pw_build/py/zip_test.py - pigweed/pigweed - Git at Google

 # Copyright 2020 The Pigweed Authors
 #
 # 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
 #
 #     https://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.
 """Tests for the pw_build.zip module."""

 import unittest
 import os
 import tempfile
 import pathlib
 import zipfile

 from pw_build.zip import zip_up, ZipError

 DELIMITER = '>'
 IN_FILENAMES = [
     'file1.txt',
     'file2.txt',
     'dir1/file3.txt',
     'dir1/file4.txt',
     'dir1/dir2/file5.txt',
     'dir1/dir2/file6.txt',
 ]


 def make_directory(parent_path: pathlib.Path, dir_name: str, filenames: list):
     """Creates a directory and returns a pathlib.Path() of it's root dir.

         Args:
             parent_path: Path to directory where the new directory will be made.
             dir_name: Name of the new directory.
             filenames: list of file contents of the new directory. Also allows
                 the creation of subdirectories. Example:
                 [
                     'file1.txt',
                     'subdir/file2.txt'
                 ]

         Returns: pathlib.Path() to the newly created directory.
     """
     root_path = pathlib.Path(parent_path / dir_name)
     os.mkdir(root_path)
     for filename in filenames:
         # Make the sub directories if they don't already exist.
         directories = filename.split('/')[:-1]
         for i in range(len(directories)):
             directory = pathlib.PurePath('/'.join(directories[:i + 1]))
             if not (root_path / directory).is_dir():
                 os.mkdir(root_path / directory)

         # Create a file at the destination.
         touch(root_path, filename)
     return root_path


 def touch(parent_dir: pathlib.Path, filename: str):
     """Creates an empty file at parent_dir/filename."""
     with open(parent_dir / filename, 'a') as touch_file:
         touch_file.write(filename)


 def get_directory_contents(path: pathlib.Path):
     """Iterates through a directory and returns a set of its contents."""
     contents = set()
     for filename in path.glob('**/*'):
         # Remove the original parent directories to get just the relative path.
         contents.add(filename.relative_to(path))
     return contents


 class TestZipping(unittest.TestCase):
     """Tests for the pw_build.zip module."""
     def test_zip_up_file(self):
         with tempfile.TemporaryDirectory() as tmp_dir:
             # Arrange.
             tmp_path = pathlib.Path(tmp_dir)
             in_path = make_directory(tmp_path, 'in', IN_FILENAMES)
             input_list = [f'{in_path}/file1.txt {DELIMITER} /']
             out_filename = f'{tmp_path}/out.zip'

             # Act.
             zip_up(input_list, out_filename)
             out_path = pathlib.Path(f'{tmp_path}/out/')
             with zipfile.ZipFile(out_filename, 'r') as zip_file:
                 zip_file.extractall(out_path)
             expected_path = make_directory(tmp_path, 'expected', ['file1.txt'])

             # Assert.
             self.assertSetEqual(get_directory_contents(out_path),
                                 get_directory_contents(expected_path))

     def test_zip_up_dir(self):
         with tempfile.TemporaryDirectory() as tmp_dir:
             # Arrange.
             tmp_path = pathlib.Path(tmp_dir)
             in_path = make_directory(tmp_path, 'in', IN_FILENAMES)
             input_list = [f'{in_path}/dir1/ {DELIMITER} /']
             out_filename = f'{tmp_path}/out.zip'

             # Act.
             zip_up(input_list, out_filename)
             out_path = pathlib.Path(f'{tmp_path}/out/')
             with zipfile.ZipFile(out_filename, 'r') as zip_file:
                 zip_file.extractall(out_path)
             expected_path = make_directory(tmp_path, 'expected', [
                 'file3.txt',
                 'file4.txt',
                 'dir2/file5.txt',
                 'dir2/file6.txt',
             ])

             # Assert.
             self.assertSetEqual(get_directory_contents(out_path),
                                 get_directory_contents(expected_path))

     def test_file_rename(self):
         with tempfile.TemporaryDirectory() as tmp_dir:
             # Arrange.
             tmp_path = pathlib.Path(tmp_dir)
             in_path = make_directory(tmp_path, 'in', IN_FILENAMES)
             input_list = [f'{in_path}/file1.txt {DELIMITER} /renamed.txt']
             out_filename = f'{tmp_path}/out.zip'

             # Act.
             zip_up(input_list, out_filename)
             out_path = pathlib.Path(f'{tmp_path}/out/')
             with zipfile.ZipFile(out_filename, 'r') as zip_file:
                 zip_file.extractall(out_path)
             expected_path = make_directory(tmp_path, 'expected',
                                            ['renamed.txt'])

             # Assert.
             self.assertSetEqual(get_directory_contents(out_path),
                                 get_directory_contents(expected_path))

     def test_file_move(self):
         with tempfile.TemporaryDirectory() as tmp_dir:
             # Arrange.
             tmp_path = pathlib.Path(tmp_dir)
             in_path = make_directory(tmp_path, 'in', IN_FILENAMES)
             input_list = [f'{in_path}/file1.txt {DELIMITER} /foo/']
             out_filename = f'{tmp_path}/out.zip'

             # Act.
             zip_up(input_list, out_filename)
             out_path = pathlib.Path(f'{tmp_path}/out/')
             with zipfile.ZipFile(out_filename, 'r') as zip_file:
                 zip_file.extractall(out_path)
             expected_path = make_directory(tmp_path, 'expected',
                                            ['foo/file1.txt'])

             # Assert.
             self.assertSetEqual(get_directory_contents(out_path),
                                 get_directory_contents(expected_path))

     def test_dir_move(self):
         with tempfile.TemporaryDirectory() as tmp_dir:
             # Arrange.
             tmp_path = pathlib.Path(tmp_dir)
             in_path = make_directory(tmp_path, 'in', IN_FILENAMES)
             input_list = [f'{in_path}/dir1/ {DELIMITER} /foo/']
             out_filename = f'{tmp_path}/out.zip'

             # Act.
             zip_up(input_list, out_filename)
             out_path = pathlib.Path(f'{tmp_path}/out/')
             with zipfile.ZipFile(out_filename, 'r') as zip_file:
                 zip_file.extractall(out_path)
             expected_path = make_directory(tmp_path, 'expected', [
                 'foo/file3.txt',
                 'foo/file4.txt',
                 'foo/dir2/file5.txt',
                 'foo/dir2/file6.txt',
             ])

             # Assert.
             self.assertSetEqual(get_directory_contents(out_path),
                                 get_directory_contents(expected_path))

     def test_change_delimiter(self):
         with tempfile.TemporaryDirectory() as tmp_dir:
             # Arrange.
             tmp_path = pathlib.Path(tmp_dir)
             in_path = make_directory(tmp_path, 'in', IN_FILENAMES)
             delimiter = '==>'
             input_list = [f'{in_path}/file1.txt {delimiter} /']
             out_filename = f'{tmp_path}/out.zip'

             # Act.
             zip_up(input_list, out_filename, delimiter=delimiter)
             out_path = pathlib.Path(f'{tmp_path}/out/')
             with zipfile.ZipFile(out_filename, 'r') as zip_file:
                 zip_file.extractall(out_path)
             expected_path = make_directory(tmp_path, 'expected', ['file1.txt'])

             # Assert.
             self.assertSetEqual(get_directory_contents(out_path),
                                 get_directory_contents(expected_path))

     def test_wrong_input_syntax_raises_error(self):
         with tempfile.TemporaryDirectory() as tmp_dir:
             # Arrange.
             bad_inputs = [
                 '',  # Empty input
                 f'{tmp_dir}/ /',  # No delimiter
                 f'{tmp_dir}/ {DELIMITER} ',  # No zip destination
                 f'{tmp_dir} /',  # No source
                 f'{tmp_dir}/',  # No delimiter or zip destination
                 f'{DELIMITER}',  # No source or zip destination
                 f'{tmp_dir} {DELIMITER} /',  # No trailing source '/'
                 f'{tmp_dir}/ {DELIMITER} foo/',  # No leading zip root '/'
                 f'{tmp_dir}/ {DELIMITER} /foo',  # No trailing zip dest '/'
                 f'{tmp_dir}/ {DELIMITER} /{tmp_dir}/ '
                 f'{DELIMITER} /{tmp_dir}/',  # Too many paths on split
             ]
             out_filename = f'{tmp_dir}/out.zip'

             # Act & Assert.
             for bad_input in bad_inputs:
                 with self.assertRaises(ZipError):
                     zip_up([bad_input], out_filename)

     def test_nonexistant_file_raises_error(self):
         with tempfile.TemporaryDirectory() as tmp_dir:
             # Arrange.
             input_list = [f'{tmp_dir}/nonexistant-file.txt > /']
             out_filename = f'{tmp_dir}/out.zip'

             # Act & Assert.
             with self.assertRaises(ZipError):
                 zip_up(input_list, out_filename)

     def test_nonexistant_dir_raises_error(self):
         with tempfile.TemporaryDirectory() as tmp_dir:
             # Arrange.
             input_list = [f'{tmp_dir}/nonexistant-dir/ > /']
             out_filename = f'{tmp_dir}/out.zip'

             # Act & Assert.
             with self.assertRaises(ZipError):
                 zip_up(input_list, out_filename)


 if __name__ == '__main__':
     unittest.main()
	# Copyright 2020 The Pigweed Authors
	#
	# 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
	#
	# https://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.
	"""Tests for the pw_build.zip module."""

	import unittest
	import os
	import tempfile
	import pathlib
	import zipfile

	from pw_build.zip import zip_up, ZipError

	DELIMITER = '>'
	IN_FILENAMES = [
	'file1.txt',
	'file2.txt',
	'dir1/file3.txt',
	'dir1/file4.txt',
	'dir1/dir2/file5.txt',
	'dir1/dir2/file6.txt',
	]


	def make_directory(parent_path: pathlib.Path, dir_name: str, filenames: list):
	"""Creates a directory and returns a pathlib.Path() of it's root dir.

	Args:
	parent_path: Path to directory where the new directory will be made.
	dir_name: Name of the new directory.
	filenames: list of file contents of the new directory. Also allows
	the creation of subdirectories. Example:
	[
	'file1.txt',
	'subdir/file2.txt'
	]

	Returns: pathlib.Path() to the newly created directory.
	"""
	root_path = pathlib.Path(parent_path / dir_name)
	os.mkdir(root_path)
	for filename in filenames:
	# Make the sub directories if they don't already exist.
	directories = filename.split('/')[:-1]
	for i in range(len(directories)):
	directory = pathlib.PurePath('/'.join(directories[:i + 1]))
	if not (root_path / directory).is_dir():
	os.mkdir(root_path / directory)

	# Create a file at the destination.
	touch(root_path, filename)
	return root_path


	def touch(parent_dir: pathlib.Path, filename: str):
	"""Creates an empty file at parent_dir/filename."""
	with open(parent_dir / filename, 'a') as touch_file:
	touch_file.write(filename)


	def get_directory_contents(path: pathlib.Path):
	"""Iterates through a directory and returns a set of its contents."""
	contents = set()
	for filename in path.glob('*/'):
	# Remove the original parent directories to get just the relative path.
	contents.add(filename.relative_to(path))
	return contents


	class TestZipping(unittest.TestCase):
	"""Tests for the pw_build.zip module."""
	def test_zip_up_file(self):
	with tempfile.TemporaryDirectory() as tmp_dir:
	# Arrange.
	tmp_path = pathlib.Path(tmp_dir)
	in_path = make_directory(tmp_path, 'in', IN_FILENAMES)
	input_list = [f'{in_path}/file1.txt {DELIMITER} /']
	out_filename = f'{tmp_path}/out.zip'

	# Act.
	zip_up(input_list, out_filename)
	out_path = pathlib.Path(f'{tmp_path}/out/')
	with zipfile.ZipFile(out_filename, 'r') as zip_file:
	zip_file.extractall(out_path)
	expected_path = make_directory(tmp_path, 'expected', ['file1.txt'])

	# Assert.
	self.assertSetEqual(get_directory_contents(out_path),
	get_directory_contents(expected_path))

	def test_zip_up_dir(self):
	with tempfile.TemporaryDirectory() as tmp_dir:
	# Arrange.
	tmp_path = pathlib.Path(tmp_dir)
	in_path = make_directory(tmp_path, 'in', IN_FILENAMES)
	input_list = [f'{in_path}/dir1/ {DELIMITER} /']
	out_filename = f'{tmp_path}/out.zip'

	# Act.
	zip_up(input_list, out_filename)
	out_path = pathlib.Path(f'{tmp_path}/out/')
	with zipfile.ZipFile(out_filename, 'r') as zip_file:
	zip_file.extractall(out_path)
	expected_path = make_directory(tmp_path, 'expected', [
	'file3.txt',
	'file4.txt',
	'dir2/file5.txt',
	'dir2/file6.txt',
	])

	# Assert.
	self.assertSetEqual(get_directory_contents(out_path),
	get_directory_contents(expected_path))

	def test_file_rename(self):
	with tempfile.TemporaryDirectory() as tmp_dir:
	# Arrange.
	tmp_path = pathlib.Path(tmp_dir)
	in_path = make_directory(tmp_path, 'in', IN_FILENAMES)
	input_list = [f'{in_path}/file1.txt {DELIMITER} /renamed.txt']
	out_filename = f'{tmp_path}/out.zip'

	# Act.
	zip_up(input_list, out_filename)
	out_path = pathlib.Path(f'{tmp_path}/out/')
	with zipfile.ZipFile(out_filename, 'r') as zip_file:
	zip_file.extractall(out_path)
	expected_path = make_directory(tmp_path, 'expected',
	['renamed.txt'])

	# Assert.
	self.assertSetEqual(get_directory_contents(out_path),
	get_directory_contents(expected_path))

	def test_file_move(self):
	with tempfile.TemporaryDirectory() as tmp_dir:
	# Arrange.
	tmp_path = pathlib.Path(tmp_dir)
	in_path = make_directory(tmp_path, 'in', IN_FILENAMES)
	input_list = [f'{in_path}/file1.txt {DELIMITER} /foo/']
	out_filename = f'{tmp_path}/out.zip'

	# Act.
	zip_up(input_list, out_filename)
	out_path = pathlib.Path(f'{tmp_path}/out/')
	with zipfile.ZipFile(out_filename, 'r') as zip_file:
	zip_file.extractall(out_path)
	expected_path = make_directory(tmp_path, 'expected',
	['foo/file1.txt'])

	# Assert.
	self.assertSetEqual(get_directory_contents(out_path),
	get_directory_contents(expected_path))

	def test_dir_move(self):
	with tempfile.TemporaryDirectory() as tmp_dir:
	# Arrange.
	tmp_path = pathlib.Path(tmp_dir)
	in_path = make_directory(tmp_path, 'in', IN_FILENAMES)
	input_list = [f'{in_path}/dir1/ {DELIMITER} /foo/']
	out_filename = f'{tmp_path}/out.zip'

	# Act.
	zip_up(input_list, out_filename)
	out_path = pathlib.Path(f'{tmp_path}/out/')
	with zipfile.ZipFile(out_filename, 'r') as zip_file:
	zip_file.extractall(out_path)
	expected_path = make_directory(tmp_path, 'expected', [
	'foo/file3.txt',
	'foo/file4.txt',
	'foo/dir2/file5.txt',
	'foo/dir2/file6.txt',
	])

	# Assert.
	self.assertSetEqual(get_directory_contents(out_path),
	get_directory_contents(expected_path))

	def test_change_delimiter(self):
	with tempfile.TemporaryDirectory() as tmp_dir:
	# Arrange.
	tmp_path = pathlib.Path(tmp_dir)
	in_path = make_directory(tmp_path, 'in', IN_FILENAMES)
	delimiter = '==>'
	input_list = [f'{in_path}/file1.txt {delimiter} /']
	out_filename = f'{tmp_path}/out.zip'

	# Act.
	zip_up(input_list, out_filename, delimiter=delimiter)
	out_path = pathlib.Path(f'{tmp_path}/out/')
	with zipfile.ZipFile(out_filename, 'r') as zip_file:
	zip_file.extractall(out_path)
	expected_path = make_directory(tmp_path, 'expected', ['file1.txt'])

	# Assert.
	self.assertSetEqual(get_directory_contents(out_path),
	get_directory_contents(expected_path))

	def test_wrong_input_syntax_raises_error(self):
	with tempfile.TemporaryDirectory() as tmp_dir:
	# Arrange.
	bad_inputs = [
	'', # Empty input
	f'{tmp_dir}/ /', # No delimiter
	f'{tmp_dir}/ {DELIMITER} ', # No zip destination
	f'{tmp_dir} /', # No source
	f'{tmp_dir}/', # No delimiter or zip destination
	f'{DELIMITER}', # No source or zip destination
	f'{tmp_dir} {DELIMITER} /', # No trailing source '/'
	f'{tmp_dir}/ {DELIMITER} foo/', # No leading zip root '/'
	f'{tmp_dir}/ {DELIMITER} /foo', # No trailing zip dest '/'
	f'{tmp_dir}/ {DELIMITER} /{tmp_dir}/ '
	f'{DELIMITER} /{tmp_dir}/', # Too many paths on split
	]
	out_filename = f'{tmp_dir}/out.zip'

	# Act & Assert.
	for bad_input in bad_inputs:
	with self.assertRaises(ZipError):
	zip_up([bad_input], out_filename)

	def test_nonexistant_file_raises_error(self):
	with tempfile.TemporaryDirectory() as tmp_dir:
	# Arrange.
	input_list = [f'{tmp_dir}/nonexistant-file.txt > /']
	out_filename = f'{tmp_dir}/out.zip'

	# Act & Assert.
	with self.assertRaises(ZipError):
	zip_up(input_list, out_filename)

	def test_nonexistant_dir_raises_error(self):
	with tempfile.TemporaryDirectory() as tmp_dir:
	# Arrange.
	input_list = [f'{tmp_dir}/nonexistant-dir/ > /']
	out_filename = f'{tmp_dir}/out.zip'

	# Act & Assert.
	with self.assertRaises(ZipError):
	zip_up(input_list, out_filename)


	if __name__ == '__main__':
	unittest.main()