--- /dev/null
+#!/usr/bin/env python3
+
+import xml.etree.ElementTree as ET
+from xml.etree.ElementTree import Element, SubElement
+import gzip
+import os
+import pickle
+import requests
+import time
+from xml.dom import minidom
+
+VALID_REFS = ['VENDOR', 'VERSION', 'CHANGE_LOG', 'PRODUCT', 'PROJECT', 'ADVISORY']
+
+CPEDB_URL = "https://static.nvd.nist.gov/feeds/xml/cpe/dictionary/official-cpe-dictionary_v2.3.xml.gz"
+
+ns = {
+ '': 'http://cpe.mitre.org/dictionary/2.0',
+ 'cpe-23': 'http://scap.nist.gov/schema/cpe-extension/2.3',
+ 'xml': 'http://www.w3.org/XML/1998/namespace'
+}
+
+
+class CPE:
+ def __init__(self, cpe_str, titles, refs):
+ self.cpe_str = cpe_str
+ self.titles = titles
+ self.references = refs
+ self.cpe_cur_ver = "".join(self.cpe_str.split(":")[5:6])
+
+ def update_xml_dict(self):
+ ET.register_namespace('', 'http://cpe.mitre.org/dictionary/2.0')
+ cpes = Element('cpe-list')
+ cpes.set('xmlns:cpe-23', "http://scap.nist.gov/schema/cpe-extension/2.3")
+ cpes.set('xmlns:ns6', "http://scap.nist.gov/schema/scap-core/0.1")
+ cpes.set('xmlns:scap-core', "http://scap.nist.gov/schema/scap-core/0.3")
+ cpes.set('xmlns:config', "http://scap.nist.gov/schema/configuration/0.1")
+ cpes.set('xmlns:xsi', "http://www.w3.org/2001/XMLSchema-instance")
+ cpes.set('xmlns:meta', "http://scap.nist.gov/schema/cpe-dictionary-metadata/0.2")
+ cpes.set('xsi:schemaLocation', " ".join(["http://scap.nist.gov/schema/cpe-extension/2.3",
+ "https://scap.nist.gov/schema/cpe/2.3/cpe-dictionary-extension_2.3.xsd",
+ "http://cpe.mitre.org/dictionary/2.0",
+ "https://scap.nist.gov/schema/cpe/2.3/cpe-dictionary_2.3.xsd",
+ "http://scap.nist.gov/schema/cpe-dictionary-metadata/0.2",
+ "https://scap.nist.gov/schema/cpe/2.1/cpe-dictionary-metadata_0.2.xsd",
+ "http://scap.nist.gov/schema/scap-core/0.3",
+ "https://scap.nist.gov/schema/nvd/scap-core_0.3.xsd",
+ "http://scap.nist.gov/schema/configuration/0.1",
+ "https://scap.nist.gov/schema/nvd/configuration_0.1.xsd",
+ "http://scap.nist.gov/schema/scap-core/0.1",
+ "https://scap.nist.gov/schema/nvd/scap-core_0.1.xsd"]))
+ item = SubElement(cpes, 'cpe-item')
+ cpe_short_name = CPE.short_name(self.cpe_str)
+ cpe_new_ver = CPE.version_update(self.cpe_str)
+
+ item.set('name', 'cpe:/' + cpe_short_name)
+ self.titles[0].text.replace(self.cpe_cur_ver, cpe_new_ver)
+ for title in self.titles:
+ item.append(title)
+ if self.references:
+ item.append(self.references)
+ cpe23item = SubElement(item, 'cpe-23:cpe23-item')
+ cpe23item.set('name', self.cpe_str)
+
+ # Generate the XML as a string
+ xmlstr = ET.tostring(cpes)
+
+ # And use minidom to pretty print the XML
+ return minidom.parseString(xmlstr).toprettyxml(encoding="utf-8").decode("utf-8")
+
+ @staticmethod
+ def version(cpe):
+ return cpe.split(":")[5]
+
+ @staticmethod
+ def product(cpe):
+ return cpe.split(":")[4]
+
+ @staticmethod
+ def short_name(cpe):
+ return ":".join(cpe.split(":")[2:6])
+
+ @staticmethod
+ def version_update(cpe):
+ return ":".join(cpe.split(":")[5:6])
+
+ @staticmethod
+ def no_version(cpe):
+ return ":".join(cpe.split(":")[:5])
+
+
+class CPEDB:
+ def __init__(self, nvd_path):
+ self.all_cpes = dict()
+ self.all_cpes_no_version = dict()
+ self.nvd_path = nvd_path
+
+ def gen_cached_cpedb(self, cpedb, cache_all_cpes, cache_all_cpes_no_version):
+ print("CPE: Unzipping xml manifest...")
+ nist_cpe_file = gzip.GzipFile(fileobj=open(cpedb, 'rb'))
+ print("CPE: Converting xml manifest to dict...")
+ tree = ET.parse(nist_cpe_file)
+ all_cpedb = tree.getroot()
+ self.parse_dict(all_cpedb)
+
+ print("CPE: Caching dictionary")
+ cpes_file = open(cache_all_cpes, 'wb')
+ pickle.dump(self.all_cpes, cpes_file)
+ cpes_file.close()
+ cpes_file = open(cache_all_cpes_no_version, 'wb')
+ pickle.dump(self.all_cpes_no_version, cpes_file)
+ cpes_file.close()
+
+ def get_xml_dict(self):
+ print("CPE: Setting up NIST dictionary")
+ if not os.path.exists(os.path.join(self.nvd_path, "cpe")):
+ os.makedirs(os.path.join(self.nvd_path, "cpe"))
+
+ cpe_dict_local = os.path.join(self.nvd_path, "cpe", os.path.basename(CPEDB_URL))
+ if not os.path.exists(cpe_dict_local) or os.stat(cpe_dict_local).st_mtime < time.time() - 86400:
+ print("CPE: Fetching xml manifest from [" + CPEDB_URL + "]")
+ cpe_dict = requests.get(CPEDB_URL)
+ open(cpe_dict_local, "wb").write(cpe_dict.content)
+
+ cache_all_cpes = os.path.join(self.nvd_path, "cpe", "all_cpes.pkl")
+ cache_all_cpes_no_version = os.path.join(self.nvd_path, "cpe", "all_cpes_no_version.pkl")
+
+ if not os.path.exists(cache_all_cpes) or \
+ not os.path.exists(cache_all_cpes_no_version) or \
+ os.stat(cache_all_cpes).st_mtime < os.stat(cpe_dict_local).st_mtime or \
+ os.stat(cache_all_cpes_no_version).st_mtime < os.stat(cpe_dict_local).st_mtime:
+ self.gen_cached_cpedb(cpe_dict_local,
+ cache_all_cpes,
+ cache_all_cpes_no_version)
+
+ print("CPE: Loading CACHED dictionary")
+ cpe_file = open(cache_all_cpes, 'rb')
+ self.all_cpes = pickle.load(cpe_file)
+ cpe_file.close()
+ cpe_file = open(cache_all_cpes_no_version, 'rb')
+ self.all_cpes_no_version = pickle.load(cpe_file)
+ cpe_file.close()
+
+ def parse_dict(self, all_cpedb):
+ # Cycle through the dict and build two dict to be used for custom
+ # lookups of partial and complete CPE objects
+ # The objects are then used to create new proposed XML updates if
+ # if is determined one is required
+ # Out of the different language titles, select English
+ for cpe in all_cpedb.findall(".//{http://cpe.mitre.org/dictionary/2.0}cpe-item"):
+ cpe_titles = []
+ for title in cpe.findall('.//{http://cpe.mitre.org/dictionary/2.0}title[@xml:lang="en-US"]', ns):
+ title.tail = None
+ cpe_titles.append(title)
+
+ # Some older CPE don't include references, if they do, make
+ # sure we handle the case of one ref needing to be packed
+ # in a list
+ cpe_ref = cpe.find(".//{http://cpe.mitre.org/dictionary/2.0}references")
+ if cpe_ref:
+ for ref in cpe_ref.findall(".//{http://cpe.mitre.org/dictionary/2.0}reference"):
+ ref.tail = None
+ ref.text = ref.text.upper()
+ if ref.text not in VALID_REFS:
+ ref.text = ref.text + "-- UPDATE this entry, here are some examples and just one word should be used -- " + ' '.join(VALID_REFS) # noqa E501
+ cpe_ref.tail = None
+ cpe_ref.text = None
+
+ cpe_str = cpe.find(".//{http://scap.nist.gov/schema/cpe-extension/2.3}cpe23-item").get('name')
+ item = CPE(cpe_str, cpe_titles, cpe_ref)
+ cpe_str_no_version = CPE.no_version(cpe_str)
+ # This dict must have a unique key for every CPE version
+ # which allows matching to the specific obj data of that
+ # NIST dict entry
+ self.all_cpes.update({cpe_str: item})
+ # This dict has one entry for every CPE (w/o version) to allow
+ # partial match (no valid version) check (the obj is saved and
+ # used as seed for suggested xml updates. By updating the same
+ # non-version'd entry, it assumes the last update here is the
+ # latest version in the NIST dict)
+ self.all_cpes_no_version.update({cpe_str_no_version: item})
+
+ def find_partial(self, cpe_str):
+ cpe_str_no_version = CPE.no_version(cpe_str)
+ if cpe_str_no_version in self.all_cpes_no_version:
+ return cpe_str_no_version
+
+ def find_partial_obj(self, cpe_str):
+ cpe_str_no_version = CPE.no_version(cpe_str)
+ if cpe_str_no_version in self.all_cpes_no_version:
+ return self.all_cpes_no_version[cpe_str_no_version]
+
+ def find_partial_latest_version(self, cpe_str_partial):
+ cpe_obj = self.find_partial_obj(cpe_str_partial)
+ return cpe_obj.cpe_cur_ver
+
+ def find(self, cpe_str):
+ if self.find_partial(cpe_str):
+ if cpe_str in self.all_cpes:
+ return cpe_str
+
+ def gen_update_xml(self, cpe_str):
+ cpe = self.find_partial_obj(cpe_str)
+ return cpe.update_xml_dict()
projects / buildroot.git / commitdiff