, hmacClone, hmacLen)) {
		diag("***data miscompare\n");
		rtn = 0;
	} else {
        if(verbose) diag("*** clone worked\n");
        rtn = 1;
    }
    if(keyBuffer) free(keyBuffer);
    
	return rtn;
}