Exemplo n.º 1
0
            verifyArgsDictRandomized = {}

            randomizedIncorrectSigIndices = []

            for sigIndex in range(0, (numValidSigs + numInvalidSigs)):
                verifyArgsDictRandomized[sigIndex] = sigsDict[
                    randomizedIndices[sigIndex]]
                if (randomizedIndices[sigIndex] in realIncorrectSigIndices):
                    randomizedIncorrectSigIndices.append(sigIndex)

            verifyFuncArgs = list(verifyArgsDictRandomized[0].keys())

            bID1 = InitBenchmark()

            StartBenchmark(bID1, [RealTime])
            incorrectSigIndices = runBLS_Ind(verifyArgsDictRandomized,
                                             groupParamArg, verifyFuncArgs)
            EndBenchmark(bID1)

            result = (GetBenchmark(bID1, RealTime) / trials) * time_in_ms

            TIMER += result
            TOTAL_SIGS = float(numValidSigs + numInvalidSigs)
            SIGS_PER_SECOND = float((TOTAL_SIGS * 1000.0) / (float(result)))

            #outputString += str(TIMER) + " " + str(SIGS_PER_SECOND) + "\n"

            updateBucketList(bucketListSigsPerSec, (TIMER - result), result,
                             SIGS_PER_SECOND)

            percentInvalid = (float(numInvalidSigs) / TOTAL_SIGS)
Exemplo n.º 2
0
			batchResultsTimes[programIteration][cycle] = ( float(result) / float(cycle+1) )

			# -----------------------------------------------------------------




			#bID1 = InitBenchmark()

			#StartBenchmark(bID1, [RealTime])



			startTime = time.clock()
			incorrectSigIndices = runBLS_Ind(sigsDict, groupParamArg, verifyFuncArgs)
			endTime = time.clock()

			result = (endTime - startTime) * time_in_ms


			#print("ind is ", result)

			#EndBenchmark(bID1)

			#result = (GetBenchmark(bID1, RealTime) / trials) * time_in_ms




			if (incorrectSigIndices != []):
Exemplo n.º 3
0
            #result = (GetBenchmark(bID1, RealTime) / trials) * time_in_ms

            if (incorrectSigIndices != []):
                sys.exit("Batch verification returned invalid signatures.")

            batchResultsTimes[programIteration][cycle] = (float(result) /
                                                          float(cycle + 1))

            # -----------------------------------------------------------------

            #bID1 = InitBenchmark()

            #StartBenchmark(bID1, [RealTime])

            startTime = time.clock()
            incorrectSigIndices = runBLS_Ind(sigsDict, groupParamArg,
                                             verifyFuncArgs)
            endTime = time.clock()

            result = (endTime - startTime) * time_in_ms

            #print("ind is ", result)

            #EndBenchmark(bID1)

            #result = (GetBenchmark(bID1, RealTime) / trials) * time_in_ms

            if (incorrectSigIndices != []):
                sys.exit("Ind. verification returned invalid signatures.")

            indResultsTimes[programIteration][cycle] = (float(result) /
                                                        float(cycle + 1))
Exemplo n.º 4
0
            verifyArgsDictRandomized = {}

            randomizedIncorrectSigIndices = []

            for sigIndex in range(0, (numValidSigs + numInvalidSigs)):
                verifyArgsDictRandomized[sigIndex] = sigsDict[randomizedIndices[sigIndex]]
                if randomizedIndices[sigIndex] in realIncorrectSigIndices:
                    randomizedIncorrectSigIndices.append(sigIndex)

            verifyFuncArgs = list(verifyArgsDictRandomized[0].keys())

            bID1 = InitBenchmark()

            StartBenchmark(bID1, [RealTime])
            incorrectSigIndices = runBLS_Ind(verifyArgsDictRandomized, groupParamArg, verifyFuncArgs)
            EndBenchmark(bID1)

            result = (GetBenchmark(bID1, RealTime) / trials) * time_in_ms

            TIMER += result
            TOTAL_SIGS = float(numValidSigs + numInvalidSigs)
            SIGS_PER_SECOND = float((TOTAL_SIGS * 1000.0) / (float(result)))

            # outputString += str(TIMER) + " " + str(SIGS_PER_SECOND) + "\n"

            updateBucketList(bucketListSigsPerSec, (TIMER - result), result, SIGS_PER_SECOND)

            percentInvalid = float(numInvalidSigs) / TOTAL_SIGS

            # outputInvalidSigsString += str(TIMER) + " " + str(percentInvalid) + "\n"