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ansible/lib/ansible/module_utils/urls.py

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# This code is part of Ansible, but is an independent component.
# This particular file snippet, and this file snippet only, is BSD licensed.
# Modules you write using this snippet, which is embedded dynamically by Ansible
# still belong to the author of the module, and may assign their own license
# to the complete work.
#
# Copyright (c), Michael DeHaan <michael.dehaan@gmail.com>, 2012-2013
# Copyright (c), Toshio Kuratomi <tkuratomi@ansible.com>, 2015
#
# Simplified BSD License (see licenses/simplified_bsd.txt or https://opensource.org/licenses/BSD-2-Clause)
#
# The match_hostname function and supporting code is under the terms and
# conditions of the Python Software Foundation License. They were taken from
# the Python3 standard library and adapted for use in Python2. See comments in the
# source for which code precisely is under this License.
#
# PSF License (see licenses/PSF-license.txt or https://opensource.org/licenses/Python-2.0)
'''
The **urls** utils module offers a replacement for the urllib2 python library.
urllib2 is the python stdlib way to retrieve files from the Internet but it
lacks some security features (around verifying SSL certificates) that users
should care about in most situations. Using the functions in this module corrects
deficiencies in the urllib2 module wherever possible.
There are also third-party libraries (for instance, requests) which can be used
to replace urllib2 with a more secure library. However, all third party libraries
require that the library be installed on the managed machine. That is an extra step
for users making use of a module. If possible, avoid third party libraries by using
this code instead.
'''
from __future__ import (absolute_import, division, print_function)
__metaclass__ = type
import atexit
import base64
import email.mime.multipart
import email.mime.nonmultipart
import email.mime.application
import email.parser
import email.utils
import functools
import mimetypes
import netrc
import os
import platform
import re
import socket
import sys
import tempfile
import traceback
from contextlib import contextmanager
try:
import email.policy
except ImportError:
# Py2
import email.generator
try:
import httplib
except ImportError:
# Python 3
import http.client as httplib
import ansible.module_utils.six.moves.http_cookiejar as cookiejar
import ansible.module_utils.six.moves.urllib.request as urllib_request
import ansible.module_utils.six.moves.urllib.error as urllib_error
from ansible.module_utils.common.collections import Mapping
from ansible.module_utils.six import PY3, string_types
from ansible.module_utils.six.moves import cStringIO
from ansible.module_utils.basic import get_distribution
from ansible.module_utils._text import to_bytes, to_native, to_text
try:
# python3
import urllib.request as urllib_request
from urllib.request import AbstractHTTPHandler
except ImportError:
# python2
import urllib2 as urllib_request
from urllib2 import AbstractHTTPHandler
urllib_request.HTTPRedirectHandler.http_error_308 = urllib_request.HTTPRedirectHandler.http_error_307
try:
from ansible.module_utils.six.moves.urllib.parse import urlparse, urlunparse
HAS_URLPARSE = True
except Exception:
HAS_URLPARSE = False
try:
import ssl
HAS_SSL = True
except Exception:
HAS_SSL = False
try:
# SNI Handling needs python2.7.9's SSLContext
from ssl import create_default_context, SSLContext
HAS_SSLCONTEXT = True
except ImportError:
HAS_SSLCONTEXT = False
# SNI Handling for python < 2.7.9 with urllib3 support
try:
# urllib3>=1.15
HAS_URLLIB3_SSL_WRAP_SOCKET = False
try:
from urllib3.contrib.pyopenssl import PyOpenSSLContext
except ImportError:
from requests.packages.urllib3.contrib.pyopenssl import PyOpenSSLContext
HAS_URLLIB3_PYOPENSSLCONTEXT = True
except ImportError:
# urllib3<1.15,>=1.6
HAS_URLLIB3_PYOPENSSLCONTEXT = False
try:
try:
from urllib3.contrib.pyopenssl import ssl_wrap_socket
except ImportError:
from requests.packages.urllib3.contrib.pyopenssl import ssl_wrap_socket
HAS_URLLIB3_SSL_WRAP_SOCKET = True
except ImportError:
pass
# Select a protocol that includes all secure tls protocols
# Exclude insecure ssl protocols if possible
if HAS_SSL:
# If we can't find extra tls methods, ssl.PROTOCOL_TLSv1 is sufficient
PROTOCOL = ssl.PROTOCOL_TLSv1
if not HAS_SSLCONTEXT and HAS_SSL:
try:
import ctypes
import ctypes.util
except ImportError:
# python 2.4 (likely rhel5 which doesn't have tls1.1 support in its openssl)
pass
else:
libssl_name = ctypes.util.find_library('ssl')
libssl = ctypes.CDLL(libssl_name)
for method in ('TLSv1_1_method', 'TLSv1_2_method'):
try:
libssl[method]
# Found something - we'll let openssl autonegotiate and hope
# the server has disabled sslv2 and 3. best we can do.
PROTOCOL = ssl.PROTOCOL_SSLv23
break
except AttributeError:
pass
del libssl
# The following makes it easier for us to script updates of the bundled backports.ssl_match_hostname
# The bundled backports.ssl_match_hostname should really be moved into its own file for processing
_BUNDLED_METADATA = {"pypi_name": "backports.ssl_match_hostname", "version": "3.7.0.1"}
LOADED_VERIFY_LOCATIONS = set()
HAS_MATCH_HOSTNAME = True
try:
from ssl import match_hostname, CertificateError
except ImportError:
try:
from backports.ssl_match_hostname import match_hostname, CertificateError
except ImportError:
HAS_MATCH_HOSTNAME = False
try:
import urllib_gssapi
HAS_GSSAPI = True
except ImportError:
HAS_GSSAPI = False
if not HAS_MATCH_HOSTNAME:
# The following block of code is under the terms and conditions of the
# Python Software Foundation License
"""The match_hostname() function from Python 3.4, essential when using SSL."""
try:
# Divergence: Python-3.7+'s _ssl has this exception type but older Pythons do not
from _ssl import SSLCertVerificationError
CertificateError = SSLCertVerificationError
except ImportError:
class CertificateError(ValueError):
pass
def _dnsname_match(dn, hostname):
"""Matching according to RFC 6125, section 6.4.3
- Hostnames are compared lower case.
- For IDNA, both dn and hostname must be encoded as IDN A-label (ACE).
- Partial wildcards like 'www*.example.org', multiple wildcards, sole
wildcard or wildcards in labels other then the left-most label are not
supported and a CertificateError is raised.
- A wildcard must match at least one character.
"""
if not dn:
return False
wildcards = dn.count('*')
# speed up common case w/o wildcards
if not wildcards:
return dn.lower() == hostname.lower()
if wildcards > 1:
# Divergence .format() to percent formatting for Python < 2.6
raise CertificateError(
"too many wildcards in certificate DNS name: %s" % repr(dn))
dn_leftmost, sep, dn_remainder = dn.partition('.')
if '*' in dn_remainder:
# Only match wildcard in leftmost segment.
# Divergence .format() to percent formatting for Python < 2.6
raise CertificateError(
"wildcard can only be present in the leftmost label: "
"%s." % repr(dn))
if not sep:
# no right side
# Divergence .format() to percent formatting for Python < 2.6
raise CertificateError(
"sole wildcard without additional labels are not support: "
"%s." % repr(dn))
if dn_leftmost != '*':
# no partial wildcard matching
# Divergence .format() to percent formatting for Python < 2.6
raise CertificateError(
"partial wildcards in leftmost label are not supported: "
"%s." % repr(dn))
hostname_leftmost, sep, hostname_remainder = hostname.partition('.')
if not hostname_leftmost or not sep:
# wildcard must match at least one char
return False
return dn_remainder.lower() == hostname_remainder.lower()
def _inet_paton(ipname):
"""Try to convert an IP address to packed binary form
Supports IPv4 addresses on all platforms and IPv6 on platforms with IPv6
support.
"""
# inet_aton() also accepts strings like '1'
# Divergence: We make sure we have native string type for all python versions
try:
b_ipname = to_bytes(ipname, errors='strict')
except UnicodeError:
raise ValueError("%s must be an all-ascii string." % repr(ipname))
# Set ipname in native string format
if sys.version_info < (3,):
n_ipname = b_ipname
else:
n_ipname = ipname
if n_ipname.count('.') == 3:
try:
return socket.inet_aton(n_ipname)
# Divergence: OSError on late python3. socket.error earlier.
# Null bytes generate ValueError on python3(we want to raise
# ValueError anyway), TypeError # earlier
except (OSError, socket.error, TypeError):
pass
try:
return socket.inet_pton(socket.AF_INET6, n_ipname)
# Divergence: OSError on late python3. socket.error earlier.
# Null bytes generate ValueError on python3(we want to raise
# ValueError anyway), TypeError # earlier
except (OSError, socket.error, TypeError):
# Divergence .format() to percent formatting for Python < 2.6
raise ValueError("%s is neither an IPv4 nor an IP6 "
"address." % repr(ipname))
except AttributeError:
# AF_INET6 not available
pass
# Divergence .format() to percent formatting for Python < 2.6
raise ValueError("%s is not an IPv4 address." % repr(ipname))
def _ipaddress_match(ipname, host_ip):
"""Exact matching of IP addresses.
RFC 6125 explicitly doesn't define an algorithm for this
(section 1.7.2 - "Out of Scope").
"""
# OpenSSL may add a trailing newline to a subjectAltName's IP address
ip = _inet_paton(ipname.rstrip())
return ip == host_ip
def match_hostname(cert, hostname):
"""Verify that *cert* (in decoded format as returned by
SSLSocket.getpeercert()) matches the *hostname*. RFC 2818 and RFC 6125
rules are followed.
The function matches IP addresses rather than dNSNames if hostname is a
valid ipaddress string. IPv4 addresses are supported on all platforms.
IPv6 addresses are supported on platforms with IPv6 support (AF_INET6
and inet_pton).
CertificateError is raised on failure. On success, the function
returns nothing.
"""
if not cert:
raise ValueError("empty or no certificate, match_hostname needs a "
"SSL socket or SSL context with either "
"CERT_OPTIONAL or CERT_REQUIRED")
try:
# Divergence: Deal with hostname as bytes
host_ip = _inet_paton(to_text(hostname, errors='strict'))
except UnicodeError:
# Divergence: Deal with hostname as byte strings.
# IP addresses should be all ascii, so we consider it not
# an IP address if this fails
host_ip = None
except ValueError:
# Not an IP address (common case)
host_ip = None
dnsnames = []
san = cert.get('subjectAltName', ())
for key, value in san:
if key == 'DNS':
if host_ip is None and _dnsname_match(value, hostname):
return
dnsnames.append(value)
elif key == 'IP Address':
if host_ip is not None and _ipaddress_match(value, host_ip):
return
dnsnames.append(value)
if not dnsnames:
# The subject is only checked when there is no dNSName entry
# in subjectAltName
for sub in cert.get('subject', ()):
for key, value in sub:
# XXX according to RFC 2818, the most specific Common Name
# must be used.
if key == 'commonName':
if _dnsname_match(value, hostname):
return
dnsnames.append(value)
if len(dnsnames) > 1:
raise CertificateError("hostname %r doesn't match either of %s" % (hostname, ', '.join(map(repr, dnsnames))))
elif len(dnsnames) == 1:
raise CertificateError("hostname %r doesn't match %r" % (hostname, dnsnames[0]))
else:
raise CertificateError("no appropriate commonName or subjectAltName fields were found")
# End of Python Software Foundation Licensed code
HAS_MATCH_HOSTNAME = True
# This is a dummy cacert provided for macOS since you need at least 1
# ca cert, regardless of validity, for Python on macOS to use the
# keychain functionality in OpenSSL for validating SSL certificates.
# See: http://mercurial.selenic.com/wiki/CACertificates#Mac_OS_X_10.6_and_higher
b_DUMMY_CA_CERT = b"""-----BEGIN CERTIFICATE-----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-----END CERTIFICATE-----
"""
#
# Exceptions
#
class ConnectionError(Exception):
"""Failed to connect to the server"""
pass
class ProxyError(ConnectionError):
"""Failure to connect because of a proxy"""
pass
class SSLValidationError(ConnectionError):
"""Failure to connect due to SSL validation failing"""
pass
class NoSSLError(SSLValidationError):
"""Needed to connect to an HTTPS url but no ssl library available to verify the certificate"""
pass
# Some environments (Google Compute Engine's CoreOS deploys) do not compile
# against openssl and thus do not have any HTTPS support.
CustomHTTPSConnection = None
CustomHTTPSHandler = None
HTTPSClientAuthHandler = None
UnixHTTPSConnection = None
if hasattr(httplib, 'HTTPSConnection') and hasattr(urllib_request, 'HTTPSHandler'):
class CustomHTTPSConnection(httplib.HTTPSConnection):
def __init__(self, *args, **kwargs):
httplib.HTTPSConnection.__init__(self, *args, **kwargs)
self.context = None
if HAS_SSLCONTEXT:
self.context = self._context
elif HAS_URLLIB3_PYOPENSSLCONTEXT:
self.context = self._context = PyOpenSSLContext(PROTOCOL)
if self.context and self.cert_file:
self.context.load_cert_chain(self.cert_file, self.key_file)
def connect(self):
"Connect to a host on a given (SSL) port."
if hasattr(self, 'source_address'):
sock = socket.create_connection((self.host, self.port), self.timeout, self.source_address)
else:
sock = socket.create_connection((self.host, self.port), self.timeout)
server_hostname = self.host
# Note: self._tunnel_host is not available on py < 2.6 but this code
# isn't used on py < 2.6 (lack of create_connection)
if self._tunnel_host:
self.sock = sock
self._tunnel()
server_hostname = self._tunnel_host
if HAS_SSLCONTEXT or HAS_URLLIB3_PYOPENSSLCONTEXT:
self.sock = self.context.wrap_socket(sock, server_hostname=server_hostname)
elif HAS_URLLIB3_SSL_WRAP_SOCKET:
self.sock = ssl_wrap_socket(sock, keyfile=self.key_file, cert_reqs=ssl.CERT_NONE, certfile=self.cert_file, ssl_version=PROTOCOL,
server_hostname=server_hostname)
else:
self.sock = ssl.wrap_socket(sock, keyfile=self.key_file, certfile=self.cert_file, ssl_version=PROTOCOL)
class CustomHTTPSHandler(urllib_request.HTTPSHandler):
def https_open(self, req):
kwargs = {}
if HAS_SSLCONTEXT:
kwargs['context'] = self._context
return self.do_open(
functools.partial(
CustomHTTPSConnection,
**kwargs
),
req
)
https_request = AbstractHTTPHandler.do_request_
class HTTPSClientAuthHandler(urllib_request.HTTPSHandler):
'''Handles client authentication via cert/key
This is a fairly lightweight extension on HTTPSHandler, and can be used
in place of HTTPSHandler
'''
def __init__(self, client_cert=None, client_key=None, unix_socket=None, **kwargs):
urllib_request.HTTPSHandler.__init__(self, **kwargs)
self.client_cert = client_cert
self.client_key = client_key
self._unix_socket = unix_socket
def https_open(self, req):
return self.do_open(self._build_https_connection, req)
def _build_https_connection(self, host, **kwargs):
kwargs.update({
'cert_file': self.client_cert,
'key_file': self.client_key,
})
try:
kwargs['context'] = self._context
except AttributeError:
pass
if self._unix_socket:
return UnixHTTPSConnection(self._unix_socket)(host, **kwargs)
return httplib.HTTPSConnection(host, **kwargs)
@contextmanager
def unix_socket_patch_httpconnection_connect():
'''Monkey patch ``httplib.HTTPConnection.connect`` to be ``UnixHTTPConnection.connect``
so that when calling ``super(UnixHTTPSConnection, self).connect()`` we get the
correct behavior of creating self.sock for the unix socket
'''
_connect = httplib.HTTPConnection.connect
httplib.HTTPConnection.connect = UnixHTTPConnection.connect
yield
httplib.HTTPConnection.connect = _connect
class UnixHTTPSConnection(httplib.HTTPSConnection):
def __init__(self, unix_socket):
self._unix_socket = unix_socket
def connect(self):
# This method exists simply to ensure we monkeypatch
# httplib.HTTPConnection.connect to call UnixHTTPConnection.connect
with unix_socket_patch_httpconnection_connect():
# Disable pylint check for the super() call. It complains about UnixHTTPSConnection
# being a NoneType because of the initial definition above, but it won't actually
# be a NoneType when this code runs
# pylint: disable=bad-super-call
super(UnixHTTPSConnection, self).connect()
def __call__(self, *args, **kwargs):
httplib.HTTPSConnection.__init__(self, *args, **kwargs)
return self
class UnixHTTPConnection(httplib.HTTPConnection):
'''Handles http requests to a unix socket file'''
def __init__(self, unix_socket):
self._unix_socket = unix_socket
def connect(self):
self.sock = socket.socket(socket.AF_UNIX, socket.SOCK_STREAM)
try:
self.sock.connect(self._unix_socket)
except OSError as e:
raise OSError('Invalid Socket File (%s): %s' % (self._unix_socket, e))
if self.timeout is not socket._GLOBAL_DEFAULT_TIMEOUT:
self.sock.settimeout(self.timeout)
def __call__(self, *args, **kwargs):
httplib.HTTPConnection.__init__(self, *args, **kwargs)
return self
class UnixHTTPHandler(urllib_request.HTTPHandler):
'''Handler for Unix urls'''
def __init__(self, unix_socket, **kwargs):
urllib_request.HTTPHandler.__init__(self, **kwargs)
self._unix_socket = unix_socket
def http_open(self, req):
return self.do_open(UnixHTTPConnection(self._unix_socket), req)
class ParseResultDottedDict(dict):
'''
A dict that acts similarly to the ParseResult named tuple from urllib
'''
def __init__(self, *args, **kwargs):
super(ParseResultDottedDict, self).__init__(*args, **kwargs)
self.__dict__ = self
def as_list(self):
'''
Generate a list from this dict, that looks like the ParseResult named tuple
'''
return [self.get(k, None) for k in ('scheme', 'netloc', 'path', 'params', 'query', 'fragment')]
def generic_urlparse(parts):
'''
Returns a dictionary of url parts as parsed by urlparse,
but accounts for the fact that older versions of that
library do not support named attributes (ie. .netloc)
'''
generic_parts = ParseResultDottedDict()
if hasattr(parts, 'netloc'):
# urlparse is newer, just read the fields straight
# from the parts object
generic_parts['scheme'] = parts.scheme
generic_parts['netloc'] = parts.netloc
generic_parts['path'] = parts.path
generic_parts['params'] = parts.params
generic_parts['query'] = parts.query
generic_parts['fragment'] = parts.fragment
generic_parts['username'] = parts.username
generic_parts['password'] = parts.password
hostname = parts.hostname
if hostname and hostname[0] == '[' and '[' in parts.netloc and ']' in parts.netloc:
# Py2.6 doesn't parse IPv6 addresses correctly
hostname = parts.netloc.split(']')[0][1:].lower()
generic_parts['hostname'] = hostname
try:
port = parts.port
except ValueError:
# Py2.6 doesn't parse IPv6 addresses correctly
netloc = parts.netloc.split('@')[-1].split(']')[-1]
if ':' in netloc:
port = netloc.split(':')[1]
if port:
port = int(port)
else:
port = None
generic_parts['port'] = port
else:
# we have to use indexes, and then parse out
# the other parts not supported by indexing
generic_parts['scheme'] = parts[0]
generic_parts['netloc'] = parts[1]
generic_parts['path'] = parts[2]
generic_parts['params'] = parts[3]
generic_parts['query'] = parts[4]
generic_parts['fragment'] = parts[5]
# get the username, password, etc.
try:
netloc_re = re.compile(r'^((?:\w)+(?::(?:\w)+)?@)?([A-Za-z0-9.-]+)(:\d+)?$')
match = netloc_re.match(parts[1])
auth = match.group(1)
hostname = match.group(2)
port = match.group(3)
if port:
# the capture group for the port will include the ':',
# so remove it and convert the port to an integer
port = int(port[1:])
if auth:
# the capture group above includes the @, so remove it
# and then split it up based on the first ':' found
auth = auth[:-1]
username, password = auth.split(':', 1)
else:
username = password = None
generic_parts['username'] = username
generic_parts['password'] = password
generic_parts['hostname'] = hostname
generic_parts['port'] = port
except Exception:
generic_parts['username'] = None
generic_parts['password'] = None
generic_parts['hostname'] = parts[1]
generic_parts['port'] = None
return generic_parts
class RequestWithMethod(urllib_request.Request):
'''
Workaround for using DELETE/PUT/etc with urllib2
Originally contained in library/net_infrastructure/dnsmadeeasy
'''
def __init__(self, url, method, data=None, headers=None, origin_req_host=None, unverifiable=True):
if headers is None:
headers = {}
self._method = method.upper()
urllib_request.Request.__init__(self, url, data, headers, origin_req_host, unverifiable)
def get_method(self):
if self._method:
return self._method
else:
return urllib_request.Request.get_method(self)
def RedirectHandlerFactory(follow_redirects=None, validate_certs=True, ca_path=None):
"""This is a class factory that closes over the value of
``follow_redirects`` so that the RedirectHandler class has access to
that value without having to use globals, and potentially cause problems
where ``open_url`` or ``fetch_url`` are used multiple times in a module.
"""
class RedirectHandler(urllib_request.HTTPRedirectHandler):
"""This is an implementation of a RedirectHandler to match the
functionality provided by httplib2. It will utilize the value of
``follow_redirects`` that is passed into ``RedirectHandlerFactory``
to determine how redirects should be handled in urllib2.
"""
def redirect_request(self, req, fp, code, msg, hdrs, newurl):
if not HAS_SSLCONTEXT:
handler = maybe_add_ssl_handler(newurl, validate_certs, ca_path=ca_path)
if handler:
urllib_request._opener.add_handler(handler)
# Preserve urllib2 compatibility
if follow_redirects == 'urllib2':
return urllib_request.HTTPRedirectHandler.redirect_request(self, req, fp, code, msg, hdrs, newurl)
# Handle disabled redirects
elif follow_redirects in ['no', 'none', False]:
raise urllib_error.HTTPError(newurl, code, msg, hdrs, fp)
method = req.get_method()
# Handle non-redirect HTTP status or invalid follow_redirects
if follow_redirects in ['all', 'yes', True]:
if code < 300 or code >= 400:
raise urllib_error.HTTPError(req.get_full_url(), code, msg, hdrs, fp)
elif follow_redirects == 'safe':
if code < 300 or code >= 400 or method not in ('GET', 'HEAD'):
raise urllib_error.HTTPError(req.get_full_url(), code, msg, hdrs, fp)
else:
raise urllib_error.HTTPError(req.get_full_url(), code, msg, hdrs, fp)
try:
# Python 2-3.3
data = req.get_data()
origin_req_host = req.get_origin_req_host()
except AttributeError:
# Python 3.4+
data = req.data
origin_req_host = req.origin_req_host
# Be conciliant with URIs containing a space
newurl = newurl.replace(' ', '%20')
# Suport redirect with payload and original headers
if code in (307, 308):
# Preserve payload and headers
headers = req.headers
else:
# Do not preserve payload and filter headers
data = None
headers = dict((k, v) for k, v in req.headers.items()
if k.lower() not in ("content-length", "content-type", "transfer-encoding"))
# http://tools.ietf.org/html/rfc7231#section-6.4.4
if code == 303 and method != 'HEAD':
method = 'GET'
# Do what the browsers do, despite standards...
# First, turn 302s into GETs.
if code == 302 and method != 'HEAD':
method = 'GET'
# Second, if a POST is responded to with a 301, turn it into a GET.
if code == 301 and method == 'POST':
method = 'GET'
return RequestWithMethod(newurl,
method=method,
headers=headers,
data=data,
origin_req_host=origin_req_host,
unverifiable=True,
)
return RedirectHandler
def build_ssl_validation_error(hostname, port, paths, exc=None):
'''Inteligently build out the SSLValidationError based on what support
you have installed
'''
msg = [
('Failed to validate the SSL certificate for %s:%s.'
' Make sure your managed systems have a valid CA'
' certificate installed.')
]
if not HAS_SSLCONTEXT:
msg.append('If the website serving the url uses SNI you need'
' python >= 2.7.9 on your managed machine')
msg.append(' (the python executable used (%s) is version: %s)' %
(sys.executable, ''.join(sys.version.splitlines())))
if not HAS_URLLIB3_PYOPENSSLCONTEXT and not HAS_URLLIB3_SSL_WRAP_SOCKET:
msg.append('or you can install the `urllib3`, `pyOpenSSL`,'
' `ndg-httpsclient`, and `pyasn1` python modules')
msg.append('to perform SNI verification in python >= 2.6.')
msg.append('You can use validate_certs=False if you do'
' not need to confirm the servers identity but this is'
' unsafe and not recommended.'
' Paths checked for this platform: %s.')
if exc:
msg.append('The exception msg was: %s.' % to_native(exc))
raise SSLValidationError(' '.join(msg) % (hostname, port, ", ".join(paths)))
def atexit_remove_file(filename):
if os.path.exists(filename):
try:
os.unlink(filename)
except Exception:
# just ignore if we cannot delete, things should be ok
pass
class SSLValidationHandler(urllib_request.BaseHandler):
'''
A custom handler class for SSL validation.
Based on:
http://stackoverflow.com/questions/1087227/validate-ssl-certificates-with-python
http://techknack.net/python-urllib2-handlers/
'''
CONNECT_COMMAND = "CONNECT %s:%s HTTP/1.0\r\n"
def __init__(self, hostname, port, ca_path=None):
self.hostname = hostname
self.port = port
self.ca_path = ca_path
def get_ca_certs(self):
# tries to find a valid CA cert in one of the
# standard locations for the current distribution
ca_certs = []
cadata = bytearray()
paths_checked = []
if self.ca_path:
paths_checked = [self.ca_path]
with open(to_bytes(self.ca_path, errors='surrogate_or_strict'), 'rb') as f:
if HAS_SSLCONTEXT:
cadata.extend(
ssl.PEM_cert_to_DER_cert(
to_native(f.read(), errors='surrogate_or_strict')
)
)
else:
ca_certs.append(f.read())
return ca_certs, cadata, paths_checked
if not HAS_SSLCONTEXT:
paths_checked.append('/etc/ssl/certs')
system = to_text(platform.system(), errors='surrogate_or_strict')
# build a list of paths to check for .crt/.pem files
# based on the platform type
if system == u'Linux':
paths_checked.append('/etc/pki/ca-trust/extracted/pem')
paths_checked.append('/etc/pki/tls/certs')
paths_checked.append('/usr/share/ca-certificates/cacert.org')
elif system == u'FreeBSD':
paths_checked.append('/usr/local/share/certs')
elif system == u'OpenBSD':
paths_checked.append('/etc/ssl')
elif system == u'NetBSD':
ca_certs.append('/etc/openssl/certs')
elif system == u'SunOS':
paths_checked.append('/opt/local/etc/openssl/certs')
# fall back to a user-deployed cert in a standard
# location if the OS platform one is not available
paths_checked.append('/etc/ansible')
tmp_path = None
if not HAS_SSLCONTEXT:
tmp_fd, tmp_path = tempfile.mkstemp()
atexit.register(atexit_remove_file, tmp_path)
# Write the dummy ca cert if we are running on macOS
if system == u'Darwin':
if HAS_SSLCONTEXT:
cadata.extend(
ssl.PEM_cert_to_DER_cert(
to_native(b_DUMMY_CA_CERT, errors='surrogate_or_strict')
)
)
else:
os.write(tmp_fd, b_DUMMY_CA_CERT)
# Default Homebrew path for OpenSSL certs
paths_checked.append('/usr/local/etc/openssl')
# for all of the paths, find any .crt or .pem files
# and compile them into single temp file for use
# in the ssl check to speed up the test
for path in paths_checked:
if os.path.exists(path) and os.path.isdir(path):
dir_contents = os.listdir(path)
for f in dir_contents:
full_path = os.path.join(path, f)
if os.path.isfile(full_path) and os.path.splitext(f)[1] in ('.crt', '.pem'):
try:
if full_path not in LOADED_VERIFY_LOCATIONS:
with open(full_path, 'rb') as cert_file:
b_cert = cert_file.read()
if HAS_SSLCONTEXT:
try:
cadata.extend(
ssl.PEM_cert_to_DER_cert(
to_native(b_cert, errors='surrogate_or_strict')
)
)
except Exception:
continue
else:
os.write(tmp_fd, b_cert)
os.write(tmp_fd, b'\n')
except (OSError, IOError):
pass
if HAS_SSLCONTEXT:
default_verify_paths = ssl.get_default_verify_paths()
paths_checked[:0] = [default_verify_paths.capath]
return (tmp_path, cadata, paths_checked)
def validate_proxy_response(self, response, valid_codes=None):
'''
make sure we get back a valid code from the proxy
'''
valid_codes = [200] if valid_codes is None else valid_codes
try:
(http_version, resp_code, msg) = re.match(br'(HTTP/\d\.\d) (\d\d\d) (.*)', response).groups()
if int(resp_code) not in valid_codes:
raise Exception
except Exception:
raise ProxyError('Connection to proxy failed')
def detect_no_proxy(self, url):
'''
Detect if the 'no_proxy' environment variable is set and honor those locations.
'''
env_no_proxy = os.environ.get('no_proxy')
if env_no_proxy:
env_no_proxy = env_no_proxy.split(',')
netloc = urlparse(url).netloc
for host in env_no_proxy:
if netloc.endswith(host) or netloc.split(':')[0].endswith(host):
# Our requested URL matches something in no_proxy, so don't
# use the proxy for this
return False
return True
def make_context(self, cafile, cadata):
cafile = self.ca_path or cafile
if self.ca_path:
cadata = None
else:
cadata = cadata or None
if HAS_SSLCONTEXT:
context = create_default_context(cafile=cafile)
elif HAS_URLLIB3_PYOPENSSLCONTEXT:
context = PyOpenSSLContext(PROTOCOL)
else:
raise NotImplementedError('Host libraries are too old to support creating an sslcontext')
if cafile or cadata:
context.load_verify_locations(cafile=cafile, cadata=cadata)
return context
def http_request(self, req):
tmp_ca_cert_path, cadata, paths_checked = self.get_ca_certs()
# Detect if 'no_proxy' environment variable is set and if our URL is included
use_proxy = self.detect_no_proxy(req.get_full_url())
https_proxy = os.environ.get('https_proxy')
context = None
try:
context = self.make_context(tmp_ca_cert_path, cadata)
except NotImplementedError:
# We'll make do with no context below
pass
try:
if use_proxy and https_proxy:
proxy_parts = generic_urlparse(urlparse(https_proxy))
port = proxy_parts.get('port') or 443
proxy_hostname = proxy_parts.get('hostname', None)
if proxy_hostname is None or proxy_parts.get('scheme') == '':
raise ProxyError("Failed to parse https_proxy environment variable."
" Please make sure you export https proxy as 'https_proxy=<SCHEME>://<IP_ADDRESS>:<PORT>'")
s = socket.create_connection((proxy_hostname, port))
if proxy_parts.get('scheme') == 'http':
s.sendall(to_bytes(self.CONNECT_COMMAND % (self.hostname, self.port), errors='surrogate_or_strict'))
if proxy_parts.get('username'):
credentials = "%s:%s" % (proxy_parts.get('username', ''), proxy_parts.get('password', ''))
s.sendall(b'Proxy-Authorization: Basic %s\r\n' % base64.b64encode(to_bytes(credentials, errors='surrogate_or_strict')).strip())
s.sendall(b'\r\n')
connect_result = b""
while connect_result.find(b"\r\n\r\n") <= 0:
connect_result += s.recv(4096)
# 128 kilobytes of headers should be enough for everyone.
if len(connect_result) > 131072:
raise ProxyError('Proxy sent too verbose headers. Only 128KiB allowed.')
self.validate_proxy_response(connect_result)
if context:
ssl_s = context.wrap_socket(s, server_hostname=self.hostname)
elif HAS_URLLIB3_SSL_WRAP_SOCKET:
ssl_s = ssl_wrap_socket(s, ca_certs=tmp_ca_cert_path, cert_reqs=ssl.CERT_REQUIRED, ssl_version=PROTOCOL, server_hostname=self.hostname)
else:
ssl_s = ssl.wrap_socket(s, ca_certs=tmp_ca_cert_path, cert_reqs=ssl.CERT_REQUIRED, ssl_version=PROTOCOL)
match_hostname(ssl_s.getpeercert(), self.hostname)
else:
raise ProxyError('Unsupported proxy scheme: %s. Currently ansible only supports HTTP proxies.' % proxy_parts.get('scheme'))
else:
s = socket.create_connection((self.hostname, self.port))
if context:
ssl_s = context.wrap_socket(s, server_hostname=self.hostname)
elif HAS_URLLIB3_SSL_WRAP_SOCKET:
ssl_s = ssl_wrap_socket(s, ca_certs=tmp_ca_cert_path, cert_reqs=ssl.CERT_REQUIRED, ssl_version=PROTOCOL, server_hostname=self.hostname)
else:
ssl_s = ssl.wrap_socket(s, ca_certs=tmp_ca_cert_path, cert_reqs=ssl.CERT_REQUIRED, ssl_version=PROTOCOL)
match_hostname(ssl_s.getpeercert(), self.hostname)
# close the ssl connection
# ssl_s.unwrap()
s.close()
except (ssl.SSLError, CertificateError) as e:
build_ssl_validation_error(self.hostname, self.port, paths_checked, e)
except socket.error as e:
raise ConnectionError('Failed to connect to %s at port %s: %s' % (self.hostname, self.port, to_native(e)))
return req
https_request = http_request
def maybe_add_ssl_handler(url, validate_certs, ca_path=None):
parsed = generic_urlparse(urlparse(url))
if parsed.scheme == 'https' and validate_certs:
if not HAS_SSL:
raise NoSSLError('SSL validation is not available in your version of python. You can use validate_certs=False,'
' however this is unsafe and not recommended')
# create the SSL validation handler and
# add it to the list of handlers
return SSLValidationHandler(parsed.hostname, parsed.port or 443, ca_path=ca_path)
def rfc2822_date_string(timetuple, zone='-0000'):
"""Accepts a timetuple and optional zone which defaults to ``-0000``
and returns a date string as specified by RFC 2822, e.g.:
Fri, 09 Nov 2001 01:08:47 -0000
Copied from email.utils.formatdate and modified for separate use
"""
return '%s, %02d %s %04d %02d:%02d:%02d %s' % (
['Mon', 'Tue', 'Wed', 'Thu', 'Fri', 'Sat', 'Sun'][timetuple[6]],
timetuple[2],
['Jan', 'Feb', 'Mar', 'Apr', 'May', 'Jun',
'Jul', 'Aug', 'Sep', 'Oct', 'Nov', 'Dec'][timetuple[1] - 1],
timetuple[0], timetuple[3], timetuple[4], timetuple[5],
zone)
class Request:
def __init__(self, headers=None, use_proxy=True, force=False, timeout=10, validate_certs=True,
url_username=None, url_password=None, http_agent=None, force_basic_auth=False,
follow_redirects='urllib2', client_cert=None, client_key=None, cookies=None, unix_socket=None,
ca_path=None):
"""This class works somewhat similarly to the ``Session`` class of from requests
by defining a cookiejar that an be used across requests as well as cascaded defaults that
can apply to repeated requests
For documentation of params, see ``Request.open``
>>> from ansible.module_utils.urls import Request
>>> r = Request()
>>> r.open('GET', 'http://httpbin.org/cookies/set?k1=v1').read()
'{\n "cookies": {\n "k1": "v1"\n }\n}\n'
>>> r = Request(url_username='user', url_password='passwd')
>>> r.open('GET', 'http://httpbin.org/basic-auth/user/passwd').read()
'{\n "authenticated": true, \n "user": "user"\n}\n'
>>> r = Request(headers=dict(foo='bar'))
>>> r.open('GET', 'http://httpbin.org/get', headers=dict(baz='qux')).read()
"""
self.headers = headers or {}
if not isinstance(self.headers, dict):
raise ValueError("headers must be a dict: %r" % self.headers)
self.use_proxy = use_proxy
self.force = force
self.timeout = timeout
self.validate_certs = validate_certs
self.url_username = url_username
self.url_password = url_password
self.http_agent = http_agent
self.force_basic_auth = force_basic_auth
self.follow_redirects = follow_redirects
self.client_cert = client_cert
self.client_key = client_key
self.unix_socket = unix_socket
self.ca_path = ca_path
if isinstance(cookies, cookiejar.CookieJar):
self.cookies = cookies
else:
self.cookies = cookiejar.CookieJar()
def _fallback(self, value, fallback):
if value is None:
return fallback
return value
def open(self, method, url, data=None, headers=None, use_proxy=None,
force=None, last_mod_time=None, timeout=None, validate_certs=None,
url_username=None, url_password=None, http_agent=None,
force_basic_auth=None, follow_redirects=None,
client_cert=None, client_key=None, cookies=None, use_gssapi=False,
unix_socket=None, ca_path=None, unredirected_headers=None):
"""
Sends a request via HTTP(S) or FTP using urllib2 (Python2) or urllib (Python3)
Does not require the module environment
Returns :class:`HTTPResponse` object.
:arg method: method for the request
:arg url: URL to request
:kwarg data: (optional) bytes, or file-like object to send
in the body of the request
:kwarg headers: (optional) Dictionary of HTTP Headers to send with the
request
:kwarg use_proxy: (optional) Boolean of whether or not to use proxy
:kwarg force: (optional) Boolean of whether or not to set `cache-control: no-cache` header
:kwarg last_mod_time: (optional) Datetime object to use when setting If-Modified-Since header
:kwarg timeout: (optional) How long to wait for the server to send
data before giving up, as a float
:kwarg validate_certs: (optional) Booleani that controls whether we verify
the server's TLS certificate
:kwarg url_username: (optional) String of the user to use when authenticating
:kwarg url_password: (optional) String of the password to use when authenticating
:kwarg http_agent: (optional) String of the User-Agent to use in the request
:kwarg force_basic_auth: (optional) Boolean determining if auth header should be sent in the initial request
:kwarg follow_redirects: (optional) String of urllib2, all/yes, safe, none to determine how redirects are
followed, see RedirectHandlerFactory for more information
:kwarg client_cert: (optional) PEM formatted certificate chain file to be used for SSL client authentication.
This file can also include the key as well, and if the key is included, client_key is not required
:kwarg client_key: (optional) PEM formatted file that contains your private key to be used for SSL client
authentication. If client_cert contains both the certificate and key, this option is not required
:kwarg cookies: (optional) CookieJar object to send with the
request
:kwarg use_gssapi: (optional) Use GSSAPI handler of requests.
:kwarg unix_socket: (optional) String of file system path to unix socket file to use when establishing
connection to the provided url
:kwarg ca_path: (optional) String of file system path to CA cert bundle to use
:kwarg unredirected_headers: (optional) A list of headers to not attach on a redirected request
:returns: HTTPResponse. Added in Ansible 2.9
"""
method = method.upper()
if headers is None:
headers = {}
elif not isinstance(headers, dict):
raise ValueError("headers must be a dict")
headers = dict(self.headers, **headers)
use_proxy = self._fallback(use_proxy, self.use_proxy)
force = self._fallback(force, self.force)
timeout = self._fallback(timeout, self.timeout)
validate_certs = self._fallback(validate_certs, self.validate_certs)
url_username = self._fallback(url_username, self.url_username)
url_password = self._fallback(url_password, self.url_password)
http_agent = self._fallback(http_agent, self.http_agent)
force_basic_auth = self._fallback(force_basic_auth, self.force_basic_auth)
follow_redirects = self._fallback(follow_redirects, self.follow_redirects)
client_cert = self._fallback(client_cert, self.client_cert)
client_key = self._fallback(client_key, self.client_key)
cookies = self._fallback(cookies, self.cookies)
unix_socket = self._fallback(unix_socket, self.unix_socket)
ca_path = self._fallback(ca_path, self.ca_path)
handlers = []
if unix_socket:
handlers.append(UnixHTTPHandler(unix_socket))
ssl_handler = maybe_add_ssl_handler(url, validate_certs, ca_path=ca_path)
if ssl_handler and not HAS_SSLCONTEXT:
handlers.append(ssl_handler)
if HAS_GSSAPI and use_gssapi:
handlers.append(urllib_gssapi.HTTPSPNEGOAuthHandler())
parsed = generic_urlparse(urlparse(url))
if parsed.scheme != 'ftp':
username = url_username
if username:
password = url_password
netloc = parsed.netloc
elif '@' in parsed.netloc:
credentials, netloc = parsed.netloc.split('@', 1)
if ':' in credentials:
username, password = credentials.split(':', 1)
else:
username = credentials
password = ''
parsed_list = parsed.as_list()
parsed_list[1] = netloc
# reconstruct url without credentials
url = urlunparse(parsed_list)
if username and not force_basic_auth:
passman = urllib_request.HTTPPasswordMgrWithDefaultRealm()
# this creates a password manager
passman.add_password(None, netloc, username, password)
# because we have put None at the start it will always
# use this username/password combination for urls
# for which `theurl` is a super-url
authhandler = urllib_request.HTTPBasicAuthHandler(passman)
digest_authhandler = urllib_request.HTTPDigestAuthHandler(passman)
# create the AuthHandler
handlers.append(authhandler)
handlers.append(digest_authhandler)
elif username and force_basic_auth:
headers["Authorization"] = basic_auth_header(username, password)
else:
try:
rc = netrc.netrc(os.environ.get('NETRC'))
login = rc.authenticators(parsed.hostname)
except IOError:
login = None
if login:
username, _, password = login
if username and password:
headers["Authorization"] = basic_auth_header(username, password)
if not use_proxy:
proxyhandler = urllib_request.ProxyHandler({})
handlers.append(proxyhandler)
context = None
if HAS_SSLCONTEXT and not validate_certs:
# In 2.7.9, the default context validates certificates
context = SSLContext(ssl.PROTOCOL_SSLv23)
if ssl.OP_NO_SSLv2:
context.options |= ssl.OP_NO_SSLv2
context.options |= ssl.OP_NO_SSLv3
context.verify_mode = ssl.CERT_NONE
context.check_hostname = False
handlers.append(HTTPSClientAuthHandler(client_cert=client_cert,
client_key=client_key,
context=context,
unix_socket=unix_socket))
elif client_cert or unix_socket:
handlers.append(HTTPSClientAuthHandler(client_cert=client_cert,
client_key=client_key,
unix_socket=unix_socket))
if ssl_handler and HAS_SSLCONTEXT and validate_certs:
tmp_ca_path, cadata, paths_checked = ssl_handler.get_ca_certs()
try:
context = ssl_handler.make_context(tmp_ca_path, cadata)
except NotImplementedError:
pass
# pre-2.6 versions of python cannot use the custom https
# handler, since the socket class is lacking create_connection.
# Some python builds lack HTTPS support.
if hasattr(socket, 'create_connection') and CustomHTTPSHandler:
kwargs = {}
if HAS_SSLCONTEXT:
kwargs['context'] = context
handlers.append(CustomHTTPSHandler(**kwargs))
handlers.append(RedirectHandlerFactory(follow_redirects, validate_certs, ca_path=ca_path))
# add some nicer cookie handling
if cookies is not None:
handlers.append(urllib_request.HTTPCookieProcessor(cookies))
opener = urllib_request.build_opener(*handlers)
urllib_request.install_opener(opener)
data = to_bytes(data, nonstring='passthru')
request = RequestWithMethod(url, method, data)
# add the custom agent header, to help prevent issues
# with sites that block the default urllib agent string
if http_agent:
request.add_header('User-agent', http_agent)
# Cache control
# Either we directly force a cache refresh
if force:
request.add_header('cache-control', 'no-cache')
# or we do it if the original is more recent than our copy
elif last_mod_time:
tstamp = rfc2822_date_string(last_mod_time.timetuple(), 'GMT')
request.add_header('If-Modified-Since', tstamp)
# user defined headers now, which may override things we've set above
unredirected_headers = unredirected_headers or []
for header in headers:
if header in unredirected_headers:
request.add_unredirected_header(header, headers[header])
else:
request.add_header(header, headers[header])
return urllib_request.urlopen(request, None, timeout)
def get(self, url, **kwargs):
r"""Sends a GET request. Returns :class:`HTTPResponse` object.
:arg url: URL to request
:kwarg \*\*kwargs: Optional arguments that ``open`` takes.
:returns: HTTPResponse
"""
return self.open('GET', url, **kwargs)
def options(self, url, **kwargs):
r"""Sends a OPTIONS request. Returns :class:`HTTPResponse` object.
:arg url: URL to request
:kwarg \*\*kwargs: Optional arguments that ``open`` takes.
:returns: HTTPResponse
"""
return self.open('OPTIONS', url, **kwargs)
def head(self, url, **kwargs):
r"""Sends a HEAD request. Returns :class:`HTTPResponse` object.
:arg url: URL to request
:kwarg \*\*kwargs: Optional arguments that ``open`` takes.
:returns: HTTPResponse
"""
return self.open('HEAD', url, **kwargs)
def post(self, url, data=None, **kwargs):
r"""Sends a POST request. Returns :class:`HTTPResponse` object.
:arg url: URL to request.
:kwarg data: (optional) bytes, or file-like object to send in the body of the request.
:kwarg \*\*kwargs: Optional arguments that ``open`` takes.
:returns: HTTPResponse
"""
return self.open('POST', url, data=data, **kwargs)
def put(self, url, data=None, **kwargs):
r"""Sends a PUT request. Returns :class:`HTTPResponse` object.
:arg url: URL to request.
:kwarg data: (optional) bytes, or file-like object to send in the body of the request.
:kwarg \*\*kwargs: Optional arguments that ``open`` takes.
:returns: HTTPResponse
"""
return self.open('PUT', url, data=data, **kwargs)
def patch(self, url, data=None, **kwargs):
r"""Sends a PATCH request. Returns :class:`HTTPResponse` object.
:arg url: URL to request.
:kwarg data: (optional) bytes, or file-like object to send in the body of the request.
:kwarg \*\*kwargs: Optional arguments that ``open`` takes.
:returns: HTTPResponse
"""
return self.open('PATCH', url, data=data, **kwargs)
def delete(self, url, **kwargs):
r"""Sends a DELETE request. Returns :class:`HTTPResponse` object.
:arg url: URL to request
:kwargs \*\*kwargs: Optional arguments that ``open`` takes.
:returns: HTTPResponse
"""
return self.open('DELETE', url, **kwargs)
def open_url(url, data=None, headers=None, method=None, use_proxy=True,
force=False, last_mod_time=None, timeout=10, validate_certs=True,
url_username=None, url_password=None, http_agent=None,
force_basic_auth=False, follow_redirects='urllib2',
client_cert=None, client_key=None, cookies=None,
use_gssapi=False, unix_socket=None, ca_path=None,
unredirected_headers=None):
'''
Sends a request via HTTP(S) or FTP using urllib2 (Python2) or urllib (Python3)
Does not require the module environment
'''
method = method or ('POST' if data else 'GET')
return Request().open(method, url, data=data, headers=headers, use_proxy=use_proxy,
force=force, last_mod_time=last_mod_time, timeout=timeout, validate_certs=validate_certs,
url_username=url_username, url_password=url_password, http_agent=http_agent,
force_basic_auth=force_basic_auth, follow_redirects=follow_redirects,
client_cert=client_cert, client_key=client_key, cookies=cookies,
use_gssapi=use_gssapi, unix_socket=unix_socket, ca_path=ca_path,
unredirected_headers=unredirected_headers)
def prepare_multipart(fields):
"""Takes a mapping, and prepares a multipart/form-data body
:arg fields: Mapping
:returns: tuple of (content_type, body) where ``content_type`` is
the ``multipart/form-data`` ``Content-Type`` header including
``boundary`` and ``body`` is the prepared bytestring body
Payload content from a file will be base64 encoded and will include
the appropriate ``Content-Transfer-Encoding`` and ``Content-Type``
headers.
Example:
{
"file1": {
"filename": "/bin/true",
"mime_type": "application/octet-stream"
},
"file2": {
"content": "text based file content",
"filename": "fake.txt",
"mime_type": "text/plain",
},
"text_form_field": "value"
}
"""
if not isinstance(fields, Mapping):
raise TypeError(
'Mapping is required, cannot be type %s' % fields.__class__.__name__
)
m = email.mime.multipart.MIMEMultipart('form-data')
for field, value in sorted(fields.items()):
if isinstance(value, string_types):
main_type = 'text'
sub_type = 'plain'
content = value
filename = None
elif isinstance(value, Mapping):
filename = value.get('filename')
content = value.get('content')
if not any((filename, content)):
raise ValueError('at least one of filename or content must be provided')
mime = value.get('mime_type')
if not mime:
try:
mime = mimetypes.guess_type(filename or '', strict=False)[0] or 'application/octet-stream'
except Exception:
mime = 'application/octet-stream'
main_type, sep, sub_type = mime.partition('/')
else:
raise TypeError(
'value must be a string, or mapping, cannot be type %s' % value.__class__.__name__
)
if not content and filename:
with open(to_bytes(filename, errors='surrogate_or_strict'), 'rb') as f:
part = email.mime.application.MIMEApplication(f.read())
del part['Content-Type']
part.add_header('Content-Type', '%s/%s' % (main_type, sub_type))
else:
part = email.mime.nonmultipart.MIMENonMultipart(main_type, sub_type)
part.set_payload(to_bytes(content))
part.add_header('Content-Disposition', 'form-data')
del part['MIME-Version']
part.set_param(
'name',
field,
header='Content-Disposition'
)
if filename:
part.set_param(
'filename',
to_native(os.path.basename(filename)),
header='Content-Disposition'
)
m.attach(part)
if PY3:
# Ensure headers are not split over multiple lines
# The HTTP policy also uses CRLF by default
b_data = m.as_bytes(policy=email.policy.HTTP)
else:
# Py2
# We cannot just call ``as_string`` since it provides no way
# to specify ``maxheaderlen``
fp = cStringIO() # cStringIO seems to be required here
# Ensure headers are not split over multiple lines
g = email.generator.Generator(fp, maxheaderlen=0)
g.flatten(m)
# ``fix_eols`` switches from ``\n`` to ``\r\n``
b_data = email.utils.fix_eols(fp.getvalue())
del m
headers, sep, b_content = b_data.partition(b'\r\n\r\n')
del b_data
if PY3:
parser = email.parser.BytesHeaderParser().parsebytes
else:
# Py2
parser = email.parser.HeaderParser().parsestr
return (
parser(headers)['content-type'], # Message converts to native strings
b_content
)
#
# Module-related functions
#
def basic_auth_header(username, password):
"""Takes a username and password and returns a byte string suitable for
using as value of an Authorization header to do basic auth.
"""
return b"Basic %s" % base64.b64encode(to_bytes("%s:%s" % (username, password), errors='surrogate_or_strict'))
def url_argument_spec():
'''
Creates an argument spec that can be used with any module
that will be requesting content via urllib/urllib2
'''
return dict(
url=dict(type='str'),
force=dict(type='bool', default=False, aliases=['thirsty'],
deprecated_aliases=[dict(name='thirsty', version='2.13', collection_name='ansible.builtin')]),
http_agent=dict(type='str', default='ansible-httpget'),
use_proxy=dict(type='bool', default=True),
validate_certs=dict(type='bool', default=True),
url_username=dict(type='str'),
url_password=dict(type='str', no_log=True),
force_basic_auth=dict(type='bool', default=False),
client_cert=dict(type='path'),
client_key=dict(type='path'),
)
def fetch_url(module, url, data=None, headers=None, method=None,
use_proxy=True, force=False, last_mod_time=None, timeout=10,
use_gssapi=False, unix_socket=None, ca_path=None, cookies=None):
"""Sends a request via HTTP(S) or FTP (needs the module as parameter)
:arg module: The AnsibleModule (used to get username, password etc. (s.b.).
:arg url: The url to use.
:kwarg data: The data to be sent (in case of POST/PUT).
:kwarg headers: A dict with the request headers.
:kwarg method: "POST", "PUT", etc.
:kwarg boolean use_proxy: Default: True
:kwarg boolean force: If True: Do not get a cached copy (Default: False)
:kwarg last_mod_time: Default: None
:kwarg int timeout: Default: 10
:kwarg boolean use_gssapi: Default: False
:kwarg unix_socket: (optional) String of file system path to unix socket file to use when establishing
connection to the provided url
:kwarg ca_path: (optional) String of file system path to CA cert bundle to use
:returns: A tuple of (**response**, **info**). Use ``response.read()`` to read the data.
The **info** contains the 'status' and other meta data. When a HttpError (status >= 400)
occurred then ``info['body']`` contains the error response data::
Example::
data={...}
resp, info = fetch_url(module,
"http://example.com",
data=module.jsonify(data),
headers={'Content-type': 'application/json'},
method="POST")
status_code = info["status"]
body = resp.read()
if status_code >= 400 :
body = info['body']
"""
if not HAS_URLPARSE:
module.fail_json(msg='urlparse is not installed')
# ensure we use proper tempdir
old_tempdir = tempfile.tempdir
tempfile.tempdir = module.tmpdir
# Get validate_certs from the module params
validate_certs = module.params.get('validate_certs', True)
username = module.params.get('url_username', '')
password = module.params.get('url_password', '')
http_agent = module.params.get('http_agent', 'ansible-httpget')
force_basic_auth = module.params.get('force_basic_auth', '')
follow_redirects = module.params.get('follow_redirects', 'urllib2')
client_cert = module.params.get('client_cert')
client_key = module.params.get('client_key')
if not isinstance(cookies, cookiejar.CookieJar):
cookies = cookiejar.LWPCookieJar()
r = None
info = dict(url=url, status=-1)
try:
r = open_url(url, data=data, headers=headers, method=method,
use_proxy=use_proxy, force=force, last_mod_time=last_mod_time, timeout=timeout,
validate_certs=validate_certs, url_username=username,
url_password=password, http_agent=http_agent, force_basic_auth=force_basic_auth,
follow_redirects=follow_redirects, client_cert=client_cert,
client_key=client_key, cookies=cookies, use_gssapi=use_gssapi,
unix_socket=unix_socket, ca_path=ca_path)
# Lowercase keys, to conform to py2 behavior, so that py3 and py2 are predictable
info.update(dict((k.lower(), v) for k, v in r.info().items()))
# Don't be lossy, append header values for duplicate headers
# In Py2 there is nothing that needs done, py2 does this for us
if PY3:
temp_headers = {}
for name, value in r.headers.items():
# The same as above, lower case keys to match py2 behavior, and create more consistent results
name = name.lower()
if name in temp_headers:
temp_headers[name] = ', '.join((temp_headers[name], value))
else:
temp_headers[name] = value
info.update(temp_headers)
# parse the cookies into a nice dictionary
cookie_list = []
cookie_dict = dict()
# Python sorts cookies in order of most specific (ie. longest) path first. See ``CookieJar._cookie_attrs``
# Cookies with the same path are reversed from response order.
# This code makes no assumptions about that, and accepts the order given by python
for cookie in cookies:
cookie_dict[cookie.name] = cookie.value
cookie_list.append((cookie.name, cookie.value))
info['cookies_string'] = '; '.join('%s=%s' % c for c in cookie_list)
info['cookies'] = cookie_dict
# finally update the result with a message about the fetch
info.update(dict(msg="OK (%s bytes)" % r.headers.get('Content-Length', 'unknown'), url=r.geturl(), status=r.code))
except NoSSLError as e:
distribution = get_distribution()
if distribution is not None and distribution.lower() == 'redhat':
module.fail_json(msg='%s. You can also install python-ssl from EPEL' % to_native(e), **info)
else:
module.fail_json(msg='%s' % to_native(e), **info)
except (ConnectionError, ValueError) as e:
module.fail_json(msg=to_native(e), **info)
except urllib_error.HTTPError as e:
try:
body = e.read()
except AttributeError:
body = ''
# Try to add exception info to the output but don't fail if we can't
try:
# Lowercase keys, to conform to py2 behavior, so that py3 and py2 are predictable
info.update(dict((k.lower(), v) for k, v in e.info().items()))
except Exception:
pass
info.update({'msg': to_native(e), 'body': body, 'status': e.code})
except urllib_error.URLError as e:
code = int(getattr(e, 'code', -1))
info.update(dict(msg="Request failed: %s" % to_native(e), status=code))
except socket.error as e:
info.update(dict(msg="Connection failure: %s" % to_native(e), status=-1))
except httplib.BadStatusLine as e:
info.update(dict(msg="Connection failure: connection was closed before a valid response was received: %s" % to_native(e.line), status=-1))
except Exception as e:
info.update(dict(msg="An unknown error occurred: %s" % to_native(e), status=-1),
exception=traceback.format_exc())
finally:
tempfile.tempdir = old_tempdir
return r, info
def fetch_file(module, url, data=None, headers=None, method=None,
use_proxy=True, force=False, last_mod_time=None, timeout=10):
'''Download and save a file via HTTP(S) or FTP (needs the module as parameter).
This is basically a wrapper around fetch_url().
:arg module: The AnsibleModule (used to get username, password etc. (s.b.).
:arg url: The url to use.
:kwarg data: The data to be sent (in case of POST/PUT).
:kwarg headers: A dict with the request headers.
:kwarg method: "POST", "PUT", etc.
:kwarg boolean use_proxy: Default: True
:kwarg boolean force: If True: Do not get a cached copy (Default: False)
:kwarg last_mod_time: Default: None
:kwarg int timeout: Default: 10
:returns: A string, the path to the downloaded file.
'''
# download file
bufsize = 65536
file_name, file_ext = os.path.splitext(str(url.rsplit('/', 1)[1]))
fetch_temp_file = tempfile.NamedTemporaryFile(dir=module.tmpdir, prefix=file_name, suffix=file_ext, delete=False)
module.add_cleanup_file(fetch_temp_file.name)
try:
rsp, info = fetch_url(module, url, data, headers, method, use_proxy, force, last_mod_time, timeout)
if not rsp:
module.fail_json(msg="Failure downloading %s, %s" % (url, info['msg']))
data = rsp.read(bufsize)
while data:
fetch_temp_file.write(data)
data = rsp.read(bufsize)
fetch_temp_file.close()
except Exception as e:
module.fail_json(msg="Failure downloading %s, %s" % (url, to_native(e)))
return fetch_temp_file.name
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