upstream/ipython Files · IPython/nbformat/sign.py

use invoke instead of fabric...

use invoke instead of fabric it's the descendant of the part of fabric we actually use, it doesn't have complex compiled dependencies like fabric, and it works on Python 3.

MinRK - - Load All Authors

File last commit:

r18255:e8b4bab5


                r18351:0ab76370

Download file

             sign.py
        
                    312 lines
            
             | 10.4 KiB
            
                | text/x-python
            
             |
                PythonLexer
            
             / IPython / nbformat / sign.py
          
                    History
                
                 |
                  Annotation
                 | Raw
                 |Copy content
                 |Copy permalink

      """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)

	Site-wide shortcuts
/	Use quick search box
g h	Goto home page
g g	Goto my private gists page
g G	Goto my public gists page
g 0-9	Goto bookmarked items from 0-9
n r	New repository page
n g	New gist page

	Repositories
g s	Goto summary page
g c	Goto changelog page
g f	Goto files page
g F	Goto files page with file search activated
g p	Goto pull requests page
g o	Goto repository settings
g O	Goto repository access permissions settings
t s	Toggle sidebar on some pages

				"""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)