def tearDown(self): if skip: raise SkipTest def delete(url, token, parsed, conn, obj): conn.request('DELETE', '%s/%s/%s' % (parsed.path, self.container, obj), '', {'X-Auth-Token': token}) return check_response(conn) # get list of objects in container def list(url, token, parsed, conn): conn.request('GET', '%s/%s' % (parsed.path, self.container), '', {'X-Auth-Token': token}) return check_response(conn) resp = retry(list) object_listing = resp.read() self.assertEquals(resp.status, 200) # iterate over object listing and delete all objects for obj in object_listing.splitlines(): resp = retry(delete, obj) resp.read() self.assertEquals(resp.status, 204) # delete the container def delete(url, token, parsed, conn): conn.request('DELETE', parsed.path + '/' + self.container, '', {'X-Auth-Token': token}) return check_response(conn) resp = retry(delete) resp.read() self.assertEquals(resp.status, 204)
def tearDown(self): if skip: raise SkipTest def get(url, token, parsed, conn): conn.request('GET', parsed.path + '/' + self.name + '?format=json', '', {'X-Auth-Token': token}) return check_response(conn) def delete(url, token, parsed, conn, obj): conn.request('DELETE', '/'.join([parsed.path, self.name, obj['name']]), '', {'X-Auth-Token': token}) return check_response(conn) while True: resp = retry(get) body = resp.read() self.assert_(resp.status // 100 == 2, resp.status) objs = json.loads(body) if not objs: break for obj in objs: resp = retry(delete, obj) resp.read() self.assertEquals(resp.status, 204) def delete(url, token, parsed, conn): conn.request('DELETE', parsed.path + '/' + self.name, '', {'X-Auth-Token': token}) return check_response(conn) resp = retry(delete) resp.read() self.assertEquals(resp.status, 204)
def test_multi_metadata(self): if skip: raise SkipTest def post(url, token, parsed, conn, name, value): conn.request('POST', parsed.path + '/' + self.name, '', { 'X-Auth-Token': token, name: value }) return check_response(conn) def head(url, token, parsed, conn): conn.request('HEAD', parsed.path + '/' + self.name, '', {'X-Auth-Token': token}) return check_response(conn) resp = retry(post, 'X-Container-Meta-One', '1') resp.read() self.assertEquals(resp.status, 204) resp = retry(head) resp.read() self.assert_(resp.status in (200, 204), resp.status) self.assertEquals(resp.getheader('x-container-meta-one'), '1') resp = retry(post, 'X-Container-Meta-Two', '2') resp.read() self.assertEquals(resp.status, 204) resp = retry(head) resp.read() self.assert_(resp.status in (200, 204), resp.status) self.assertEquals(resp.getheader('x-container-meta-one'), '1') self.assertEquals(resp.getheader('x-container-meta-two'), '2')
def test_multi_metadata(self): if skip: raise SkipTest def post(url, token, parsed, conn, name, value): conn.request('POST', parsed.path, '', {'X-Auth-Token': token, name: value}) return check_response(conn) def head(url, token, parsed, conn): conn.request('HEAD', parsed.path, '', {'X-Auth-Token': token}) return check_response(conn) resp = retry(post, 'X-Account-Meta-One', '1') resp.read() self.assertEquals(resp.status, 204) resp = retry(head) resp.read() self.assert_(resp.status in (200, 204), resp.status) self.assertEquals(resp.getheader('x-account-meta-one'), '1') resp = retry(post, 'X-Account-Meta-Two', '2') resp.read() self.assertEquals(resp.status, 204) resp = retry(head) resp.read() self.assert_(resp.status in (200, 204), resp.status) self.assertEquals(resp.getheader('x-account-meta-one'), '1') self.assertEquals(resp.getheader('x-account-meta-two'), '2')
def test_POST_metadata(self): if skip: raise SkipTest def post(url, token, parsed, conn, value): conn.request('POST', parsed.path + '/' + self.name, '', {'X-Auth-Token': token, 'X-Container-Meta-Test': value}) return check_response(conn) def head(url, token, parsed, conn): conn.request('HEAD', parsed.path + '/' + self.name, '', {'X-Auth-Token': token}) return check_response(conn) def get(url, token, parsed, conn): conn.request('GET', parsed.path + '/' + self.name, '', {'X-Auth-Token': token}) return check_response(conn) resp = retry(head) resp.read() self.assert_(resp.status in (200, 204), resp.status) self.assertEquals(resp.getheader('x-container-meta-test'), None) resp = retry(get) resp.read() self.assert_(resp.status in (200, 204), resp.status) self.assertEquals(resp.getheader('x-container-meta-test'), None) resp = retry(post, 'Value') resp.read() self.assertEquals(resp.status, 204) resp = retry(head) resp.read() self.assert_(resp.status in (200, 204), resp.status) self.assertEquals(resp.getheader('x-container-meta-test'), 'Value') resp = retry(get) resp.read() self.assert_(resp.status in (200, 204), resp.status) self.assertEquals(resp.getheader('x-container-meta-test'), 'Value')
def test_bad_metadata(self): if skip: raise SkipTest def post(url, token, parsed, conn, extra_headers): headers = {'X-Auth-Token': token} headers.update(extra_headers) conn.request('POST', parsed.path, '', headers) return check_response(conn) resp = retry(post, {'X-Account-Meta-' + ('k' * MAX_META_NAME_LENGTH): 'v'}) resp.read() self.assertEquals(resp.status, 204) resp = retry(post, {'X-Account-Meta-' + ('k' * (MAX_META_NAME_LENGTH + 1)): 'v'}) resp.read() self.assertEquals(resp.status, 400) resp = retry(post, {'X-Account-Meta-Too-Long': 'k' * MAX_META_VALUE_LENGTH}) resp.read() self.assertEquals(resp.status, 204) resp = retry(post, {'X-Account-Meta-Too-Long': 'k' * (MAX_META_VALUE_LENGTH + 1)}) resp.read() self.assertEquals(resp.status, 400) headers = {} for x in xrange(MAX_META_COUNT): headers['X-Account-Meta-%d' % x] = 'v' resp = retry(post, headers) resp.read() self.assertEquals(resp.status, 204) headers = {} for x in xrange(MAX_META_COUNT + 1): headers['X-Account-Meta-%d' % x] = 'v' resp = retry(post, headers) resp.read() self.assertEquals(resp.status, 400) headers = {} header_value = 'k' * MAX_META_VALUE_LENGTH size = 0 x = 0 while size < MAX_META_OVERALL_SIZE - 4 - MAX_META_VALUE_LENGTH: size += 4 + MAX_META_VALUE_LENGTH headers['X-Account-Meta-%04d' % x] = header_value x += 1 if MAX_META_OVERALL_SIZE - size > 1: headers['X-Account-Meta-k'] = \ 'v' * (MAX_META_OVERALL_SIZE - size - 1) resp = retry(post, headers) resp.read() self.assertEquals(resp.status, 204) headers['X-Account-Meta-k'] = \ 'v' * (MAX_META_OVERALL_SIZE - size) resp = retry(post, headers) resp.read() self.assertEquals(resp.status, 400)
def test_nonadmin_user(self): if skip or skip3: raise SkipTest # Obtain the first account's string first_account = ['unknown'] def get1(url, token, parsed, conn): first_account[0] = parsed.path conn.request('HEAD', parsed.path + '/' + self.name, '', {'X-Auth-Token': token}) return check_response(conn) resp = retry(get1) resp.read() # Ensure we can't access the container with the third account def get3(url, token, parsed, conn): conn.request('GET', first_account[0] + '/' + self.name, '', {'X-Auth-Token': token}) return check_response(conn) resp = retry(get3, use_account=3) resp.read() self.assertEquals(resp.status, 403) # Make the container accessible by the third account def post(url, token, parsed, conn): conn.request('POST', parsed.path + '/' + self.name, '', {'X-Auth-Token': token, 'X-Container-Read': chase_test_user[2]}) return check_response(conn) resp = retry(post) resp.read() self.assertEquals(resp.status, 204) # Ensure we can now read the container with the third account resp = retry(get3, use_account=3) resp.read() self.assertEquals(resp.status, 204) # But we shouldn't be able to write with the third account def put3(url, token, parsed, conn): conn.request('PUT', first_account[0] + '/' + self.name + '/object', 'test object', {'X-Auth-Token': token}) return check_response(conn) resp = retry(put3, use_account=3) resp.read() self.assertEquals(resp.status, 403) # Now make the container also writeable by the third account def post(url, token, parsed, conn): conn.request('POST', parsed.path + '/' + self.name, '', {'X-Auth-Token': token, 'X-Container-Write': chase_test_user[2]}) return check_response(conn) resp = retry(post) resp.read() self.assertEquals(resp.status, 204) # Ensure we can still read the container with the third account resp = retry(get3, use_account=3) resp.read() self.assertEquals(resp.status, 204) # And that we can now write with the third account resp = retry(put3, use_account=3) resp.read() self.assertEquals(resp.status, 201)
def test_cross_account_public_container(self): if skip or skip2: raise SkipTest # Obtain the first account's string first_account = ['unknown'] def get1(url, token, parsed, conn): first_account[0] = parsed.path conn.request('HEAD', parsed.path + '/' + self.name, '', {'X-Auth-Token': token}) return check_response(conn) resp = retry(get1) resp.read() # Ensure we can't access the container with the second account def get2(url, token, parsed, conn): conn.request('GET', first_account[0] + '/' + self.name, '', {'X-Auth-Token': token}) return check_response(conn) resp = retry(get2, use_account=2) resp.read() self.assertEquals(resp.status, 403) # Make the container completely public def post(url, token, parsed, conn): conn.request('POST', parsed.path + '/' + self.name, '', {'X-Auth-Token': token, 'X-Container-Read': '.r:*,.rlistings'}) return check_response(conn) resp = retry(post) resp.read() self.assertEquals(resp.status, 204) # Ensure we can now read the container with the second account resp = retry(get2, use_account=2) resp.read() self.assertEquals(resp.status, 204) # But we shouldn't be able to write with the second account def put2(url, token, parsed, conn): conn.request('PUT', first_account[0] + '/' + self.name + '/object', 'test object', {'X-Auth-Token': token}) return check_response(conn) resp = retry(put2, use_account=2) resp.read() self.assertEquals(resp.status, 403) # Now make the container also writeable by the second account def post(url, token, parsed, conn): conn.request('POST', parsed.path + '/' + self.name, '', {'X-Auth-Token': token, 'X-Container-Write': 'test2'}) return check_response(conn) resp = retry(post) resp.read() self.assertEquals(resp.status, 204) # Ensure we can still read the container with the second account resp = retry(get2, use_account=2) resp.read() self.assertEquals(resp.status, 204) # And that we can now write with the second account resp = retry(put2, use_account=2) resp.read() self.assertEquals(resp.status, 201)
def test_PUT_metadata(self): if skip: raise SkipTest def put(url, token, parsed, conn, name, value): conn.request('PUT', parsed.path + '/' + name, '', { 'X-Auth-Token': token, 'X-Container-Meta-Test': value }) return check_response(conn) def head(url, token, parsed, conn, name): conn.request('HEAD', parsed.path + '/' + name, '', {'X-Auth-Token': token}) return check_response(conn) def get(url, token, parsed, conn, name): conn.request('GET', parsed.path + '/' + name, '', {'X-Auth-Token': token}) return check_response(conn) def delete(url, token, parsed, conn, name): conn.request('DELETE', parsed.path + '/' + name, '', {'X-Auth-Token': token}) return check_response(conn) name = uuid4().hex resp = retry(put, name, 'Value') resp.read() self.assertEquals(resp.status, 201) resp = retry(head, name) resp.read() self.assert_(resp.status in (200, 204), resp.status) self.assertEquals(resp.getheader('x-container-meta-test'), 'Value') resp = retry(get, name) resp.read() self.assert_(resp.status in (200, 204), resp.status) self.assertEquals(resp.getheader('x-container-meta-test'), 'Value') resp = retry(delete, name) resp.read() self.assertEquals(resp.status, 204) name = uuid4().hex resp = retry(put, name, '') resp.read() self.assertEquals(resp.status, 201) resp = retry(head, name) resp.read() self.assert_(resp.status in (200, 204), resp.status) self.assertEquals(resp.getheader('x-container-meta-test'), None) resp = retry(get, name) resp.read() self.assert_(resp.status in (200, 204), resp.status) self.assertEquals(resp.getheader('x-container-meta-test'), None) resp = retry(delete, name) resp.read() self.assertEquals(resp.status, 204)
def test_public_container(self): if skip: raise SkipTest def get(url, token, parsed, conn): conn.request('GET', parsed.path + '/' + self.name) return check_response(conn) try: resp = retry(get) raise Exception('Should not have been able to GET') except Exception, err: self.assert_(str(err).startswith('No result after '), err)
def setUp(self): if skip: raise SkipTest self.name = uuid4().hex def put(url, token, parsed, conn): conn.request('PUT', parsed.path + '/' + self.name, '', {'X-Auth-Token': token}) return check_response(conn) resp = retry(put) resp.read() self.assertEquals(resp.status, 201)
def setUp(self): if skip: raise SkipTest self.container = uuid4().hex def put(url, token, parsed, conn): conn.request('PUT', parsed.path + '/' + self.container, '', {'X-Auth-Token': token}) return check_response(conn) resp = retry(put) resp.read() self.assertEquals(resp.status, 201) self.obj = uuid4().hex def put(url, token, parsed, conn): conn.request('PUT', '%s/%s/%s' % (parsed.path, self.container, self.obj), 'test', {'X-Auth-Token': token}) return check_response(conn) resp = retry(put) resp.read() self.assertEquals(resp.status, 201)
def test_cross_account_container(self): if skip or skip2: raise SkipTest # Obtain the first account's string first_account = ['unknown'] def get1(url, token, parsed, conn): first_account[0] = parsed.path conn.request('HEAD', parsed.path + '/' + self.name, '', {'X-Auth-Token': token}) return check_response(conn) resp = retry(get1) resp.read() # Ensure we can't access the container with the second account def get2(url, token, parsed, conn): conn.request('GET', first_account[0] + '/' + self.name, '', {'X-Auth-Token': token}) return check_response(conn) resp = retry(get2, use_account=2) resp.read() self.assertEquals(resp.status, 403) # Make the container accessible by the second account def post(url, token, parsed, conn): conn.request( 'POST', parsed.path + '/' + self.name, '', { 'X-Auth-Token': token, 'X-Container-Read': 'test2', 'X-Container-Write': 'test2' }) return check_response(conn) resp = retry(post) resp.read() self.assertEquals(resp.status, 204) # Ensure we can now use the container with the second account resp = retry(get2, use_account=2) resp.read() self.assertEquals(resp.status, 204) # Make the container private again def post(url, token, parsed, conn): conn.request( 'POST', parsed.path + '/' + self.name, '', { 'X-Auth-Token': token, 'X-Container-Read': '', 'X-Container-Write': '' }) return check_response(conn) resp = retry(post) resp.read() self.assertEquals(resp.status, 204) # Ensure we can't access the container with the second account again resp = retry(get2, use_account=2) resp.read() self.assertEquals(resp.status, 403)
def test_PUT_metadata(self): if skip: raise SkipTest def put(url, token, parsed, conn, name, value): conn.request('PUT', parsed.path + '/' + name, '', {'X-Auth-Token': token, 'X-Container-Meta-Test': value}) return check_response(conn) def head(url, token, parsed, conn, name): conn.request('HEAD', parsed.path + '/' + name, '', {'X-Auth-Token': token}) return check_response(conn) def get(url, token, parsed, conn, name): conn.request('GET', parsed.path + '/' + name, '', {'X-Auth-Token': token}) return check_response(conn) def delete(url, token, parsed, conn, name): conn.request('DELETE', parsed.path + '/' + name, '', {'X-Auth-Token': token}) return check_response(conn) name = uuid4().hex resp = retry(put, name, 'Value') resp.read() self.assertEquals(resp.status, 201) resp = retry(head, name) resp.read() self.assert_(resp.status in (200, 204), resp.status) self.assertEquals(resp.getheader('x-container-meta-test'), 'Value') resp = retry(get, name) resp.read() self.assert_(resp.status in (200, 204), resp.status) self.assertEquals(resp.getheader('x-container-meta-test'), 'Value') resp = retry(delete, name) resp.read() self.assertEquals(resp.status, 204) name = uuid4().hex resp = retry(put, name, '') resp.read() self.assertEquals(resp.status, 201) resp = retry(head, name) resp.read() self.assert_(resp.status in (200, 204), resp.status) self.assertEquals(resp.getheader('x-container-meta-test'), None) resp = retry(get, name) resp.read() self.assert_(resp.status in (200, 204), resp.status) self.assertEquals(resp.getheader('x-container-meta-test'), None) resp = retry(delete, name) resp.read() self.assertEquals(resp.status, 204)
def test_cross_account_container(self): if skip or skip2: raise SkipTest # Obtain the first account's string first_account = ['unknown'] def get1(url, token, parsed, conn): first_account[0] = parsed.path conn.request('HEAD', parsed.path + '/' + self.name, '', {'X-Auth-Token': token}) return check_response(conn) resp = retry(get1) resp.read() # Ensure we can't access the container with the second account def get2(url, token, parsed, conn): conn.request('GET', first_account[0] + '/' + self.name, '', {'X-Auth-Token': token}) return check_response(conn) resp = retry(get2, use_account=2) resp.read() self.assertEquals(resp.status, 403) # Make the container accessible by the second account def post(url, token, parsed, conn): conn.request('POST', parsed.path + '/' + self.name, '', {'X-Auth-Token': token, 'X-Container-Read': 'test2', 'X-Container-Write': 'test2'}) return check_response(conn) resp = retry(post) resp.read() self.assertEquals(resp.status, 204) # Ensure we can now use the container with the second account resp = retry(get2, use_account=2) resp.read() self.assertEquals(resp.status, 204) # Make the container private again def post(url, token, parsed, conn): conn.request('POST', parsed.path + '/' + self.name, '', {'X-Auth-Token': token, 'X-Container-Read': '', 'X-Container-Write': ''}) return check_response(conn) resp = retry(post) resp.read() self.assertEquals(resp.status, 204) # Ensure we can't access the container with the second account again resp = retry(get2, use_account=2) resp.read() self.assertEquals(resp.status, 403)
def test_metadata(self): if skip: raise SkipTest def post(url, token, parsed, conn, value): conn.request('POST', parsed.path, '', { 'X-Auth-Token': token, 'X-Account-Meta-Test': value }) return check_response(conn) def head(url, token, parsed, conn): conn.request('HEAD', parsed.path, '', {'X-Auth-Token': token}) return check_response(conn) def get(url, token, parsed, conn): conn.request('GET', parsed.path, '', {'X-Auth-Token': token}) return check_response(conn) resp = retry(post, '') resp.read() self.assertEquals(resp.status, 204) resp = retry(head) resp.read() self.assert_(resp.status in (200, 204), resp.status) self.assertEquals(resp.getheader('x-account-meta-test'), None) resp = retry(get) resp.read() self.assert_(resp.status in (200, 204), resp.status) self.assertEquals(resp.getheader('x-account-meta-test'), None) resp = retry(post, 'Value') resp.read() self.assertEquals(resp.status, 204) resp = retry(head) resp.read() self.assert_(resp.status in (200, 204), resp.status) self.assertEquals(resp.getheader('x-account-meta-test'), 'Value') resp = retry(get) resp.read() self.assert_(resp.status in (200, 204), resp.status) self.assertEquals(resp.getheader('x-account-meta-test'), 'Value')
def test_PUT_bad_metadata(self): if skip: raise SkipTest def put(url, token, parsed, conn, name, extra_headers): headers = {'X-Auth-Token': token} headers.update(extra_headers) conn.request('PUT', parsed.path + '/' + name, '', headers) return check_response(conn) def delete(url, token, parsed, conn, name): conn.request('DELETE', parsed.path + '/' + name, '', {'X-Auth-Token': token}) return check_response(conn) name = uuid4().hex resp = retry(put, name, {'X-Container-Meta-' + ('k' * MAX_META_NAME_LENGTH): 'v'}) resp.read() self.assertEquals(resp.status, 201) resp = retry(delete, name) resp.read() self.assertEquals(resp.status, 204) name = uuid4().hex resp = retry(put, name, {'X-Container-Meta-' + ('k' * (MAX_META_NAME_LENGTH + 1)): 'v'}) resp.read() self.assertEquals(resp.status, 400) resp = retry(delete, name) resp.read() self.assertEquals(resp.status, 404) name = uuid4().hex resp = retry(put, name, {'X-Container-Meta-Too-Long': 'k' * MAX_META_VALUE_LENGTH}) resp.read() self.assertEquals(resp.status, 201) resp = retry(delete, name) resp.read() self.assertEquals(resp.status, 204) name = uuid4().hex resp = retry(put, name, {'X-Container-Meta-Too-Long': 'k' * (MAX_META_VALUE_LENGTH + 1)}) resp.read() self.assertEquals(resp.status, 400) resp = retry(delete, name) resp.read() self.assertEquals(resp.status, 404) name = uuid4().hex headers = {} for x in xrange(MAX_META_COUNT): headers['X-Container-Meta-%d' % x] = 'v' resp = retry(put, name, headers) resp.read() self.assertEquals(resp.status, 201) resp = retry(delete, name) resp.read() self.assertEquals(resp.status, 204) name = uuid4().hex headers = {} for x in xrange(MAX_META_COUNT + 1): headers['X-Container-Meta-%d' % x] = 'v' resp = retry(put, name, headers) resp.read() self.assertEquals(resp.status, 400) resp = retry(delete, name) resp.read() self.assertEquals(resp.status, 404) name = uuid4().hex headers = {} header_value = 'k' * MAX_META_VALUE_LENGTH size = 0 x = 0 while size < MAX_META_OVERALL_SIZE - 4 - MAX_META_VALUE_LENGTH: size += 4 + MAX_META_VALUE_LENGTH headers['X-Container-Meta-%04d' % x] = header_value x += 1 if MAX_META_OVERALL_SIZE - size > 1: headers['X-Container-Meta-k'] = \ 'v' * (MAX_META_OVERALL_SIZE - size - 1) resp = retry(put, name, headers) resp.read() self.assertEquals(resp.status, 201) resp = retry(delete, name) resp.read() self.assertEquals(resp.status, 204) name = uuid4().hex headers['X-Container-Meta-k'] = \ 'v' * (MAX_META_OVERALL_SIZE - size) resp = retry(put, name, headers) resp.read() self.assertEquals(resp.status, 400) resp = retry(delete, name) resp.read() self.assertEquals(resp.status, 404)
def test_private_object(self): if skip or skip3: raise SkipTest # Ensure we can't access the object with the third account def get(url, token, parsed, conn): conn.request('GET', '%s/%s/%s' % (parsed.path, self.container, self.obj), '', {'X-Auth-Token': token}) return check_response(conn) resp = retry(get, use_account=3) resp.read() self.assertEquals(resp.status, 403) # create a shared container writable by account3 shared_container = uuid4().hex def put(url, token, parsed, conn): conn.request('PUT', '%s/%s' % (parsed.path, shared_container), '', {'X-Auth-Token': token, 'X-Container-Read': chase_test_user[2], 'X-Container-Write': chase_test_user[2]}) return check_response(conn) resp = retry(put) resp.read() self.assertEquals(resp.status, 201) # verify third account can not copy from private container def copy(url, token, parsed, conn): conn.request('PUT', '%s/%s/%s' % (parsed.path, shared_container, 'private_object'), '', {'X-Auth-Token': token, 'Content-Length': '0', 'X-Copy-From': '%s/%s' % (self.container, self.obj)}) return check_response(conn) resp = retry(copy, use_account=3) resp.read() self.assertEquals(resp.status, 403) # verify third account can write "obj1" to shared container def put(url, token, parsed, conn): conn.request('PUT', '%s/%s/%s' % (parsed.path, shared_container, 'obj1'), 'test', {'X-Auth-Token': token}) return check_response(conn) resp = retry(put, use_account=3) resp.read() self.assertEquals(resp.status, 201) # verify third account can copy "obj1" to shared container def copy2(url, token, parsed, conn): conn.request('COPY', '%s/%s/%s' % (parsed.path, shared_container, 'obj1'), '', {'X-Auth-Token': token, 'Destination': '%s/%s' % (shared_container, 'obj1')}) return check_response(conn) resp = retry(copy2, use_account=3) resp.read() self.assertEquals(resp.status, 201) # verify third account STILL can not copy from private container def copy3(url, token, parsed, conn): conn.request('COPY', '%s/%s/%s' % (parsed.path, self.container, self.obj), '', {'X-Auth-Token': token, 'Destination': '%s/%s' % (shared_container, 'private_object')}) return check_response(conn) resp = retry(copy3, use_account=3) resp.read() self.assertEquals(resp.status, 403) # clean up "obj1" def delete(url, token, parsed, conn): conn.request('DELETE', '%s/%s/%s' % (parsed.path, shared_container, 'obj1'), '', {'X-Auth-Token': token}) return check_response(conn) resp = retry(delete) resp.read() self.assertEquals(resp.status, 204) # clean up shared_container def delete(url, token, parsed, conn): conn.request('DELETE', parsed.path + '/' + shared_container, '', {'X-Auth-Token': token}) return check_response(conn) resp = retry(delete) resp.read() self.assertEquals(resp.status, 204)
def test_cross_account_public_container(self): if skip or skip2: raise SkipTest # Obtain the first account's string first_account = ['unknown'] def get1(url, token, parsed, conn): first_account[0] = parsed.path conn.request('HEAD', parsed.path + '/' + self.name, '', {'X-Auth-Token': token}) return check_response(conn) resp = retry(get1) resp.read() # Ensure we can't access the container with the second account def get2(url, token, parsed, conn): conn.request('GET', first_account[0] + '/' + self.name, '', {'X-Auth-Token': token}) return check_response(conn) resp = retry(get2, use_account=2) resp.read() self.assertEquals(resp.status, 403) # Make the container completely public def post(url, token, parsed, conn): conn.request('POST', parsed.path + '/' + self.name, '', { 'X-Auth-Token': token, 'X-Container-Read': '.r:*,.rlistings' }) return check_response(conn) resp = retry(post) resp.read() self.assertEquals(resp.status, 204) # Ensure we can now read the container with the second account resp = retry(get2, use_account=2) resp.read() self.assertEquals(resp.status, 204) # But we shouldn't be able to write with the second account def put2(url, token, parsed, conn): conn.request('PUT', first_account[0] + '/' + self.name + '/object', 'test object', {'X-Auth-Token': token}) return check_response(conn) resp = retry(put2, use_account=2) resp.read() self.assertEquals(resp.status, 403) # Now make the container also writeable by the second account def post(url, token, parsed, conn): conn.request('POST', parsed.path + '/' + self.name, '', { 'X-Auth-Token': token, 'X-Container-Write': 'test2' }) return check_response(conn) resp = retry(post) resp.read() self.assertEquals(resp.status, 204) # Ensure we can still read the container with the second account resp = retry(get2, use_account=2) resp.read() self.assertEquals(resp.status, 204) # And that we can now write with the second account resp = retry(put2, use_account=2) resp.read() self.assertEquals(resp.status, 201)
def test_nonadmin_user(self): if skip or skip3: raise SkipTest # Obtain the first account's string first_account = ['unknown'] def get1(url, token, parsed, conn): first_account[0] = parsed.path conn.request('HEAD', parsed.path + '/' + self.name, '', {'X-Auth-Token': token}) return check_response(conn) resp = retry(get1) resp.read() # Ensure we can't access the container with the third account def get3(url, token, parsed, conn): conn.request('GET', first_account[0] + '/' + self.name, '', {'X-Auth-Token': token}) return check_response(conn) resp = retry(get3, use_account=3) resp.read() self.assertEquals(resp.status, 403) # Make the container accessible by the third account def post(url, token, parsed, conn): conn.request('POST', parsed.path + '/' + self.name, '', { 'X-Auth-Token': token, 'X-Container-Read': chase_test_user[2] }) return check_response(conn) resp = retry(post) resp.read() self.assertEquals(resp.status, 204) # Ensure we can now read the container with the third account resp = retry(get3, use_account=3) resp.read() self.assertEquals(resp.status, 204) # But we shouldn't be able to write with the third account def put3(url, token, parsed, conn): conn.request('PUT', first_account[0] + '/' + self.name + '/object', 'test object', {'X-Auth-Token': token}) return check_response(conn) resp = retry(put3, use_account=3) resp.read() self.assertEquals(resp.status, 403) # Now make the container also writeable by the third account def post(url, token, parsed, conn): conn.request('POST', parsed.path + '/' + self.name, '', { 'X-Auth-Token': token, 'X-Container-Write': chase_test_user[2] }) return check_response(conn) resp = retry(post) resp.read() self.assertEquals(resp.status, 204) # Ensure we can still read the container with the third account resp = retry(get3, use_account=3) resp.read() self.assertEquals(resp.status, 204) # And that we can now write with the third account resp = retry(put3, use_account=3) resp.read() self.assertEquals(resp.status, 201)
class TestObject(unittest.TestCase): def setUp(self): if skip: raise SkipTest self.container = uuid4().hex def put(url, token, parsed, conn): conn.request('PUT', parsed.path + '/' + self.container, '', {'X-Auth-Token': token}) return check_response(conn) resp = retry(put) resp.read() self.assertEquals(resp.status, 201) self.obj = uuid4().hex def put(url, token, parsed, conn): conn.request('PUT', '%s/%s/%s' % (parsed.path, self.container, self.obj), 'test', {'X-Auth-Token': token}) return check_response(conn) resp = retry(put) resp.read() self.assertEquals(resp.status, 201) def tearDown(self): if skip: raise SkipTest def delete(url, token, parsed, conn, obj): conn.request('DELETE', '%s/%s/%s' % (parsed.path, self.container, obj), '', {'X-Auth-Token': token}) return check_response(conn) # get list of objects in container def list(url, token, parsed, conn): conn.request('GET', '%s/%s' % (parsed.path, self.container), '', {'X-Auth-Token': token}) return check_response(conn) resp = retry(list) object_listing = resp.read() self.assertEquals(resp.status, 200) # iterate over object listing and delete all objects for obj in object_listing.splitlines(): resp = retry(delete, obj) resp.read() self.assertEquals(resp.status, 204) # delete the container def delete(url, token, parsed, conn): conn.request('DELETE', parsed.path + '/' + self.container, '', {'X-Auth-Token': token}) return check_response(conn) resp = retry(delete) resp.read() self.assertEquals(resp.status, 204) def test_copy_object(self): if skip: raise SkipTest source = '%s/%s' % (self.container, self.obj) dest = '%s/%s' % (self.container, 'test_copy') # get contents of source def get_source(url, token, parsed, conn): conn.request('GET', '%s/%s' % (parsed.path, source), '', {'X-Auth-Token': token}) return check_response(conn) resp = retry(get_source) source_contents = resp.read() self.assertEquals(resp.status, 200) self.assertEquals(source_contents, 'test') # copy source to dest with X-Copy-From def put(url, token, parsed, conn): conn.request('PUT', '%s/%s' % (parsed.path, dest), '', {'X-Auth-Token': token, 'Content-Length': '0', 'X-Copy-From': source}) return check_response(conn) resp = retry(put) contents = resp.read() self.assertEquals(resp.status, 201) # contents of dest should be the same as source def get_dest(url, token, parsed, conn): conn.request('GET', '%s/%s' % (parsed.path, dest), '', {'X-Auth-Token': token}) return check_response(conn) resp = retry(get_dest) dest_contents = resp.read() self.assertEquals(resp.status, 200) self.assertEquals(dest_contents, source_contents) # delete the copy def delete(url, token, parsed, conn): conn.request('DELETE', '%s/%s' % (parsed.path, dest), '', {'X-Auth-Token': token}) return check_response(conn) resp = retry(delete) resp.read() self.assertEquals(resp.status, 204) # verify dest does not exist resp = retry(get_dest) resp.read() self.assertEquals(resp.status, 404) # copy source to dest with COPY def copy(url, token, parsed, conn): conn.request('COPY', '%s/%s' % (parsed.path, source), '', {'X-Auth-Token': token, 'Destination': dest}) return check_response(conn) resp = retry(copy) contents = resp.read() self.assertEquals(resp.status, 201) # contents of dest should be the same as source resp = retry(get_dest) dest_contents = resp.read() self.assertEquals(resp.status, 200) self.assertEquals(dest_contents, source_contents) # delete the copy resp = retry(delete) resp.read() self.assertEquals(resp.status, 204) def test_public_object(self): if skip: raise SkipTest def get(url, token, parsed, conn): conn.request('GET', '%s/%s/%s' % (parsed.path, self.container, self.obj)) return check_response(conn) try: resp = retry(get) raise Exception('Should not have been able to GET') except Exception, err: self.assert_(str(err).startswith('No result after ')) def post(url, token, parsed, conn): conn.request('POST', parsed.path + '/' + self.container, '', {'X-Auth-Token': token, 'X-Container-Read': '.r:*'}) return check_response(conn) resp = retry(post) resp.read() self.assertEquals(resp.status, 204) resp = retry(get) resp.read() self.assertEquals(resp.status, 200) def post(url, token, parsed, conn): conn.request('POST', parsed.path + '/' + self.container, '', {'X-Auth-Token': token, 'X-Container-Read': ''}) return check_response(conn) resp = retry(post) resp.read() self.assertEquals(resp.status, 204) try: resp = retry(get) raise Exception('Should not have been able to GET') except Exception, err: self.assert_(str(err).startswith('No result after '))
def test_manifest(self): if skip: raise SkipTest # Data for the object segments segments1 = ['one', 'two', 'three', 'four', 'five'] segments2 = ['six', 'seven', 'eight'] segments3 = ['nine', 'ten', 'eleven'] # Upload the first set of segments def put(url, token, parsed, conn, objnum): conn.request('PUT', '%s/%s/segments1/%s' % (parsed.path, self.container, str(objnum)), segments1[objnum], {'X-Auth-Token': token}) return check_response(conn) for objnum in xrange(len(segments1)): resp = retry(put, objnum) resp.read() self.assertEquals(resp.status, 201) # Upload the manifest def put(url, token, parsed, conn): conn.request('PUT', '%s/%s/manifest' % (parsed.path, self.container), '', {'X-Auth-Token': token, 'X-Object-Manifest': '%s/segments1/' % self.container, 'Content-Type': 'text/jibberish', 'Content-Length': '0'}) return check_response(conn) resp = retry(put) resp.read() self.assertEquals(resp.status, 201) # Get the manifest (should get all the segments as the body) def get(url, token, parsed, conn): conn.request('GET', '%s/%s/manifest' % (parsed.path, self.container), '', {'X-Auth-Token': token}) return check_response(conn) resp = retry(get) self.assertEquals(resp.read(), ''.join(segments1)) self.assertEquals(resp.status, 200) self.assertEquals(resp.getheader('content-type'), 'text/jibberish') # Get with a range at the start of the second segment def get(url, token, parsed, conn): conn.request('GET', '%s/%s/manifest' % (parsed.path, self.container), '', {'X-Auth-Token': token, 'Range': 'bytes=3-'}) return check_response(conn) resp = retry(get) self.assertEquals(resp.read(), ''.join(segments1[1:])) self.assertEquals(resp.status, 206) # Get with a range in the middle of the second segment def get(url, token, parsed, conn): conn.request('GET', '%s/%s/manifest' % (parsed.path, self.container), '', {'X-Auth-Token': token, 'Range': 'bytes=5-'}) return check_response(conn) resp = retry(get) self.assertEquals(resp.read(), ''.join(segments1)[5:]) self.assertEquals(resp.status, 206) # Get with a full start and stop range def get(url, token, parsed, conn): conn.request('GET', '%s/%s/manifest' % (parsed.path, self.container), '', {'X-Auth-Token': token, 'Range': 'bytes=5-10'}) return check_response(conn) resp = retry(get) self.assertEquals(resp.read(), ''.join(segments1)[5:11]) self.assertEquals(resp.status, 206) # Upload the second set of segments def put(url, token, parsed, conn, objnum): conn.request('PUT', '%s/%s/segments2/%s' % (parsed.path, self.container, str(objnum)), segments2[objnum], {'X-Auth-Token': token}) return check_response(conn) for objnum in xrange(len(segments2)): resp = retry(put, objnum) resp.read() self.assertEquals(resp.status, 201) # Get the manifest (should still be the first segments of course) def get(url, token, parsed, conn): conn.request('GET', '%s/%s/manifest' % (parsed.path, self.container), '', {'X-Auth-Token': token}) return check_response(conn) resp = retry(get) self.assertEquals(resp.read(), ''.join(segments1)) self.assertEquals(resp.status, 200) # Update the manifest def put(url, token, parsed, conn): conn.request('PUT', '%s/%s/manifest' % (parsed.path, self.container), '', {'X-Auth-Token': token, 'X-Object-Manifest': '%s/segments2/' % self.container, 'Content-Length': '0'}) return check_response(conn) resp = retry(put) resp.read() self.assertEquals(resp.status, 201) # Get the manifest (should be the second set of segments now) def get(url, token, parsed, conn): conn.request('GET', '%s/%s/manifest' % (parsed.path, self.container), '', {'X-Auth-Token': token}) return check_response(conn) resp = retry(get) self.assertEquals(resp.read(), ''.join(segments2)) self.assertEquals(resp.status, 200) if not skip3: # Ensure we can't access the manifest with the third account def get(url, token, parsed, conn): conn.request('GET', '%s/%s/manifest' % (parsed.path, self.container), '', {'X-Auth-Token': token}) return check_response(conn) resp = retry(get, use_account=3) resp.read() self.assertEquals(resp.status, 403) # Grant access to the third account def post(url, token, parsed, conn): conn.request('POST', '%s/%s' % (parsed.path, self.container), '', {'X-Auth-Token': token, 'X-Container-Read': chase_test_user[2]}) return check_response(conn) resp = retry(post) resp.read() self.assertEquals(resp.status, 204) # The third account should be able to get the manifest now def get(url, token, parsed, conn): conn.request('GET', '%s/%s/manifest' % (parsed.path, self.container), '', {'X-Auth-Token': token}) return check_response(conn) resp = retry(get, use_account=3) self.assertEquals(resp.read(), ''.join(segments2)) self.assertEquals(resp.status, 200) # Create another container for the third set of segments acontainer = uuid4().hex def put(url, token, parsed, conn): conn.request('PUT', parsed.path + '/' + acontainer, '', {'X-Auth-Token': token}) return check_response(conn) resp = retry(put) resp.read() self.assertEquals(resp.status, 201) # Upload the third set of segments in the other container def put(url, token, parsed, conn, objnum): conn.request('PUT', '%s/%s/segments3/%s' % (parsed.path, acontainer, str(objnum)), segments3[objnum], {'X-Auth-Token': token}) return check_response(conn) for objnum in xrange(len(segments3)): resp = retry(put, objnum) resp.read() self.assertEquals(resp.status, 201) # Update the manifest def put(url, token, parsed, conn): conn.request('PUT', '%s/%s/manifest' % (parsed.path, self.container), '', {'X-Auth-Token': token, 'X-Object-Manifest': '%s/segments3/' % acontainer, 'Content-Length': '0'}) return check_response(conn) resp = retry(put) resp.read() self.assertEquals(resp.status, 201) # Get the manifest to ensure it's the third set of segments def get(url, token, parsed, conn): conn.request('GET', '%s/%s/manifest' % (parsed.path, self.container), '', {'X-Auth-Token': token}) return check_response(conn) resp = retry(get) self.assertEquals(resp.read(), ''.join(segments3)) self.assertEquals(resp.status, 200) if not skip3: # Ensure we can't access the manifest with the third account # (because the segments are in a protected container even if the # manifest itself is not). def get(url, token, parsed, conn): conn.request('GET', '%s/%s/manifest' % (parsed.path, self.container), '', {'X-Auth-Token': token}) return check_response(conn) resp = retry(get, use_account=3) resp.read() self.assertEquals(resp.status, 403) # Grant access to the third account def post(url, token, parsed, conn): conn.request('POST', '%s/%s' % (parsed.path, acontainer), '', {'X-Auth-Token': token, 'X-Container-Read': chase_test_user[2]}) return check_response(conn) resp = retry(post) resp.read() self.assertEquals(resp.status, 204) # The third account should be able to get the manifest now def get(url, token, parsed, conn): conn.request('GET', '%s/%s/manifest' % (parsed.path, self.container), '', {'X-Auth-Token': token}) return check_response(conn) resp = retry(get, use_account=3) self.assertEquals(resp.read(), ''.join(segments3)) self.assertEquals(resp.status, 200) # Delete the manifest def delete(url, token, parsed, conn, objnum): conn.request('DELETE', '%s/%s/manifest' % (parsed.path, self.container), '', {'X-Auth-Token': token}) return check_response(conn) resp = retry(delete, objnum) resp.read() self.assertEquals(resp.status, 204) # Delete the third set of segments def delete(url, token, parsed, conn, objnum): conn.request('DELETE', '%s/%s/segments3/%s' % (parsed.path, acontainer, str(objnum)), '', {'X-Auth-Token': token}) return check_response(conn) for objnum in xrange(len(segments3)): resp = retry(delete, objnum) resp.read() self.assertEquals(resp.status, 204) # Delete the second set of segments def delete(url, token, parsed, conn, objnum): conn.request('DELETE', '%s/%s/segments2/%s' % (parsed.path, self.container, str(objnum)), '', {'X-Auth-Token': token}) return check_response(conn) for objnum in xrange(len(segments2)): resp = retry(delete, objnum) resp.read() self.assertEquals(resp.status, 204) # Delete the first set of segments def delete(url, token, parsed, conn, objnum): conn.request('DELETE', '%s/%s/segments1/%s' % (parsed.path, self.container, str(objnum)), '', {'X-Auth-Token': token}) return check_response(conn) for objnum in xrange(len(segments1)): resp = retry(delete, objnum) resp.read() self.assertEquals(resp.status, 204) # Delete the extra container def delete(url, token, parsed, conn): conn.request('DELETE', '%s/%s' % (parsed.path, acontainer), '', {'X-Auth-Token': token}) return check_response(conn) resp = retry(delete) resp.read() self.assertEquals(resp.status, 204)
def test_POST_bad_metadata(self): if skip: raise SkipTest def post(url, token, parsed, conn, extra_headers): headers = {'X-Auth-Token': token} headers.update(extra_headers) conn.request('POST', parsed.path + '/' + self.name, '', headers) return check_response(conn) resp = retry(post, {'X-Container-Meta-' + ('k' * MAX_META_NAME_LENGTH): 'v'}) resp.read() self.assertEquals(resp.status, 204) resp = retry( post, {'X-Container-Meta-' + ('k' * (MAX_META_NAME_LENGTH + 1)): 'v'}) resp.read() self.assertEquals(resp.status, 400) resp = retry( post, {'X-Container-Meta-Too-Long': 'k' * MAX_META_VALUE_LENGTH}) resp.read() self.assertEquals(resp.status, 204) resp = retry( post, {'X-Container-Meta-Too-Long': 'k' * (MAX_META_VALUE_LENGTH + 1)}) resp.read() self.assertEquals(resp.status, 400) headers = {} for x in xrange(MAX_META_COUNT): headers['X-Container-Meta-%d' % x] = 'v' resp = retry(post, headers) resp.read() self.assertEquals(resp.status, 204) headers = {} for x in xrange(MAX_META_COUNT + 1): headers['X-Container-Meta-%d' % x] = 'v' resp = retry(post, headers) resp.read() self.assertEquals(resp.status, 400) headers = {} header_value = 'k' * MAX_META_VALUE_LENGTH size = 0 x = 0 while size < MAX_META_OVERALL_SIZE - 4 - MAX_META_VALUE_LENGTH: size += 4 + MAX_META_VALUE_LENGTH headers['X-Container-Meta-%04d' % x] = header_value x += 1 if MAX_META_OVERALL_SIZE - size > 1: headers['X-Container-Meta-k'] = \ 'v' * (MAX_META_OVERALL_SIZE - size - 1) resp = retry(post, headers) resp.read() self.assertEquals(resp.status, 204) headers['X-Container-Meta-k'] = \ 'v' * (MAX_META_OVERALL_SIZE - size) resp = retry(post, headers) resp.read() self.assertEquals(resp.status, 400)
def test_copy_object(self): if skip: raise SkipTest source = '%s/%s' % (self.container, self.obj) dest = '%s/%s' % (self.container, 'test_copy') # get contents of source def get_source(url, token, parsed, conn): conn.request('GET', '%s/%s' % (parsed.path, source), '', {'X-Auth-Token': token}) return check_response(conn) resp = retry(get_source) source_contents = resp.read() self.assertEquals(resp.status, 200) self.assertEquals(source_contents, 'test') # copy source to dest with X-Copy-From def put(url, token, parsed, conn): conn.request('PUT', '%s/%s' % (parsed.path, dest), '', {'X-Auth-Token': token, 'Content-Length': '0', 'X-Copy-From': source}) return check_response(conn) resp = retry(put) contents = resp.read() self.assertEquals(resp.status, 201) # contents of dest should be the same as source def get_dest(url, token, parsed, conn): conn.request('GET', '%s/%s' % (parsed.path, dest), '', {'X-Auth-Token': token}) return check_response(conn) resp = retry(get_dest) dest_contents = resp.read() self.assertEquals(resp.status, 200) self.assertEquals(dest_contents, source_contents) # delete the copy def delete(url, token, parsed, conn): conn.request('DELETE', '%s/%s' % (parsed.path, dest), '', {'X-Auth-Token': token}) return check_response(conn) resp = retry(delete) resp.read() self.assertEquals(resp.status, 204) # verify dest does not exist resp = retry(get_dest) resp.read() self.assertEquals(resp.status, 404) # copy source to dest with COPY def copy(url, token, parsed, conn): conn.request('COPY', '%s/%s' % (parsed.path, source), '', {'X-Auth-Token': token, 'Destination': dest}) return check_response(conn) resp = retry(copy) contents = resp.read() self.assertEquals(resp.status, 201) # contents of dest should be the same as source resp = retry(get_dest) dest_contents = resp.read() self.assertEquals(resp.status, 200) self.assertEquals(dest_contents, source_contents) # delete the copy resp = retry(delete) resp.read() self.assertEquals(resp.status, 204)
class TestContainer(unittest.TestCase): def setUp(self): if skip: raise SkipTest self.name = uuid4().hex def put(url, token, parsed, conn): conn.request('PUT', parsed.path + '/' + self.name, '', {'X-Auth-Token': token}) return check_response(conn) resp = retry(put) resp.read() self.assertEquals(resp.status, 201) def tearDown(self): if skip: raise SkipTest def get(url, token, parsed, conn): conn.request('GET', parsed.path + '/' + self.name + '?format=json', '', {'X-Auth-Token': token}) return check_response(conn) def delete(url, token, parsed, conn, obj): conn.request('DELETE', '/'.join([parsed.path, self.name, obj['name']]), '', {'X-Auth-Token': token}) return check_response(conn) while True: resp = retry(get) body = resp.read() self.assert_(resp.status // 100 == 2, resp.status) objs = json.loads(body) if not objs: break for obj in objs: resp = retry(delete, obj) resp.read() self.assertEquals(resp.status, 204) def delete(url, token, parsed, conn): conn.request('DELETE', parsed.path + '/' + self.name, '', {'X-Auth-Token': token}) return check_response(conn) resp = retry(delete) resp.read() self.assertEquals(resp.status, 204) def test_multi_metadata(self): if skip: raise SkipTest def post(url, token, parsed, conn, name, value): conn.request('POST', parsed.path + '/' + self.name, '', { 'X-Auth-Token': token, name: value }) return check_response(conn) def head(url, token, parsed, conn): conn.request('HEAD', parsed.path + '/' + self.name, '', {'X-Auth-Token': token}) return check_response(conn) resp = retry(post, 'X-Container-Meta-One', '1') resp.read() self.assertEquals(resp.status, 204) resp = retry(head) resp.read() self.assert_(resp.status in (200, 204), resp.status) self.assertEquals(resp.getheader('x-container-meta-one'), '1') resp = retry(post, 'X-Container-Meta-Two', '2') resp.read() self.assertEquals(resp.status, 204) resp = retry(head) resp.read() self.assert_(resp.status in (200, 204), resp.status) self.assertEquals(resp.getheader('x-container-meta-one'), '1') self.assertEquals(resp.getheader('x-container-meta-two'), '2') def test_PUT_metadata(self): if skip: raise SkipTest def put(url, token, parsed, conn, name, value): conn.request('PUT', parsed.path + '/' + name, '', { 'X-Auth-Token': token, 'X-Container-Meta-Test': value }) return check_response(conn) def head(url, token, parsed, conn, name): conn.request('HEAD', parsed.path + '/' + name, '', {'X-Auth-Token': token}) return check_response(conn) def get(url, token, parsed, conn, name): conn.request('GET', parsed.path + '/' + name, '', {'X-Auth-Token': token}) return check_response(conn) def delete(url, token, parsed, conn, name): conn.request('DELETE', parsed.path + '/' + name, '', {'X-Auth-Token': token}) return check_response(conn) name = uuid4().hex resp = retry(put, name, 'Value') resp.read() self.assertEquals(resp.status, 201) resp = retry(head, name) resp.read() self.assert_(resp.status in (200, 204), resp.status) self.assertEquals(resp.getheader('x-container-meta-test'), 'Value') resp = retry(get, name) resp.read() self.assert_(resp.status in (200, 204), resp.status) self.assertEquals(resp.getheader('x-container-meta-test'), 'Value') resp = retry(delete, name) resp.read() self.assertEquals(resp.status, 204) name = uuid4().hex resp = retry(put, name, '') resp.read() self.assertEquals(resp.status, 201) resp = retry(head, name) resp.read() self.assert_(resp.status in (200, 204), resp.status) self.assertEquals(resp.getheader('x-container-meta-test'), None) resp = retry(get, name) resp.read() self.assert_(resp.status in (200, 204), resp.status) self.assertEquals(resp.getheader('x-container-meta-test'), None) resp = retry(delete, name) resp.read() self.assertEquals(resp.status, 204) def test_POST_metadata(self): if skip: raise SkipTest def post(url, token, parsed, conn, value): conn.request('POST', parsed.path + '/' + self.name, '', { 'X-Auth-Token': token, 'X-Container-Meta-Test': value }) return check_response(conn) def head(url, token, parsed, conn): conn.request('HEAD', parsed.path + '/' + self.name, '', {'X-Auth-Token': token}) return check_response(conn) def get(url, token, parsed, conn): conn.request('GET', parsed.path + '/' + self.name, '', {'X-Auth-Token': token}) return check_response(conn) resp = retry(head) resp.read() self.assert_(resp.status in (200, 204), resp.status) self.assertEquals(resp.getheader('x-container-meta-test'), None) resp = retry(get) resp.read() self.assert_(resp.status in (200, 204), resp.status) self.assertEquals(resp.getheader('x-container-meta-test'), None) resp = retry(post, 'Value') resp.read() self.assertEquals(resp.status, 204) resp = retry(head) resp.read() self.assert_(resp.status in (200, 204), resp.status) self.assertEquals(resp.getheader('x-container-meta-test'), 'Value') resp = retry(get) resp.read() self.assert_(resp.status in (200, 204), resp.status) self.assertEquals(resp.getheader('x-container-meta-test'), 'Value') def test_PUT_bad_metadata(self): if skip: raise SkipTest def put(url, token, parsed, conn, name, extra_headers): headers = {'X-Auth-Token': token} headers.update(extra_headers) conn.request('PUT', parsed.path + '/' + name, '', headers) return check_response(conn) def delete(url, token, parsed, conn, name): conn.request('DELETE', parsed.path + '/' + name, '', {'X-Auth-Token': token}) return check_response(conn) name = uuid4().hex resp = retry(put, name, {'X-Container-Meta-' + ('k' * MAX_META_NAME_LENGTH): 'v'}) resp.read() self.assertEquals(resp.status, 201) resp = retry(delete, name) resp.read() self.assertEquals(resp.status, 204) name = uuid4().hex resp = retry( put, name, {'X-Container-Meta-' + ('k' * (MAX_META_NAME_LENGTH + 1)): 'v'}) resp.read() self.assertEquals(resp.status, 400) resp = retry(delete, name) resp.read() self.assertEquals(resp.status, 404) name = uuid4().hex resp = retry( put, name, {'X-Container-Meta-Too-Long': 'k' * MAX_META_VALUE_LENGTH}) resp.read() self.assertEquals(resp.status, 201) resp = retry(delete, name) resp.read() self.assertEquals(resp.status, 204) name = uuid4().hex resp = retry( put, name, {'X-Container-Meta-Too-Long': 'k' * (MAX_META_VALUE_LENGTH + 1)}) resp.read() self.assertEquals(resp.status, 400) resp = retry(delete, name) resp.read() self.assertEquals(resp.status, 404) name = uuid4().hex headers = {} for x in xrange(MAX_META_COUNT): headers['X-Container-Meta-%d' % x] = 'v' resp = retry(put, name, headers) resp.read() self.assertEquals(resp.status, 201) resp = retry(delete, name) resp.read() self.assertEquals(resp.status, 204) name = uuid4().hex headers = {} for x in xrange(MAX_META_COUNT + 1): headers['X-Container-Meta-%d' % x] = 'v' resp = retry(put, name, headers) resp.read() self.assertEquals(resp.status, 400) resp = retry(delete, name) resp.read() self.assertEquals(resp.status, 404) name = uuid4().hex headers = {} header_value = 'k' * MAX_META_VALUE_LENGTH size = 0 x = 0 while size < MAX_META_OVERALL_SIZE - 4 - MAX_META_VALUE_LENGTH: size += 4 + MAX_META_VALUE_LENGTH headers['X-Container-Meta-%04d' % x] = header_value x += 1 if MAX_META_OVERALL_SIZE - size > 1: headers['X-Container-Meta-k'] = \ 'v' * (MAX_META_OVERALL_SIZE - size - 1) resp = retry(put, name, headers) resp.read() self.assertEquals(resp.status, 201) resp = retry(delete, name) resp.read() self.assertEquals(resp.status, 204) name = uuid4().hex headers['X-Container-Meta-k'] = \ 'v' * (MAX_META_OVERALL_SIZE - size) resp = retry(put, name, headers) resp.read() self.assertEquals(resp.status, 400) resp = retry(delete, name) resp.read() self.assertEquals(resp.status, 404) def test_POST_bad_metadata(self): if skip: raise SkipTest def post(url, token, parsed, conn, extra_headers): headers = {'X-Auth-Token': token} headers.update(extra_headers) conn.request('POST', parsed.path + '/' + self.name, '', headers) return check_response(conn) resp = retry(post, {'X-Container-Meta-' + ('k' * MAX_META_NAME_LENGTH): 'v'}) resp.read() self.assertEquals(resp.status, 204) resp = retry( post, {'X-Container-Meta-' + ('k' * (MAX_META_NAME_LENGTH + 1)): 'v'}) resp.read() self.assertEquals(resp.status, 400) resp = retry( post, {'X-Container-Meta-Too-Long': 'k' * MAX_META_VALUE_LENGTH}) resp.read() self.assertEquals(resp.status, 204) resp = retry( post, {'X-Container-Meta-Too-Long': 'k' * (MAX_META_VALUE_LENGTH + 1)}) resp.read() self.assertEquals(resp.status, 400) headers = {} for x in xrange(MAX_META_COUNT): headers['X-Container-Meta-%d' % x] = 'v' resp = retry(post, headers) resp.read() self.assertEquals(resp.status, 204) headers = {} for x in xrange(MAX_META_COUNT + 1): headers['X-Container-Meta-%d' % x] = 'v' resp = retry(post, headers) resp.read() self.assertEquals(resp.status, 400) headers = {} header_value = 'k' * MAX_META_VALUE_LENGTH size = 0 x = 0 while size < MAX_META_OVERALL_SIZE - 4 - MAX_META_VALUE_LENGTH: size += 4 + MAX_META_VALUE_LENGTH headers['X-Container-Meta-%04d' % x] = header_value x += 1 if MAX_META_OVERALL_SIZE - size > 1: headers['X-Container-Meta-k'] = \ 'v' * (MAX_META_OVERALL_SIZE - size - 1) resp = retry(post, headers) resp.read() self.assertEquals(resp.status, 204) headers['X-Container-Meta-k'] = \ 'v' * (MAX_META_OVERALL_SIZE - size) resp = retry(post, headers) resp.read() self.assertEquals(resp.status, 400) def test_public_container(self): if skip: raise SkipTest def get(url, token, parsed, conn): conn.request('GET', parsed.path + '/' + self.name) return check_response(conn) try: resp = retry(get) raise Exception('Should not have been able to GET') except Exception, err: self.assert_(str(err).startswith('No result after '), err) def post(url, token, parsed, conn): conn.request('POST', parsed.path + '/' + self.name, '', { 'X-Auth-Token': token, 'X-Container-Read': '.r:*,.rlistings' }) return check_response(conn) resp = retry(post) resp.read() self.assertEquals(resp.status, 204) resp = retry(get) resp.read() self.assertEquals(resp.status, 204) def post(url, token, parsed, conn): conn.request('POST', parsed.path + '/' + self.name, '', { 'X-Auth-Token': token, 'X-Container-Read': '' }) return check_response(conn) resp = retry(post) resp.read() self.assertEquals(resp.status, 204) try: resp = retry(get) raise Exception('Should not have been able to GET') except Exception, err: self.assert_(str(err).startswith('No result after '), err)