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# software-properties PPA support
#
# Copyright (c) 2004-2009 Canonical Ltd.
#
# Author: Michael Vogt <mvo@debian.org>
#
# 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
from __future__ import print_function
import apt_pkg
import json
import os
import re
import shutil
import subprocess
import tempfile
import time
from gettext import gettext as _
from threading import Thread
from softwareproperties.shortcuts import ShortcutException
try:
import urllib.request
from urllib.error import HTTPError, URLError
import urllib.parse
from http.client import HTTPException
NEED_PYCURL = False
except ImportError:
NEED_PYCURL = True
import pycurl
HTTPError = pycurl.error
SKS_KEYSERVER = 'https://keyserver.ubuntu.com/pks/lookup?op=get&options=mr&exact=on&search=0x%s'
# maintained until 2015
LAUNCHPAD_PPA_API = 'https://launchpad.net/api/devel/%s/+archive/%s'
LAUNCHPAD_USER_API = 'https://launchpad.net/api/1.0/%s'
LAUNCHPAD_USER_PPAS_API = 'https://launchpad.net/api/1.0/%s/ppas'
LAUNCHPAD_DISTRIBUTION_API = 'https://launchpad.net/api/1.0/%s'
LAUNCHPAD_DISTRIBUTION_SERIES_API = 'https://launchpad.net/api/1.0/%s/%s'
# Specify to use the system default SSL store; change to a different path
# to test with custom certificates.
LAUNCHPAD_PPA_CERT = "/etc/ssl/certs/ca-certificates.crt"
class CurlCallback:
def __init__(self):
self.contents = ''
def body_callback(self, buf):
self.contents = self.contents + buf
class PPAException(Exception):
def __init__(self, value, original_error=None):
self.value = value
self.original_error = original_error
def __str__(self):
return repr(self.value)
def encode(s):
return re.sub("[^a-zA-Z0-9_-]", "_", s)
def get_info_from_https(url, accept_json, retry_delays=None):
"""Return the content from url.
accept_json indicates that:
a.) Send header Accept: 'application/json'
b.) Instead of raw content, return json.loads(content)
retry_delays is None or an iterator (including list or tuple)
If it is None, no retries will be done.
If it is an iterator, each value is number of seconds to delay before
retrying. For example, retry_delays=(3,5) means to try up to 3
times, with a 3s delay after first failure and 5s delay after second.
Retries will not be done on 404."""
func = _get_https_content_pycurl if NEED_PYCURL else _get_https_content_py3
data = func(lp_url=url, accept_json=accept_json, retry_delays=retry_delays)
if accept_json:
return json.loads(data)
else:
return data
def get_info_from_lp(lp_url):
return get_info_from_https(lp_url, True)
def get_ppa_info_from_lp(owner_name, ppa):
if owner_name[0] != '~':
owner_name = '~' + owner_name
lp_url = LAUNCHPAD_PPA_API % (owner_name, ppa)
return get_info_from_lp(lp_url)
def series_valid_for_distro(distribution, series):
lp_url = LAUNCHPAD_DISTRIBUTION_SERIES_API % (distribution, series)
try:
get_info_from_lp(lp_url)
return True
except PPAException:
return False
def get_current_series_from_lp(distribution):
lp_url = LAUNCHPAD_DISTRIBUTION_API % distribution
return os.path.basename(get_info_from_lp(lp_url)["current_series_link"])
def _get_https_content_py3(lp_url, accept_json, retry_delays=None):
if retry_delays is None:
retry_delays = []
trynum = 0
err = None
sleep_waits = iter(retry_delays)
headers = {"Accept": "application/json"} if accept_json else {}
while True:
trynum += 1
try:
request = urllib.request.Request(str(lp_url), headers=headers)
lp_page = urllib.request.urlopen(request,
cafile=LAUNCHPAD_PPA_CERT)
return lp_page.read().decode("utf-8", "strict")
except (HTTPException, URLError) as e:
err = PPAException(
"Error reading %s (%d tries): %s" % (lp_url, trynum, e.reason),
e)
# do not retry on 404. HTTPError is a subclass of URLError.
if isinstance(e, HTTPError) and e.code == 404:
break
try:
time.sleep(next(sleep_waits))
except StopIteration:
break
raise err
def _get_https_content_pycurl(lp_url, accept_json, retry_delays=None):
# this is the fallback code for python2
if retry_delays is None:
retry_delays = []
trynum = 0
sleep_waits = iter(retry_delays)
while True:
err_msg = None
err = None
trynum += 1
try:
callback = CurlCallback()
curl = pycurl.Curl()
curl.setopt(pycurl.SSL_VERIFYPEER, 1)
curl.setopt(pycurl.SSL_VERIFYHOST, 2)
curl.setopt(pycurl.FOLLOWLOCATION, 1)
curl.setopt(pycurl.WRITEFUNCTION, callback.body_callback)
if LAUNCHPAD_PPA_CERT:
curl.setopt(pycurl.CAINFO, LAUNCHPAD_PPA_CERT)
curl.setopt(pycurl.URL, str(lp_url))
if accept_json:
curl.setopt(pycurl.HTTPHEADER, ["Accept: application/json"])
curl.perform()
response = curl.getinfo(curl.RESPONSE_CODE)
curl.close()
if response != 200:
err_msg = "response code %i" % response
except pycurl.error as e:
err_msg = str(e)
err = e
if err_msg is None:
return callback.contents
try:
time.sleep(next(sleep_waits))
except StopIteration:
break
raise PPAException(
"Error reading %s (%d tries): %s" % (lp_url, trynum, err_msg),
original_error=err)
def mangle_ppa_shortcut(shortcut):
if ":" in shortcut:
ppa_shortcut = shortcut.split(":")[1]
else:
ppa_shortcut = shortcut
if ppa_shortcut.startswith("/"):
ppa_shortcut = ppa_shortcut.lstrip("/")
user = ppa_shortcut.split("/")[0]
if (user[0] == "~"):
user = user[1:]
ppa_path_objs = ppa_shortcut.split("/")[1:]
ppa_path = []
if (len(ppa_path_objs) < 1):
ppa_path = ['ubuntu', 'ppa']
elif (len(ppa_path_objs) == 1):
ppa_path.insert(0, "ubuntu")
ppa_path.extend(ppa_path_objs)
else:
ppa_path = ppa_path_objs
ppa = "~%s/%s" % (user, "/".join(ppa_path))
return ppa
def verify_keyid_is_v4(signing_key_fingerprint):
"""Verify that the keyid is a v4 fingerprint with at least 160bit"""
return len(signing_key_fingerprint) >= 160/8
class AddPPASigningKey(object):
" thread class for adding the signing key in the background "
def __init__(self, ppa_path, keyserver=None):
self.ppa_path = ppa_path
self._homedir = tempfile.mkdtemp()
def __del__(self):
shutil.rmtree(self._homedir)
def gpg_cmd(self, args):
cmd = "gpg -q --homedir %s --no-default-keyring --no-options --import --import-options %s" % (self._homedir, args)
return subprocess.Popen(cmd.split(), stdin=subprocess.PIPE, stdout=subprocess.PIPE)
def _recv_key(self, ppa_info):
signing_key_fingerprint = ppa_info["signing_key_fingerprint"]
try:
# double check that the signing key is a v4 fingerprint (160bit)
if not verify_keyid_is_v4(signing_key_fingerprint):
print("Error: signing key fingerprint '%s' too short" %
signing_key_fingerprint)
return False
except TypeError:
print("Error: signing key fingerprint does not exist")
return False
return get_ppa_signing_key_data(ppa_info)
def _minimize_key(self, key):
p = self.gpg_cmd("import-minimal,import-export")
(minimal_key, _) = p.communicate(key.encode())
if p.returncode != 0:
return False
return minimal_key
def _get_fingerprints(self, key):
fingerprints = []
p = self.gpg_cmd("show-only --fingerprint --batch --with-colons")
(output, _) = p.communicate(key)
if p.returncode == 0:
for line in output.decode('utf-8').splitlines():
if line.startswith("fpr:"):
fingerprints.append(line.split(":")[9])
return fingerprints
def _verify_fingerprint(self, key, expected_fingerprint):
got_fingerprints = self._get_fingerprints(key)
if len(got_fingerprints) != 1:
print("Got '%s' fingerprints, expected only one" %
len(got_fingerprints))
return False
got_fingerprint = got_fingerprints[0]
if got_fingerprint != expected_fingerprint:
print("Fingerprints do not match, not importing: '%s' != '%s'" % (
expected_fingerprint, got_fingerprint))
return False
return True
def add_ppa_signing_key(self, ppa_path=None):
"""Query and add the corresponding PPA signing key.
The signing key fingerprint is obtained from the Launchpad PPA page,
via a secure channel, so it can be trusted.
"""
if ppa_path is None:
ppa_path = self.ppa_path
try:
ppa_info = get_ppa_info(mangle_ppa_shortcut(ppa_path))
except PPAException as e:
print(e.value)
return False
try:
signing_key_fingerprint = ppa_info["signing_key_fingerprint"]
except IndexError:
print("Error: can't find signing_key_fingerprint at %s" % ppa_path)
return False
# download the armored_key
armored_key = self._recv_key(ppa_info)
if not armored_key:
return False
trustedgpgd = apt_pkg.config.find_dir("Dir::Etc::trustedparts")
apt_keyring = os.path.join(trustedgpgd, encode(ppa_info["reference"][1:]))
minimal_key = self._minimize_key(armored_key)
if not minimal_key:
return False
if not self._verify_fingerprint(minimal_key, signing_key_fingerprint):
return False
with open('%s.gpg' % apt_keyring, 'wb') as f:
f.write(minimal_key)
return True
class AddPPASigningKeyThread(Thread, AddPPASigningKey):
# This class is legacy. There are no users inside the software-properties
# codebase other than a test case. It was left in case there were outside
# users. Internally, we've changed from having a class implement the
# tread to explicitly launching a thread and invoking a method in it
# see check_and_add_key_for_whitelisted_shortcut for how.
def __init__(self, ppa_path, keyserver=None):
Thread.__init__(self)
AddPPASigningKey.__init__(self, ppa_path=ppa_path, keyserver=keyserver)
def run(self):
self.add_ppa_signing_key(self.ppa_path)
def _get_suggested_ppa_message(user, ppa_name):
try:
msg = []
try:
try:
lp_user = get_info_from_lp(LAUNCHPAD_USER_API % user)
except PPAException:
return _("ERROR: '{user}' user or team does not exist.").format(user=user)
lp_ppas = get_info_from_lp(LAUNCHPAD_USER_PPAS_API % user)
entity_name = _("team") if lp_user["is_team"] else _("user")
if lp_ppas["total_size"] > 0:
# Translators: %(entity)s is either "team" or "user"
msg.append(_("The %(entity)s named '%(user)s' has no PPA named '%(ppa)s'") % {
'entity' : entity_name,
'user' : user,
'ppa' : ppa_name})
msg.append(_("Please choose from the following available PPAs:"))
for ppa in lp_ppas["entries"]:
msg.append(_(" * '%(name)s': %(displayname)s") % {
'name' : ppa["name"],
'displayname' : ppa["displayname"]})
else:
# Translators: %(entity)s is either "team" or "user"
msg.append(_("The %(entity)s named '%(user)s' does not have any PPA") % {
'entity' : entity_name, 'user' : user})
return '\n'.join(msg)
except KeyError:
return ''
except ImportError:
return _("Please check that the PPA name or format is correct.")
def get_ppa_info(shortcut):
user = shortcut.split("/")[0]
ppa = "/".join(shortcut.split("/")[1:])
try:
ret = get_ppa_info_from_lp(user, ppa)
ret["distribution"] = ret["distribution_link"].split('/')[-1]
ret["owner"] = ret["owner_link"].split('/')[-1]
return ret
except (HTTPError, Exception):
msg = []
msg.append(_("Cannot add PPA: 'ppa:%s/%s'.") % (
user, ppa))
# If the PPA does not exist, then try to find if the user/team
# exists. If it exists, list down the PPAs
raise ShortcutException('\n'.join(msg) + "\n" +
_get_suggested_ppa_message(user, ppa))
except (ValueError, PPAException):
raise ShortcutException(
_("Cannot access PPA (%s) to get PPA information, "
"please check your internet connection.") % \
(LAUNCHPAD_PPA_API % (user, ppa)))
def get_ppa_signing_key_data(info=None):
"""Return signing key data in armored ascii format for the provided ppa.
If 'info' is a dictionary, it is assumed to be the result
of 'get_ppa_info(ppa)'. If it is a string, it is assumed to
be a ppa_path.
Return value is a text string."""
if isinstance(info, dict):
link = info["self_link"]
else:
link = get_ppa_info(mangle_ppa_shortcut(info))["self_link"]
return get_info_from_https(link + "?ws.op=getSigningKeyData",
accept_json=True, retry_delays=(1, 2, 3))
class PPAShortcutHandler(object):
def __init__(self, shortcut):
super(PPAShortcutHandler, self).__init__()
try:
self.shortcut = mangle_ppa_shortcut(shortcut)
except:
raise ShortcutException(_("ERROR: '{shortcut}' is not a valid ppa format")
.format(shortcut=shortcut))
info = get_ppa_info(self.shortcut)
if "private" in info and info["private"]:
raise ShortcutException(
_("Adding private PPAs is not supported currently"))
self._info = info
def info(self):
return self._info
def expand(self, codename, distro=None):
if (distro is not None
and distro != self._info["distribution"]
and not series_valid_for_distro(self._info["distribution"], codename)):
# The requested PPA is for a foreign distribution. Guess that
# the user wants that distribution's current series.
# This only applies if the local distribution is not the same
# distribution the remote PPA is associated with AND the local
# codename is not equal to the PPA's series.
# e.g. local:Foobar/xenial and ppa:Ubuntu/xenial will use 'xenial'
# local:Foobar/fluffy and ppa:Ubuntu/xenial will use '$latest'
codename = get_current_series_from_lp(self._info["distribution"])
debline = "deb http://ppa.launchpad.net/%s/%s/%s %s main" % (
self._info["owner"][1:], self._info["name"],
self._info["distribution"], codename)
sourceslistd = apt_pkg.config.find_dir("Dir::Etc::sourceparts")
filename = os.path.join(sourceslistd, "%s-%s-%s-%s.list" % (
encode(self._info["owner"][1:]), encode(self._info["distribution"]),
encode(self._info["name"]), codename))
return (debline, filename)
def should_confirm(self):
return True
def add_key(self, keyserver=None):
apsk = AddPPASigningKey(self._info["reference"], keyserver=keyserver)
return apsk.add_ppa_signing_key()
def shortcut_handler(shortcut):
if not shortcut.startswith("ppa:"):
return None
return PPAShortcutHandler(shortcut)
if __name__ == "__main__":
import sys
ppa = mangle_ppa_shortcut(sys.argv[1])
print(get_ppa_info(ppa))
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