upstream/ipython Files · IPython/nbformat/tests/test_sign.py

Remove $el_to_style from the widget javascript code; '' now defaults to this.$el...

Remove $el_to_style from the widget javascript code; '' now defaults to this.$el This seems to make it easiest to select the top-level element. An alternative is to use special syntax for top-level elements, like in https://github.com/ipython/ipython/pull/6185 This will be followed up by other fixes that let the user set specific common properties of different elements. This change also adds the .addBack() call, which means that nonempty selectors now apply to this.$el and its descendants, rather than just the descendants of this.$el.

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      """Test Notebook signing"""

      #-----------------------------------------------------------------------------

      #  Copyright (C) 2014, The IPython Development Team

      #

      #  Distributed under the terms of the BSD License.  The full license is in

      #  the file COPYING, distributed as part of this software.

      #-----------------------------------------------------------------------------

      #-----------------------------------------------------------------------------

      # Imports

      #-----------------------------------------------------------------------------

      from .. import sign

      from .base import TestsBase

      from ..current import read

      from IPython.core.getipython import get_ipython

      #-----------------------------------------------------------------------------

      # Classes and functions

      #-----------------------------------------------------------------------------

      class TestNotary(TestsBase):

          def setUp(self):

              self.notary = sign.NotebookNotary(

                  secret=b'secret',

                  profile_dir=get_ipython().profile_dir

              )

              with self.fopen(u'test3.ipynb', u'r') as f:

                  self.nb = read(f, u'json')

          def test_algorithms(self):

              last_sig = ''

              for algo in sign.algorithms:

                  self.notary.algorithm = algo

                  self.notary.sign(self.nb)

                  sig = self.nb.metadata.signature

                  print(sig)

                  self.assertEqual(sig[:len(self.notary.algorithm)+1], '%s:' % self.notary.algorithm)

                  self.assertNotEqual(last_sig, sig)

                  last_sig = sig

          def test_sign_same(self):

              """Multiple signatures of the same notebook are the same"""

              sig1 = self.notary.compute_signature(self.nb)

              sig2 = self.notary.compute_signature(self.nb)

              self.assertEqual(sig1, sig2)

          def test_change_secret(self):

              """Changing the secret changes the signature"""

              sig1 = self.notary.compute_signature(self.nb)

              self.notary.secret = b'different'

              sig2 = self.notary.compute_signature(self.nb)

              self.assertNotEqual(sig1, sig2)

          def test_sign(self):

              self.notary.sign(self.nb)

              sig = self.nb.metadata.signature

              self.assertEqual(sig[:len(self.notary.algorithm)+1], '%s:' % self.notary.algorithm)

          def test_check_signature(self):

              nb = self.nb

              md = nb.metadata

              notary = self.notary

              check_signature = notary.check_signature

              # no signature:

              md.pop('signature', None)

              self.assertFalse(check_signature(nb))

              # hash only, no algo

              md.signature = notary.compute_signature(nb)

              self.assertFalse(check_signature(nb))

              # proper signature, algo mismatch

              notary.algorithm = 'sha224'

              notary.sign(nb)

              notary.algorithm = 'sha256'

              self.assertFalse(check_signature(nb))

              # check correctly signed notebook

              notary.sign(nb)

              self.assertTrue(check_signature(nb))

          def test_mark_cells_untrusted(self):

              cells = self.nb.worksheets[0].cells

              self.notary.mark_cells(self.nb, False)

              for cell in cells:

                  if cell.cell_type == 'code':

                      self.assertIn('trusted', cell)

                      self.assertFalse(cell.trusted)

                  else:

                      self.assertNotIn('trusted', cell)

          def test_mark_cells_trusted(self):

              cells = self.nb.worksheets[0].cells

              self.notary.mark_cells(self.nb, True)

              for cell in cells:

                  if cell.cell_type == 'code':

                      self.assertIn('trusted', cell)

                      self.assertTrue(cell.trusted)

                  else:

                      self.assertNotIn('trusted', cell)

          def test_check_cells(self):

              nb = self.nb

              self.notary.mark_cells(nb, True)

              self.assertTrue(self.notary.check_cells(nb))

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

                  self.assertNotIn('trusted', cell)

              self.notary.mark_cells(nb, False)

              self.assertFalse(self.notary.check_cells(nb))

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

                  self.assertNotIn('trusted', cell)

          def test_trust_no_output(self):

              nb = self.nb

              self.notary.mark_cells(nb, False)

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

                  if cell.cell_type == 'code':

                      cell.outputs = []

              self.assertTrue(self.notary.check_cells(nb))

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				"""Test Notebook signing"""
				#-----------------------------------------------------------------------------
				# Copyright (C) 2014, The IPython Development Team
				#
				# Distributed under the terms of the BSD License. The full license is in
				# the file COPYING, distributed as part of this software.
				#-----------------------------------------------------------------------------

				#-----------------------------------------------------------------------------
				# Imports
				#-----------------------------------------------------------------------------

				from .. import sign
				from .base import TestsBase

				from ..current import read
				from IPython.core.getipython import get_ipython

				#-----------------------------------------------------------------------------
				# Classes and functions
				#-----------------------------------------------------------------------------

				class TestNotary(TestsBase):

				def setUp(self):
				self.notary = sign.NotebookNotary(
				secret=b'secret',
				profile_dir=get_ipython().profile_dir
				)
				with self.fopen(u'test3.ipynb', u'r') as f:
				self.nb = read(f, u'json')

				def test_algorithms(self):
				last_sig = ''
				for algo in sign.algorithms:
				self.notary.algorithm = algo
				self.notary.sign(self.nb)
				sig = self.nb.metadata.signature
				print(sig)
				self.assertEqual(sig[:len(self.notary.algorithm)+1], '%s:' % self.notary.algorithm)
				self.assertNotEqual(last_sig, sig)
				last_sig = sig

				def test_sign_same(self):
				"""Multiple signatures of the same notebook are the same"""
				sig1 = self.notary.compute_signature(self.nb)
				sig2 = self.notary.compute_signature(self.nb)
				self.assertEqual(sig1, sig2)

				def test_change_secret(self):
				"""Changing the secret changes the signature"""
				sig1 = self.notary.compute_signature(self.nb)
				self.notary.secret = b'different'
				sig2 = self.notary.compute_signature(self.nb)
				self.assertNotEqual(sig1, sig2)

				def test_sign(self):
				self.notary.sign(self.nb)
				sig = self.nb.metadata.signature
				self.assertEqual(sig[:len(self.notary.algorithm)+1], '%s:' % self.notary.algorithm)

				def test_check_signature(self):
				nb = self.nb
				md = nb.metadata
				notary = self.notary
				check_signature = notary.check_signature
				# no signature:
				md.pop('signature', None)
				self.assertFalse(check_signature(nb))
				# hash only, no algo
				md.signature = notary.compute_signature(nb)
				self.assertFalse(check_signature(nb))
				# proper signature, algo mismatch
				notary.algorithm = 'sha224'
				notary.sign(nb)
				notary.algorithm = 'sha256'
				self.assertFalse(check_signature(nb))
				# check correctly signed notebook
				notary.sign(nb)
				self.assertTrue(check_signature(nb))

				def test_mark_cells_untrusted(self):
				cells = self.nb.worksheets[0].cells
				self.notary.mark_cells(self.nb, False)
				for cell in cells:
				if cell.cell_type == 'code':
				self.assertIn('trusted', cell)
				self.assertFalse(cell.trusted)
				else:
				self.assertNotIn('trusted', cell)

				def test_mark_cells_trusted(self):
				cells = self.nb.worksheets[0].cells
				self.notary.mark_cells(self.nb, True)
				for cell in cells:
				if cell.cell_type == 'code':
				self.assertIn('trusted', cell)
				self.assertTrue(cell.trusted)
				else:
				self.assertNotIn('trusted', cell)

				def test_check_cells(self):
				nb = self.nb
				self.notary.mark_cells(nb, True)
				self.assertTrue(self.notary.check_cells(nb))
				for cell in nb.worksheets[0].cells:
				self.assertNotIn('trusted', cell)
				self.notary.mark_cells(nb, False)
				self.assertFalse(self.notary.check_cells(nb))
				for cell in nb.worksheets[0].cells:
				self.assertNotIn('trusted', cell)

				def test_trust_no_output(self):
				nb = self.nb
				self.notary.mark_cells(nb, False)
				for cell in nb.worksheets[0].cells:
				if cell.cell_type == 'code':
				cell.outputs = []
				self.assertTrue(self.notary.check_cells(nb))