From 092513d19ee34698f9e5bb2d02bec85132401d4c Mon Sep 17 00:00:00 2001
From: DroidEvolver <47264370+DroidEvolver@users.noreply.github.com>
Date: Sat, 2 Feb 2019 17:28:47 +0800
Subject: [PATCH] Add files via upload

---
 classification_evolvement.py | 314 +++++++++++++++++++++++++++++++++++
 model_pool_construction.py   |  59 +++++++
 2 files changed, 373 insertions(+)
 create mode 100644 classification_evolvement.py
 create mode 100644 model_pool_construction.py

diff --git a/classification_evolvement.py b/classification_evolvement.py
new file mode 100644
index 0000000..fa08dec
--- /dev/null
+++ b/classification_evolvement.py
@@ -0,0 +1,314 @@
+import numpy as np
+import scipy
+from scipy.stats import logistic
+from scipy.special import expit
+from numpy import dot
+import sklearn
+from sklearn.datasets import load_svmlight_file
+import os
+import sys
+import string
+from decimal import *
+import collections
+from classifiers import *
+import time
+import random
+import pickle as pkl
+import argparse
+import shutil
+
+class app(object):
+	def __init__(self, a, y, pl):
+		self.a = a
+		self.y = y
+		self.pl = pl
+
+
+def evaluation(Y_test, instances):
+	n = p = tp = fn = tn = fp = right = 0
+	print 'evaluating predictions'
+
+	for e in xrange(len(Y_test)):
+
+		if Y_test[e] != 1 and instances[e].pl != 1: # true label, prediction label
+			n += 1
+			tn += 1
+		if Y_test[e] != 1 and instances[e].pl == 1:
+			n += 1
+			fp +=1
+		if Y_test[e] == 1 and instances[e].pl == 1:
+			p += 1
+			tp += 1
+		if Y_test[e] == 1 and instances[e].pl != 1:
+			p += 1
+			fn += 1
+		if Y_test[e] == instances[e].pl:
+			right += 1
+
+	print type(Y_test), len(Y_test)
+	print 'all', n+p, 'right', right ,'n', n , 'p:', p, 'tn', tn, 'tp',tp, 'fn',fn, 'fp',fp
+	accu = (Decimal(tp) + Decimal(tn))*Decimal(100) / (Decimal(n) + Decimal(p))
+	tpr = Decimal(tp)*Decimal(100)/Decimal(p)
+	fpr = Decimal(fp)*Decimal(100)/Decimal(n)
+	f1 = Decimal(200)*Decimal(tp)/(Decimal(2)*Decimal(tp) + Decimal(fp) + Decimal(fn))
+	precision = Decimal(tp)*Decimal(100)/(Decimal(tp) + Decimal(fp))
+	print 'model pool f measure: ', float(format(f1, '.2f')), 'precision: ', float(format(precision, '.2f')), 'recall: ', float(format(tpr, '.2f'))
+
+	return float(format(accu, '.2f')), float(format(f1, '.2f')), float(format(precision, '.2f')), float(format(tpr, '.2f')), float(format(fpr, '.2f'))
+
+
+def metric_calculation(i, j, buffer_size):
+	larger = 0
+	if len(app_buffer) <=buffer_size:
+		app_temp = [item[j] for item in app_buffer]
+		positive = sum(app_tt > 0 for app_tt in app_temp)
+		negative = sum(app_tt <= 0 for app_tt in app_temp) 
+		if confidences[i][j] > 0: # prediction label = 1 = malicious
+			larger = sum(confidences[i][j] >= app_t and app_t > 0 for app_t in app_temp)
+			p_ratio = float(Decimal(larger)/Decimal(positive))
+
+		else: # <= 0 = benign
+			larger = sum(confidences[i][j] <= app_t and app_t <= 0 for app_t in app_temp)
+			p_ratio = float(Decimal(larger)/Decimal(negative))
+
+	else: 
+		app_temp = [item[j] for item in app_buffer[len(app_buffer)-buffer_size:]] 
+		positive = sum(app_tt > 0 for app_tt in app_temp) 
+		negative = sum(app_tt <= 0 for app_tt in app_temp)
+		if confidences[i][j] > 0: # prediction label = 1 = malicious
+			larger = sum(confidences[i][j] >= app_t and app_t > 0 for app_t in app_temp)
+			p_ratio = float(Decimal(larger)/Decimal(positive))
+
+		else:
+			larger = sum(confidences[i][j] <= app_t and app_t <= 0 for app_t in app_temp)
+			p_ratio = float(Decimal(larger)/Decimal(negative))
+	return p_ratio
+
+
+def all_model_label(i, age_threshold_low, age_threshold_up):
+	young = aged = a_marker = y_marker = 0
+	for j in xrange(len(clfs)):
+		if age_threshold_low <= p_values[i][j] <= age_threshold_up: # not an aged model, can vote
+			young += confidences[i][j]
+			y_marker += 1
+
+		else: # this is an aged model, need to be updated
+			aged += confidences[i][j]
+			aged_model.append(j) # record aged model index
+			a_marker += 1 # num of aged model for this drifting app
+
+	return young, aged, a_marker, y_marker
+
+
+def generate_pseudo_label(aged_marker, young_marker, aged_value, young_value):
+	if young_marker == 0: # young models are not available; weighted voting using aged model
+		if aged_value > 0:
+			temp = app(aged_marker, young_marker, 1.)
+		else:
+			temp = app(aged_marker, young_marker, -1.)
+		fail += 1
+	else: # young models are available; weighted voting using young model
+		if young_value > 0:
+			temp = app(aged_marker, young_marker, 1.)
+		else:
+			temp = app(aged_marker, aged_marker, -1.)
+	instances.append(temp)
+
+
+def save_model(current_year, checkpoint_dir):
+	for m in xrange(len(clfs)):
+		print m, clfs[m]
+		clfs[m].save( checkpoint_dir + str(current_year) + '_' + str(m) + '.model')
+
+
+def main():
+
+	# set argument for past year and current year
+	parser = argparse.ArgumentParser()
+	parser.add_argument('--past', type=int, help='past year')
+	parser.add_argument('--current', type=int, help='current year')
+	parser.add_argument('--starting', type=int, help='starting year') 
+	parser.add_argument('--low', type=float, help='low threshold value')
+	parser.add_argument('--high', type=float, help='high threshold value')
+	parser.add_argument('--buffer', type=int, help = 'buffer size value')
+
+	args = parser.parse_args()
+
+	buffer_size = args.buffer
+	age_threshold_low = args.low
+	age_threshold_up = args.high
+
+
+
+	whole_directory = './'+ str(args.starting) + 'train/'
+	current_directory = str(age_threshold_low) + '_' + str(age_threshold_up) + '_' + str(buffer_size) + '/' 
+	checkpoint_dir = whole_directory + current_directory
+	if not os.path.exists(checkpoint_dir):
+		os.makedirs(checkpoint_dir)
+
+	# record all evolving result to a file
+	Result = open(whole_directory + str(args.starting) + '.evolving_result','a')
+	evolving_result = []
+	evolving_result.append(str(args.past) + ' ' + str(args.current) + ' ' + str(age_threshold_low) + ' ' + str(age_threshold_up) + ' ' + str(buffer_size) + ' ' + str(model_number) + ' ')
+	
+
+	print 'Loading data from ', args.past # old dataset
+	X_train,Y_train=load_svmlight_file( str(args.past))
+	print 'X_train data shape' , type(X_train), X_train.shape
+
+	print 'Loading test data from ', args.current # new dataset
+	X_test,Y_test=load_svmlight_file(str(args.current))
+	X_testt,Y_testt=load_svmlight_file( str(args.current))
+
+	print 'X_test data shape', type(X_test), X_test.shape
+	xtest_dense = scipy.sparse.csr_matrix(X_testt).todense()
+	print 'X_test', xtest_dense.shape
+
+	global clfs
+
+	clfs = [PA1(), OGD(), AROW(), RDA(), ADA_FOBOS()]
+
+
+	print 'model pool size: ', len(clfs)
+	ori_train_acc, ori_test_acc, weights, pool_acc, pool_fscore, pool_precision, pool_tpr, pool_fnr, pool_fpr, pool_difference = ([] for i in range(10))
+
+	print 'Loading trained model from ', args.past
+
+	if args.starting == args.past: # copy the original detection model into checkpoint_dir
+		for i in xrange(len(clfs)):
+			shutil.copy2( whole_directory + str(args.past) + '_' + str(i) + '.model' , checkpoint_dir )
+
+	for i in xrange(len(clfs)):
+
+		clfs[i].load( checkpoint_dir + str(args.past) + '_' + str(i) + '.model')
+		# get original model weight
+		w = clfs[i].coef_[1:]
+
+		weight = [] # [i][j]: i = model index, j = feature index
+		for w_num in xrange(len(w)):
+			weight.append(w[w_num])
+		weights.append(weight)
+
+		test_accuracy,auc,tpr_fig,fpr_fig=clfs[i].score(X_test,Y_test,False)
+		ori_test_acc.append(test_accuracy)
+
+	print 'original weight size'
+	for c in xrange(len(weights)):
+		print c, len(weights[c])
+
+	print 'App buffer generation'
+	global app_buffer
+	app_buffer = [] 
+	if '2011' in str(args.past): # buffer is not exist
+		print 'App buffer not exists'
+		print 'App buffer initialization'
+		train_size, _  = X_train.shape
+
+		random_app_index = np.random.randint(train_size, size = buffer_size)
+		X_train_temp = X_train[random_app_index, :]
+
+		for i in xrange(buffer_size):
+			app_buffer_temp = []
+			for j  in xrange(len(clfs)):
+				app_buffer_temp.append(clfs[j].decision_function(X_train_temp[i])[0])
+			app_buffer.append(app_buffer_temp)
+	else: # load buffer from str(args.past).buffer
+		print 'App buffer exists'
+		app_buffer = pkl.load(open( checkpoint_dir + str(args.past) + '_buffer.pkl', 'rb'))
+		print 'Load app buffer from ', args.past, '_buffer.pkl'
+
+	print 'Start evolving'
+	global confidences, new_confidences, p_values, instances, model_credits, model_confidences
+	confidences, new_confidences, p_values, instances, model_credits, model_confidences = ([] for i in range(6))
+	all_fail = 0 # a special case, all model are aged
+	num_of_update = num_of_update_model =  0
+	wrong_update = 0
+	wrong_update_benign = wrong_update_malicious = right_update_benign = right_update_malicious = 0
+
+	for i in xrange(len(Y_test)): # i = every app
+
+		pre, conf, new_conf, app_b, p_value = ([] for i in range(5))
+
+		for j in xrange(len(clfs)):
+			xtest_current = xtest_dense[i, :len(weights[j])] 
+			score = xtest_current.dot(weights[j])
+			conf.append(score[0,0])
+			app_b.append(score[0,0])
+			new_conf.append(abs(score[0,0]))
+
+		confidences.append(conf)
+		new_confidences.append(new_conf)
+		app_buffer[random.randint(0, buffer_size-1)] = app_b # randomly replace a processed app with new app
+
+
+		for j in xrange(len(clfs)):
+			pv = metric_calculation(i, j, buffer_size)
+			p_value.append(pv)
+		p_values.append(p_value)
+
+
+		global aged_model
+		aged_model = [] # store the index of aged model for current app i
+		young_value = aged_value = aged_marker = young_marker = 0
+		young_value, aged_value, aged_marker, young_marker = all_model_label(i, age_threshold_low, age_threshold_up)
+
+		# generate  pseudo label
+		generate_pseudo_label(aged_marker, young_marker, aged_value, young_value)
+
+
+		# update aged models
+		if (aged_marker != 0) and (young_marker >= 1): # drifting app is identified and young model exists
+
+			update_label = np.array([instances[i].pl]) 
+			update_with_pseudo_label += 1
+
+			for model_index in aged_model: # update clfs[a] with X_test[i], temp.pl; a is the aged model index
+				num_of_update_model += 1
+
+				# update with drifting app and corresponding pseudo label
+				train_accuracy,data,err,fit_time=clfs[model_index].fit(X_test[i],update_label, False)
+				w = clfs[model_index].coef_[1:] 
+				updated_w = []
+				for w_num in xrange(len(w)):
+					updated_w.append(w[w_num])
+				weights[model_index] = updated_w
+
+
+	print 'update with pseudo label ', update_with_pseudo_label
+
+	a, f, preci, tprr, fprr = evaluation(Y_test, instances)
+	pool_acc.append(a)
+	pool_fscore.append(f)
+	pool_precision.append(preci)
+	pool_tpr.append(tprr)
+	pool_fnr.append(100-tprr)
+	pool_fpr.append(fprr)
+
+
+	print buffer_size, len(app_buffer)
+	print 'original test accuracy',ori_test_acc # without evolving
+	print 'pool accuracy', pool_acc
+	print 'pool fscore', pool_fscore
+	print 'pool precision', pool_precision
+	print 'pool tpr', pool_tpr
+	print 'pool fnr', pool_fnr
+	print 'pool fpr', pool_fpr
+	print 'pool_fnr - pool_fpr', pool_difference
+
+	print 'evolved weight length'
+	for c in xrange(len(weights)):
+		print c, len(weights[c])
+
+	print 'Save model evolved in Year ', args.current, 'into directory /', checkpoint_dir
+	current_year = args.current
+	save_model(current_year, checkpoint_dir)
+
+	print 'Save app buffer evolved in Year', args.current
+	pkl.dump(app_buffer, open( checkpoint_dir + str(args.current) + '_buffer.pkl', 'wb'))
+
+	evolving_result.append(str(pool_acc) + ' ' + str(pool_fscore) + ' ' + str(pool_precision) + ' ' + str(pool_tpr) + ' ' + str(pool_fnr))
+	Result.writelines(evolving_result)
+	Result.writelines('\n')
+
+if __name__ == "__main__":
+	main()
\ No newline at end of file
diff --git a/model_pool_construction.py b/model_pool_construction.py
new file mode 100644
index 0000000..a398aae
--- /dev/null
+++ b/model_pool_construction.py
@@ -0,0 +1,59 @@
+'''
+To use: python with_true_label_train.py --starting 2011 
+
+GOAL: generate the original detection model for the starting year (applying all data from the starting year as training data)
+'''
+import numpy as np
+import scipy
+from scipy.stats import logistic
+from scipy.special import expit
+from numpy import dot
+import sklearn
+from sklearn.datasets import load_svmlight_file
+import os
+import sys
+import string
+from decimal import *
+import collections
+from classifiers import *
+import time
+import random
+import argparse
+
+def main():
+
+	parser = argparse.ArgumentParser()
+	parser.add_argument('--starting', type=int, help='directory for initialization data') # to use = args.past
+	args = parser.parse_args()
+
+	starting_year = args.starting
+
+
+	X_train,Y_train=load_svmlight_file(str(starting_year))
+	print 'X_train data shape' , type(X_train), X_train.shape
+
+	global clfs
+
+	clfs = [PA1(), OGD(), AROW(), RDA(), ADA_FOBOS()]
+
+	print 'model pool size: ', len(clfs)
+
+	ori_train_acc = []
+
+	directory = './' + str(starting_year) + 'train/' 
+	if not os.path.exists(directory):
+		os.makedirs(directory)
+
+	# training process of all models 
+	print 'All model initialization'
+	for i in xrange(len(clfs)): # i = every model in model pool
+		print clfs[i]
+		print 'training'
+		train_accuracy,data,err,fit_time=clfs[i].fit(X_train,Y_train, False)
+		ori_train_acc.append(train_accuracy)
+		clfs[i].save('./' + str(starting_year) + 'train/' + str(starting_year) + '_' + str(i) + '.model')
+
+	print 'original model accuracy', ori_train_acc
+
+if __name__ == "__main__":
+	main()