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      """Functions for signing notebooks"""

      # Copyright (c) IPython Development Team.

      # Distributed under the terms of the Modified BSD License.

      import base64

      from contextlib import contextmanager

      import hashlib

      from hmac import HMAC

      import io

      import os

      from IPython.utils.py3compat import string_types, unicode_type, cast_bytes

      from IPython.utils.traitlets import Instance, Bytes, Enum, Any, Unicode, Bool

      from IPython.config import LoggingConfigurable, MultipleInstanceError

      from IPython.core.application import BaseIPythonApplication, base_flags

      from .current import read, write

      try:

          # Python 3

          algorithms = hashlib.algorithms_guaranteed

      except AttributeError:

          algorithms = hashlib.algorithms

      def yield_everything(obj):

          """Yield every item in a container as bytes

          Allows any JSONable object to be passed to an HMAC digester

          without having to serialize the whole thing.

          """

          if isinstance(obj, dict):

              for key in sorted(obj):

                  value = obj[key]

                  yield cast_bytes(key)

                  for b in yield_everything(value):

                      yield b

          elif isinstance(obj, (list, tuple)):

              for element in obj:

                  for b in yield_everything(element):

                      yield b

          elif isinstance(obj, unicode_type):

              yield obj.encode('utf8')

          else:

              yield unicode_type(obj).encode('utf8')

      @contextmanager

      def signature_removed(nb):

          """Context manager for operating on a notebook with its signature removed

          Used for excluding the previous signature when computing a notebook's signature.

          """

          save_signature = nb['metadata'].pop('signature', None)

          try:

              yield

          finally:

              if save_signature is not None:

                  nb['metadata']['signature'] = save_signature

      class NotebookNotary(LoggingConfigurable):

          """A class for computing and verifying notebook signatures."""

          profile_dir = Instance("IPython.core.profiledir.ProfileDir")

          def _profile_dir_default(self):

              from IPython.core.application import BaseIPythonApplication

              app = None

              try:

                  if BaseIPythonApplication.initialized():

                      app = BaseIPythonApplication.instance()

              except MultipleInstanceError:

                  pass

              if app is None:

                  # create an app, without the global instance

                  app = BaseIPythonApplication()

                  app.initialize(argv=[])

              return app.profile_dir

          algorithm = Enum(algorithms, default_value='sha256', config=True,

              help="""The hashing algorithm used to sign notebooks."""

          )

          def _algorithm_changed(self, name, old, new):

              self.digestmod = getattr(hashlib, self.algorithm)

          digestmod = Any()

          def _digestmod_default(self):

              return getattr(hashlib, self.algorithm)

          secret_file = Unicode(config=True,

              help="""The file where the secret key is stored."""

          )

          def _secret_file_default(self):

              if self.profile_dir is None:

                  return ''

              return os.path.join(self.profile_dir.security_dir, 'notebook_secret')

          secret = Bytes(config=True,

              help="""The secret key with which notebooks are signed."""

          )

          def _secret_default(self):

              # note : this assumes an Application is running

              if os.path.exists(self.secret_file):

                  with io.open(self.secret_file, 'rb') as f:

                      return f.read()

              else:

                  secret = base64.encodestring(os.urandom(1024))

                  self._write_secret_file(secret)

                  return secret

          def _write_secret_file(self, secret):

              """write my secret to my secret_file"""

              self.log.info("Writing notebook-signing key to %s", self.secret_file)

              with io.open(self.secret_file, 'wb') as f:

                  f.write(secret)

              try:

                  os.chmod(self.secret_file, 0o600)

              except OSError:

                  self.log.warn(

                      "Could not set permissions on %s",

                      self.secret_file

                  )

              return secret

          def compute_signature(self, nb):

              """Compute a notebook's signature

              by hashing the entire contents of the notebook via HMAC digest.

              """

              hmac = HMAC(self.secret, digestmod=self.digestmod)

              # don't include the previous hash in the content to hash

              with signature_removed(nb):

                  # sign the whole thing

                  for b in yield_everything(nb):

                      hmac.update(b)

              return hmac.hexdigest()

          def check_signature(self, nb):

              """Check a notebook's stored signature

              If a signature is stored in the notebook's metadata,

              a new signature is computed and compared with the stored value.

              Returns True if the signature is found and matches, False otherwise.

              The following conditions must all be met for a notebook to be trusted:

              - a signature is stored in the form 'scheme:hexdigest'

              - the stored scheme matches the requested scheme

              - the requested scheme is available from hashlib

              - the computed hash from notebook_signature matches the stored hash

              """

              stored_signature = nb['metadata'].get('signature', None)

              if not stored_signature \

                  or not isinstance(stored_signature, string_types) \

                  or ':' not in stored_signature:

                  return False

              stored_algo, sig = stored_signature.split(':', 1)

              if self.algorithm != stored_algo:

                  return False

              my_signature = self.compute_signature(nb)

              return my_signature == sig

          def sign(self, nb):

              """Sign a notebook, indicating that its output is trusted

              stores 'algo:hmac-hexdigest' in notebook.metadata.signature

              e.g. 'sha256:deadbeef123...'

              """

              signature = self.compute_signature(nb)

              nb['metadata']['signature'] = "%s:%s" % (self.algorithm, signature)

          def mark_cells(self, nb, trusted):

              """Mark cells as trusted if the notebook's signature can be verified

              Sets ``cell.metadata.trusted = True | False`` on all code cells,

              depending on whether the stored signature can be verified.

              This function is the inverse of check_cells

              """

              if not nb['worksheets']:

                  # nothing to mark if there are no cells

                  return

              for cell in nb['worksheets'][0]['cells']:

                  if cell['cell_type'] == 'code':

                      cell['metadata']['trusted'] = trusted

          def _check_cell(self, cell):

              """Do we trust an individual cell?

              Return True if:

              - cell is explicitly trusted

              - cell has no potentially unsafe rich output

              If a cell has no output, or only simple print statements,

              it will always be trusted.

              """

              # explicitly trusted

              if cell['metadata'].pop("trusted", False):

                  return True

              # explicitly safe output

              safe = {

                  'text/plain', 'image/png', 'image/jpeg',

                  'text', 'png', 'jpg', # v3-style short keys

              }

              for output in cell['outputs']:

                  output_type = output['output_type']

                  if output_type in ('pyout', 'display_data'):

                      # if there are any data keys not in the safe whitelist

                      output_keys = set(output).difference({"output_type", "prompt_number", "metadata"})

                      if output_keys.difference(safe):

                          return False

              return True

          def check_cells(self, nb):

              """Return whether all code cells are trusted

              If there are no code cells, return True.

              This function is the inverse of mark_cells.

              """

              if not nb['worksheets']:

                  return True

              trusted = True

              for cell in nb['worksheets'][0]['cells']:

                  if cell['cell_type'] != 'code':

                      continue

                  # only distrust a cell if it actually has some output to distrust

                  if not self._check_cell(cell):

                      trusted = False

              return trusted

      trust_flags = {

          'reset' : (

              {'TrustNotebookApp' : { 'reset' : True}},

              """Generate a new key for notebook signature.

              All previously signed notebooks will become untrusted.

              """

          ),

      }

      trust_flags.update(base_flags)

      trust_flags.pop('init')

      class TrustNotebookApp(BaseIPythonApplication):

          description="""Sign one or more IPython notebooks with your key,

          to trust their dynamic (HTML, Javascript) output.

          Trusting a notebook only applies to the current IPython profile.

          To trust a notebook for use with a profile other than default,

          add `--profile [profile name]`.

          Otherwise, you will have to re-execute the notebook to see output.

          """

          examples = """

          ipython trust mynotebook.ipynb and_this_one.ipynb

          ipython trust --profile myprofile mynotebook.ipynb

          """

          flags = trust_flags

          reset = Bool(False, config=True,

              help="""If True, generate a new key for notebook signature.

              After reset, all previously signed notebooks will become untrusted.

              """

          )

          notary = Instance(NotebookNotary)

          def _notary_default(self):

              return NotebookNotary(parent=self, profile_dir=self.profile_dir)

          def sign_notebook(self, notebook_path):

              if not os.path.exists(notebook_path):

                  self.log.error("Notebook missing: %s" % notebook_path)

                  self.exit(1)

              with io.open(notebook_path, encoding='utf8') as f:

                  nb = read(f, 'json')

              if self.notary.check_signature(nb):

                  print("Notebook already signed: %s" % notebook_path)

              else:

                  print("Signing notebook: %s" % notebook_path)

                  self.notary.sign(nb)

                  with io.open(notebook_path, 'w', encoding='utf8') as f:

                      write(nb, f, 'json')

          def generate_new_key(self):

              """Generate a new notebook signature key"""

              print("Generating new notebook key: %s" % self.notary.secret_file)

              self.notary._write_secret_file(os.urandom(1024))

          def start(self):

              if self.reset:

                  self.generate_new_key()

                  return

              if not self.extra_args:

                  self.log.critical("Specify at least one notebook to sign.")

                  self.exit(1)

              for notebook_path in self.extra_args:

                  self.sign_notebook(notebook_path)

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				"""Functions for signing notebooks"""

				# Copyright (c) IPython Development Team.
				# Distributed under the terms of the Modified BSD License.

				import base64
				from contextlib import contextmanager
				import hashlib
				from hmac import HMAC
				import io
				import os

				from IPython.utils.py3compat import string_types, unicode_type, cast_bytes
				from IPython.utils.traitlets import Instance, Bytes, Enum, Any, Unicode, Bool
				from IPython.config import LoggingConfigurable, MultipleInstanceError
				from IPython.core.application import BaseIPythonApplication, base_flags

				from .current import read, write


				try:
				# Python 3
				algorithms = hashlib.algorithms_guaranteed
				except AttributeError:
				algorithms = hashlib.algorithms


				def yield_everything(obj):
				"""Yield every item in a container as bytes

				Allows any JSONable object to be passed to an HMAC digester
				without having to serialize the whole thing.
				"""
				if isinstance(obj, dict):
				for key in sorted(obj):
				value = obj[key]
				yield cast_bytes(key)
				for b in yield_everything(value):
				yield b
				elif isinstance(obj, (list, tuple)):
				for element in obj:
				for b in yield_everything(element):
				yield b
				elif isinstance(obj, unicode_type):
				yield obj.encode('utf8')
				else:
				yield unicode_type(obj).encode('utf8')


				@contextmanager
				def signature_removed(nb):
				"""Context manager for operating on a notebook with its signature removed

				Used for excluding the previous signature when computing a notebook's signature.
				"""
				save_signature = nb['metadata'].pop('signature', None)
				try:
				yield
				finally:
				if save_signature is not None:
				nb['metadata']['signature'] = save_signature


				class NotebookNotary(LoggingConfigurable):
				"""A class for computing and verifying notebook signatures."""

				profile_dir = Instance("IPython.core.profiledir.ProfileDir")
				def _profile_dir_default(self):
				from IPython.core.application import BaseIPythonApplication
				app = None
				try:
				if BaseIPythonApplication.initialized():
				app = BaseIPythonApplication.instance()
				except MultipleInstanceError:
				pass
				if app is None:
				# create an app, without the global instance
				app = BaseIPythonApplication()
				app.initialize(argv=[])
				return app.profile_dir

				algorithm = Enum(algorithms, default_value='sha256', config=True,
				help="""The hashing algorithm used to sign notebooks."""
				)
				def _algorithm_changed(self, name, old, new):
				self.digestmod = getattr(hashlib, self.algorithm)

				digestmod = Any()
				def _digestmod_default(self):
				return getattr(hashlib, self.algorithm)

				secret_file = Unicode(config=True,
				help="""The file where the secret key is stored."""
				)
				def _secret_file_default(self):
				if self.profile_dir is None:
				return ''
				return os.path.join(self.profile_dir.security_dir, 'notebook_secret')

				secret = Bytes(config=True,
				help="""The secret key with which notebooks are signed."""
				)
				def _secret_default(self):
				# note : this assumes an Application is running
				if os.path.exists(self.secret_file):
				with io.open(self.secret_file, 'rb') as f:
				return f.read()
				else:
				secret = base64.encodestring(os.urandom(1024))
				self._write_secret_file(secret)
				return secret

				def _write_secret_file(self, secret):
				"""write my secret to my secret_file"""
				self.log.info("Writing notebook-signing key to %s", self.secret_file)
				with io.open(self.secret_file, 'wb') as f:
				f.write(secret)
				try:
				os.chmod(self.secret_file, 0o600)
				except OSError:
				self.log.warn(
				"Could not set permissions on %s",
				self.secret_file
				)
				return secret

				def compute_signature(self, nb):
				"""Compute a notebook's signature

				by hashing the entire contents of the notebook via HMAC digest.
				"""
				hmac = HMAC(self.secret, digestmod=self.digestmod)
				# don't include the previous hash in the content to hash
				with signature_removed(nb):
				# sign the whole thing
				for b in yield_everything(nb):
				hmac.update(b)

				return hmac.hexdigest()

				def check_signature(self, nb):
				"""Check a notebook's stored signature

				If a signature is stored in the notebook's metadata,
				a new signature is computed and compared with the stored value.

				Returns True if the signature is found and matches, False otherwise.

				The following conditions must all be met for a notebook to be trusted:
				- a signature is stored in the form 'scheme:hexdigest'
				- the stored scheme matches the requested scheme
				- the requested scheme is available from hashlib
				- the computed hash from notebook_signature matches the stored hash
				"""
				stored_signature = nb['metadata'].get('signature', None)
				if not stored_signature \
				or not isinstance(stored_signature, string_types) \
				or ':' not in stored_signature:
				return False
				stored_algo, sig = stored_signature.split(':', 1)
				if self.algorithm != stored_algo:
				return False
				my_signature = self.compute_signature(nb)
				return my_signature == sig

				def sign(self, nb):
				"""Sign a notebook, indicating that its output is trusted

				stores 'algo:hmac-hexdigest' in notebook.metadata.signature

				e.g. 'sha256:deadbeef123...'
				"""
				signature = self.compute_signature(nb)
				nb['metadata']['signature'] = "%s:%s" % (self.algorithm, signature)

				def mark_cells(self, nb, trusted):
				"""Mark cells as trusted if the notebook's signature can be verified

				Sets ``cell.metadata.trusted = True \| False`` on all code cells,
				depending on whether the stored signature can be verified.

				This function is the inverse of check_cells
				"""
				if not nb['worksheets']:
				# nothing to mark if there are no cells
				return
				for cell in nb['worksheets'][0]['cells']:
				if cell['cell_type'] == 'code':
				cell['metadata']['trusted'] = trusted

				def _check_cell(self, cell):
				"""Do we trust an individual cell?

				Return True if:

				- cell is explicitly trusted
				- cell has no potentially unsafe rich output

				If a cell has no output, or only simple print statements,
				it will always be trusted.
				"""
				# explicitly trusted
				if cell['metadata'].pop("trusted", False):
				return True

				# explicitly safe output
				safe = {
				'text/plain', 'image/png', 'image/jpeg',
				'text', 'png', 'jpg', # v3-style short keys
				}

				for output in cell['outputs']:
				output_type = output['output_type']
				if output_type in ('pyout', 'display_data'):
				# if there are any data keys not in the safe whitelist
				output_keys = set(output).difference({"output_type", "prompt_number", "metadata"})
				if output_keys.difference(safe):
				return False

				return True

				def check_cells(self, nb):
				"""Return whether all code cells are trusted

				If there are no code cells, return True.

				This function is the inverse of mark_cells.
				"""
				if not nb['worksheets']:
				return True
				trusted = True
				for cell in nb['worksheets'][0]['cells']:
				if cell['cell_type'] != 'code':
				continue
				# only distrust a cell if it actually has some output to distrust
				if not self._check_cell(cell):
				trusted = False

				return trusted


				trust_flags = {
				'reset' : (
				{'TrustNotebookApp' : { 'reset' : True}},
				"""Generate a new key for notebook signature.
				All previously signed notebooks will become untrusted.
				"""
				),
				}
				trust_flags.update(base_flags)
				trust_flags.pop('init')


				class TrustNotebookApp(BaseIPythonApplication):

				description="""Sign one or more IPython notebooks with your key,
				to trust their dynamic (HTML, Javascript) output.

				Trusting a notebook only applies to the current IPython profile.
				To trust a notebook for use with a profile other than default,
				add `--profile [profile name]`.

				Otherwise, you will have to re-execute the notebook to see output.
				"""

				examples = """
				ipython trust mynotebook.ipynb and_this_one.ipynb
				ipython trust --profile myprofile mynotebook.ipynb
				"""

				flags = trust_flags

				reset = Bool(False, config=True,
				help="""If True, generate a new key for notebook signature.
				After reset, all previously signed notebooks will become untrusted.
				"""
				)

				notary = Instance(NotebookNotary)
				def _notary_default(self):
				return NotebookNotary(parent=self, profile_dir=self.profile_dir)

				def sign_notebook(self, notebook_path):
				if not os.path.exists(notebook_path):
				self.log.error("Notebook missing: %s" % notebook_path)
				self.exit(1)
				with io.open(notebook_path, encoding='utf8') as f:
				nb = read(f, 'json')
				if self.notary.check_signature(nb):
				print("Notebook already signed: %s" % notebook_path)
				else:
				print("Signing notebook: %s" % notebook_path)
				self.notary.sign(nb)
				with io.open(notebook_path, 'w', encoding='utf8') as f:
				write(nb, f, 'json')

				def generate_new_key(self):
				"""Generate a new notebook signature key"""
				print("Generating new notebook key: %s" % self.notary.secret_file)
				self.notary._write_secret_file(os.urandom(1024))

				def start(self):
				if self.reset:
				self.generate_new_key()
				return
				if not self.extra_args:
				self.log.critical("Specify at least one notebook to sign.")
				self.exit(1)

				for notebook_path in self.extra_args:
				self.sign_notebook(notebook_path)