kumquat-buildroot/support/scripts/pkg-stats

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#!/usr/bin/env python
# Copyright (C) 2009 by Thomas Petazzoni <thomas.petazzoni@free-electrons.com>
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 2 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
# General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software
# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
import argparse
import datetime
import fnmatch
import os
from collections import defaultdict
import re
import subprocess
import requests # URL checking
support/scripts/pkg-stats: add latest upstream version information This commit adds fetching the latest upstream version of each package from release-monitoring.org. The fetching process first tries to use the package mappings of the "Buildroot" distribution [1]. This mapping mechanism allows to tell release-monitoring.org what is the name of a package in a given distribution/build-system. For example, the package xutil_util-macros in Buildroot is named xorg-util-macros on release-monitoring.org. This mapping can be seen in the section "Mappings" of https://release-monitoring.org/project/15037/. If there is no mapping, then it does a regular search, and within the search results, looks for a package whose name matches the Buildroot name. Even though fetching from release-monitoring.org is a bit slow, using multiprocessing.Pool has proven to not be reliable, with some requests ending up with an exception. So we keep a serialized approach, but with a single HTTPSConnectionPool() for all queries. Long term, we hope to be able to use a database dump of release-monitoring.org instead. From an output point of view, the latest version column: - Is green when the version in Buildroot matches the latest upstream version - Is orange when the latest upstream version is unknown because the package was not found on release-monitoring.org - Is red when the version in Buildroot doesn't match the latest upstream version. Note that we are not doing anything smart here: we are just testing if the strings are equal or not. - The cell contains the link to the project on release-monitoring.org if found. - The cell indicates if the match was done using a distro mapping, or through a regular search. [1] https://release-monitoring.org/distro/Buildroot/ Signed-off-by: Thomas Petazzoni <thomas.petazzoni@bootlin.com> Tested-by: Matthew Weber <matthew.weber@rockwellcollins.com> Signed-off-by: Thomas Petazzoni <thomas.petazzoni@bootlin.com>
2019-02-05 16:19:59 +01:00
import json
import certifi
support/scripts/pkg-stats: add support for CVE reporting This commit extends the pkg-stats script to grab information about the CVEs affecting the Buildroot packages. To do so, it downloads the NVD database from https://nvd.nist.gov/vuln/data-feeds in JSON format, and processes the JSON file to determine which of our packages is affected by which CVE. The information is then displayed in both the HTML output and the JSON output of pkg-stats. To use this feature, you have to pass the new --nvd-path option, pointing to a writable directory where pkg-stats will store the NVD database. If the local database is less than 24 hours old, it will not re-download it. If it is more than 24 hours old, it will re-download only the files that have really been updated by upstream NVD. Packages can use the newly introduced <pkg>_IGNORE_CVES variable to tell pkg-stats that some CVEs should be ignored: it can be because a patch we have is fixing the CVE, or because the CVE doesn't apply in our case. >From an implementation point of view: - A new class CVE implement most of the required functionalities: - Downloading the yearly NVD files - Reading and extracting relevant data from these files - Matching Packages against a CVE - The statistics are extended with the total number of CVEs, and the total number of packages that have at least one CVE pending. - The HTML output is extended with these new details. There are no changes to the code generating the JSON output because the existing code is smart enough to automatically expose the new information. This development is a collective effort with Titouan Christophe <titouan.christophe@railnova.eu> and Thomas De Schampheleire <thomas.de_schampheleire@nokia.com>. Signed-off-by: Thomas Petazzoni <thomas.petazzoni@bootlin.com> Signed-off-by: Titouan Christophe <titouan.christophe@railnova.eu> Signed-off-by: Peter Korsgaard <peter@korsgaard.com>
2020-02-15 13:44:16 +01:00
import distutils.version
import time
import gzip
support/scripts/pkg-stats: add latest upstream version information This commit adds fetching the latest upstream version of each package from release-monitoring.org. The fetching process first tries to use the package mappings of the "Buildroot" distribution [1]. This mapping mechanism allows to tell release-monitoring.org what is the name of a package in a given distribution/build-system. For example, the package xutil_util-macros in Buildroot is named xorg-util-macros on release-monitoring.org. This mapping can be seen in the section "Mappings" of https://release-monitoring.org/project/15037/. If there is no mapping, then it does a regular search, and within the search results, looks for a package whose name matches the Buildroot name. Even though fetching from release-monitoring.org is a bit slow, using multiprocessing.Pool has proven to not be reliable, with some requests ending up with an exception. So we keep a serialized approach, but with a single HTTPSConnectionPool() for all queries. Long term, we hope to be able to use a database dump of release-monitoring.org instead. From an output point of view, the latest version column: - Is green when the version in Buildroot matches the latest upstream version - Is orange when the latest upstream version is unknown because the package was not found on release-monitoring.org - Is red when the version in Buildroot doesn't match the latest upstream version. Note that we are not doing anything smart here: we are just testing if the strings are equal or not. - The cell contains the link to the project on release-monitoring.org if found. - The cell indicates if the match was done using a distro mapping, or through a regular search. [1] https://release-monitoring.org/distro/Buildroot/ Signed-off-by: Thomas Petazzoni <thomas.petazzoni@bootlin.com> Tested-by: Matthew Weber <matthew.weber@rockwellcollins.com> Signed-off-by: Thomas Petazzoni <thomas.petazzoni@bootlin.com>
2019-02-05 16:19:59 +01:00
from urllib3 import HTTPSConnectionPool
from urllib3.exceptions import HTTPError
from multiprocessing import Pool
support/scripts/pkg-stats: add support for CVE reporting This commit extends the pkg-stats script to grab information about the CVEs affecting the Buildroot packages. To do so, it downloads the NVD database from https://nvd.nist.gov/vuln/data-feeds in JSON format, and processes the JSON file to determine which of our packages is affected by which CVE. The information is then displayed in both the HTML output and the JSON output of pkg-stats. To use this feature, you have to pass the new --nvd-path option, pointing to a writable directory where pkg-stats will store the NVD database. If the local database is less than 24 hours old, it will not re-download it. If it is more than 24 hours old, it will re-download only the files that have really been updated by upstream NVD. Packages can use the newly introduced <pkg>_IGNORE_CVES variable to tell pkg-stats that some CVEs should be ignored: it can be because a patch we have is fixing the CVE, or because the CVE doesn't apply in our case. >From an implementation point of view: - A new class CVE implement most of the required functionalities: - Downloading the yearly NVD files - Reading and extracting relevant data from these files - Matching Packages against a CVE - The statistics are extended with the total number of CVEs, and the total number of packages that have at least one CVE pending. - The HTML output is extended with these new details. There are no changes to the code generating the JSON output because the existing code is smart enough to automatically expose the new information. This development is a collective effort with Titouan Christophe <titouan.christophe@railnova.eu> and Thomas De Schampheleire <thomas.de_schampheleire@nokia.com>. Signed-off-by: Thomas Petazzoni <thomas.petazzoni@bootlin.com> Signed-off-by: Titouan Christophe <titouan.christophe@railnova.eu> Signed-off-by: Peter Korsgaard <peter@korsgaard.com>
2020-02-15 13:44:16 +01:00
NVD_START_YEAR = 2002
NVD_JSON_VERSION = "1.0"
NVD_BASE_URL = "https://nvd.nist.gov/feeds/json/cve/" + NVD_JSON_VERSION
INFRA_RE = re.compile(r"\$\(eval \$\(([a-z-]*)-package\)\)")
URL_RE = re.compile(r"\s*https?://\S*\s*$")
support/scripts/pkg-stats: add latest upstream version information This commit adds fetching the latest upstream version of each package from release-monitoring.org. The fetching process first tries to use the package mappings of the "Buildroot" distribution [1]. This mapping mechanism allows to tell release-monitoring.org what is the name of a package in a given distribution/build-system. For example, the package xutil_util-macros in Buildroot is named xorg-util-macros on release-monitoring.org. This mapping can be seen in the section "Mappings" of https://release-monitoring.org/project/15037/. If there is no mapping, then it does a regular search, and within the search results, looks for a package whose name matches the Buildroot name. Even though fetching from release-monitoring.org is a bit slow, using multiprocessing.Pool has proven to not be reliable, with some requests ending up with an exception. So we keep a serialized approach, but with a single HTTPSConnectionPool() for all queries. Long term, we hope to be able to use a database dump of release-monitoring.org instead. From an output point of view, the latest version column: - Is green when the version in Buildroot matches the latest upstream version - Is orange when the latest upstream version is unknown because the package was not found on release-monitoring.org - Is red when the version in Buildroot doesn't match the latest upstream version. Note that we are not doing anything smart here: we are just testing if the strings are equal or not. - The cell contains the link to the project on release-monitoring.org if found. - The cell indicates if the match was done using a distro mapping, or through a regular search. [1] https://release-monitoring.org/distro/Buildroot/ Signed-off-by: Thomas Petazzoni <thomas.petazzoni@bootlin.com> Tested-by: Matthew Weber <matthew.weber@rockwellcollins.com> Signed-off-by: Thomas Petazzoni <thomas.petazzoni@bootlin.com>
2019-02-05 16:19:59 +01:00
RM_API_STATUS_ERROR = 1
RM_API_STATUS_FOUND_BY_DISTRO = 2
RM_API_STATUS_FOUND_BY_PATTERN = 3
RM_API_STATUS_NOT_FOUND = 4
# Used to make multiple requests to the same host. It is global
# because it's used by sub-processes.
http_pool = None
class Package:
all_licenses = list()
all_license_files = list()
all_versions = dict()
support/scripts/pkg-stats: add support for CVE reporting This commit extends the pkg-stats script to grab information about the CVEs affecting the Buildroot packages. To do so, it downloads the NVD database from https://nvd.nist.gov/vuln/data-feeds in JSON format, and processes the JSON file to determine which of our packages is affected by which CVE. The information is then displayed in both the HTML output and the JSON output of pkg-stats. To use this feature, you have to pass the new --nvd-path option, pointing to a writable directory where pkg-stats will store the NVD database. If the local database is less than 24 hours old, it will not re-download it. If it is more than 24 hours old, it will re-download only the files that have really been updated by upstream NVD. Packages can use the newly introduced <pkg>_IGNORE_CVES variable to tell pkg-stats that some CVEs should be ignored: it can be because a patch we have is fixing the CVE, or because the CVE doesn't apply in our case. >From an implementation point of view: - A new class CVE implement most of the required functionalities: - Downloading the yearly NVD files - Reading and extracting relevant data from these files - Matching Packages against a CVE - The statistics are extended with the total number of CVEs, and the total number of packages that have at least one CVE pending. - The HTML output is extended with these new details. There are no changes to the code generating the JSON output because the existing code is smart enough to automatically expose the new information. This development is a collective effort with Titouan Christophe <titouan.christophe@railnova.eu> and Thomas De Schampheleire <thomas.de_schampheleire@nokia.com>. Signed-off-by: Thomas Petazzoni <thomas.petazzoni@bootlin.com> Signed-off-by: Titouan Christophe <titouan.christophe@railnova.eu> Signed-off-by: Peter Korsgaard <peter@korsgaard.com>
2020-02-15 13:44:16 +01:00
all_ignored_cves = dict()
def __init__(self, name, path):
self.name = name
self.path = path
self.infras = None
self.has_license = False
self.has_license_files = False
self.has_hash = False
self.patch_count = 0
self.warnings = 0
self.current_version = None
self.url = None
self.url_status = None
self.url_worker = None
support/scripts/pkg-stats: add support for CVE reporting This commit extends the pkg-stats script to grab information about the CVEs affecting the Buildroot packages. To do so, it downloads the NVD database from https://nvd.nist.gov/vuln/data-feeds in JSON format, and processes the JSON file to determine which of our packages is affected by which CVE. The information is then displayed in both the HTML output and the JSON output of pkg-stats. To use this feature, you have to pass the new --nvd-path option, pointing to a writable directory where pkg-stats will store the NVD database. If the local database is less than 24 hours old, it will not re-download it. If it is more than 24 hours old, it will re-download only the files that have really been updated by upstream NVD. Packages can use the newly introduced <pkg>_IGNORE_CVES variable to tell pkg-stats that some CVEs should be ignored: it can be because a patch we have is fixing the CVE, or because the CVE doesn't apply in our case. >From an implementation point of view: - A new class CVE implement most of the required functionalities: - Downloading the yearly NVD files - Reading and extracting relevant data from these files - Matching Packages against a CVE - The statistics are extended with the total number of CVEs, and the total number of packages that have at least one CVE pending. - The HTML output is extended with these new details. There are no changes to the code generating the JSON output because the existing code is smart enough to automatically expose the new information. This development is a collective effort with Titouan Christophe <titouan.christophe@railnova.eu> and Thomas De Schampheleire <thomas.de_schampheleire@nokia.com>. Signed-off-by: Thomas Petazzoni <thomas.petazzoni@bootlin.com> Signed-off-by: Titouan Christophe <titouan.christophe@railnova.eu> Signed-off-by: Peter Korsgaard <peter@korsgaard.com>
2020-02-15 13:44:16 +01:00
self.cves = list()
support/scripts/pkg-stats: add latest upstream version information This commit adds fetching the latest upstream version of each package from release-monitoring.org. The fetching process first tries to use the package mappings of the "Buildroot" distribution [1]. This mapping mechanism allows to tell release-monitoring.org what is the name of a package in a given distribution/build-system. For example, the package xutil_util-macros in Buildroot is named xorg-util-macros on release-monitoring.org. This mapping can be seen in the section "Mappings" of https://release-monitoring.org/project/15037/. If there is no mapping, then it does a regular search, and within the search results, looks for a package whose name matches the Buildroot name. Even though fetching from release-monitoring.org is a bit slow, using multiprocessing.Pool has proven to not be reliable, with some requests ending up with an exception. So we keep a serialized approach, but with a single HTTPSConnectionPool() for all queries. Long term, we hope to be able to use a database dump of release-monitoring.org instead. From an output point of view, the latest version column: - Is green when the version in Buildroot matches the latest upstream version - Is orange when the latest upstream version is unknown because the package was not found on release-monitoring.org - Is red when the version in Buildroot doesn't match the latest upstream version. Note that we are not doing anything smart here: we are just testing if the strings are equal or not. - The cell contains the link to the project on release-monitoring.org if found. - The cell indicates if the match was done using a distro mapping, or through a regular search. [1] https://release-monitoring.org/distro/Buildroot/ Signed-off-by: Thomas Petazzoni <thomas.petazzoni@bootlin.com> Tested-by: Matthew Weber <matthew.weber@rockwellcollins.com> Signed-off-by: Thomas Petazzoni <thomas.petazzoni@bootlin.com>
2019-02-05 16:19:59 +01:00
self.latest_version = (RM_API_STATUS_ERROR, None, None)
def pkgvar(self):
return self.name.upper().replace("-", "_")
def set_url(self):
"""
Fills in the .url field
"""
self.url_status = "No Config.in"
for filename in os.listdir(os.path.dirname(self.path)):
if fnmatch.fnmatch(filename, 'Config.*'):
fp = open(os.path.join(os.path.dirname(self.path), filename), "r")
for config_line in fp:
if URL_RE.match(config_line):
self.url = config_line.strip()
self.url_status = "Found"
fp.close()
return
self.url_status = "Missing"
fp.close()
def set_infra(self):
"""
Fills in the .infras field
"""
self.infras = list()
with open(self.path, 'r') as f:
lines = f.readlines()
for l in lines:
match = INFRA_RE.match(l)
if not match:
continue
infra = match.group(1)
if infra.startswith("host-"):
self.infras.append(("host", infra[5:]))
else:
self.infras.append(("target", infra))
def set_license(self):
"""
Fills in the .has_license and .has_license_files fields
"""
var = self.pkgvar()
if var in self.all_licenses:
self.has_license = True
if var in self.all_license_files:
self.has_license_files = True
def set_hash_info(self):
"""
Fills in the .has_hash field
"""
hashpath = self.path.replace(".mk", ".hash")
self.has_hash = os.path.exists(hashpath)
def set_patch_count(self):
"""
Fills in the .patch_count field
"""
self.patch_count = 0
pkgdir = os.path.dirname(self.path)
for subdir, _, _ in os.walk(pkgdir):
self.patch_count += len(fnmatch.filter(os.listdir(subdir), '*.patch'))
def set_current_version(self):
"""
Fills in the .current_version field
"""
var = self.pkgvar()
if var in self.all_versions:
self.current_version = self.all_versions[var]
def set_check_package_warnings(self):
"""
Fills in the .warnings field
"""
cmd = ["./utils/check-package"]
pkgdir = os.path.dirname(self.path)
for root, dirs, files in os.walk(pkgdir):
for f in files:
if f.endswith(".mk") or f.endswith(".hash") or f == "Config.in" or f == "Config.in.host":
cmd.append(os.path.join(root, f))
o = subprocess.Popen(cmd, stdout=subprocess.PIPE, stderr=subprocess.PIPE).communicate()[1]
lines = o.splitlines()
for line in lines:
m = re.match("^([0-9]*) warnings generated", line)
if m:
self.warnings = int(m.group(1))
return
support/scripts/pkg-stats: add support for CVE reporting This commit extends the pkg-stats script to grab information about the CVEs affecting the Buildroot packages. To do so, it downloads the NVD database from https://nvd.nist.gov/vuln/data-feeds in JSON format, and processes the JSON file to determine which of our packages is affected by which CVE. The information is then displayed in both the HTML output and the JSON output of pkg-stats. To use this feature, you have to pass the new --nvd-path option, pointing to a writable directory where pkg-stats will store the NVD database. If the local database is less than 24 hours old, it will not re-download it. If it is more than 24 hours old, it will re-download only the files that have really been updated by upstream NVD. Packages can use the newly introduced <pkg>_IGNORE_CVES variable to tell pkg-stats that some CVEs should be ignored: it can be because a patch we have is fixing the CVE, or because the CVE doesn't apply in our case. >From an implementation point of view: - A new class CVE implement most of the required functionalities: - Downloading the yearly NVD files - Reading and extracting relevant data from these files - Matching Packages against a CVE - The statistics are extended with the total number of CVEs, and the total number of packages that have at least one CVE pending. - The HTML output is extended with these new details. There are no changes to the code generating the JSON output because the existing code is smart enough to automatically expose the new information. This development is a collective effort with Titouan Christophe <titouan.christophe@railnova.eu> and Thomas De Schampheleire <thomas.de_schampheleire@nokia.com>. Signed-off-by: Thomas Petazzoni <thomas.petazzoni@bootlin.com> Signed-off-by: Titouan Christophe <titouan.christophe@railnova.eu> Signed-off-by: Peter Korsgaard <peter@korsgaard.com>
2020-02-15 13:44:16 +01:00
def is_cve_ignored(self, cve):
"""
Tells if the CVE is ignored by the package
"""
return cve in self.all_ignored_cves.get(self.pkgvar(), [])
def __eq__(self, other):
return self.path == other.path
def __lt__(self, other):
return self.path < other.path
def __str__(self):
return "%s (path='%s', license='%s', license_files='%s', hash='%s', patches=%d)" % \
(self.name, self.path, self.has_license, self.has_license_files, self.has_hash, self.patch_count)
support/scripts/pkg-stats: add support for CVE reporting This commit extends the pkg-stats script to grab information about the CVEs affecting the Buildroot packages. To do so, it downloads the NVD database from https://nvd.nist.gov/vuln/data-feeds in JSON format, and processes the JSON file to determine which of our packages is affected by which CVE. The information is then displayed in both the HTML output and the JSON output of pkg-stats. To use this feature, you have to pass the new --nvd-path option, pointing to a writable directory where pkg-stats will store the NVD database. If the local database is less than 24 hours old, it will not re-download it. If it is more than 24 hours old, it will re-download only the files that have really been updated by upstream NVD. Packages can use the newly introduced <pkg>_IGNORE_CVES variable to tell pkg-stats that some CVEs should be ignored: it can be because a patch we have is fixing the CVE, or because the CVE doesn't apply in our case. >From an implementation point of view: - A new class CVE implement most of the required functionalities: - Downloading the yearly NVD files - Reading and extracting relevant data from these files - Matching Packages against a CVE - The statistics are extended with the total number of CVEs, and the total number of packages that have at least one CVE pending. - The HTML output is extended with these new details. There are no changes to the code generating the JSON output because the existing code is smart enough to automatically expose the new information. This development is a collective effort with Titouan Christophe <titouan.christophe@railnova.eu> and Thomas De Schampheleire <thomas.de_schampheleire@nokia.com>. Signed-off-by: Thomas Petazzoni <thomas.petazzoni@bootlin.com> Signed-off-by: Titouan Christophe <titouan.christophe@railnova.eu> Signed-off-by: Peter Korsgaard <peter@korsgaard.com>
2020-02-15 13:44:16 +01:00
class CVE:
"""An accessor class for CVE Items in NVD files"""
def __init__(self, nvd_cve):
"""Initialize a CVE from its NVD JSON representation"""
self.nvd_cve = nvd_cve
@staticmethod
def download_nvd_year(nvd_path, year):
metaf = "nvdcve-%s-%s.meta" % (NVD_JSON_VERSION, year)
path_metaf = os.path.join(nvd_path, metaf)
jsonf_gz = "nvdcve-%s-%s.json.gz" % (NVD_JSON_VERSION, year)
path_jsonf_gz = os.path.join(nvd_path, jsonf_gz)
# If the database file is less than a day old, we assume the NVD data
# locally available is recent enough.
if os.path.exists(path_jsonf_gz) and os.stat(path_jsonf_gz).st_mtime >= time.time() - 86400:
return path_jsonf_gz
# If not, we download the meta file
url = "%s/%s" % (NVD_BASE_URL, metaf)
print("Getting %s" % url)
page_meta = requests.get(url)
page_meta.raise_for_status()
# If the meta file already existed, we compare the existing
# one with the data newly downloaded. If they are different,
# we need to re-download the database.
# If the database does not exist locally, we need to redownload it in
# any case.
if os.path.exists(path_metaf) and os.path.exists(path_jsonf_gz):
meta_known = open(path_metaf, "r").read()
if page_meta.text == meta_known:
return path_jsonf_gz
# Grab the compressed JSON NVD, and write files to disk
url = "%s/%s" % (NVD_BASE_URL, jsonf_gz)
print("Getting %s" % url)
page_json = requests.get(url)
page_json.raise_for_status()
open(path_jsonf_gz, "wb").write(page_json.content)
open(path_metaf, "w").write(page_meta.text)
return path_jsonf_gz
@classmethod
def read_nvd_dir(cls, nvd_dir):
"""
Iterate over all the CVEs contained in NIST Vulnerability Database
feeds since NVD_START_YEAR. If the files are missing or outdated in
nvd_dir, a fresh copy will be downloaded, and kept in .json.gz
"""
for year in range(NVD_START_YEAR, datetime.datetime.now().year + 1):
filename = CVE.download_nvd_year(nvd_dir, year)
try:
content = json.load(gzip.GzipFile(filename))
except:
print("ERROR: cannot read %s. Please remove the file then rerun this script" % filename)
raise
for cve in content["CVE_Items"]:
yield cls(cve['cve'])
def each_product(self):
"""Iterate over each product section of this cve"""
for vendor in self.nvd_cve['affects']['vendor']['vendor_data']:
for product in vendor['product']['product_data']:
yield product
@property
def identifier(self):
"""The CVE unique identifier"""
return self.nvd_cve['CVE_data_meta']['ID']
@property
def pkg_names(self):
"""The set of package names referred by this CVE definition"""
return set(p['product_name'] for p in self.each_product())
def affects(self, br_pkg):
"""
True if the Buildroot Package object passed as argument is affected
by this CVE.
"""
if br_pkg.is_cve_ignored(self.identifier):
return False
support/scripts/pkg-stats: add support for CVE reporting This commit extends the pkg-stats script to grab information about the CVEs affecting the Buildroot packages. To do so, it downloads the NVD database from https://nvd.nist.gov/vuln/data-feeds in JSON format, and processes the JSON file to determine which of our packages is affected by which CVE. The information is then displayed in both the HTML output and the JSON output of pkg-stats. To use this feature, you have to pass the new --nvd-path option, pointing to a writable directory where pkg-stats will store the NVD database. If the local database is less than 24 hours old, it will not re-download it. If it is more than 24 hours old, it will re-download only the files that have really been updated by upstream NVD. Packages can use the newly introduced <pkg>_IGNORE_CVES variable to tell pkg-stats that some CVEs should be ignored: it can be because a patch we have is fixing the CVE, or because the CVE doesn't apply in our case. >From an implementation point of view: - A new class CVE implement most of the required functionalities: - Downloading the yearly NVD files - Reading and extracting relevant data from these files - Matching Packages against a CVE - The statistics are extended with the total number of CVEs, and the total number of packages that have at least one CVE pending. - The HTML output is extended with these new details. There are no changes to the code generating the JSON output because the existing code is smart enough to automatically expose the new information. This development is a collective effort with Titouan Christophe <titouan.christophe@railnova.eu> and Thomas De Schampheleire <thomas.de_schampheleire@nokia.com>. Signed-off-by: Thomas Petazzoni <thomas.petazzoni@bootlin.com> Signed-off-by: Titouan Christophe <titouan.christophe@railnova.eu> Signed-off-by: Peter Korsgaard <peter@korsgaard.com>
2020-02-15 13:44:16 +01:00
for product in self.each_product():
if product['product_name'] != br_pkg.name:
continue
for v in product['version']['version_data']:
if v["version_affected"] == "=":
if br_pkg.current_version == v["version_value"]:
return True
elif v["version_affected"] == "<=":
pkg_version = distutils.version.LooseVersion(br_pkg.current_version)
if not hasattr(pkg_version, "version"):
print("Cannot parse package '%s' version '%s'" % (br_pkg.name, br_pkg.current_version))
continue
cve_affected_version = distutils.version.LooseVersion(v["version_value"])
if not hasattr(cve_affected_version, "version"):
print("Cannot parse CVE affected version '%s'" % v["version_value"])
continue
return pkg_version <= cve_affected_version
else:
print("version_affected: %s" % v['version_affected'])
return False
def get_pkglist(npackages, package_list):
"""
Builds the list of Buildroot packages, returning a list of Package
objects. Only the .name and .path fields of the Package object are
initialized.
npackages: limit to N packages
package_list: limit to those packages in this list
"""
WALK_USEFUL_SUBDIRS = ["boot", "linux", "package", "toolchain"]
WALK_EXCLUDES = ["boot/common.mk",
"linux/linux-ext-.*.mk",
"package/freescale-imx/freescale-imx.mk",
"package/gcc/gcc.mk",
"package/gstreamer/gstreamer.mk",
"package/gstreamer1/gstreamer1.mk",
"package/gtk2-themes/gtk2-themes.mk",
"package/matchbox/matchbox.mk",
"package/opengl/opengl.mk",
"package/qt5/qt5.mk",
"package/x11r7/x11r7.mk",
"package/doc-asciidoc.mk",
"package/pkg-.*.mk",
"package/nvidia-tegra23/nvidia-tegra23.mk",
"toolchain/toolchain-external/pkg-toolchain-external.mk",
"toolchain/toolchain-external/toolchain-external.mk",
"toolchain/toolchain.mk",
"toolchain/helpers.mk",
"toolchain/toolchain-wrapper.mk"]
packages = list()
count = 0
for root, dirs, files in os.walk("."):
rootdir = root.split("/")
if len(rootdir) < 2:
continue
if rootdir[1] not in WALK_USEFUL_SUBDIRS:
continue
for f in files:
if not f.endswith(".mk"):
continue
# Strip ending ".mk"
pkgname = f[:-3]
if package_list and pkgname not in package_list:
continue
pkgpath = os.path.join(root, f)
skip = False
for exclude in WALK_EXCLUDES:
# pkgpath[2:] strips the initial './'
if re.match(exclude, pkgpath[2:]):
skip = True
continue
if skip:
continue
p = Package(pkgname, pkgpath)
packages.append(p)
count += 1
if npackages and count == npackages:
return packages
return packages
def package_init_make_info():
# Fetch all variables at once
variables = subprocess.check_output(["make", "BR2_HAVE_DOT_CONFIG=y", "-s", "printvars",
support/scripts/pkg-stats: add support for CVE reporting This commit extends the pkg-stats script to grab information about the CVEs affecting the Buildroot packages. To do so, it downloads the NVD database from https://nvd.nist.gov/vuln/data-feeds in JSON format, and processes the JSON file to determine which of our packages is affected by which CVE. The information is then displayed in both the HTML output and the JSON output of pkg-stats. To use this feature, you have to pass the new --nvd-path option, pointing to a writable directory where pkg-stats will store the NVD database. If the local database is less than 24 hours old, it will not re-download it. If it is more than 24 hours old, it will re-download only the files that have really been updated by upstream NVD. Packages can use the newly introduced <pkg>_IGNORE_CVES variable to tell pkg-stats that some CVEs should be ignored: it can be because a patch we have is fixing the CVE, or because the CVE doesn't apply in our case. >From an implementation point of view: - A new class CVE implement most of the required functionalities: - Downloading the yearly NVD files - Reading and extracting relevant data from these files - Matching Packages against a CVE - The statistics are extended with the total number of CVEs, and the total number of packages that have at least one CVE pending. - The HTML output is extended with these new details. There are no changes to the code generating the JSON output because the existing code is smart enough to automatically expose the new information. This development is a collective effort with Titouan Christophe <titouan.christophe@railnova.eu> and Thomas De Schampheleire <thomas.de_schampheleire@nokia.com>. Signed-off-by: Thomas Petazzoni <thomas.petazzoni@bootlin.com> Signed-off-by: Titouan Christophe <titouan.christophe@railnova.eu> Signed-off-by: Peter Korsgaard <peter@korsgaard.com>
2020-02-15 13:44:16 +01:00
"VARS=%_LICENSE %_LICENSE_FILES %_VERSION %_IGNORE_CVES"])
variable_list = variables.splitlines()
# We process first the host package VERSION, and then the target
# package VERSION. This means that if a package exists in both
# target and host variants, with different values (eg. version
# numbers (unlikely)), we'll report the target one.
variable_list = [x[5:] for x in variable_list if x.startswith("HOST_")] + \
[x for x in variable_list if not x.startswith("HOST_")]
for l in variable_list:
# Get variable name and value
pkgvar, value = l.split("=")
# Strip the suffix according to the variable
if pkgvar.endswith("_LICENSE"):
# If value is "unknown", no license details available
if value == "unknown":
continue
pkgvar = pkgvar[:-8]
Package.all_licenses.append(pkgvar)
elif pkgvar.endswith("_LICENSE_FILES"):
if pkgvar.endswith("_MANIFEST_LICENSE_FILES"):
continue
pkgvar = pkgvar[:-14]
Package.all_license_files.append(pkgvar)
elif pkgvar.endswith("_VERSION"):
if pkgvar.endswith("_DL_VERSION"):
continue
pkgvar = pkgvar[:-8]
Package.all_versions[pkgvar] = value
support/scripts/pkg-stats: add support for CVE reporting This commit extends the pkg-stats script to grab information about the CVEs affecting the Buildroot packages. To do so, it downloads the NVD database from https://nvd.nist.gov/vuln/data-feeds in JSON format, and processes the JSON file to determine which of our packages is affected by which CVE. The information is then displayed in both the HTML output and the JSON output of pkg-stats. To use this feature, you have to pass the new --nvd-path option, pointing to a writable directory where pkg-stats will store the NVD database. If the local database is less than 24 hours old, it will not re-download it. If it is more than 24 hours old, it will re-download only the files that have really been updated by upstream NVD. Packages can use the newly introduced <pkg>_IGNORE_CVES variable to tell pkg-stats that some CVEs should be ignored: it can be because a patch we have is fixing the CVE, or because the CVE doesn't apply in our case. >From an implementation point of view: - A new class CVE implement most of the required functionalities: - Downloading the yearly NVD files - Reading and extracting relevant data from these files - Matching Packages against a CVE - The statistics are extended with the total number of CVEs, and the total number of packages that have at least one CVE pending. - The HTML output is extended with these new details. There are no changes to the code generating the JSON output because the existing code is smart enough to automatically expose the new information. This development is a collective effort with Titouan Christophe <titouan.christophe@railnova.eu> and Thomas De Schampheleire <thomas.de_schampheleire@nokia.com>. Signed-off-by: Thomas Petazzoni <thomas.petazzoni@bootlin.com> Signed-off-by: Titouan Christophe <titouan.christophe@railnova.eu> Signed-off-by: Peter Korsgaard <peter@korsgaard.com>
2020-02-15 13:44:16 +01:00
elif pkgvar.endswith("_IGNORE_CVES"):
pkgvar = pkgvar[:-12]
Package.all_ignored_cves[pkgvar] = value.split()
def check_url_status_worker(url, url_status):
if url_status != "Missing" and url_status != "No Config.in":
try:
url_status_code = requests.head(url, timeout=30).status_code
if url_status_code >= 400:
return "Invalid(%s)" % str(url_status_code)
except requests.exceptions.RequestException:
return "Invalid(Err)"
return "Ok"
return url_status
def check_package_urls(packages):
Package.pool = Pool(processes=64)
for pkg in packages:
pkg.url_worker = pkg.pool.apply_async(check_url_status_worker, (pkg.url, pkg.url_status))
for pkg in packages:
pkg.url_status = pkg.url_worker.get(timeout=3600)
support/scripts/pkg-stats: add latest upstream version information This commit adds fetching the latest upstream version of each package from release-monitoring.org. The fetching process first tries to use the package mappings of the "Buildroot" distribution [1]. This mapping mechanism allows to tell release-monitoring.org what is the name of a package in a given distribution/build-system. For example, the package xutil_util-macros in Buildroot is named xorg-util-macros on release-monitoring.org. This mapping can be seen in the section "Mappings" of https://release-monitoring.org/project/15037/. If there is no mapping, then it does a regular search, and within the search results, looks for a package whose name matches the Buildroot name. Even though fetching from release-monitoring.org is a bit slow, using multiprocessing.Pool has proven to not be reliable, with some requests ending up with an exception. So we keep a serialized approach, but with a single HTTPSConnectionPool() for all queries. Long term, we hope to be able to use a database dump of release-monitoring.org instead. From an output point of view, the latest version column: - Is green when the version in Buildroot matches the latest upstream version - Is orange when the latest upstream version is unknown because the package was not found on release-monitoring.org - Is red when the version in Buildroot doesn't match the latest upstream version. Note that we are not doing anything smart here: we are just testing if the strings are equal or not. - The cell contains the link to the project on release-monitoring.org if found. - The cell indicates if the match was done using a distro mapping, or through a regular search. [1] https://release-monitoring.org/distro/Buildroot/ Signed-off-by: Thomas Petazzoni <thomas.petazzoni@bootlin.com> Tested-by: Matthew Weber <matthew.weber@rockwellcollins.com> Signed-off-by: Thomas Petazzoni <thomas.petazzoni@bootlin.com>
2019-02-05 16:19:59 +01:00
def release_monitoring_get_latest_version_by_distro(pool, name):
try:
req = pool.request('GET', "/api/project/Buildroot/%s" % name)
except HTTPError:
return (RM_API_STATUS_ERROR, None, None)
if req.status != 200:
return (RM_API_STATUS_NOT_FOUND, None, None)
data = json.loads(req.data)
if 'version' in data:
return (RM_API_STATUS_FOUND_BY_DISTRO, data['version'], data['id'])
else:
return (RM_API_STATUS_FOUND_BY_DISTRO, None, data['id'])
def release_monitoring_get_latest_version_by_guess(pool, name):
try:
req = pool.request('GET', "/api/projects/?pattern=%s" % name)
except HTTPError:
return (RM_API_STATUS_ERROR, None, None)
if req.status != 200:
return (RM_API_STATUS_NOT_FOUND, None, None)
data = json.loads(req.data)
projects = data['projects']
projects.sort(key=lambda x: x['id'])
for p in projects:
if p['name'] == name and 'version' in p:
return (RM_API_STATUS_FOUND_BY_PATTERN, p['version'], p['id'])
return (RM_API_STATUS_NOT_FOUND, None, None)
def check_package_latest_version_worker(name):
"""Wrapper to try both by name then by guess"""
print(name)
res = release_monitoring_get_latest_version_by_distro(http_pool, name)
if res[0] == RM_API_STATUS_NOT_FOUND:
res = release_monitoring_get_latest_version_by_guess(http_pool, name)
return res
support/scripts/pkg-stats: add latest upstream version information This commit adds fetching the latest upstream version of each package from release-monitoring.org. The fetching process first tries to use the package mappings of the "Buildroot" distribution [1]. This mapping mechanism allows to tell release-monitoring.org what is the name of a package in a given distribution/build-system. For example, the package xutil_util-macros in Buildroot is named xorg-util-macros on release-monitoring.org. This mapping can be seen in the section "Mappings" of https://release-monitoring.org/project/15037/. If there is no mapping, then it does a regular search, and within the search results, looks for a package whose name matches the Buildroot name. Even though fetching from release-monitoring.org is a bit slow, using multiprocessing.Pool has proven to not be reliable, with some requests ending up with an exception. So we keep a serialized approach, but with a single HTTPSConnectionPool() for all queries. Long term, we hope to be able to use a database dump of release-monitoring.org instead. From an output point of view, the latest version column: - Is green when the version in Buildroot matches the latest upstream version - Is orange when the latest upstream version is unknown because the package was not found on release-monitoring.org - Is red when the version in Buildroot doesn't match the latest upstream version. Note that we are not doing anything smart here: we are just testing if the strings are equal or not. - The cell contains the link to the project on release-monitoring.org if found. - The cell indicates if the match was done using a distro mapping, or through a regular search. [1] https://release-monitoring.org/distro/Buildroot/ Signed-off-by: Thomas Petazzoni <thomas.petazzoni@bootlin.com> Tested-by: Matthew Weber <matthew.weber@rockwellcollins.com> Signed-off-by: Thomas Petazzoni <thomas.petazzoni@bootlin.com>
2019-02-05 16:19:59 +01:00
def check_package_latest_version(packages):
"""
Fills in the .latest_version field of all Package objects
This field has a special format:
(status, version, id)
with:
- status: one of RM_API_STATUS_ERROR,
RM_API_STATUS_FOUND_BY_DISTRO, RM_API_STATUS_FOUND_BY_PATTERN,
RM_API_STATUS_NOT_FOUND
- version: string containing the latest version known by
release-monitoring.org for this package
- id: string containing the id of the project corresponding to this
package, as known by release-monitoring.org
"""
global http_pool
http_pool = HTTPSConnectionPool('release-monitoring.org', port=443,
cert_reqs='CERT_REQUIRED', ca_certs=certifi.where(),
timeout=30)
worker_pool = Pool(processes=64)
results = worker_pool.map(check_package_latest_version_worker, (pkg.name for pkg in packages))
for pkg, r in zip(packages, results):
pkg.latest_version = r
del http_pool
support/scripts/pkg-stats: add latest upstream version information This commit adds fetching the latest upstream version of each package from release-monitoring.org. The fetching process first tries to use the package mappings of the "Buildroot" distribution [1]. This mapping mechanism allows to tell release-monitoring.org what is the name of a package in a given distribution/build-system. For example, the package xutil_util-macros in Buildroot is named xorg-util-macros on release-monitoring.org. This mapping can be seen in the section "Mappings" of https://release-monitoring.org/project/15037/. If there is no mapping, then it does a regular search, and within the search results, looks for a package whose name matches the Buildroot name. Even though fetching from release-monitoring.org is a bit slow, using multiprocessing.Pool has proven to not be reliable, with some requests ending up with an exception. So we keep a serialized approach, but with a single HTTPSConnectionPool() for all queries. Long term, we hope to be able to use a database dump of release-monitoring.org instead. From an output point of view, the latest version column: - Is green when the version in Buildroot matches the latest upstream version - Is orange when the latest upstream version is unknown because the package was not found on release-monitoring.org - Is red when the version in Buildroot doesn't match the latest upstream version. Note that we are not doing anything smart here: we are just testing if the strings are equal or not. - The cell contains the link to the project on release-monitoring.org if found. - The cell indicates if the match was done using a distro mapping, or through a regular search. [1] https://release-monitoring.org/distro/Buildroot/ Signed-off-by: Thomas Petazzoni <thomas.petazzoni@bootlin.com> Tested-by: Matthew Weber <matthew.weber@rockwellcollins.com> Signed-off-by: Thomas Petazzoni <thomas.petazzoni@bootlin.com>
2019-02-05 16:19:59 +01:00
support/scripts/pkg-stats: add support for CVE reporting This commit extends the pkg-stats script to grab information about the CVEs affecting the Buildroot packages. To do so, it downloads the NVD database from https://nvd.nist.gov/vuln/data-feeds in JSON format, and processes the JSON file to determine which of our packages is affected by which CVE. The information is then displayed in both the HTML output and the JSON output of pkg-stats. To use this feature, you have to pass the new --nvd-path option, pointing to a writable directory where pkg-stats will store the NVD database. If the local database is less than 24 hours old, it will not re-download it. If it is more than 24 hours old, it will re-download only the files that have really been updated by upstream NVD. Packages can use the newly introduced <pkg>_IGNORE_CVES variable to tell pkg-stats that some CVEs should be ignored: it can be because a patch we have is fixing the CVE, or because the CVE doesn't apply in our case. >From an implementation point of view: - A new class CVE implement most of the required functionalities: - Downloading the yearly NVD files - Reading and extracting relevant data from these files - Matching Packages against a CVE - The statistics are extended with the total number of CVEs, and the total number of packages that have at least one CVE pending. - The HTML output is extended with these new details. There are no changes to the code generating the JSON output because the existing code is smart enough to automatically expose the new information. This development is a collective effort with Titouan Christophe <titouan.christophe@railnova.eu> and Thomas De Schampheleire <thomas.de_schampheleire@nokia.com>. Signed-off-by: Thomas Petazzoni <thomas.petazzoni@bootlin.com> Signed-off-by: Titouan Christophe <titouan.christophe@railnova.eu> Signed-off-by: Peter Korsgaard <peter@korsgaard.com>
2020-02-15 13:44:16 +01:00
def check_package_cves(nvd_path, packages):
if not os.path.isdir(nvd_path):
os.makedirs(nvd_path)
for cve in CVE.read_nvd_dir(nvd_path):
for pkg_name in cve.pkg_names:
if pkg_name in packages and cve.affects(packages[pkg_name]):
packages[pkg_name].cves.append(cve.identifier)
def calculate_stats(packages):
stats = defaultdict(int)
for pkg in packages:
# If packages have multiple infra, take the first one. For the
# vast majority of packages, the target and host infra are the
# same. There are very few packages that use a different infra
# for the host and target variants.
if len(pkg.infras) > 0:
infra = pkg.infras[0][1]
stats["infra-%s" % infra] += 1
else:
stats["infra-unknown"] += 1
if pkg.has_license:
stats["license"] += 1
else:
stats["no-license"] += 1
if pkg.has_license_files:
stats["license-files"] += 1
else:
stats["no-license-files"] += 1
if pkg.has_hash:
stats["hash"] += 1
else:
stats["no-hash"] += 1
support/scripts/pkg-stats: add latest upstream version information This commit adds fetching the latest upstream version of each package from release-monitoring.org. The fetching process first tries to use the package mappings of the "Buildroot" distribution [1]. This mapping mechanism allows to tell release-monitoring.org what is the name of a package in a given distribution/build-system. For example, the package xutil_util-macros in Buildroot is named xorg-util-macros on release-monitoring.org. This mapping can be seen in the section "Mappings" of https://release-monitoring.org/project/15037/. If there is no mapping, then it does a regular search, and within the search results, looks for a package whose name matches the Buildroot name. Even though fetching from release-monitoring.org is a bit slow, using multiprocessing.Pool has proven to not be reliable, with some requests ending up with an exception. So we keep a serialized approach, but with a single HTTPSConnectionPool() for all queries. Long term, we hope to be able to use a database dump of release-monitoring.org instead. From an output point of view, the latest version column: - Is green when the version in Buildroot matches the latest upstream version - Is orange when the latest upstream version is unknown because the package was not found on release-monitoring.org - Is red when the version in Buildroot doesn't match the latest upstream version. Note that we are not doing anything smart here: we are just testing if the strings are equal or not. - The cell contains the link to the project on release-monitoring.org if found. - The cell indicates if the match was done using a distro mapping, or through a regular search. [1] https://release-monitoring.org/distro/Buildroot/ Signed-off-by: Thomas Petazzoni <thomas.petazzoni@bootlin.com> Tested-by: Matthew Weber <matthew.weber@rockwellcollins.com> Signed-off-by: Thomas Petazzoni <thomas.petazzoni@bootlin.com>
2019-02-05 16:19:59 +01:00
if pkg.latest_version[0] == RM_API_STATUS_FOUND_BY_DISTRO:
stats["rmo-mapping"] += 1
else:
stats["rmo-no-mapping"] += 1
if not pkg.latest_version[1]:
stats["version-unknown"] += 1
elif pkg.latest_version[1] == pkg.current_version:
stats["version-uptodate"] += 1
else:
stats["version-not-uptodate"] += 1
stats["patches"] += pkg.patch_count
support/scripts/pkg-stats: add support for CVE reporting This commit extends the pkg-stats script to grab information about the CVEs affecting the Buildroot packages. To do so, it downloads the NVD database from https://nvd.nist.gov/vuln/data-feeds in JSON format, and processes the JSON file to determine which of our packages is affected by which CVE. The information is then displayed in both the HTML output and the JSON output of pkg-stats. To use this feature, you have to pass the new --nvd-path option, pointing to a writable directory where pkg-stats will store the NVD database. If the local database is less than 24 hours old, it will not re-download it. If it is more than 24 hours old, it will re-download only the files that have really been updated by upstream NVD. Packages can use the newly introduced <pkg>_IGNORE_CVES variable to tell pkg-stats that some CVEs should be ignored: it can be because a patch we have is fixing the CVE, or because the CVE doesn't apply in our case. >From an implementation point of view: - A new class CVE implement most of the required functionalities: - Downloading the yearly NVD files - Reading and extracting relevant data from these files - Matching Packages against a CVE - The statistics are extended with the total number of CVEs, and the total number of packages that have at least one CVE pending. - The HTML output is extended with these new details. There are no changes to the code generating the JSON output because the existing code is smart enough to automatically expose the new information. This development is a collective effort with Titouan Christophe <titouan.christophe@railnova.eu> and Thomas De Schampheleire <thomas.de_schampheleire@nokia.com>. Signed-off-by: Thomas Petazzoni <thomas.petazzoni@bootlin.com> Signed-off-by: Titouan Christophe <titouan.christophe@railnova.eu> Signed-off-by: Peter Korsgaard <peter@korsgaard.com>
2020-02-15 13:44:16 +01:00
stats["total-cves"] += len(pkg.cves)
if len(pkg.cves) != 0:
stats["pkg-cves"] += 1
return stats
html_header = """
<head>
<script src=\"https://www.kryogenix.org/code/browser/sorttable/sorttable.js\"></script>
<style type=\"text/css\">
table {
width: 100%;
}
td {
border: 1px solid black;
}
td.centered {
text-align: center;
}
td.wrong {
background: #ff9a69;
}
td.correct {
background: #d2ffc4;
}
td.nopatches {
background: #d2ffc4;
}
td.somepatches {
background: #ffd870;
}
td.lotsofpatches {
background: #ff9a69;
}
support/scripts/pkg-stats: add latest upstream version information This commit adds fetching the latest upstream version of each package from release-monitoring.org. The fetching process first tries to use the package mappings of the "Buildroot" distribution [1]. This mapping mechanism allows to tell release-monitoring.org what is the name of a package in a given distribution/build-system. For example, the package xutil_util-macros in Buildroot is named xorg-util-macros on release-monitoring.org. This mapping can be seen in the section "Mappings" of https://release-monitoring.org/project/15037/. If there is no mapping, then it does a regular search, and within the search results, looks for a package whose name matches the Buildroot name. Even though fetching from release-monitoring.org is a bit slow, using multiprocessing.Pool has proven to not be reliable, with some requests ending up with an exception. So we keep a serialized approach, but with a single HTTPSConnectionPool() for all queries. Long term, we hope to be able to use a database dump of release-monitoring.org instead. From an output point of view, the latest version column: - Is green when the version in Buildroot matches the latest upstream version - Is orange when the latest upstream version is unknown because the package was not found on release-monitoring.org - Is red when the version in Buildroot doesn't match the latest upstream version. Note that we are not doing anything smart here: we are just testing if the strings are equal or not. - The cell contains the link to the project on release-monitoring.org if found. - The cell indicates if the match was done using a distro mapping, or through a regular search. [1] https://release-monitoring.org/distro/Buildroot/ Signed-off-by: Thomas Petazzoni <thomas.petazzoni@bootlin.com> Tested-by: Matthew Weber <matthew.weber@rockwellcollins.com> Signed-off-by: Thomas Petazzoni <thomas.petazzoni@bootlin.com>
2019-02-05 16:19:59 +01:00
td.good_url {
background: #d2ffc4;
}
td.missing_url {
background: #ffd870;
}
td.invalid_url {
background: #ff9a69;
}
support/scripts/pkg-stats: add latest upstream version information This commit adds fetching the latest upstream version of each package from release-monitoring.org. The fetching process first tries to use the package mappings of the "Buildroot" distribution [1]. This mapping mechanism allows to tell release-monitoring.org what is the name of a package in a given distribution/build-system. For example, the package xutil_util-macros in Buildroot is named xorg-util-macros on release-monitoring.org. This mapping can be seen in the section "Mappings" of https://release-monitoring.org/project/15037/. If there is no mapping, then it does a regular search, and within the search results, looks for a package whose name matches the Buildroot name. Even though fetching from release-monitoring.org is a bit slow, using multiprocessing.Pool has proven to not be reliable, with some requests ending up with an exception. So we keep a serialized approach, but with a single HTTPSConnectionPool() for all queries. Long term, we hope to be able to use a database dump of release-monitoring.org instead. From an output point of view, the latest version column: - Is green when the version in Buildroot matches the latest upstream version - Is orange when the latest upstream version is unknown because the package was not found on release-monitoring.org - Is red when the version in Buildroot doesn't match the latest upstream version. Note that we are not doing anything smart here: we are just testing if the strings are equal or not. - The cell contains the link to the project on release-monitoring.org if found. - The cell indicates if the match was done using a distro mapping, or through a regular search. [1] https://release-monitoring.org/distro/Buildroot/ Signed-off-by: Thomas Petazzoni <thomas.petazzoni@bootlin.com> Tested-by: Matthew Weber <matthew.weber@rockwellcollins.com> Signed-off-by: Thomas Petazzoni <thomas.petazzoni@bootlin.com>
2019-02-05 16:19:59 +01:00
td.version-good {
background: #d2ffc4;
}
td.version-needs-update {
background: #ff9a69;
}
td.version-unknown {
background: #ffd870;
}
td.version-error {
background: #ccc;
}
</style>
<title>Statistics of Buildroot packages</title>
</head>
<a href=\"#results\">Results</a><br/>
<p id=\"sortable_hint\"></p>
"""
html_footer = """
</body>
<script>
if (typeof sorttable === \"object\") {
document.getElementById(\"sortable_hint\").innerHTML =
\"hint: the table can be sorted by clicking the column headers\"
}
</script>
</html>
"""
def infra_str(infra_list):
if not infra_list:
return "Unknown"
elif len(infra_list) == 1:
return "<b>%s</b><br/>%s" % (infra_list[0][1], infra_list[0][0])
elif infra_list[0][1] == infra_list[1][1]:
return "<b>%s</b><br/>%s + %s" % \
(infra_list[0][1], infra_list[0][0], infra_list[1][0])
else:
return "<b>%s</b> (%s)<br/><b>%s</b> (%s)" % \
(infra_list[0][1], infra_list[0][0],
infra_list[1][1], infra_list[1][0])
def boolean_str(b):
if b:
return "Yes"
else:
return "No"
def dump_html_pkg(f, pkg):
f.write(" <tr>\n")
f.write(" <td>%s</td>\n" % pkg.path[2:])
# Patch count
td_class = ["centered"]
if pkg.patch_count == 0:
td_class.append("nopatches")
elif pkg.patch_count < 5:
td_class.append("somepatches")
else:
td_class.append("lotsofpatches")
f.write(" <td class=\"%s\">%s</td>\n" %
(" ".join(td_class), str(pkg.patch_count)))
# Infrastructure
infra = infra_str(pkg.infras)
td_class = ["centered"]
if infra == "Unknown":
td_class.append("wrong")
else:
td_class.append("correct")
f.write(" <td class=\"%s\">%s</td>\n" %
(" ".join(td_class), infra_str(pkg.infras)))
# License
td_class = ["centered"]
if pkg.has_license:
td_class.append("correct")
else:
td_class.append("wrong")
f.write(" <td class=\"%s\">%s</td>\n" %
(" ".join(td_class), boolean_str(pkg.has_license)))
# License files
td_class = ["centered"]
if pkg.has_license_files:
td_class.append("correct")
else:
td_class.append("wrong")
f.write(" <td class=\"%s\">%s</td>\n" %
(" ".join(td_class), boolean_str(pkg.has_license_files)))
# Hash
td_class = ["centered"]
if pkg.has_hash:
td_class.append("correct")
else:
td_class.append("wrong")
f.write(" <td class=\"%s\">%s</td>\n" %
(" ".join(td_class), boolean_str(pkg.has_hash)))
# Current version
if len(pkg.current_version) > 20:
current_version = pkg.current_version[:20] + "..."
else:
current_version = pkg.current_version
f.write(" <td class=\"centered\">%s</td>\n" % current_version)
support/scripts/pkg-stats: add latest upstream version information This commit adds fetching the latest upstream version of each package from release-monitoring.org. The fetching process first tries to use the package mappings of the "Buildroot" distribution [1]. This mapping mechanism allows to tell release-monitoring.org what is the name of a package in a given distribution/build-system. For example, the package xutil_util-macros in Buildroot is named xorg-util-macros on release-monitoring.org. This mapping can be seen in the section "Mappings" of https://release-monitoring.org/project/15037/. If there is no mapping, then it does a regular search, and within the search results, looks for a package whose name matches the Buildroot name. Even though fetching from release-monitoring.org is a bit slow, using multiprocessing.Pool has proven to not be reliable, with some requests ending up with an exception. So we keep a serialized approach, but with a single HTTPSConnectionPool() for all queries. Long term, we hope to be able to use a database dump of release-monitoring.org instead. From an output point of view, the latest version column: - Is green when the version in Buildroot matches the latest upstream version - Is orange when the latest upstream version is unknown because the package was not found on release-monitoring.org - Is red when the version in Buildroot doesn't match the latest upstream version. Note that we are not doing anything smart here: we are just testing if the strings are equal or not. - The cell contains the link to the project on release-monitoring.org if found. - The cell indicates if the match was done using a distro mapping, or through a regular search. [1] https://release-monitoring.org/distro/Buildroot/ Signed-off-by: Thomas Petazzoni <thomas.petazzoni@bootlin.com> Tested-by: Matthew Weber <matthew.weber@rockwellcollins.com> Signed-off-by: Thomas Petazzoni <thomas.petazzoni@bootlin.com>
2019-02-05 16:19:59 +01:00
# Latest version
if pkg.latest_version[0] == RM_API_STATUS_ERROR:
td_class.append("version-error")
if pkg.latest_version[1] is None:
td_class.append("version-unknown")
elif pkg.latest_version[1] != pkg.current_version:
td_class.append("version-needs-update")
else:
td_class.append("version-good")
if pkg.latest_version[0] == RM_API_STATUS_ERROR:
latest_version_text = "<b>Error</b>"
elif pkg.latest_version[0] == RM_API_STATUS_NOT_FOUND:
latest_version_text = "<b>Not found</b>"
else:
if pkg.latest_version[1] is None:
latest_version_text = "<b>Found, but no version</b>"
else:
latest_version_text = "<a href=\"https://release-monitoring.org/project/%s\"><b>%s</b></a>" % \
(pkg.latest_version[2], str(pkg.latest_version[1]))
support/scripts/pkg-stats: add latest upstream version information This commit adds fetching the latest upstream version of each package from release-monitoring.org. The fetching process first tries to use the package mappings of the "Buildroot" distribution [1]. This mapping mechanism allows to tell release-monitoring.org what is the name of a package in a given distribution/build-system. For example, the package xutil_util-macros in Buildroot is named xorg-util-macros on release-monitoring.org. This mapping can be seen in the section "Mappings" of https://release-monitoring.org/project/15037/. If there is no mapping, then it does a regular search, and within the search results, looks for a package whose name matches the Buildroot name. Even though fetching from release-monitoring.org is a bit slow, using multiprocessing.Pool has proven to not be reliable, with some requests ending up with an exception. So we keep a serialized approach, but with a single HTTPSConnectionPool() for all queries. Long term, we hope to be able to use a database dump of release-monitoring.org instead. From an output point of view, the latest version column: - Is green when the version in Buildroot matches the latest upstream version - Is orange when the latest upstream version is unknown because the package was not found on release-monitoring.org - Is red when the version in Buildroot doesn't match the latest upstream version. Note that we are not doing anything smart here: we are just testing if the strings are equal or not. - The cell contains the link to the project on release-monitoring.org if found. - The cell indicates if the match was done using a distro mapping, or through a regular search. [1] https://release-monitoring.org/distro/Buildroot/ Signed-off-by: Thomas Petazzoni <thomas.petazzoni@bootlin.com> Tested-by: Matthew Weber <matthew.weber@rockwellcollins.com> Signed-off-by: Thomas Petazzoni <thomas.petazzoni@bootlin.com>
2019-02-05 16:19:59 +01:00
latest_version_text += "<br/>"
if pkg.latest_version[0] == RM_API_STATUS_FOUND_BY_DISTRO:
latest_version_text += "found by <a href=\"https://release-monitoring.org/distro/Buildroot/\">distro</a>"
else:
latest_version_text += "found by guess"
f.write(" <td class=\"%s\">%s</td>\n" %
(" ".join(td_class), latest_version_text))
# Warnings
td_class = ["centered"]
if pkg.warnings == 0:
td_class.append("correct")
else:
td_class.append("wrong")
f.write(" <td class=\"%s\">%d</td>\n" %
(" ".join(td_class), pkg.warnings))
# URL status
td_class = ["centered"]
url_str = pkg.url_status
if pkg.url_status == "Missing" or pkg.url_status == "No Config.in":
td_class.append("missing_url")
elif pkg.url_status.startswith("Invalid"):
td_class.append("invalid_url")
url_str = "<a href=%s>%s</a>" % (pkg.url, pkg.url_status)
else:
td_class.append("good_url")
url_str = "<a href=%s>Link</a>" % pkg.url
f.write(" <td class=\"%s\">%s</td>\n" %
(" ".join(td_class), url_str))
support/scripts/pkg-stats: add support for CVE reporting This commit extends the pkg-stats script to grab information about the CVEs affecting the Buildroot packages. To do so, it downloads the NVD database from https://nvd.nist.gov/vuln/data-feeds in JSON format, and processes the JSON file to determine which of our packages is affected by which CVE. The information is then displayed in both the HTML output and the JSON output of pkg-stats. To use this feature, you have to pass the new --nvd-path option, pointing to a writable directory where pkg-stats will store the NVD database. If the local database is less than 24 hours old, it will not re-download it. If it is more than 24 hours old, it will re-download only the files that have really been updated by upstream NVD. Packages can use the newly introduced <pkg>_IGNORE_CVES variable to tell pkg-stats that some CVEs should be ignored: it can be because a patch we have is fixing the CVE, or because the CVE doesn't apply in our case. >From an implementation point of view: - A new class CVE implement most of the required functionalities: - Downloading the yearly NVD files - Reading and extracting relevant data from these files - Matching Packages against a CVE - The statistics are extended with the total number of CVEs, and the total number of packages that have at least one CVE pending. - The HTML output is extended with these new details. There are no changes to the code generating the JSON output because the existing code is smart enough to automatically expose the new information. This development is a collective effort with Titouan Christophe <titouan.christophe@railnova.eu> and Thomas De Schampheleire <thomas.de_schampheleire@nokia.com>. Signed-off-by: Thomas Petazzoni <thomas.petazzoni@bootlin.com> Signed-off-by: Titouan Christophe <titouan.christophe@railnova.eu> Signed-off-by: Peter Korsgaard <peter@korsgaard.com>
2020-02-15 13:44:16 +01:00
# CVEs
td_class = ["centered"]
if len(pkg.cves) == 0:
td_class.append("correct")
else:
td_class.append("wrong")
f.write(" <td class=\"%s\">\n" % " ".join(td_class))
for cve in pkg.cves:
f.write(" <a href=\"https://security-tracker.debian.org/tracker/%s\">%s<br/>\n" % (cve, cve))
f.write(" </td>\n")
f.write(" </tr>\n")
def dump_html_all_pkgs(f, packages):
f.write("""
<table class=\"sortable\">
<tr>
<td>Package</td>
<td class=\"centered\">Patch count</td>
<td class=\"centered\">Infrastructure</td>
<td class=\"centered\">License</td>
<td class=\"centered\">License files</td>
<td class=\"centered\">Hash file</td>
<td class=\"centered\">Current version</td>
support/scripts/pkg-stats: add latest upstream version information This commit adds fetching the latest upstream version of each package from release-monitoring.org. The fetching process first tries to use the package mappings of the "Buildroot" distribution [1]. This mapping mechanism allows to tell release-monitoring.org what is the name of a package in a given distribution/build-system. For example, the package xutil_util-macros in Buildroot is named xorg-util-macros on release-monitoring.org. This mapping can be seen in the section "Mappings" of https://release-monitoring.org/project/15037/. If there is no mapping, then it does a regular search, and within the search results, looks for a package whose name matches the Buildroot name. Even though fetching from release-monitoring.org is a bit slow, using multiprocessing.Pool has proven to not be reliable, with some requests ending up with an exception. So we keep a serialized approach, but with a single HTTPSConnectionPool() for all queries. Long term, we hope to be able to use a database dump of release-monitoring.org instead. From an output point of view, the latest version column: - Is green when the version in Buildroot matches the latest upstream version - Is orange when the latest upstream version is unknown because the package was not found on release-monitoring.org - Is red when the version in Buildroot doesn't match the latest upstream version. Note that we are not doing anything smart here: we are just testing if the strings are equal or not. - The cell contains the link to the project on release-monitoring.org if found. - The cell indicates if the match was done using a distro mapping, or through a regular search. [1] https://release-monitoring.org/distro/Buildroot/ Signed-off-by: Thomas Petazzoni <thomas.petazzoni@bootlin.com> Tested-by: Matthew Weber <matthew.weber@rockwellcollins.com> Signed-off-by: Thomas Petazzoni <thomas.petazzoni@bootlin.com>
2019-02-05 16:19:59 +01:00
<td class=\"centered\">Latest version</td>
<td class=\"centered\">Warnings</td>
<td class=\"centered\">Upstream URL</td>
support/scripts/pkg-stats: add support for CVE reporting This commit extends the pkg-stats script to grab information about the CVEs affecting the Buildroot packages. To do so, it downloads the NVD database from https://nvd.nist.gov/vuln/data-feeds in JSON format, and processes the JSON file to determine which of our packages is affected by which CVE. The information is then displayed in both the HTML output and the JSON output of pkg-stats. To use this feature, you have to pass the new --nvd-path option, pointing to a writable directory where pkg-stats will store the NVD database. If the local database is less than 24 hours old, it will not re-download it. If it is more than 24 hours old, it will re-download only the files that have really been updated by upstream NVD. Packages can use the newly introduced <pkg>_IGNORE_CVES variable to tell pkg-stats that some CVEs should be ignored: it can be because a patch we have is fixing the CVE, or because the CVE doesn't apply in our case. >From an implementation point of view: - A new class CVE implement most of the required functionalities: - Downloading the yearly NVD files - Reading and extracting relevant data from these files - Matching Packages against a CVE - The statistics are extended with the total number of CVEs, and the total number of packages that have at least one CVE pending. - The HTML output is extended with these new details. There are no changes to the code generating the JSON output because the existing code is smart enough to automatically expose the new information. This development is a collective effort with Titouan Christophe <titouan.christophe@railnova.eu> and Thomas De Schampheleire <thomas.de_schampheleire@nokia.com>. Signed-off-by: Thomas Petazzoni <thomas.petazzoni@bootlin.com> Signed-off-by: Titouan Christophe <titouan.christophe@railnova.eu> Signed-off-by: Peter Korsgaard <peter@korsgaard.com>
2020-02-15 13:44:16 +01:00
<td class=\"centered\">CVEs</td>
</tr>
""")
for pkg in sorted(packages):
dump_html_pkg(f, pkg)
f.write("</table>")
def dump_html_stats(f, stats):
f.write("<a id=\"results\"></a>\n")
f.write("<table>\n")
infras = [infra[6:] for infra in stats.keys() if infra.startswith("infra-")]
for infra in infras:
f.write(" <tr><td>Packages using the <i>%s</i> infrastructure</td><td>%s</td></tr>\n" %
(infra, stats["infra-%s" % infra]))
f.write(" <tr><td>Packages having license information</td><td>%s</td></tr>\n" %
stats["license"])
f.write(" <tr><td>Packages not having license information</td><td>%s</td></tr>\n" %
stats["no-license"])
f.write(" <tr><td>Packages having license files information</td><td>%s</td></tr>\n" %
stats["license-files"])
f.write(" <tr><td>Packages not having license files information</td><td>%s</td></tr>\n" %
stats["no-license-files"])
f.write(" <tr><td>Packages having a hash file</td><td>%s</td></tr>\n" %
stats["hash"])
f.write(" <tr><td>Packages not having a hash file</td><td>%s</td></tr>\n" %
stats["no-hash"])
f.write(" <tr><td>Total number of patches</td><td>%s</td></tr>\n" %
stats["patches"])
support/scripts/pkg-stats: add latest upstream version information This commit adds fetching the latest upstream version of each package from release-monitoring.org. The fetching process first tries to use the package mappings of the "Buildroot" distribution [1]. This mapping mechanism allows to tell release-monitoring.org what is the name of a package in a given distribution/build-system. For example, the package xutil_util-macros in Buildroot is named xorg-util-macros on release-monitoring.org. This mapping can be seen in the section "Mappings" of https://release-monitoring.org/project/15037/. If there is no mapping, then it does a regular search, and within the search results, looks for a package whose name matches the Buildroot name. Even though fetching from release-monitoring.org is a bit slow, using multiprocessing.Pool has proven to not be reliable, with some requests ending up with an exception. So we keep a serialized approach, but with a single HTTPSConnectionPool() for all queries. Long term, we hope to be able to use a database dump of release-monitoring.org instead. From an output point of view, the latest version column: - Is green when the version in Buildroot matches the latest upstream version - Is orange when the latest upstream version is unknown because the package was not found on release-monitoring.org - Is red when the version in Buildroot doesn't match the latest upstream version. Note that we are not doing anything smart here: we are just testing if the strings are equal or not. - The cell contains the link to the project on release-monitoring.org if found. - The cell indicates if the match was done using a distro mapping, or through a regular search. [1] https://release-monitoring.org/distro/Buildroot/ Signed-off-by: Thomas Petazzoni <thomas.petazzoni@bootlin.com> Tested-by: Matthew Weber <matthew.weber@rockwellcollins.com> Signed-off-by: Thomas Petazzoni <thomas.petazzoni@bootlin.com>
2019-02-05 16:19:59 +01:00
f.write("<tr><td>Packages having a mapping on <i>release-monitoring.org</i></td><td>%s</td></tr>\n" %
stats["rmo-mapping"])
f.write("<tr><td>Packages lacking a mapping on <i>release-monitoring.org</i></td><td>%s</td></tr>\n" %
stats["rmo-no-mapping"])
f.write("<tr><td>Packages that are up-to-date</td><td>%s</td></tr>\n" %
stats["version-uptodate"])
f.write("<tr><td>Packages that are not up-to-date</td><td>%s</td></tr>\n" %
stats["version-not-uptodate"])
f.write("<tr><td>Packages with no known upstream version</td><td>%s</td></tr>\n" %
stats["version-unknown"])
support/scripts/pkg-stats: add support for CVE reporting This commit extends the pkg-stats script to grab information about the CVEs affecting the Buildroot packages. To do so, it downloads the NVD database from https://nvd.nist.gov/vuln/data-feeds in JSON format, and processes the JSON file to determine which of our packages is affected by which CVE. The information is then displayed in both the HTML output and the JSON output of pkg-stats. To use this feature, you have to pass the new --nvd-path option, pointing to a writable directory where pkg-stats will store the NVD database. If the local database is less than 24 hours old, it will not re-download it. If it is more than 24 hours old, it will re-download only the files that have really been updated by upstream NVD. Packages can use the newly introduced <pkg>_IGNORE_CVES variable to tell pkg-stats that some CVEs should be ignored: it can be because a patch we have is fixing the CVE, or because the CVE doesn't apply in our case. >From an implementation point of view: - A new class CVE implement most of the required functionalities: - Downloading the yearly NVD files - Reading and extracting relevant data from these files - Matching Packages against a CVE - The statistics are extended with the total number of CVEs, and the total number of packages that have at least one CVE pending. - The HTML output is extended with these new details. There are no changes to the code generating the JSON output because the existing code is smart enough to automatically expose the new information. This development is a collective effort with Titouan Christophe <titouan.christophe@railnova.eu> and Thomas De Schampheleire <thomas.de_schampheleire@nokia.com>. Signed-off-by: Thomas Petazzoni <thomas.petazzoni@bootlin.com> Signed-off-by: Titouan Christophe <titouan.christophe@railnova.eu> Signed-off-by: Peter Korsgaard <peter@korsgaard.com>
2020-02-15 13:44:16 +01:00
f.write("<tr><td>Packages affected by CVEs</td><td>%s</td></tr>\n" %
stats["pkg-cves"])
f.write("<tr><td>Total number of CVEs affecting all packages</td><td>%s</td></tr>\n" %
stats["total-cves"])
f.write("</table>\n")
def dump_html_gen_info(f, date, commit):
# Updated on Mon Feb 19 08:12:08 CET 2018, Git commit aa77030b8f5e41f1c53eb1c1ad664b8c814ba032
f.write("<p><i>Updated on %s, git commit %s</i></p>\n" % (str(date), commit))
def dump_html(packages, stats, date, commit, output):
with open(output, 'w') as f:
f.write(html_header)
dump_html_all_pkgs(f, packages)
dump_html_stats(f, stats)
dump_html_gen_info(f, date, commit)
f.write(html_footer)
def dump_json(packages, stats, date, commit, output):
# Format packages as a dictionnary instead of a list
# Exclude local field that does not contains real date
excluded_fields = ['url_worker', 'name']
pkgs = {
pkg.name: {
k: v
for k, v in pkg.__dict__.items()
if k not in excluded_fields
} for pkg in packages
}
# Aggregate infrastructures into a single dict entry
statistics = {
k: v
for k, v in stats.items()
if not k.startswith('infra-')
}
statistics['infra'] = {k[6:]: v for k, v in stats.items() if k.startswith('infra-')}
# The actual structure to dump, add commit and date to it
final = {'packages': pkgs,
'stats': statistics,
'commit': commit,
'date': str(date)}
with open(output, 'w') as f:
json.dump(final, f, indent=2, separators=(',', ': '))
f.write('\n')
def parse_args():
parser = argparse.ArgumentParser()
output = parser.add_argument_group('output', 'Output file(s)')
output.add_argument('--html', dest='html', action='store',
help='HTML output file')
output.add_argument('--json', dest='json', action='store',
help='JSON output file')
packages = parser.add_mutually_exclusive_group()
packages.add_argument('-n', dest='npackages', type=int, action='store',
help='Number of packages')
packages.add_argument('-p', dest='packages', action='store',
help='List of packages (comma separated)')
support/scripts/pkg-stats: add support for CVE reporting This commit extends the pkg-stats script to grab information about the CVEs affecting the Buildroot packages. To do so, it downloads the NVD database from https://nvd.nist.gov/vuln/data-feeds in JSON format, and processes the JSON file to determine which of our packages is affected by which CVE. The information is then displayed in both the HTML output and the JSON output of pkg-stats. To use this feature, you have to pass the new --nvd-path option, pointing to a writable directory where pkg-stats will store the NVD database. If the local database is less than 24 hours old, it will not re-download it. If it is more than 24 hours old, it will re-download only the files that have really been updated by upstream NVD. Packages can use the newly introduced <pkg>_IGNORE_CVES variable to tell pkg-stats that some CVEs should be ignored: it can be because a patch we have is fixing the CVE, or because the CVE doesn't apply in our case. >From an implementation point of view: - A new class CVE implement most of the required functionalities: - Downloading the yearly NVD files - Reading and extracting relevant data from these files - Matching Packages against a CVE - The statistics are extended with the total number of CVEs, and the total number of packages that have at least one CVE pending. - The HTML output is extended with these new details. There are no changes to the code generating the JSON output because the existing code is smart enough to automatically expose the new information. This development is a collective effort with Titouan Christophe <titouan.christophe@railnova.eu> and Thomas De Schampheleire <thomas.de_schampheleire@nokia.com>. Signed-off-by: Thomas Petazzoni <thomas.petazzoni@bootlin.com> Signed-off-by: Titouan Christophe <titouan.christophe@railnova.eu> Signed-off-by: Peter Korsgaard <peter@korsgaard.com>
2020-02-15 13:44:16 +01:00
parser.add_argument('--nvd-path', dest='nvd_path',
help='Path to the local NVD database')
args = parser.parse_args()
if not args.html and not args.json:
parser.error('at least one of --html or --json (or both) is required')
return args
def __main__():
args = parse_args()
if args.packages:
package_list = args.packages.split(",")
else:
package_list = None
date = datetime.datetime.utcnow()
commit = subprocess.check_output(['git', 'rev-parse',
'HEAD']).splitlines()[0]
print("Build package list ...")
packages = get_pkglist(args.npackages, package_list)
print("Getting package make info ...")
package_init_make_info()
print("Getting package details ...")
for pkg in packages:
pkg.set_infra()
pkg.set_license()
pkg.set_hash_info()
pkg.set_patch_count()
pkg.set_check_package_warnings()
pkg.set_current_version()
pkg.set_url()
print("Checking URL status")
check_package_urls(packages)
support/scripts/pkg-stats: add latest upstream version information This commit adds fetching the latest upstream version of each package from release-monitoring.org. The fetching process first tries to use the package mappings of the "Buildroot" distribution [1]. This mapping mechanism allows to tell release-monitoring.org what is the name of a package in a given distribution/build-system. For example, the package xutil_util-macros in Buildroot is named xorg-util-macros on release-monitoring.org. This mapping can be seen in the section "Mappings" of https://release-monitoring.org/project/15037/. If there is no mapping, then it does a regular search, and within the search results, looks for a package whose name matches the Buildroot name. Even though fetching from release-monitoring.org is a bit slow, using multiprocessing.Pool has proven to not be reliable, with some requests ending up with an exception. So we keep a serialized approach, but with a single HTTPSConnectionPool() for all queries. Long term, we hope to be able to use a database dump of release-monitoring.org instead. From an output point of view, the latest version column: - Is green when the version in Buildroot matches the latest upstream version - Is orange when the latest upstream version is unknown because the package was not found on release-monitoring.org - Is red when the version in Buildroot doesn't match the latest upstream version. Note that we are not doing anything smart here: we are just testing if the strings are equal or not. - The cell contains the link to the project on release-monitoring.org if found. - The cell indicates if the match was done using a distro mapping, or through a regular search. [1] https://release-monitoring.org/distro/Buildroot/ Signed-off-by: Thomas Petazzoni <thomas.petazzoni@bootlin.com> Tested-by: Matthew Weber <matthew.weber@rockwellcollins.com> Signed-off-by: Thomas Petazzoni <thomas.petazzoni@bootlin.com>
2019-02-05 16:19:59 +01:00
print("Getting latest versions ...")
check_package_latest_version(packages)
support/scripts/pkg-stats: add support for CVE reporting This commit extends the pkg-stats script to grab information about the CVEs affecting the Buildroot packages. To do so, it downloads the NVD database from https://nvd.nist.gov/vuln/data-feeds in JSON format, and processes the JSON file to determine which of our packages is affected by which CVE. The information is then displayed in both the HTML output and the JSON output of pkg-stats. To use this feature, you have to pass the new --nvd-path option, pointing to a writable directory where pkg-stats will store the NVD database. If the local database is less than 24 hours old, it will not re-download it. If it is more than 24 hours old, it will re-download only the files that have really been updated by upstream NVD. Packages can use the newly introduced <pkg>_IGNORE_CVES variable to tell pkg-stats that some CVEs should be ignored: it can be because a patch we have is fixing the CVE, or because the CVE doesn't apply in our case. >From an implementation point of view: - A new class CVE implement most of the required functionalities: - Downloading the yearly NVD files - Reading and extracting relevant data from these files - Matching Packages against a CVE - The statistics are extended with the total number of CVEs, and the total number of packages that have at least one CVE pending. - The HTML output is extended with these new details. There are no changes to the code generating the JSON output because the existing code is smart enough to automatically expose the new information. This development is a collective effort with Titouan Christophe <titouan.christophe@railnova.eu> and Thomas De Schampheleire <thomas.de_schampheleire@nokia.com>. Signed-off-by: Thomas Petazzoni <thomas.petazzoni@bootlin.com> Signed-off-by: Titouan Christophe <titouan.christophe@railnova.eu> Signed-off-by: Peter Korsgaard <peter@korsgaard.com>
2020-02-15 13:44:16 +01:00
if args.nvd_path:
print("Checking packages CVEs")
check_package_cves(args.nvd_path, {p.name: p for p in packages})
print("Calculate stats")
stats = calculate_stats(packages)
if args.html:
print("Write HTML")
dump_html(packages, stats, date, commit, args.html)
if args.json:
print("Write JSON")
dump_json(packages, stats, date, commit, args.json)
__main__()