add h5py example

2017-07-08 17:46:07 +02:00 · 2017-07-08 17:46:07 +02:00 · fdc03c9922
parent 4a9f94a029
commit fdc03c9922
3 changed files with 87 additions and 52 deletions
--- a/dataset.py
+++ b/dataset.py
@ -1,6 +1,7 @@
 # -*- coding: utf-8 -*-
 import string
 import h5py
 import numpy as np
 import pandas as pd
 from keras.utils import np_utils
@ -91,39 +92,24 @@ def get_flow_features(flow):
    return features
 # NOT USED ATM
 def get_cisco_features(curDataLine, urlSIPDict):
    numCiscoFeatures = 30
    try:
        ciscoFeatures = urlSIPDict[str(curDataLine['domain']) + str(curDataLine['server_ip'])]
        # log transform
        ciscoFeatures = np.log1p(ciscoFeatures).astype(float)
        return ciscoFeatures.ravel()
    except:
        return np.zeros([numCiscoFeatures, ]).ravel()
 def create_dataset_from_flows(user_flow_df, char_dict, max_len, window_size=10, use_cisco_features=False):
    domains = []
    features = []
    print("get chunks from user data frames")
-    for i, user_flow in enumerate(get_flow_per_user(user_flow_df)):
+    for i, user_flow in tqdm(list(enumerate(get_flow_per_user(user_flow_df)))):
        (domain_windows, feature_windows) = get_user_chunks(user_flow,
                                                            windowSize=window_size,
                                                            overlapping=False,
                                                            maxLengthInSeconds=-1)
        domains += domain_windows
        features += feature_windows
        # TODO: remove later
        if i >= 50:
            break
    print("create training dataset")
-    domain_tr, flow_tr, hits_tr, names_tr, server_tr, trusted_hits_tr = create_dataset_from_lists(
+    domain_tr, flow_tr, hits_tr, names_tr, server_tr, trusted_hits_tr = create_dataset_from_lists(domains=domains,
-        domains=domains, features=features, vocab=char_dict,
+                                                                                                  flows=features,
-        max_len=max_len,
+                                                                                                  vocab=char_dict,
-        use_cisco_features=use_cisco_features, urlSIPDIct=dict(),
+                                                                                                  max_len=max_len,
-        window_size=window_size)
+                                                                                                  window_size=window_size)
    # make client labels discrete with 4 different values
    hits_tr = np.apply_along_axis(lambda x: discretize_label(x, 3), 0, np.atleast_2d(hits_tr))
@ -144,32 +130,29 @@ def create_dataset_from_flows(user_flow_df, char_dict, max_len, window_size=10,
    return domain_tr, flow_tr, client_tr, server_tr
-def create_dataset_from_lists(domains, features, vocab, max_len,
+def store_h5dataset(domain_tr, flow_tr, client_tr, server_tr):
-                              use_cisco_features=False, urlSIPDIct=dict(),
+    f = h5py.File("data/full_dataset.h5", "w")
-                              window_size=10):
+    domain_tr = domain_tr.astype(np.int8)
    f.create_dataset("domain", data=domain_tr)
    f.create_dataset("flow", data=flow_tr)
    server_tr = server_tr.astype(np.bool)
    client_tr = client_tr.astype(np.bool)
    f.create_dataset("client", data=client_tr)
    f.create_dataset("server", data=server_tr)
    f.close()
 def create_dataset_from_lists(domains, flows, vocab, max_len, window_size=10):
    """
    combines domain and feature windows to sequential training data
    :param domains: list of domain windows
-    :param features: list of feature windows
+    :param flows: list of flow feature windows
    :param vocab: 
    :param max_len: 
    :param use_cisco_features: idk
    :param urlSIPDIct: idk
    :param window_size: size of the flow window
    :return: 
    """
-    # TODO: check for hits vs vth consistency
+    numFeatures = 3
    # if 'hits' in dfs[0].keys():
    #     hits_col = 'hits'
    # elif 'virusTotalHits' in dfs[0].keys():
    #     hits_col = 'virusTotalHits'
    hits_col = "virusTotalHits"
    numFlowFeatures = 3
    numCiscoFeatures = 30
    numFeatures = numFlowFeatures
    if use_cisco_features:
        numFeatures += numCiscoFeatures
    sample_size = len(domains)
    hits = []
    names = []
@ -181,14 +164,13 @@ def create_dataset_from_lists(domains, features, vocab, max_len,
    for i in tqdm(np.arange(sample_size), miniters=10):
        for j in range(window_size):
-            domain_features[i, j] = get_domain_features(domains[i][j], vocab, max_len)
+            domain_features[i, j, :] = get_domain_features(domains[i][j], vocab, max_len)
-            flow_features[i, j] = get_flow_features(features[i].iloc[j])
+            flow_features[i, j, :] = get_flow_features(flows[i].iloc[j])
            # TODO: cisco features?
-        hits.append(np.max(features[i][hits_col]))
+        hits.append(np.max(flows[i]['virusTotalHits']))
-        names.append(np.unique(features[i]['user_hash']))
+        names.append(np.unique(flows[i]['user_hash']))
-        servers.append(np.max(features[i]['serverLabel']))
+        servers.append(np.max(flows[i]['serverLabel']))
-        trusted_hits.append(np.max(features[i]['trustedHits']))
+        trusted_hits.append(np.max(flows[i]['trustedHits']))
    return (domain_features, flow_features,
            np.array(hits), np.array(names), np.array(servers), np.array(trusted_hits))
@ -206,11 +188,20 @@ def discretize_label(values, threshold):
 def get_user_flow_data(csv_file):
    types = {
        "duration": int,
        "bytes_down": int,
        "bytes_up": int,
        "domain": object,
        "timeStamp": float,
        "server_ip": object,
        "user_hash": float,
        "virusTotalHits": int,
        "serverLabel": int,
        "trustedHits": int
    }
    df = pd.read_csv(csv_file)
-    keys = ["duration", "bytes_down", "bytes_up", "domain",
+    df = df[list(types.keys())]
            "timeStamp", "server_ip", "user_hash", "virusTotalHits",
            "serverLabel", "trustedHits"]
    df = df[keys]
    df.set_index(keys=['user_hash'], drop=False, inplace=True)
    return df
--- a/main.py
+++ b/main.py
@ -1,5 +1,7 @@
 import argparse
 import h5py
 from keras.models import load_model
 from keras.utils import np_utils
 import dataset
@ -8,7 +10,8 @@ import models
 parser = argparse.ArgumentParser()
-parser.add_argument("--modes", action="store", dest="modes", nargs="+")
+parser.add_argument("--modes", action="store", dest="modes", nargs="+",
                    default=[])
 parser.add_argument("--train", action="store", dest="train_data",
                    default="data/full_dataset.csv.tar.bz2")
@ -193,7 +196,39 @@ def main_train():
    model.save(args.clf_model)
-from keras.models import load_model
+def main_train_h5():
    # parameter
    dropout_main = 0.5
    dense_main = 512
    kernel_main = 3
    filter_main = 128
    network = models.pauls_networks if args.model_type == "paul" else models.renes_networks
    char_dict = dataset.get_character_dict()
    data = h5py.File("data/full_dataset.h5", "r")
    embedding = network.get_embedding(len(char_dict) + 1, args.embedding, args.domain_length,
                                      args.hidden_char_dims, kernel_main, args.domain_embedding, 0.5)
    embedding.summary()
    model = network.get_model(dropout_main, data["flow"].shape[-1], args.domain_embedding,
                              args.window, args.domain_length, filter_main, kernel_main,
                              dense_main, embedding)
    model.summary()
    model.compile(optimizer='adam',
                  loss='categorical_crossentropy',
                  metrics=['accuracy'])
    model.fit([data["domain"], data["flow"]],
              [data["client"], data["server"]],
              batch_size=args.batch_size,
              epochs=args.epochs,
              shuffle=True,
              validation_split=0.2)
    embedding.save(args.embedding_model)
    model.save(args.clf_model)
 def main_test():
--- a/scripts/make_csv_dataset.py
+++ b/scripts/make_csv_dataset.py
@ -1,9 +1,18 @@
 #!/usr/bin/python2
 import joblib
 import numpy as np
 import pandas as pd
 df = joblib.load("/mnt/projekte/pmlcluster/cisco/trainData/multipleTaskLearning/currentData.joblib")
 df = pd.concat(df["data"])
 df.reset_index(inplace=True)
 df.dropna(axis=0, how="any", inplace=True)
 df[["duration", "bytes_down", "bytes_up"]] = df[["duration", "bytes_down", "bytes_up"]].astype(np.int)
 df[["domain", "server_ip"]] = df[["domain", "server_ip"]].astype(str)
 df[["server_label"]] = df[["server_label"]].astype(np.bool)
 df.serverLabel = df.serverLabel.astype(np.bool)
 df.virusTotalHits = df.virusTotalHits.astype(np.int)
 df.trustedHits = df.trustedHits.astype(np.int)
 df.to_csv("/tmp/rk/full_future_dataset.csv.gz", compression="gzip")