tests/utils.py - platform/external/python/cryptography - Git at Google

 # Licensed under the Apache License, Version 2.0 (the "License");
 # you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at
 #
 #    http://www.apache.org/licenses/LICENSE-2.0
 #
 # Unless required by applicable law or agreed to in writing, software
 # distributed under the License is distributed on an "AS IS" BASIS,
 # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or
 # implied.
 # See the License for the specific language governing permissions and
 # limitations under the License.

 import os.path


 def load_nist_vectors(vector_data, op):
     section, count, data = None, None, {}

     for line in vector_data:
         line = line.strip()

         # Blank lines are ignored
         if not line:
             continue

         # Lines starting with # are comments
         if line.startswith("#"):
             continue

         # Look for section headers
         if line.startswith("[") and line.endswith("]"):
             section = line[1:-1]
             data[section] = {}
             continue

         # Build our data using a simple Key = Value format
         name, value = line.split(" = ")

         # COUNT is a special token that indicates a new block of data
         if name.upper() == "COUNT":
             count = value
             data[section][count] = {}
         # For all other tokens we simply want the name, value stored in
         # the dictionary
         else:
             data[section][count][name.lower()] = value.encode("ascii")

     # We want to test only for a particular operation, we sort them for the
     # benefit of the tests of this function.
     return [v for k, v in sorted(data[op].items(), key=lambda kv: kv[0])]


 def load_nist_vectors_from_file(filename, op):
     base = os.path.join(
         os.path.dirname(__file__), "primitives", "vectors", "NIST",
     )
     with open(os.path.join(base, filename), "r") as vector_file:
         return load_nist_vectors(vector_file, op)


 def load_cryptrec_vectors_from_file(filename):
     base = os.path.join(
         os.path.dirname(__file__), "primitives", "vectors", "CRYPTREC",
     )
     with open(os.path.join(base, filename), "r") as vector_file:
         return load_cryptrec_vectors(vector_file)


 def load_cryptrec_vectors(vector_data):
     cryptrec_list = []

     for line in vector_data:
         line = line.strip()

         # Blank lines and comments are ignored
         if not line or line.startswith("#"):
             continue

         if line.startswith("K"):
             key = line.split(" : ")[1].replace(" ", "").encode("ascii")
         elif line.startswith("P"):
             pt = line.split(" : ")[1].replace(" ", "").encode("ascii")
         elif line.startswith("C"):
             ct = line.split(" : ")[1].replace(" ", "").encode("ascii")
             # after a C is found the K+P+C tuple is complete
             # there are many P+C pairs for each K
             cryptrec_list.append({
                 "key": key,
                 "plaintext": pt,
                 "ciphertext": ct
             })
         else:
             raise ValueError("Invalid line in file '{}'".format(line))
     return cryptrec_list


 def load_openssl_vectors_from_file(filename):
     base = os.path.join(
         os.path.dirname(__file__), "primitives", "vectors", "OpenSSL",
     )
     with open(os.path.join(base, filename), "r") as vector_file:
         return load_openssl_vectors(vector_file)


 def load_openssl_vectors(vector_data):
     vectors = []

     for line in vector_data:
         line = line.strip()

         # Blank lines and comments are ignored
         if not line or line.startswith("#"):
             continue

         vector = line.split(":")
         vectors.append({
             "key": vector[1].encode("ascii"),
             "iv": vector[2].encode("ascii"),
             "plaintext": vector[3].encode("ascii"),
             "ciphertext": vector[4].encode("ascii"),
         })
     return vectors


 def load_hash_vectors(vector_data):
     vectors = []

     for line in vector_data:
         line = line.strip()

         if not line or line.startswith("#") or line.startswith("["):
             continue

         if line.startswith("Len"):
             length = int(line.split(" = ")[1])
         elif line.startswith("Msg"):
             """
             In the NIST vectors they have chosen to represent an empty
             string as hex 00, which is of course not actually an empty
             string. So we parse the provided length and catch this edge case.
             """
             msg = line.split(" = ")[1].encode("ascii") if length > 0 else b""
         elif line.startswith("MD"):
             md = line.split(" = ")[1]
             # after MD is found the Msg+MD tuple is complete
             vectors.append((msg, md))
         else:
             raise ValueError("Unknown line in hash vector")
     return vectors


 def load_hash_vectors_from_file(filename):
     base = os.path.join(
         os.path.dirname(__file__), "primitives", "vectors"
     )
     with open(os.path.join(base, filename), "r") as vector_file:
         return load_hash_vectors(vector_file)
	# Licensed under the Apache License, Version 2.0 (the "License");
	# you may not use this file except in compliance with the License.
	# You may obtain a copy of the License at
	#
	# http://www.apache.org/licenses/LICENSE-2.0
	#
	# Unless required by applicable law or agreed to in writing, software
	# distributed under the License is distributed on an "AS IS" BASIS,
	# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or
	# implied.
	# See the License for the specific language governing permissions and
	# limitations under the License.

	import os.path


	def load_nist_vectors(vector_data, op):
	section, count, data = None, None, {}

	for line in vector_data:
	line = line.strip()

	# Blank lines are ignored
	if not line:
	continue

	# Lines starting with # are comments
	if line.startswith("#"):
	continue

	# Look for section headers
	if line.startswith("[") and line.endswith("]"):
	section = line[1:-1]
	data[section] = {}
	continue

	# Build our data using a simple Key = Value format
	name, value = line.split(" = ")

	# COUNT is a special token that indicates a new block of data
	if name.upper() == "COUNT":
	count = value
	data[section][count] = {}
	# For all other tokens we simply want the name, value stored in
	# the dictionary
	else:
	data[section][count][name.lower()] = value.encode("ascii")

	# We want to test only for a particular operation, we sort them for the
	# benefit of the tests of this function.
	return [v for k, v in sorted(data[op].items(), key=lambda kv: kv[0])]


	def load_nist_vectors_from_file(filename, op):
	base = os.path.join(
	os.path.dirname(__file__), "primitives", "vectors", "NIST",
	)
	with open(os.path.join(base, filename), "r") as vector_file:
	return load_nist_vectors(vector_file, op)


	def load_cryptrec_vectors_from_file(filename):
	base = os.path.join(
	os.path.dirname(__file__), "primitives", "vectors", "CRYPTREC",
	)
	with open(os.path.join(base, filename), "r") as vector_file:
	return load_cryptrec_vectors(vector_file)


	def load_cryptrec_vectors(vector_data):
	cryptrec_list = []

	for line in vector_data:
	line = line.strip()

	# Blank lines and comments are ignored
	if not line or line.startswith("#"):
	continue

	if line.startswith("K"):
	key = line.split(" : ")[1].replace(" ", "").encode("ascii")
	elif line.startswith("P"):
	pt = line.split(" : ")[1].replace(" ", "").encode("ascii")
	elif line.startswith("C"):
	ct = line.split(" : ")[1].replace(" ", "").encode("ascii")
	# after a C is found the K+P+C tuple is complete
	# there are many P+C pairs for each K
	cryptrec_list.append({
	"key": key,
	"plaintext": pt,
	"ciphertext": ct
	})
	else:
	raise ValueError("Invalid line in file '{}'".format(line))
	return cryptrec_list


	def load_openssl_vectors_from_file(filename):
	base = os.path.join(
	os.path.dirname(__file__), "primitives", "vectors", "OpenSSL",
	)
	with open(os.path.join(base, filename), "r") as vector_file:
	return load_openssl_vectors(vector_file)


	def load_openssl_vectors(vector_data):
	vectors = []

	for line in vector_data:
	line = line.strip()

	# Blank lines and comments are ignored
	if not line or line.startswith("#"):
	continue

	vector = line.split(":")
	vectors.append({
	"key": vector[1].encode("ascii"),
	"iv": vector[2].encode("ascii"),
	"plaintext": vector[3].encode("ascii"),
	"ciphertext": vector[4].encode("ascii"),
	})
	return vectors


	def load_hash_vectors(vector_data):
	vectors = []

	for line in vector_data:
	line = line.strip()

	if not line or line.startswith("#") or line.startswith("["):
	continue

	if line.startswith("Len"):
	length = int(line.split(" = ")[1])
	elif line.startswith("Msg"):
	"""
	In the NIST vectors they have chosen to represent an empty
	string as hex 00, which is of course not actually an empty
	string. So we parse the provided length and catch this edge case.
	"""
	msg = line.split(" = ")[1].encode("ascii") if length > 0 else b""
	elif line.startswith("MD"):
	md = line.split(" = ")[1]
	# after MD is found the Msg+MD tuple is complete
	vectors.append((msg, md))
	else:
	raise ValueError("Unknown line in hash vector")
	return vectors


	def load_hash_vectors_from_file(filename):
	base = os.path.join(
	os.path.dirname(__file__), "primitives", "vectors"
	)
	with open(os.path.join(base, filename), "r") as vector_file:
	return load_hash_vectors(vector_file)