-#!/usr/bin/env python
-# -*- coding: utf-8 -*-
-
+# Copyright (C) The Arvados Authors. All rights reserved.
+#
+# SPDX-License-Identifier: Apache-2.0
+
+from __future__ import absolute_import
+from __future__ import division
+from future import standard_library
+standard_library.install_aliases()
+from builtins import str
+from builtins import range
import apiclient
-import io
+import datetime
+import hashlib
+import json
import mock
import os
import pwd
+import random
import re
import shutil
import subprocess
import sys
import tempfile
+import threading
import time
import unittest
-import yaml
-import threading
-import hashlib
-import random
import uuid
-
-from cStringIO import StringIO
+import yaml
import arvados
import arvados.commands.put as arv_put
-import arvados_testutil as tutil
+from . import arvados_testutil as tutil
-from arvados_testutil import ArvadosBaseTestCase, fake_httplib2_response
-import run_test_server
+from .arvados_testutil import ArvadosBaseTestCase, fake_httplib2_response
+from . import run_test_server
class ArvadosPutResumeCacheTest(ArvadosBaseTestCase):
CACHE_ARGSET = [
self.last_cache.close()
resume_cache = arv_put.ResumeCache(self.last_cache.filename)
self.assertNotEqual(None, resume_cache)
- self.assertRaises(None, resume_cache.check_cache())
+ resume_cache.check_cache()
def test_basic_cache_storage(self):
thing = ['test', 'list']
_, self.large_file_name = tempfile.mkstemp()
fileobj = open(self.large_file_name, 'w')
# Make sure to write just a little more than one block
- for _ in range((arvados.config.KEEP_BLOCK_SIZE/(1024*1024))+1):
- data = random.choice(['x', 'y', 'z']) * 1024 * 1024 # 1 MB
+ for _ in range((arvados.config.KEEP_BLOCK_SIZE>>20)+1):
+ data = random.choice(['x', 'y', 'z']) * 1024 * 1024 # 1 MiB
fileobj.write(data)
fileobj.close()
# Temp dir containing small files to be repacked
def test_passing_nonexistant_path_raise_exception(self):
uuid_str = str(uuid.uuid4())
- cwriter = arv_put.ArvPutUploadJob(["/this/path/does/not/exist/{}".format(uuid_str)])
with self.assertRaises(arv_put.PathDoesNotExistError):
- cwriter.start(save_collection=False)
+ cwriter = arv_put.ArvPutUploadJob(["/this/path/does/not/exist/{}".format(uuid_str)])
def test_writer_works_without_cache(self):
cwriter = arv_put.ArvPutUploadJob(['/dev/null'], resume=False)
def test_writer_works_with_cache(self):
with tempfile.NamedTemporaryFile() as f:
- f.write('foo')
+ f.write(b'foo')
f.flush()
cwriter = arv_put.ArvPutUploadJob([f.name])
cwriter.start(save_collection=False)
- self.assertEqual(3, cwriter.bytes_written - cwriter.bytes_skipped)
+ self.assertEqual(0, cwriter.bytes_skipped)
+ self.assertEqual(3, cwriter.bytes_written)
# Don't destroy the cache, and start another upload
cwriter_new = arv_put.ArvPutUploadJob([f.name])
cwriter_new.start(save_collection=False)
cwriter_new.destroy_cache()
- self.assertEqual(0, cwriter_new.bytes_written - cwriter_new.bytes_skipped)
+ self.assertEqual(3, cwriter_new.bytes_skipped)
+ self.assertEqual(3, cwriter_new.bytes_written)
def make_progress_tester(self):
progression = []
def test_progress_reporting(self):
with tempfile.NamedTemporaryFile() as f:
- f.write('foo')
+ f.write(b'foo')
f.flush()
for expect_count in (None, 8):
progression, reporter = self.make_progress_tester()
cwriter = arv_put.ArvPutUploadJob([f.name],
- reporter=reporter, bytes_expected=expect_count)
+ reporter=reporter)
+ cwriter.bytes_expected = expect_count
cwriter.start(save_collection=False)
cwriter.destroy_cache()
self.assertIn((3, expect_count), progression)
self.assertGreater(writer.bytes_written, 0)
self.assertLess(writer.bytes_written,
os.path.getsize(self.large_file_name))
- # Retry the upload using dry_run to check if there is a pending upload
- writer2 = arv_put.ArvPutUploadJob([self.large_file_name],
- replication_desired=1,
- dry_run=True)
with self.assertRaises(arv_put.ArvPutUploadIsPending):
- writer2.start(save_collection=False)
+ # Retry the upload using dry_run to check if there is a pending upload
+ writer2 = arv_put.ArvPutUploadJob([self.large_file_name],
+ replication_desired=1,
+ dry_run=True)
# Complete the pending upload
writer3 = arv_put.ArvPutUploadJob([self.large_file_name],
replication_desired=1)
writer3.start(save_collection=False)
- # Confirm there's no pending upload with dry_run=True
- writer4 = arv_put.ArvPutUploadJob([self.large_file_name],
- replication_desired=1,
- dry_run=True)
with self.assertRaises(arv_put.ArvPutUploadNotPending):
- writer4.start(save_collection=False)
- writer4.destroy_cache()
+ # Confirm there's no pending upload with dry_run=True
+ writer4 = arv_put.ArvPutUploadJob([self.large_file_name],
+ replication_desired=1,
+ dry_run=True)
# Test obvious cases
with self.assertRaises(arv_put.ArvPutUploadIsPending):
arv_put.ArvPutUploadJob([self.large_file_name],
TEST_SIZE = os.path.getsize(__file__)
def test_expected_bytes_for_file(self):
+ writer = arv_put.ArvPutUploadJob([__file__])
self.assertEqual(self.TEST_SIZE,
- arv_put.expected_bytes_for([__file__]))
+ writer.bytes_expected)
def test_expected_bytes_for_tree(self):
tree = self.make_tmpdir()
shutil.copyfile(__file__, os.path.join(tree, 'one'))
shutil.copyfile(__file__, os.path.join(tree, 'two'))
+
+ writer = arv_put.ArvPutUploadJob([tree])
self.assertEqual(self.TEST_SIZE * 2,
- arv_put.expected_bytes_for([tree]))
+ writer.bytes_expected)
+ writer = arv_put.ArvPutUploadJob([tree, __file__])
self.assertEqual(self.TEST_SIZE * 3,
- arv_put.expected_bytes_for([tree, __file__]))
+ writer.bytes_expected)
def test_expected_bytes_for_device(self):
- self.assertIsNone(arv_put.expected_bytes_for(['/dev/null']))
- self.assertIsNone(arv_put.expected_bytes_for([__file__, '/dev/null']))
+ writer = arv_put.ArvPutUploadJob(['/dev/null'])
+ self.assertIsNone(writer.bytes_expected)
+ writer = arv_put.ArvPutUploadJob([__file__, '/dev/null'])
+ self.assertIsNone(writer.bytes_expected)
class ArvadosPutReportTest(ArvadosBaseTestCase):
def test_known_human_progress(self):
for count, total in [(0, 1), (2, 4), (45, 60)]:
- expect = '{:.1%}'.format(float(count) / total)
+ expect = '{:.1%}'.format(1.0*count/total)
actual = arv_put.human_progress(count, total)
self.assertTrue(actual.startswith('\r'))
self.assertIn(expect, actual)
arv_put.human_progress(count, None)))
-class ArvadosPutTest(run_test_server.TestCaseWithServers, ArvadosBaseTestCase):
+class ArvadosPutTest(run_test_server.TestCaseWithServers,
+ ArvadosBaseTestCase,
+ tutil.VersionChecker):
MAIN_SERVER = {}
Z_UUID = 'zzzzz-zzzzz-zzzzzzzzzzzzzzz'
def call_main_with_args(self, args):
- self.main_stdout = StringIO()
- self.main_stderr = StringIO()
+ self.main_stdout = tutil.StringIO()
+ self.main_stderr = tutil.StringIO()
return arv_put.main(args, self.main_stdout, self.main_stderr)
def call_main_on_test_file(self, args=[]):
super(ArvadosPutTest, self).tearDown()
def test_version_argument(self):
- err = io.BytesIO()
- out = io.BytesIO()
- with tutil.redirected_streams(stdout=out, stderr=err):
+ with tutil.redirected_streams(
+ stdout=tutil.StringIO, stderr=tutil.StringIO) as (out, err):
with self.assertRaises(SystemExit):
self.call_main_with_args(['--version'])
- self.assertEqual(out.getvalue(), '')
- self.assertRegexpMatches(err.getvalue(), "[0-9]+\.[0-9]+\.[0-9]+")
+ self.assertVersionOutput(out, err)
def test_simple_file_put(self):
self.call_main_on_test_file()
self.call_main_with_args,
['--project-uuid', self.Z_UUID, '--stream'])
+ def test_error_when_excluding_absolute_path(self):
+ tmpdir = self.make_tmpdir()
+ self.assertRaises(SystemExit,
+ self.call_main_with_args,
+ ['--exclude', '/some/absolute/path/*',
+ tmpdir])
+
def test_api_error_handling(self):
coll_save_mock = mock.Mock(name='arv.collection.Collection().save_new()')
coll_save_mock.side_effect = arvados.errors.ApiError(
- fake_httplib2_response(403), '{}')
+ fake_httplib2_response(403), b'{}')
with mock.patch('arvados.collection.Collection.save_new',
new=coll_save_mock):
with self.assertRaises(SystemExit) as exc_test:
cls.ENVIRON = os.environ.copy()
cls.ENVIRON['PYTHONPATH'] = ':'.join(sys.path)
+ def datetime_to_hex(self, dt):
+ return hex(int(time.mktime(dt.timetuple())))[2:]
+
def setUp(self):
super(ArvPutIntegrationTest, self).setUp()
arv_put.api_client = None
result = arv_put.desired_project_uuid(arv_put.api_client, BAD_UUID,
0)
except ValueError as error:
- self.assertIn(BAD_UUID, error.message)
+ self.assertIn(BAD_UUID, str(error))
else:
self.assertFalse(result, "incorrectly found nonexistent project")
[sys.executable, arv_put.__file__, '--stream'],
stdin=subprocess.PIPE, stdout=subprocess.PIPE,
stderr=subprocess.STDOUT, env=self.ENVIRON)
- pipe.stdin.write('stdin test\n')
+ pipe.stdin.write(b'stdin test\n')
pipe.stdin.close()
deadline = time.time() + 5
while (pipe.poll() is None) and (time.time() < deadline):
elif returncode != 0:
sys.stdout.write(pipe.stdout.read())
self.fail("arv-put returned exit code {}".format(returncode))
- self.assertIn('4a9c8b735dce4b5fa3acf221a0b13628+11', pipe.stdout.read())
+ self.assertIn('4a9c8b735dce4b5fa3acf221a0b13628+11',
+ pipe.stdout.read().decode())
def test_ArvPutSignedManifest(self):
# ArvPutSignedManifest runs "arv-put foo" and then attempts to get
datadir = self.make_tmpdir()
with open(os.path.join(datadir, "foo"), "w") as f:
f.write("The quick brown fox jumped over the lazy dog")
- p = subprocess.Popen([sys.executable, arv_put.__file__, datadir],
- stdout=subprocess.PIPE, env=self.ENVIRON)
- (arvout, arverr) = p.communicate()
- self.assertEqual(arverr, None)
+ p = subprocess.Popen([sys.executable, arv_put.__file__,
+ os.path.join(datadir, 'foo')],
+ stdout=subprocess.PIPE,
+ stderr=subprocess.PIPE,
+ env=self.ENVIRON)
+ (out, err) = p.communicate()
+ self.assertRegex(err.decode(), r'INFO: Collection saved as ')
self.assertEqual(p.returncode, 0)
# The manifest text stored in the API server under the same
# manifest UUID must use signed locators.
c = arv_put.api_client.collections().get(uuid=manifest_uuid).execute()
- self.assertRegexpMatches(
+ self.assertRegex(
c['manifest_text'],
r'^\. 08a008a01d498c404b0c30852b39d3b8\+44\+A[0-9a-f]+@[0-9a-f]+ 0:44:foo\n')
[sys.executable, arv_put.__file__] + extra_args,
stdin=subprocess.PIPE, stdout=subprocess.PIPE,
stderr=subprocess.PIPE, env=self.ENVIRON)
- stdout, stderr = pipe.communicate(text)
+ stdout, stderr = pipe.communicate(text.encode())
+ self.assertRegex(stderr.decode(), r'INFO: Collection (updated:|saved as)')
search_key = ('portable_data_hash'
if '--portable-data-hash' in extra_args else 'uuid')
collection_list = arvados.api('v1').collections().list(
- filters=[[search_key, '=', stdout.strip()]]).execute().get('items', [])
+ filters=[[search_key, '=', stdout.decode().strip()]]
+ ).execute().get('items', [])
self.assertEqual(1, len(collection_list))
return collection_list[0]
+ def test_expired_token_invalidates_cache(self):
+ self.authorize_with('active')
+ tmpdir = self.make_tmpdir()
+ with open(os.path.join(tmpdir, 'somefile.txt'), 'w') as f:
+ f.write('foo')
+ # Upload a directory and get the cache file name
+ p = subprocess.Popen([sys.executable, arv_put.__file__, tmpdir],
+ stdout=subprocess.PIPE,
+ stderr=subprocess.PIPE,
+ env=self.ENVIRON)
+ (out, err) = p.communicate()
+ self.assertRegex(err.decode(), r'INFO: Creating new cache file at ')
+ self.assertEqual(p.returncode, 0)
+ cache_filepath = re.search(r'INFO: Creating new cache file at (.*)',
+ err.decode()).groups()[0]
+ self.assertTrue(os.path.isfile(cache_filepath))
+ # Load the cache file contents and modify the manifest to simulate
+ # an expired access token
+ with open(cache_filepath, 'r') as c:
+ cache = json.load(c)
+ self.assertRegex(cache['manifest'], r'\+A\S+\@')
+ a_month_ago = datetime.datetime.now() - datetime.timedelta(days=30)
+ cache['manifest'] = re.sub(
+ r'\@.*? ',
+ "@{} ".format(self.datetime_to_hex(a_month_ago)),
+ cache['manifest'])
+ with open(cache_filepath, 'w') as c:
+ c.write(json.dumps(cache))
+ # Re-run the upload and expect to get an invalid cache message
+ p = subprocess.Popen([sys.executable, arv_put.__file__, tmpdir],
+ stdout=subprocess.PIPE,
+ stderr=subprocess.PIPE,
+ env=self.ENVIRON)
+ (out, err) = p.communicate()
+ self.assertRegex(
+ err.decode(),
+ r'WARNING: Uploaded file .* access token expired, will re-upload it from scratch')
+ self.assertEqual(p.returncode, 0)
+ # Confirm that the resulting cache is different from the last run.
+ with open(cache_filepath, 'r') as c2:
+ new_cache = json.load(c2)
+ self.assertNotEqual(cache['manifest'], new_cache['manifest'])
+
def test_put_collection_with_later_update(self):
tmpdir = self.make_tmpdir()
with open(os.path.join(tmpdir, 'file1'), 'w') as f:
self.assertEqual(col['uuid'], updated_col['uuid'])
# Get the manifest and check that the new file is being included
c = arv_put.api_client.collections().get(uuid=updated_col['uuid']).execute()
- self.assertRegexpMatches(c['manifest_text'], r'^\. .*:44:file2\n')
+ self.assertRegex(c['manifest_text'], r'^\..* .*:44:file2\n')
+
+ def test_upload_directory_reference_without_trailing_slash(self):
+ tmpdir1 = self.make_tmpdir()
+ tmpdir2 = self.make_tmpdir()
+ with open(os.path.join(tmpdir1, 'foo'), 'w') as f:
+ f.write('This is foo')
+ with open(os.path.join(tmpdir2, 'bar'), 'w') as f:
+ f.write('This is not foo')
+ # Upload one directory and one file
+ col = self.run_and_find_collection("", ['--no-progress',
+ tmpdir1,
+ os.path.join(tmpdir2, 'bar')])
+ self.assertNotEqual(None, col['uuid'])
+ c = arv_put.api_client.collections().get(uuid=col['uuid']).execute()
+ # Check that 'foo' was written inside a subcollection
+ # OTOH, 'bar' should have been directly uploaded on the root collection
+ self.assertRegex(c['manifest_text'], r'^\. .*:15:bar\n\./.+ .*:11:foo\n')
+
+ def test_upload_directory_reference_with_trailing_slash(self):
+ tmpdir1 = self.make_tmpdir()
+ tmpdir2 = self.make_tmpdir()
+ with open(os.path.join(tmpdir1, 'foo'), 'w') as f:
+ f.write('This is foo')
+ with open(os.path.join(tmpdir2, 'bar'), 'w') as f:
+ f.write('This is not foo')
+ # Upload one directory (with trailing slash) and one file
+ col = self.run_and_find_collection("", ['--no-progress',
+ tmpdir1 + os.sep,
+ os.path.join(tmpdir2, 'bar')])
+ self.assertNotEqual(None, col['uuid'])
+ c = arv_put.api_client.collections().get(uuid=col['uuid']).execute()
+ # Check that 'foo' and 'bar' were written at the same level
+ self.assertRegex(c['manifest_text'], r'^\. .*:15:bar .*:11:foo\n')
def test_put_collection_with_high_redundancy(self):
# Write empty data: we're not testing CollectionWriter, just
"Test unnamed collection",
['--portable-data-hash', '--project-uuid', self.PROJECT_UUID])
username = pwd.getpwuid(os.getuid()).pw_name
- self.assertRegexpMatches(
+ self.assertRegex(
link['name'],
r'^Saved at .* by {}@'.format(re.escape(username)))
'--project-uuid', self.PROJECT_UUID])
self.assertEqual(link_name, collection['name'])
+ def test_exclude_filename_pattern(self):
+ tmpdir = self.make_tmpdir()
+ tmpsubdir = os.path.join(tmpdir, 'subdir')
+ os.mkdir(tmpsubdir)
+ for fname in ['file1', 'file2', 'file3']:
+ with open(os.path.join(tmpdir, "%s.txt" % fname), 'w') as f:
+ f.write("This is %s" % fname)
+ with open(os.path.join(tmpsubdir, "%s.txt" % fname), 'w') as f:
+ f.write("This is %s" % fname)
+ col = self.run_and_find_collection("", ['--no-progress',
+ '--exclude', '*2.txt',
+ '--exclude', 'file3.*',
+ tmpdir])
+ self.assertNotEqual(None, col['uuid'])
+ c = arv_put.api_client.collections().get(uuid=col['uuid']).execute()
+ # None of the file2.txt & file3.txt should have been uploaded
+ self.assertRegex(c['manifest_text'], r'^.*:file1.txt')
+ self.assertNotRegex(c['manifest_text'], r'^.*:file2.txt')
+ self.assertNotRegex(c['manifest_text'], r'^.*:file3.txt')
+
+ def test_exclude_filepath_pattern(self):
+ tmpdir = self.make_tmpdir()
+ tmpsubdir = os.path.join(tmpdir, 'subdir')
+ os.mkdir(tmpsubdir)
+ for fname in ['file1', 'file2', 'file3']:
+ with open(os.path.join(tmpdir, "%s.txt" % fname), 'w') as f:
+ f.write("This is %s" % fname)
+ with open(os.path.join(tmpsubdir, "%s.txt" % fname), 'w') as f:
+ f.write("This is %s" % fname)
+ col = self.run_and_find_collection("", ['--no-progress',
+ '--exclude', 'subdir/*2.txt',
+ '--exclude', './file1.*',
+ tmpdir])
+ self.assertNotEqual(None, col['uuid'])
+ c = arv_put.api_client.collections().get(uuid=col['uuid']).execute()
+ # Only tmpdir/file1.txt & tmpdir/subdir/file2.txt should have been excluded
+ self.assertNotRegex(c['manifest_text'],
+ r'^\./%s.*:file1.txt' % os.path.basename(tmpdir))
+ self.assertNotRegex(c['manifest_text'],
+ r'^\./%s/subdir.*:file2.txt' % os.path.basename(tmpdir))
+ self.assertRegex(c['manifest_text'],
+ r'^\./%s.*:file2.txt' % os.path.basename(tmpdir))
+ self.assertRegex(c['manifest_text'], r'^.*:file3.txt')
+
+ def test_silent_mode_no_errors(self):
+ self.authorize_with('active')
+ tmpdir = self.make_tmpdir()
+ with open(os.path.join(tmpdir, 'test.txt'), 'w') as f:
+ f.write('hello world')
+ pipe = subprocess.Popen(
+ [sys.executable, arv_put.__file__] + ['--silent', tmpdir],
+ stdin=subprocess.PIPE, stdout=subprocess.PIPE,
+ stderr=subprocess.PIPE, env=self.ENVIRON)
+ stdout, stderr = pipe.communicate()
+ # No console output should occur on normal operations
+ self.assertNotRegex(stderr.decode(), r'.+')
+ self.assertNotRegex(stdout.decode(), r'.+')
+
+ def test_silent_mode_does_not_avoid_error_messages(self):
+ self.authorize_with('active')
+ pipe = subprocess.Popen(
+ [sys.executable, arv_put.__file__] + ['--silent',
+ '/path/not/existant'],
+ stdin=subprocess.PIPE, stdout=subprocess.PIPE,
+ stderr=subprocess.PIPE, env=self.ENVIRON)
+ stdout, stderr = pipe.communicate()
+ # Error message should be displayed when errors happen
+ self.assertRegex(stderr.decode(), r'.*ERROR:.*')
+ self.assertNotRegex(stdout.decode(), r'.+')
+
if __name__ == '__main__':
unittest.main()