import hashlib import mock import os import pycurl import random import re import socket import threading import time import unittest import urlparse import arvados import arvados.retry import arvados_testutil as tutil import keepstub import run_test_server class KeepTestCase(run_test_server.TestCaseWithServers): MAIN_SERVER = {} KEEP_SERVER = {} @classmethod def setUpClass(cls): super(KeepTestCase, cls).setUpClass() run_test_server.authorize_with("admin") cls.api_client = arvados.api('v1') cls.keep_client = arvados.KeepClient(api_client=cls.api_client, proxy='', local_store='') def test_KeepBasicRWTest(self): self.assertEqual(0, self.keep_client.upload_counter.get()) foo_locator = self.keep_client.put('foo') self.assertRegexpMatches( foo_locator, '^acbd18db4cc2f85cedef654fccc4a4d8\+3', 'wrong md5 hash from Keep.put("foo"): ' + foo_locator) # 6 bytes because uploaded 2 copies self.assertEqual(6, self.keep_client.upload_counter.get()) self.assertEqual(0, self.keep_client.download_counter.get()) self.assertEqual(self.keep_client.get(foo_locator), 'foo', 'wrong content from Keep.get(md5("foo"))') self.assertEqual(3, self.keep_client.download_counter.get()) def test_KeepBinaryRWTest(self): blob_str = '\xff\xfe\xf7\x00\x01\x02' blob_locator = self.keep_client.put(blob_str) self.assertRegexpMatches( blob_locator, '^7fc7c53b45e53926ba52821140fef396\+6', ('wrong locator from Keep.put():' + blob_locator)) self.assertEqual(self.keep_client.get(blob_locator), blob_str, 'wrong content from Keep.get(md5())') def test_KeepLongBinaryRWTest(self): blob_str = '\xff\xfe\xfd\xfc\x00\x01\x02\x03' for i in range(0,23): blob_str = blob_str + blob_str blob_locator = self.keep_client.put(blob_str) self.assertRegexpMatches( blob_locator, '^84d90fc0d8175dd5dcfab04b999bc956\+67108864', ('wrong locator from Keep.put(): ' + blob_locator)) self.assertEqual(self.keep_client.get(blob_locator), blob_str, 'wrong content from Keep.get(md5())') @unittest.skip("unreliable test - please fix and close #8752") def test_KeepSingleCopyRWTest(self): blob_str = '\xff\xfe\xfd\xfc\x00\x01\x02\x03' blob_locator = self.keep_client.put(blob_str, copies=1) self.assertRegexpMatches( blob_locator, '^c902006bc98a3eb4a3663b65ab4a6fab\+8', ('wrong locator from Keep.put(): ' + blob_locator)) self.assertEqual(self.keep_client.get(blob_locator), blob_str, 'wrong content from Keep.get(md5())') def test_KeepEmptyCollectionTest(self): blob_locator = self.keep_client.put('', copies=1) self.assertRegexpMatches( blob_locator, '^d41d8cd98f00b204e9800998ecf8427e\+0', ('wrong locator from Keep.put(""): ' + blob_locator)) def test_unicode_must_be_ascii(self): # If unicode type, must only consist of valid ASCII foo_locator = self.keep_client.put(u'foo') self.assertRegexpMatches( foo_locator, '^acbd18db4cc2f85cedef654fccc4a4d8\+3', 'wrong md5 hash from Keep.put("foo"): ' + foo_locator) with self.assertRaises(UnicodeEncodeError): # Error if it is not ASCII self.keep_client.put(u'\xe2') with self.assertRaises(arvados.errors.ArgumentError): # Must be a string type self.keep_client.put({}) def test_KeepHeadTest(self): locator = self.keep_client.put('test_head') self.assertRegexpMatches( locator, '^b9a772c7049325feb7130fff1f8333e9\+9', 'wrong md5 hash from Keep.put for "test_head": ' + locator) self.assertEqual(True, self.keep_client.head(locator)) self.assertEqual(self.keep_client.get(locator), 'test_head', 'wrong content from Keep.get for "test_head"') class KeepPermissionTestCase(run_test_server.TestCaseWithServers): MAIN_SERVER = {} KEEP_SERVER = {'blob_signing_key': 'abcdefghijk0123456789', 'enforce_permissions': True} def test_KeepBasicRWTest(self): run_test_server.authorize_with('active') keep_client = arvados.KeepClient() foo_locator = keep_client.put('foo') self.assertRegexpMatches( foo_locator, r'^acbd18db4cc2f85cedef654fccc4a4d8\+3\+A[a-f0-9]+@[a-f0-9]+$', 'invalid locator from Keep.put("foo"): ' + foo_locator) self.assertEqual(keep_client.get(foo_locator), 'foo', 'wrong content from Keep.get(md5("foo"))') # GET with an unsigned locator => NotFound bar_locator = keep_client.put('bar') unsigned_bar_locator = "37b51d194a7513e45b56f6524f2d51f2+3" self.assertRegexpMatches( bar_locator, r'^37b51d194a7513e45b56f6524f2d51f2\+3\+A[a-f0-9]+@[a-f0-9]+$', 'invalid locator from Keep.put("bar"): ' + bar_locator) self.assertRaises(arvados.errors.NotFoundError, keep_client.get, unsigned_bar_locator) # GET from a different user => NotFound run_test_server.authorize_with('spectator') self.assertRaises(arvados.errors.NotFoundError, arvados.Keep.get, bar_locator) # Unauthenticated GET for a signed locator => NotFound # Unauthenticated GET for an unsigned locator => NotFound keep_client.api_token = '' self.assertRaises(arvados.errors.NotFoundError, keep_client.get, bar_locator) self.assertRaises(arvados.errors.NotFoundError, keep_client.get, unsigned_bar_locator) # KeepOptionalPermission: starts Keep with --permission-key-file # but not --enforce-permissions (i.e. generate signatures on PUT # requests, but do not require them for GET requests) # # All of these requests should succeed when permissions are optional: # * authenticated request, signed locator # * authenticated request, unsigned locator # * unauthenticated request, signed locator # * unauthenticated request, unsigned locator class KeepOptionalPermission(run_test_server.TestCaseWithServers): MAIN_SERVER = {} KEEP_SERVER = {'blob_signing_key': 'abcdefghijk0123456789', 'enforce_permissions': False} @classmethod def setUpClass(cls): super(KeepOptionalPermission, cls).setUpClass() run_test_server.authorize_with("admin") cls.api_client = arvados.api('v1') def setUp(self): super(KeepOptionalPermission, self).setUp() self.keep_client = arvados.KeepClient(api_client=self.api_client, proxy='', local_store='') def _put_foo_and_check(self): signed_locator = self.keep_client.put('foo') self.assertRegexpMatches( signed_locator, r'^acbd18db4cc2f85cedef654fccc4a4d8\+3\+A[a-f0-9]+@[a-f0-9]+$', 'invalid locator from Keep.put("foo"): ' + signed_locator) return signed_locator def test_KeepAuthenticatedSignedTest(self): signed_locator = self._put_foo_and_check() self.assertEqual(self.keep_client.get(signed_locator), 'foo', 'wrong content from Keep.get(md5("foo"))') def test_KeepAuthenticatedUnsignedTest(self): signed_locator = self._put_foo_and_check() self.assertEqual(self.keep_client.get("acbd18db4cc2f85cedef654fccc4a4d8"), 'foo', 'wrong content from Keep.get(md5("foo"))') def test_KeepUnauthenticatedSignedTest(self): # Check that signed GET requests work even when permissions # enforcement is off. signed_locator = self._put_foo_and_check() self.keep_client.api_token = '' self.assertEqual(self.keep_client.get(signed_locator), 'foo', 'wrong content from Keep.get(md5("foo"))') def test_KeepUnauthenticatedUnsignedTest(self): # Since --enforce-permissions is not in effect, GET requests # need not be authenticated. signed_locator = self._put_foo_and_check() self.keep_client.api_token = '' self.assertEqual(self.keep_client.get("acbd18db4cc2f85cedef654fccc4a4d8"), 'foo', 'wrong content from Keep.get(md5("foo"))') class KeepProxyTestCase(run_test_server.TestCaseWithServers): MAIN_SERVER = {} KEEP_SERVER = {} KEEP_PROXY_SERVER = {} @classmethod def setUpClass(cls): super(KeepProxyTestCase, cls).setUpClass() run_test_server.authorize_with('active') cls.api_client = arvados.api('v1') def tearDown(self): arvados.config.settings().pop('ARVADOS_EXTERNAL_CLIENT', None) super(KeepProxyTestCase, self).tearDown() def test_KeepProxyTest1(self): # Will use ARVADOS_KEEP_PROXY environment variable that is set by # setUpClass(). keep_client = arvados.KeepClient(api_client=self.api_client, local_store='') baz_locator = keep_client.put('baz') self.assertRegexpMatches( baz_locator, '^73feffa4b7f6bb68e44cf984c85f6e88\+3', 'wrong md5 hash from Keep.put("baz"): ' + baz_locator) self.assertEqual(keep_client.get(baz_locator), 'baz', 'wrong content from Keep.get(md5("baz"))') self.assertTrue(keep_client.using_proxy) def test_KeepProxyTest2(self): # Don't instantiate the proxy directly, but set the X-External-Client # header. The API server should direct us to the proxy. arvados.config.settings()['ARVADOS_EXTERNAL_CLIENT'] = 'true' keep_client = arvados.KeepClient(api_client=self.api_client, proxy='', local_store='') baz_locator = keep_client.put('baz2') self.assertRegexpMatches( baz_locator, '^91f372a266fe2bf2823cb8ec7fda31ce\+4', 'wrong md5 hash from Keep.put("baz2"): ' + baz_locator) self.assertEqual(keep_client.get(baz_locator), 'baz2', 'wrong content from Keep.get(md5("baz2"))') self.assertTrue(keep_client.using_proxy) class KeepClientServiceTestCase(unittest.TestCase, tutil.ApiClientMock): def get_service_roots(self, api_client): keep_client = arvados.KeepClient(api_client=api_client) services = keep_client.weighted_service_roots(arvados.KeepLocator('0'*32)) return [urlparse.urlparse(url) for url in sorted(services)] def test_ssl_flag_respected_in_roots(self): for ssl_flag in [False, True]: services = self.get_service_roots(self.mock_keep_services( service_ssl_flag=ssl_flag)) self.assertEqual( ('https' if ssl_flag else 'http'), services[0].scheme) def test_correct_ports_with_ipv6_addresses(self): service = self.get_service_roots(self.mock_keep_services( service_type='proxy', service_host='100::1', service_port=10, count=1))[0] self.assertEqual('100::1', service.hostname) self.assertEqual(10, service.port) # test_*_timeout verify that KeepClient instructs pycurl to use # the appropriate connection and read timeouts. They don't care # whether pycurl actually exhibits the expected timeout behavior # -- those tests are in the KeepClientTimeout test class. def test_get_timeout(self): api_client = self.mock_keep_services(count=1) force_timeout = socket.timeout("timed out") with tutil.mock_keep_responses(force_timeout, 0) as mock: keep_client = arvados.KeepClient(api_client=api_client) with self.assertRaises(arvados.errors.KeepReadError): keep_client.get('ffffffffffffffffffffffffffffffff') self.assertEqual( mock.responses[0].getopt(pycurl.CONNECTTIMEOUT_MS), int(arvados.KeepClient.DEFAULT_TIMEOUT[0]*1000)) self.assertEqual( mock.responses[0].getopt(pycurl.LOW_SPEED_TIME), int(arvados.KeepClient.DEFAULT_TIMEOUT[1])) self.assertEqual( mock.responses[0].getopt(pycurl.LOW_SPEED_LIMIT), int(arvados.KeepClient.DEFAULT_TIMEOUT[2])) def test_put_timeout(self): api_client = self.mock_keep_services(count=1) force_timeout = socket.timeout("timed out") with tutil.mock_keep_responses(force_timeout, 0) as mock: keep_client = arvados.KeepClient(api_client=api_client) with self.assertRaises(arvados.errors.KeepWriteError): keep_client.put('foo') self.assertEqual( mock.responses[0].getopt(pycurl.CONNECTTIMEOUT_MS), int(arvados.KeepClient.DEFAULT_TIMEOUT[0]*1000)) self.assertEqual( mock.responses[0].getopt(pycurl.LOW_SPEED_TIME), int(arvados.KeepClient.DEFAULT_TIMEOUT[1])) self.assertEqual( mock.responses[0].getopt(pycurl.LOW_SPEED_LIMIT), int(arvados.KeepClient.DEFAULT_TIMEOUT[2])) def test_head_timeout(self): api_client = self.mock_keep_services(count=1) force_timeout = socket.timeout("timed out") with tutil.mock_keep_responses(force_timeout, 0) as mock: keep_client = arvados.KeepClient(api_client=api_client) with self.assertRaises(arvados.errors.KeepReadError): keep_client.head('ffffffffffffffffffffffffffffffff') self.assertEqual( mock.responses[0].getopt(pycurl.CONNECTTIMEOUT_MS), int(arvados.KeepClient.DEFAULT_TIMEOUT[0]*1000)) self.assertEqual( mock.responses[0].getopt(pycurl.LOW_SPEED_TIME), int(arvados.KeepClient.DEFAULT_TIMEOUT[1])) self.assertEqual( mock.responses[0].getopt(pycurl.LOW_SPEED_LIMIT), int(arvados.KeepClient.DEFAULT_TIMEOUT[2])) def test_proxy_get_timeout(self): api_client = self.mock_keep_services(service_type='proxy', count=1) force_timeout = socket.timeout("timed out") with tutil.mock_keep_responses(force_timeout, 0) as mock: keep_client = arvados.KeepClient(api_client=api_client) with self.assertRaises(arvados.errors.KeepReadError): keep_client.get('ffffffffffffffffffffffffffffffff') self.assertEqual( mock.responses[0].getopt(pycurl.CONNECTTIMEOUT_MS), int(arvados.KeepClient.DEFAULT_PROXY_TIMEOUT[0]*1000)) self.assertEqual( mock.responses[0].getopt(pycurl.LOW_SPEED_TIME), int(arvados.KeepClient.DEFAULT_PROXY_TIMEOUT[1])) self.assertEqual( mock.responses[0].getopt(pycurl.LOW_SPEED_LIMIT), int(arvados.KeepClient.DEFAULT_PROXY_TIMEOUT[2])) def test_proxy_head_timeout(self): api_client = self.mock_keep_services(service_type='proxy', count=1) force_timeout = socket.timeout("timed out") with tutil.mock_keep_responses(force_timeout, 0) as mock: keep_client = arvados.KeepClient(api_client=api_client) with self.assertRaises(arvados.errors.KeepReadError): keep_client.head('ffffffffffffffffffffffffffffffff') self.assertEqual( mock.responses[0].getopt(pycurl.CONNECTTIMEOUT_MS), int(arvados.KeepClient.DEFAULT_PROXY_TIMEOUT[0]*1000)) self.assertEqual( mock.responses[0].getopt(pycurl.LOW_SPEED_TIME), int(arvados.KeepClient.DEFAULT_PROXY_TIMEOUT[1])) self.assertEqual( mock.responses[0].getopt(pycurl.LOW_SPEED_LIMIT), int(arvados.KeepClient.DEFAULT_PROXY_TIMEOUT[2])) def test_proxy_put_timeout(self): api_client = self.mock_keep_services(service_type='proxy', count=1) force_timeout = socket.timeout("timed out") with tutil.mock_keep_responses(force_timeout, 0) as mock: keep_client = arvados.KeepClient(api_client=api_client) with self.assertRaises(arvados.errors.KeepWriteError): keep_client.put('foo') self.assertEqual( mock.responses[0].getopt(pycurl.CONNECTTIMEOUT_MS), int(arvados.KeepClient.DEFAULT_PROXY_TIMEOUT[0]*1000)) self.assertEqual( mock.responses[0].getopt(pycurl.LOW_SPEED_TIME), int(arvados.KeepClient.DEFAULT_PROXY_TIMEOUT[1])) self.assertEqual( mock.responses[0].getopt(pycurl.LOW_SPEED_LIMIT), int(arvados.KeepClient.DEFAULT_PROXY_TIMEOUT[2])) def check_no_services_error(self, verb, exc_class): api_client = mock.MagicMock(name='api_client') api_client.keep_services().accessible().execute.side_effect = ( arvados.errors.ApiError) keep_client = arvados.KeepClient(api_client=api_client) with self.assertRaises(exc_class) as err_check: getattr(keep_client, verb)('d41d8cd98f00b204e9800998ecf8427e+0') self.assertEqual(0, len(err_check.exception.request_errors())) def test_get_error_with_no_services(self): self.check_no_services_error('get', arvados.errors.KeepReadError) def test_head_error_with_no_services(self): self.check_no_services_error('head', arvados.errors.KeepReadError) def test_put_error_with_no_services(self): self.check_no_services_error('put', arvados.errors.KeepWriteError) def check_errors_from_last_retry(self, verb, exc_class): api_client = self.mock_keep_services(count=2) req_mock = tutil.mock_keep_responses( "retry error reporting test", 500, 500, 403, 403) with req_mock, tutil.skip_sleep, \ self.assertRaises(exc_class) as err_check: keep_client = arvados.KeepClient(api_client=api_client) getattr(keep_client, verb)('d41d8cd98f00b204e9800998ecf8427e+0', num_retries=3) self.assertEqual([403, 403], [ getattr(error, 'status_code', None) for error in err_check.exception.request_errors().itervalues()]) def test_get_error_reflects_last_retry(self): self.check_errors_from_last_retry('get', arvados.errors.KeepReadError) def test_head_error_reflects_last_retry(self): self.check_errors_from_last_retry('head', arvados.errors.KeepReadError) def test_put_error_reflects_last_retry(self): self.check_errors_from_last_retry('put', arvados.errors.KeepWriteError) def test_put_error_does_not_include_successful_puts(self): data = 'partial failure test' data_loc = tutil.str_keep_locator(data) api_client = self.mock_keep_services(count=3) with tutil.mock_keep_responses(data_loc, 200, 500, 500) as req_mock, \ self.assertRaises(arvados.errors.KeepWriteError) as exc_check: keep_client = arvados.KeepClient(api_client=api_client) keep_client.put(data) self.assertEqual(2, len(exc_check.exception.request_errors())) def test_proxy_put_with_no_writable_services(self): data = 'test with no writable services' data_loc = tutil.str_keep_locator(data) api_client = self.mock_keep_services(service_type='proxy', read_only=True, count=1) with tutil.mock_keep_responses(data_loc, 200, 500, 500) as req_mock, \ self.assertRaises(arvados.errors.KeepWriteError) as exc_check: keep_client = arvados.KeepClient(api_client=api_client) keep_client.put(data) self.assertEqual(True, ("no Keep services available" in str(exc_check.exception))) self.assertEqual(0, len(exc_check.exception.request_errors())) def test_oddball_service_get(self): body = 'oddball service get' api_client = self.mock_keep_services(service_type='fancynewblobstore') with tutil.mock_keep_responses(body, 200): keep_client = arvados.KeepClient(api_client=api_client) actual = keep_client.get(tutil.str_keep_locator(body)) self.assertEqual(body, actual) def test_oddball_service_put(self): body = 'oddball service put' pdh = tutil.str_keep_locator(body) api_client = self.mock_keep_services(service_type='fancynewblobstore') with tutil.mock_keep_responses(pdh, 200): keep_client = arvados.KeepClient(api_client=api_client) actual = keep_client.put(body, copies=1) self.assertEqual(pdh, actual) def test_oddball_service_writer_count(self): body = 'oddball service writer count' pdh = tutil.str_keep_locator(body) api_client = self.mock_keep_services(service_type='fancynewblobstore', count=4) headers = {'x-keep-replicas-stored': 3} with tutil.mock_keep_responses(pdh, 200, 418, 418, 418, **headers) as req_mock: keep_client = arvados.KeepClient(api_client=api_client) actual = keep_client.put(body, copies=2) self.assertEqual(pdh, actual) self.assertEqual(1, req_mock.call_count) @tutil.skip_sleep class KeepClientRendezvousTestCase(unittest.TestCase, tutil.ApiClientMock): def setUp(self): # expected_order[i] is the probe order for # hash=md5(sprintf("%064x",i)) where there are 16 services # with uuid sprintf("anything-%015x",j) with j in 0..15. E.g., # the first probe for the block consisting of 64 "0" # characters is the service whose uuid is # "zzzzz-bi6l4-000000000000003", so expected_order[0][0]=='3'. self.services = 16 self.expected_order = [ list('3eab2d5fc9681074'), list('097dba52e648f1c3'), list('c5b4e023f8a7d691'), list('9d81c02e76a3bf54'), ] self.blocks = [ "{:064x}".format(x) for x in range(len(self.expected_order))] self.hashes = [ hashlib.md5(self.blocks[x]).hexdigest() for x in range(len(self.expected_order))] self.api_client = self.mock_keep_services(count=self.services) self.keep_client = arvados.KeepClient(api_client=self.api_client) def test_weighted_service_roots_against_reference_set(self): # Confirm weighted_service_roots() returns the correct order for i, hash in enumerate(self.hashes): roots = self.keep_client.weighted_service_roots(arvados.KeepLocator(hash)) got_order = [ re.search(r'//\[?keep0x([0-9a-f]+)', root).group(1) for root in roots] self.assertEqual(self.expected_order[i], got_order) def test_get_probe_order_against_reference_set(self): self._test_probe_order_against_reference_set( lambda i: self.keep_client.get(self.hashes[i], num_retries=1)) def test_head_probe_order_against_reference_set(self): self._test_probe_order_against_reference_set( lambda i: self.keep_client.head(self.hashes[i], num_retries=1)) def test_put_probe_order_against_reference_set(self): # copies=1 prevents the test from being sensitive to races # between writer threads. self._test_probe_order_against_reference_set( lambda i: self.keep_client.put(self.blocks[i], num_retries=1, copies=1)) def _test_probe_order_against_reference_set(self, op): for i in range(len(self.blocks)): with tutil.mock_keep_responses('', *[500 for _ in range(self.services*2)]) as mock, \ self.assertRaises(arvados.errors.KeepRequestError): op(i) got_order = [ re.search(r'//\[?keep0x([0-9a-f]+)', resp.getopt(pycurl.URL)).group(1) for resp in mock.responses] self.assertEqual(self.expected_order[i]*2, got_order) def test_put_probe_order_multiple_copies(self): for copies in range(2, 4): for i in range(len(self.blocks)): with tutil.mock_keep_responses('', *[500 for _ in range(self.services*3)]) as mock, \ self.assertRaises(arvados.errors.KeepWriteError): self.keep_client.put(self.blocks[i], num_retries=2, copies=copies) got_order = [ re.search(r'//\[?keep0x([0-9a-f]+)', resp.getopt(pycurl.URL)).group(1) for resp in mock.responses] # With T threads racing to make requests, the position # of a given server in the sequence of HTTP requests # (got_order) cannot be more than T-1 positions # earlier than that server's position in the reference # probe sequence (expected_order). # # Loop invariant: we have accounted for +pos+ expected # probes, either by seeing them in +got_order+ or by # putting them in +pending+ in the hope of seeing them # later. As long as +len(pending)