# certificates and automatically retrieve fresh ones when expired
import sys
-import os, os.path
+import os
+import os.path
import subprocess
from datetime import datetime
from sfa.util.xrn import Xrn
import sfa.util.sfalogging
-# importing sfa.utils.faults does pull a lot of stuff
+# importing sfa.utils.faults does pull a lot of stuff
# OTOH it's imported from Certificate anyways, so..
from sfa.util.faults import RecordNotFound
from sfa.trust.certificate import Keypair, Certificate
from sfa.trust.credential import Credential
from sfa.trust.gid import GID
-##########
+##########
# a helper class to implement the bootstrapping of cryptoa. material
-# assuming we are starting from scratch on the client side
+# assuming we are starting from scratch on the client side
# what's needed to complete a full slice creation cycle
-# (**) prerequisites:
-# (*) a local private key
-# (*) the corresp. public key in the registry
+# (**) prerequisites:
+# (*) a local private key
+# (*) the corresp. public key in the registry
# (**) step1: a self-signed certificate
# default filename is <hrn>.sscert
# (**) step2: a user credential
# From that point on, the GID is used as the SSL certificate
# and the following can be done
#
-# (**) retrieve a slice (or authority) credential
+# (**) retrieve a slice (or authority) credential
# obtained at the registry with GetCredential
# using the (step2) user-credential as credential
# default filename is <hrn>.<type>.cred
-# (**) retrieve a slice (or authority) GID
+# (**) retrieve a slice (or authority) GID
# obtained at the registry with Resolve
# using the (step2) user-credential as credential
# default filename is <hrn>.<type>.cred
#
-# (**) additionnally, it might make sense to upgrade a GID file
+# (**) additionnally, it might make sense to upgrade a GID file
# into a pkcs12 certificate usable in a browser
# this bundled format allows for embedding the private key
-#
+#
-########## Implementation notes
+# Implementation notes
#
# (*) decorators
#
-# this implementation is designed as a guideline for
+# this implementation is designed as a guideline for
# porting to other languages
#
-# the decision to go for decorators aims at focusing
+# the decision to go for decorators aims at focusing
# on the core of what needs to be done when everything
-# works fine, and to take caching and error management
+# works fine, and to take caching and error management
# out of the way
-#
-# for non-pythonic developers, it should be enough to
+#
+# for non-pythonic developers, it should be enough to
# implement the bulk of this code, namely the _produce methods
-# and to add caching and error management by whichever means
-# is available, including inline
+# and to add caching and error management by whichever means
+# is available, including inline
#
# (*) self-signed certificates
-#
+#
# still with other languages in mind, we've tried to keep the
# dependencies to the rest of the code as low as possible
-#
+#
# however this still relies on the sfa.trust.certificate module
# for the initial generation of a self-signed-certificate that
# is associated to the user's ssh-key
-# (for user-friendliness, and for smooth operations with planetlab,
+# (for user-friendliness, and for smooth operations with planetlab,
# the usage model is to reuse an existing keypair)
-#
+#
# there might be a more portable, i.e. less language-dependant way, to
# implement this step by exec'ing the openssl command.
-# a known successful attempt at this approach that worked
+# a known successful attempt at this approach that worked
# for Java is documented below
# http://nam.ece.upatras.gr/fstoolkit/trac/wiki/JavaSFAClient
#
# (*) pkcs12
-#
+#
# the implementation of the pkcs12 wrapping, which is a late addition,
# is done through direct calls to openssl
#
####################
-class SfaClientException(Exception): pass
+
+class SfaClientException(Exception):
+ pass
+
class SfaClientBootstrap:
# dir is mandatory but defaults to '.'
- def __init__(self, user_hrn, registry_url, dir=None,
+ def __init__(self, user_hrn, registry_url, dir=None,
verbose=False, timeout=None, logger=None):
self.hrn = user_hrn
self.registry_url = registry_url
if dir is None:
- dir="."
+ dir = "."
self.dir = dir
self.verbose = verbose
self.timeout = timeout
# default for the logger is to use the global sfa logger
- if logger is None:
+ if logger is None:
logger = sfa.util.sfalogging.logger
self.logger = logger
- ######################################## *_produce methods
- ### step1
+ # *_produce methods
+ # step1
# unconditionnally create a self-signed certificate
def self_signed_cert_produce(self, output):
self.assert_private_key()
private_key_filename = self.private_key_filename()
keypair = Keypair(filename=private_key_filename)
- self_signed = Certificate(subject = self.hrn)
+ self_signed = Certificate(subject=self.hrn)
self_signed.set_pubkey(keypair)
self_signed.set_issuer(keypair, self.hrn)
self_signed.sign()
.format(self.hrn, output))
return output
- ### step2
+ # step2
# unconditionnally retrieve my credential (GetSelfCredential)
# we always use the self-signed-cert as the SSL cert
def my_credential_produce(self, output):
self.private_key_filename(),
certificate_filename)
try:
- credential_string = registry_proxy.GetSelfCredential(certificate_string, self.hrn, "user")
+ credential_string = registry_proxy.GetSelfCredential(
+ certificate_string, self.hrn, "user")
except:
- # some urns hrns may replace non hierarchy delimiters '.' with an '_' instead of escaping the '.'
- hrn = Xrn(self.hrn).get_hrn().replace('\.', '_')
- credential_string = registry_proxy.GetSelfCredential(certificate_string, hrn, "user")
+ # some urns hrns may replace non hierarchy delimiters '.' with an
+ # '_' instead of escaping the '.'
+ hrn = Xrn(self.hrn).get_hrn().replace('\.', '_')
+ credential_string = registry_proxy.GetSelfCredential(
+ certificate_string, hrn, "user")
self.plain_write(output, credential_string)
- self.logger.debug("SfaClientBootstrap: Wrote result of GetSelfCredential in {}".format(output))
+ self.logger.debug(
+ "SfaClientBootstrap: Wrote result of GetSelfCredential in {}".format(output))
return output
- ### step3
- # unconditionnally retrieve my GID - use the general form
+ # step3
+ # unconditionnally retrieve my GID - use the general form
def my_gid_produce(self, output):
return self.gid_produce(output, self.hrn, "user")
- ### retrieve any credential (GetCredential) unconditionnal form
+ # retrieve any credential (GetCredential) unconditionnal form
# we always use the GID as the SSL cert
def credential_produce(self, output, hrn, type):
self.assert_my_gid()
certificate_filename)
self.assert_my_credential()
my_credential_string = self.my_credential_string()
- credential_string = registry_proxy.GetCredential(my_credential_string, hrn, type)
+ credential_string = registry_proxy.GetCredential(
+ my_credential_string, hrn, type)
self.plain_write(output, credential_string)
- self.logger.debug("SfaClientBootstrap: Wrote result of GetCredential in {}".format(output))
+ self.logger.debug(
+ "SfaClientBootstrap: Wrote result of GetCredential in {}".format(output))
return output
def slice_credential_produce(self, output, hrn):
def authority_credential_produce(self, output, hrn):
return self.credential_produce(output, hrn, "authority")
- ### retrieve any gid(Resolve) - unconditionnal form
+ # retrieve any gid(Resolve) - unconditionnal form
# use my GID when available as the SSL cert, otherwise the self-signed
- def gid_produce(self, output, hrn, type ):
+ def gid_produce(self, output, hrn, type):
try:
self.assert_my_gid()
certificate_filename = self.my_gid_filename()
except:
self.assert_self_signed_cert()
certificate_filename = self.self_signed_cert_filename()
-
+
self.assert_private_key()
registry_proxy = SfaServerProxy(self.registry_url, self.private_key_filename(),
certificate_filename)
records = registry_proxy.Resolve(hrn, credential_string)
records = [record for record in records if record['type'] == type]
if not records:
- raise RecordNotFound("hrn {} ({}) unknown to registry {}".format(hrn, type, self.registry_url))
+ raise RecordNotFound("hrn {} ({}) unknown to registry {}".format(
+ hrn, type, self.registry_url))
record = records[0]
self.plain_write(output, record['gid'])
- self.logger.debug("SfaClientBootstrap: Wrote GID for {} ({}) in {}".format(hrn, type, output))
+ self.logger.debug(
+ "SfaClientBootstrap: Wrote GID for {} ({}) in {}".format(hrn, type, output))
return output
# http://trac.myslice.info/wiki/MySlice/Developer/SFALogin
-### produce a pkcs12 bundled certificate from GID and private key
+# produce a pkcs12 bundled certificate from GID and private key
# xxx for now we put a hard-wired password that's just, well, 'password'
-# when leaving this empty on the mac, result can't seem to be loaded in keychain..
+# when leaving this empty on the mac, result can't seem to be loaded in
+# keychain..
def my_pkcs12_produce(self, filename):
password = raw_input("Enter password for p12 certificate: ")
- openssl_command = ['openssl', 'pkcs12', "-export"]
- openssl_command += [ "-password", "pass:{}".format(password) ]
- openssl_command += [ "-inkey", self.private_key_filename()]
- openssl_command += [ "-in", self.my_gid_filename()]
- openssl_command += [ "-out", filename ]
+ openssl_command = ['openssl', 'pkcs12', "-export"]
+ openssl_command += ["-password", "pass:{}".format(password)]
+ openssl_command += ["-inkey", self.private_key_filename()]
+ openssl_command += ["-in", self.my_gid_filename()]
+ openssl_command += ["-out", filename]
if subprocess.call(openssl_command) == 0:
print("Successfully created {}".format(filename))
else:
if cred.get_expiration() < datetime.utcnow():
valid = False
return valid
-
- #################### public interface
-
+ # public interface
+
# return my_gid, run all missing steps in the bootstrap sequence
def bootstrap_my_gid(self):
self.self_signed_cert()
os.chmod(private_key_filename, os.stat(user_private_key).st_mode)
self.logger.debug("SfaClientBootstrap: Copied private key from {} into {}"
.format(user_private_key, private_key_filename))
-
- #################### private details
+
+ # private details
# stupid stuff
def fullpath(self, file):
return os.path.join(self.dir, file)
# the expected filenames for the various pieces
- def private_key_filename(self):
+ def private_key_filename(self):
return self.fullpath("{}.pkey".format(Xrn.unescape(self.hrn)))
- def self_signed_cert_filename(self):
+
+ def self_signed_cert_filename(self):
return self.fullpath("{}.sscert".format(self.hrn))
+
def my_credential_filename(self):
return self.credential_filename(self.hrn, "user")
# the tests use sfi -u <pi-user>; meaning that the slice credential filename
# needs to keep track of the user too
- def credential_filename(self, hrn, type):
+
+ def credential_filename(self, hrn, type):
if type in ['user']:
basename = "{}.{}.cred".format(hrn, type)
else:
basename = "{}-{}.{}.cred".format(self.hrn, hrn, type)
return self.fullpath(basename)
- def slice_credential_filename(self, hrn):
+
+ def slice_credential_filename(self, hrn):
return self.credential_filename(hrn, 'slice')
- def authority_credential_filename(self, hrn):
+
+ def authority_credential_filename(self, hrn):
return self.credential_filename(hrn, 'authority')
+
def my_gid_filename(self):
return self.gid_filename(self.hrn, "user")
- def gid_filename(self, hrn, type):
+
+ def gid_filename(self, hrn, type):
return self.fullpath("{}.{}.gid".format(hrn, type))
+
def my_pkcs12_filename(self):
return self.fullpath("{}.p12".format(self.hrn))
# optimizing dependencies
-# originally we used classes GID or Credential or Certificate
-# like e.g.
+# originally we used classes GID or Credential or Certificate
+# like e.g.
# return Credential(filename=self.my_credential()).save_to_string()
# but in order to make it simpler to other implementations/languages..
def plain_read(self, filename):
- infile = file(filename, "r")
- result = infile.read()
- infile.close()
- return result
+ with open(filename) as infile:
+ return infile.read()
def plain_write(self, filename, contents):
- outfile = file(filename, "w")
- result = outfile.write(contents)
- outfile.close()
+ with open(filename, "w") as outfile:
+ outfile.write(contents)
def assert_filename(self, filename, kind):
if not os.path.isfile(filename):
raise IOError("Missing {} file {}".format(kind, filename))
return True
-
+
def assert_private_key(self):
return self.assert_filename(self.private_key_filename(), "private key")
+
def assert_self_signed_cert(self):
return self.assert_filename(self.self_signed_cert_filename(), "self-signed certificate")
+
def assert_my_credential(self):
return self.assert_filename(self.my_credential_filename(), "user's credential")
+
def assert_my_gid(self):
return self.assert_filename(self.my_gid_filename(), "user's GID")
-
# decorator to make up the other methods
def get_or_produce(filename_method, produce_method, validate_method=None):
# default validator returns true
def wrap(f):
def wrapped(self, *args, **kw):
filename = filename_method(self, *args, **kw)
- if os.path.isfile( filename ):
+ if os.path.isfile(filename):
if not validate_method:
return filename
- elif validate_method(self, filename):
+ elif validate_method(self, filename):
return filename
else:
# remove invalid file
- self.logger.warning("Removing {} - has expired".format(filename))
- os.unlink(filename)
+ self.logger.warning(
+ "Removing {} - has expired".format(filename))
+ os.unlink(filename)
try:
produce_method(self, filename, *args, **kw)
return filename
except IOError:
- raise
- except :
+ raise
+ except:
error = sys.exc_info()[:2]
message = "Could not produce/retrieve {} ({} -- {})"\
.format(filename, error[0], error[1])
def authority_credential(self, hrn): pass
@get_or_produce(gid_filename, gid_produce)
- def gid(self, hrn, type ): pass
-
+ def gid(self, hrn, type): pass
# get the credentials as strings, for inserting as API arguments
- def my_credential_string(self):
+ def my_credential_string(self):
self.my_credential()
return self.plain_read(self.my_credential_filename())
- def slice_credential_string(self, hrn):
+
+ def slice_credential_string(self, hrn):
self.slice_credential(hrn)
return self.plain_read(self.slice_credential_filename(hrn))
- def authority_credential_string(self, hrn):
+
+ def authority_credential_string(self, hrn):
self.authority_credential(hrn)
return self.plain_read(self.authority_credential_filename(hrn))
# to_gid = GID(to_gidfile )
# to_hrn = delegee_gid.get_hrn()
# print 'to_hrn', to_hrn
- delegated_credential = original_credential.delegate(to_gidfile, self.private_key(), my_gid)
+ delegated_credential = original_credential.delegate(
+ to_gidfile, self.private_key(), my_gid)
return delegated_credential.save_to_string(save_parents=True)