def test_identity_rotate_customer_2_when_id_server_is_dead():
if os.environ.get('RUN_TESTS', '1') == '0':
return pytest.skip() # @UndefinedVariable
service_info_v1('customer-2', 'service_customer', 'ON')
supplier_list_v1('customer-2',
expected_min_suppliers=2,
expected_max_suppliers=2)
service_info_v1('customer-2', 'service_shared_data', 'ON')
r = identity_get_v1('customer-2')
old_idurl = r['result']['idurl']
config_set_v1('customer-2',
'services/identity-propagate/automatic-rotate-enabled',
'true')
config_set_v1(
'customer-2', 'services/identity-propagate/known-servers',
'id-dead:8084:6661,id-a:8084:6661,id-b:8084:6661,id-c:8084:6661')
stop_daemon('id-dead')
for i in range(20):
r = identity_get_v1('customer-2')
new_idurl = r['result']['idurl']
if new_idurl != old_idurl:
break
time.sleep(5)
else:
assert False, 'customer-2 automatic identity rotate did not happen after many attempts'
def test_customer_1_send_message_to_customer_2():
if os.environ.get('RUN_TESTS', '1') == '0':
return pytest.skip() # @UndefinedVariable
service_info_v1('customer-1', 'service_private_messages', 'ON')
service_info_v1('customer-2', 'service_private_messages', 'ON')
random_string = base64.b32encode(os.urandom(20)).decode()
random_message = {
'random_message': random_string,
}
# send message in different thread to get one in blocked `receive` call
t = threading.Timer(1.0, message_send_v1, [
'customer-1',
'master$customer-2@id-a_8084',
random_message,
])
t.start()
message_receive_v1('customer-2', expected_data=random_message)
def test_customer_family_increase_decrese_customer_1():
if os.environ.get('RUN_TESTS', '1') == '0':
return pytest.skip() # @UndefinedVariable
packet_list_v1('supplier-1', wait_all_finish=True)
packet_list_v1('supplier-2', wait_all_finish=True)
packet_list_v1('supplier-3', wait_all_finish=True)
packet_list_v1('supplier-4', wait_all_finish=True)
packet_list_v1('supplier-5', wait_all_finish=True)
packet_list_v1('supplier-6', wait_all_finish=True)
packet_list_v1('supplier-7', wait_all_finish=True)
packet_list_v1('supplier-8', wait_all_finish=True)
packet_list_v1('customer-1', wait_all_finish=True)
transfer_list_v1('customer-1', wait_all_finish=True)
supplier_list_v1('customer-1',
expected_min_suppliers=2,
expected_max_suppliers=2)
supplier_list_dht_v1(
customer_id='customer-1@id-a_8084',
observers_ids=[
'customer-1@id-a_8084',
'customer-3@id-a_8084',
],
expected_ecc_map='ecc/2x2',
expected_suppliers_number=2,
)
supplier_list_dht_v1(
customer_id='customer-1@id-a_8084',
observers_ids=[
'customer-3@id-a_8084',
'customer-1@id-a_8084',
],
expected_ecc_map='ecc/2x2',
expected_suppliers_number=2,
)
supplier_list_dht_v1(
customer_id='customer-1@id-a_8084',
observers_ids=[
'supplier-2@id-a_8084',
'customer-3@id-a_8084',
'customer-1@id-a_8084',
],
expected_ecc_map='ecc/2x2',
expected_suppliers_number=2,
)
service_info_v1('customer-1', 'service_shared_data', 'ON')
config_set_v1('customer-1', 'services/customer/suppliers-number', '4')
packet_list_v1('supplier-1', wait_all_finish=True)
packet_list_v1('supplier-2', wait_all_finish=True)
packet_list_v1('supplier-3', wait_all_finish=True)
packet_list_v1('supplier-4', wait_all_finish=True)
packet_list_v1('supplier-5', wait_all_finish=True)
packet_list_v1('supplier-6', wait_all_finish=True)
packet_list_v1('supplier-7', wait_all_finish=True)
packet_list_v1('supplier-8', wait_all_finish=True)
supplier_list_v1('customer-1',
expected_min_suppliers=4,
expected_max_suppliers=4)
service_info_v1('customer-1', 'service_shared_data', 'ON')
supplier_list_dht_v1(
customer_id='customer-1@id-a_8084',
observers_ids=[
'customer-1@id-a_8084',
'customer-3@id-a_8084',
],
expected_ecc_map='ecc/4x4',
expected_suppliers_number=4,
)
supplier_list_dht_v1(
customer_id='customer-1@id-a_8084',
observers_ids=[
'customer-3@id-a_8084',
'customer-1@id-a_8084',
],
expected_ecc_map='ecc/4x4',
expected_suppliers_number=4,
)
supplier_list_dht_v1(
customer_id='customer-1@id-a_8084',
observers_ids=[
'supplier-2@id-a_8084',
'customer-3@id-a_8084',
'customer-1@id-a_8084',
],
expected_ecc_map='ecc/4x4',
expected_suppliers_number=4,
)
config_set_v1('customer-1', 'services/customer/suppliers-number', '2')
packet_list_v1('supplier-1', wait_all_finish=True)
packet_list_v1('supplier-2', wait_all_finish=True)
packet_list_v1('supplier-3', wait_all_finish=True)
packet_list_v1('supplier-4', wait_all_finish=True)
packet_list_v1('supplier-5', wait_all_finish=True)
packet_list_v1('supplier-6', wait_all_finish=True)
packet_list_v1('supplier-7', wait_all_finish=True)
packet_list_v1('supplier-8', wait_all_finish=True)
supplier_list_v1('customer-1',
expected_min_suppliers=2,
expected_max_suppliers=2)
service_info_v1('customer-1', 'service_shared_data', 'ON')
supplier_list_dht_v1(
customer_id='customer-1@id-a_8084',
observers_ids=[
'customer-1@id-a_8084',
'customer-3@id-a_8084',
],
expected_ecc_map='ecc/2x2',
expected_suppliers_number=2,
)
supplier_list_dht_v1(
customer_id='customer-1@id-a_8084',
observers_ids=[
'customer-3@id-a_8084',
'customer-1@id-a_8084',
],
expected_ecc_map='ecc/2x2',
expected_suppliers_number=2,
)
supplier_list_dht_v1(
customer_id='customer-1@id-a_8084',
observers_ids=[
'supplier-2@id-a_8084',
'customer-3@id-a_8084',
'customer-1@id-a_8084',
],
expected_ecc_map='ecc/2x2',
expected_suppliers_number=2,
)
def test_customer_1_share_file_to_customer_2_same_name_as_existing():
if os.environ.get('RUN_TESTS', '1') == '0':
return pytest.skip() # @UndefinedVariable
supplier_list_v1('customer-1',
expected_min_suppliers=2,
expected_max_suppliers=2)
supplier_list_v1('customer-2',
expected_min_suppliers=4,
expected_max_suppliers=4)
service_info_v1('customer-1', 'service_shared_data', 'ON')
service_info_v1('customer-2', 'service_shared_data', 'ON')
# create shares (logic unit to upload/download/share files)
share_id_customer_1 = share_create_v1('customer-1')
share_id_customer_2 = share_create_v1('customer-2')
filename = 'cat.txt'
virtual_filename = filename
volume_customer_1 = '/customer_1'
filepath_customer_1 = f'{volume_customer_1}/{filename}'
volume_customer_2 = '/customer_2'
filepath_customer_2 = f'{volume_customer_2}/{filename}'
run_ssh_command_and_wait('customer-1',
f'echo customer_1 > {filepath_customer_1}')
run_ssh_command_and_wait('customer-2',
f'echo customer_2 > {filepath_customer_2}')
remote_path_customer_1 = f'{share_id_customer_1}:{virtual_filename}'
remote_path_customer_2 = f'{share_id_customer_2}:{virtual_filename}'
# create virtual file for customer_1
file_create_v1('customer-1', remote_path_customer_1)
# create virtual file for customer_2
file_create_v1('customer-2', remote_path_customer_2)
# upload file for customer_1
service_info_v1('customer-1', 'service_shared_data', 'ON')
file_upload_start_v1('customer-1', remote_path_customer_1,
filepath_customer_1)
# upload file for customer_2
service_info_v1('customer-2', 'service_shared_data', 'ON')
file_upload_start_v1('customer-2', remote_path_customer_2,
filepath_customer_2)
packet_list_v1('customer-2', wait_all_finish=True)
transfer_list_v1('customer-2', wait_all_finish=True)
# wait for quite a while to allow files to be uploaded
# time.sleep(5)
service_info_v1('customer-1', 'service_shared_data', 'ON')
file_download_start_v1('customer-1',
remote_path=remote_path_customer_1,
destination=volume_customer_1)
service_info_v1('customer-2', 'service_shared_data', 'ON')
file_download_start_v1('customer-2',
remote_path=remote_path_customer_2,
destination=volume_customer_2)
service_info_v1('customer-2', 'service_shared_data', 'ON')
packet_list_v1('customer-1', wait_all_finish=True)
transfer_list_v1('customer-1', wait_all_finish=True)
packet_list_v1('customer-2', wait_all_finish=True)
transfer_list_v1('customer-2', wait_all_finish=True)
response = request_put(
'customer-1',
'share/grant/v1',
json={
'trusted_global_id': 'customer-2@id-a_8084',
'key_id': share_id_customer_1,
},
timeout=40,
)
assert response.status_code == 200
assert response.json()['status'] == 'OK', response.json()
print('\n\nshare/grant/v1 trusted_global_id=%s key_id=%s : %s\n' % (
'customer-2@id-a_8084',
share_id_customer_1,
response.json(),
))
response = request_get('customer-2', 'file/list/all/v1')
assert response.status_code == 200, response.json()
run_ssh_command_and_wait('customer-2',
f'mkdir {volume_customer_2}/sharesamename')
run_ssh_command_and_wait('customer-2',
f'mkdir {volume_customer_2}/sharesamename2')
service_info_v1('customer-2', 'service_shared_data', 'ON')
file_download_start_v1('customer-2',
remote_path=remote_path_customer_1,
destination=f'{volume_customer_2}/sharesamename')
service_info_v1('customer-2', 'service_shared_data', 'ON')
file_download_start_v1('customer-2',
remote_path=remote_path_customer_2,
destination=f'{volume_customer_2}/sharesamename2')
file_1 = run_ssh_command_and_wait(
'customer-2',
f'cat {volume_customer_2}/sharesamename/cat.txt')[0].strip()
file_2 = run_ssh_command_and_wait(
'customer-2',
f'cat {volume_customer_2}/sharesamename2/cat.txt')[0].strip()
assert file_1 != file_2
def test_customer_1_share_file_to_customer_3():
if os.environ.get('RUN_TESTS', '1') == '0':
return pytest.skip() # @UndefinedVariable
supplier_list_v1('customer-1',
expected_min_suppliers=2,
expected_max_suppliers=2)
key_id = share_create_v1('customer-1')
# create randomized file to test files upload/download
origin_volume = '/customer_1'
origin_filename = 'second_file_customer_1.txt'
run_ssh_command_and_wait(
'customer-1',
f'python -c "import os, base64; print(base64.b64encode(os.urandom(24)).decode())" > {origin_volume}/{origin_filename}'
)
local_path = '%s/%s' % (origin_volume, origin_filename)
virtual_file = 'second_virtual_file.txt'
remote_path = '%s:%s' % (key_id, virtual_file)
download_volume = '/customer_3'
downloaded_file = '%s/%s' % (download_volume, virtual_file)
service_info_v1('customer-1', 'service_shared_data', 'ON')
file_create_v1('customer-1', remote_path)
file_upload_start_v1('customer-1', remote_path, local_path)
packet_list_v1('customer-1', wait_all_finish=True)
transfer_list_v1('customer-1', wait_all_finish=True)
file_download_start_v1('customer-1',
remote_path=remote_path,
destination='/customer_1')
packet_list_v1('customer-1', wait_all_finish=True)
transfer_list_v1('customer-1', wait_all_finish=True)
service_info_v1('customer-3', 'service_shared_data', 'ON')
packet_list_v1('customer-3', wait_all_finish=True)
transfer_list_v1('customer-3', wait_all_finish=True)
response = request_put(
'customer-1',
'share/grant/v1',
json={
'trusted_global_id': 'customer-3@id-a_8084',
'key_id': key_id,
},
timeout=40,
)
assert response.status_code == 200
assert response.json()['status'] == 'OK', response.json()
print('\n\nshare/grant/v1 trusted_global_id=%s key_id=%s : %s\n' % (
'customer-3@id-a_8084',
key_id,
response.json(),
))
file_download_start_v1('customer-3',
remote_path=remote_path,
destination=download_volume)
local_file_src = run_ssh_command_and_wait('customer-1', 'cat %s' %
local_path)[0].strip()
print('customer-1: file %s is %d bytes long' %
(local_path, len(local_file_src)))
downloaded_file_src = run_ssh_command_and_wait('customer-3', 'cat %s' %
downloaded_file)[0].strip()
print('customer-3: file %s is %d bytes long' %
(downloaded_file, len(downloaded_file_src)))
assert local_file_src == downloaded_file_src, "source file and shared file content is not equal"
def test_identity_rotate_customer_1():
if os.environ.get('RUN_TESTS', '1') == '0':
return pytest.skip() # @UndefinedVariable
sys.stderr.write('\ntest_identity_rotate_customer_1\n')
service_info_v1('customer-1', 'service_customer', 'ON')
supplier_list_v1('customer-1',
expected_min_suppliers=2,
expected_max_suppliers=2)
service_info_v1('customer-1', 'service_shared_data', 'ON')
# remember current ID sources
r = identity_get_v1('customer-1')
old_sources = r['result']['sources']
old_global_id = r['result']['global_id']
old_idurl = r['result']['idurl']
# test other nodes able to talk to customer-1 before identity get rotated
user_ping_v1('customer-3', old_global_id)
user_ping_v1('supplier-1', old_global_id)
user_ping_v1('supplier-2', old_global_id)
# test customer-3 can chat with customer-1 before identity get rotated
service_info_v1('customer-3', 'service_private_messages', 'ON')
service_info_v1('customer-1', 'service_private_messages', 'ON')
random_string = base64.b32encode(os.urandom(20)).decode()
random_message = {
'random_message': random_string,
}
t = threading.Timer(2.0, message_send_v1, [
'customer-3',
'master$%s' % old_global_id,
random_message,
])
t.start()
message_receive_v1('customer-1', expected_data=random_message)
# create one share and upload one file for customer-1
share_id_customer_1 = share_create_v1('customer-1')
filename = 'cat.txt'
virtual_filename = filename
volume_customer_1 = '/customer_1'
filepath_customer_1 = f'{volume_customer_1}/{filename}'
run_ssh_command_and_wait('customer-1',
f'echo customer_1 > {filepath_customer_1}')
remote_path_customer_1 = f'{share_id_customer_1}:{virtual_filename}'
downloaded_filepath = f'/tmp/{filename}'
local_file_src = run_ssh_command_and_wait('customer-1', 'cat %s' %
filepath_customer_1)[0].strip()
service_info_v1('customer-1', 'service_shared_data', 'ON')
packet_list_v1('customer-1', wait_all_finish=True)
transfer_list_v1('customer-1', wait_all_finish=True)
file_create_v1('customer-1', remote_path=remote_path_customer_1)
file_upload_start_v1('customer-1',
remote_path=remote_path_customer_1,
local_path=filepath_customer_1)
time.sleep(3)
service_info_v1('customer-1', 'service_shared_data', 'ON')
# make sure file is available before identity rotate
share_open_v1('customer-1', share_id_customer_1)
file_download_start_v1('customer-1',
remote_path=remote_path_customer_1,
destination='/tmp')
# and make sure this is the same file
downloaded_file_src = run_ssh_command_and_wait(
'customer-1', 'cat %s' % downloaded_filepath)[0].strip()
assert local_file_src == downloaded_file_src, "source file and received file content is not equal"
# remember list of existing keys
old_keys = [k['key_id'] for k in key_list_v1('customer-1')['result']]
assert f'master${old_global_id}' in old_keys
assert f'messages${old_global_id}' in old_keys
assert f'customer${old_global_id}' in old_keys
# make customer-1 and customer-3 friends to each other
friend_add_v1('customer-1', 'http://id-a:8084/customer-3.xml', 'friend2')
friend_add_v1('customer-3', old_idurl, 'friend1')
old_friends = friend_list_v1('customer-3', extract_idurls=True)
assert old_idurl in old_friends
# rotate identity sources
identity_rotate_v1('customer-1')
time.sleep(1)
# and make sure ID sources were changed
r = identity_get_v1('customer-1')
new_sources = r['result']['sources']
new_global_id = r['result']['global_id']
new_idurl = r['result']['idurl']
assert new_sources != old_sources
assert new_global_id != old_global_id
assert new_idurl != old_idurl
service_info_v1('customer-1', 'service_gateway', 'ON')
service_info_v1('customer-1', 'service_customer', 'ON')
# remember current suppliers of customer-1
customer_1_suppliers = supplier_list_v1('customer-1',
expected_min_suppliers=2,
expected_max_suppliers=2,
extract_suppliers=True)
first_supplier = customer_1_suppliers[0].replace(
'http://id-a:8084/', '').replace('http://id-b:8084/',
'').replace('.xml', '')
second_supplier = customer_1_suppliers[1].replace(
'http://id-a:8084/', '').replace('http://id-b:8084/',
'').replace('.xml', '')
service_info_v1('customer-1', 'service_shared_data', 'ON')
# test other nodes able to talk to customer-1 again on new IDURL
user_ping_v1('customer-3', new_global_id)
user_ping_v1('supplier-1', new_global_id)
user_ping_v1('supplier-2', new_global_id)
# make sure keys are renamed on customer-1
new_keys = [k['key_id'] for k in key_list_v1('customer-1')['result']]
assert len(old_keys) == len(new_keys)
assert f'master${new_global_id}' in new_keys
assert f'messages${new_global_id}' in new_keys
assert f'customer${new_global_id}' in new_keys
assert f'master${old_global_id}' not in new_keys
assert f'messages${old_global_id}' not in new_keys
assert f'customer${old_global_id}' not in new_keys
# make sure file is still available after identity rotate
new_share_id_customer_1 = share_id_customer_1.replace(
old_global_id, new_global_id)
share_open_v1('customer-1', new_share_id_customer_1)
new_remote_path_customer_1 = remote_path_customer_1.replace(
old_global_id, new_global_id)
run_ssh_command_and_wait('customer-1',
'rm -rfv %s' % downloaded_filepath)[0].strip()
file_download_start_v1('customer-1',
remote_path=new_remote_path_customer_1,
destination='/tmp')
# and make sure this is still the same file
new_downloaded_file_src = run_ssh_command_and_wait(
'customer-1', 'cat %s' % downloaded_filepath)[0].strip()
assert local_file_src == downloaded_file_src, "source file and received file content is not equal after identity rotate"
assert new_downloaded_file_src == downloaded_file_src, "received file content before identity rotate is not equal to received file after identity rotate"
# check again current suppliers of customer-1
customer_1_suppliers = supplier_list_v1('customer-1',
expected_min_suppliers=2,
expected_max_suppliers=2,
extract_suppliers=True)
first_supplier = customer_1_suppliers[0].replace(
'http://id-a:8084/', '').replace('http://id-b:8084/',
'').replace('.xml', '')
second_supplier = customer_1_suppliers[1].replace(
'http://id-a:8084/', '').replace('http://id-b:8084/',
'').replace('.xml', '')
# verify files on first supplier were moved to correct sub folder
print(f'checking customer-1 files on {first_supplier}')
old_folder_first_supplier = run_ssh_command_and_wait(
first_supplier,
f'ls -la ~/.bitdust/customers/{old_global_id}/')[0].strip()
new_folder_first_supplier = run_ssh_command_and_wait(
first_supplier,
f'ls -la ~/.bitdust/customers/{new_global_id}/')[0].strip()
assert old_folder_first_supplier == ''
assert new_folder_first_supplier != ''
print(f'first supplier {first_supplier} :\n', new_folder_first_supplier)
# verify files on second supplier were moved to correct sub folder
print(f'checking customer-1 files on {second_supplier}')
old_folder_second_supplier = run_ssh_command_and_wait(
second_supplier,
f'ls -la ~/.bitdust/customers/{old_global_id}/')[0].strip()
new_folder_second_supplier = run_ssh_command_and_wait(
second_supplier,
f'ls -la ~/.bitdust/customers/{new_global_id}/')[0].strip()
assert old_folder_second_supplier == ''
assert new_folder_second_supplier != ''
print(f'second supplier {second_supplier} :\n', new_folder_second_supplier)
# test that friend1 idurl changed for customer-3
new_friends = friend_list_v1('customer-3', extract_idurls=True)
assert new_idurl in new_friends
assert old_idurl not in new_friends
# test customer-3 can still chat with customer-1 after identity rotated
service_info_v1('customer-3', 'service_private_messages', 'ON')
service_info_v1('customer-1', 'service_private_messages', 'ON')
random_string = base64.b32encode(os.urandom(20)).decode()
random_message = {
'random_message': random_string,
}
t = threading.Timer(1.0, message_send_v1, [
'customer-3',
'master$%s' % new_global_id,
random_message,
])
t.start()
message_receive_v1('customer-1', expected_data=random_message)
def test_customer_1_replace_supplier_at_position_0():
if os.environ.get('RUN_TESTS', '1') == '0':
return pytest.skip() # @UndefinedVariable
packet_list_v1('supplier-1', wait_all_finish=True)
packet_list_v1('supplier-2', wait_all_finish=True)
packet_list_v1('supplier-3', wait_all_finish=True)
packet_list_v1('supplier-4', wait_all_finish=True)
packet_list_v1('supplier-5', wait_all_finish=True)
packet_list_v1('supplier-6', wait_all_finish=True)
packet_list_v1('supplier-7', wait_all_finish=True)
packet_list_v1('supplier-8', wait_all_finish=True)
packet_list_v1('customer-1', wait_all_finish=True)
transfer_list_v1('customer-1', wait_all_finish=True)
supplier_list_v1('customer-1', expected_min_suppliers=2, expected_max_suppliers=2)
supplier_list_dht_v1(
customer_id='customer-1@id-a_8084',
observers_ids=['customer-1@id-a_8084', 'customer-3@id-a_8084', ],
expected_ecc_map='ecc/2x2',
expected_suppliers_number=2,
)
supplier_list_dht_v1(
customer_id='customer-1@id-a_8084',
observers_ids=['customer-3@id-a_8084', 'customer-1@id-a_8084', ],
expected_ecc_map='ecc/2x2',
expected_suppliers_number=2,
)
supplier_list_dht_v1(
customer_id='customer-1@id-a_8084',
observers_ids=['supplier-2@id-a_8084', 'customer-3@id-a_8084', 'customer-1@id-a_8084', ],
expected_ecc_map='ecc/2x2',
expected_suppliers_number=2,
)
share_id_customer_1 = share_create_v1('customer-1')
filename = 'file_to_be_distributed.txt'
virtual_filename = filename
volume_customer_1 = '/customer_1'
filepath_customer_1 = f'{volume_customer_1}/{filename}'
remote_path_customer_1 = f'{share_id_customer_1}:{virtual_filename}'
run_ssh_command_and_wait('customer-1', f'echo customer_1 > {filepath_customer_1}')
file_create_v1('customer-1', remote_path_customer_1)
file_upload_start_v1('customer-1', remote_path_customer_1, filepath_customer_1)
service_info_v1('customer-1', 'service_shared_data', 'ON')
packet_list_v1('customer-1', wait_all_finish=True)
transfer_list_v1('customer-1', wait_all_finish=True)
file_download_start_v1('customer-1', remote_path=remote_path_customer_1, destination=volume_customer_1)
response_before = request_get('customer-1', 'supplier/list/v1')
assert response_before.status_code == 200
supplier_list_before = response_before.json()['result']
suppliers_before = list([x['global_id'] for x in supplier_list_before])
assert len(suppliers_before) == 2
response = request_post('customer-1', 'supplier/replace/v1', json={'position': '0'})
assert response.status_code == 200
packet_list_v1('supplier-1', wait_all_finish=True)
packet_list_v1('supplier-2', wait_all_finish=True)
packet_list_v1('supplier-3', wait_all_finish=True)
packet_list_v1('supplier-4', wait_all_finish=True)
packet_list_v1('supplier-5', wait_all_finish=True)
packet_list_v1('supplier-6', wait_all_finish=True)
packet_list_v1('supplier-7', wait_all_finish=True)
packet_list_v1('supplier-8', wait_all_finish=True)
supplier_list_v1('customer-1', expected_min_suppliers=2, expected_max_suppliers=2)
service_info_v1('customer-1', 'service_shared_data', 'ON')
supplier_list_dht_v1(
customer_id='customer-1@id-a_8084',
observers_ids=['customer-1@id-a_8084', 'customer-3@id-a_8084', ],
expected_ecc_map='ecc/2x2',
expected_suppliers_number=2,
)
supplier_list_dht_v1(
customer_id='customer-1@id-a_8084',
observers_ids=['customer-3@id-a_8084', 'customer-1@id-a_8084', ],
expected_ecc_map='ecc/2x2',
expected_suppliers_number=2,
)
supplier_list_dht_v1(
customer_id='customer-1@id-a_8084',
observers_ids=['supplier-2@id-a_8084', 'customer-3@id-a_8084', 'customer-1@id-a_8084', ],
expected_ecc_map='ecc/2x2',
expected_suppliers_number=2,
)
count = 0
while True:
if count > 20:
assert False, 'supplier was not replaced after many attempts'
break
response_after = request_get('customer-1', 'supplier/list/v1')
assert response_after.status_code == 200
supplier_list_after = response_after.json()['result']
suppliers_after = list([x['global_id'] for x in supplier_list_after])
assert len(suppliers_after) == 2
assert suppliers_after[1] == suppliers_before[1]
if suppliers_after[0] != suppliers_before[0]:
break
count += 1
time.sleep(1)
def test_customer_2_switch_supplier_at_position_0():
if os.environ.get('RUN_TESTS', '1') == '0':
return pytest.skip() # @UndefinedVariable
packet_list_v1('supplier-1', wait_all_finish=True)
packet_list_v1('supplier-2', wait_all_finish=True)
packet_list_v1('supplier-3', wait_all_finish=True)
packet_list_v1('supplier-4', wait_all_finish=True)
packet_list_v1('supplier-5', wait_all_finish=True)
packet_list_v1('supplier-6', wait_all_finish=True)
packet_list_v1('supplier-7', wait_all_finish=True)
packet_list_v1('supplier-8', wait_all_finish=True)
packet_list_v1('customer-2', wait_all_finish=True)
transfer_list_v1('customer-2', wait_all_finish=True)
supplier_list_v1('customer-2', expected_min_suppliers=4, expected_max_suppliers=4)
response_before = request_get('customer-2', 'supplier/list/v1')
assert response_before.status_code == 200
supplier_list_before = response_before.json()['result']
suppliers_before = list([x['global_id'] for x in supplier_list_before])
assert len(suppliers_before) == 4
possible_suppliers = set([
'supplier-1@id-a_8084',
'supplier-2@id-a_8084',
'supplier-3@id-a_8084',
'supplier-4@id-a_8084',
'supplier-5@id-a_8084',
'supplier-6@id-a_8084',
'supplier-7@id-a_8084',
'supplier-8@id-a_8084',
])
possible_suppliers.difference_update(set(suppliers_before))
new_supplier = list(possible_suppliers)[0]
supplier_list_dht_v1(
customer_id='customer-2@id-a_8084',
observers_ids=[new_supplier, 'customer-2@id-a_8084', 'customer-3@id-a_8084', ],
expected_ecc_map='ecc/4x4',
expected_suppliers_number=4,
)
supplier_list_dht_v1(
customer_id='customer-2@id-a_8084',
observers_ids=['customer-2@id-a_8084', 'customer-3@id-a_8084', ],
expected_ecc_map='ecc/4x4',
expected_suppliers_number=4,
)
supplier_list_dht_v1(
customer_id='customer-2@id-a_8084',
observers_ids=['customer-3@id-a_8084', 'customer-1@id-a_8084', ],
expected_ecc_map='ecc/4x4',
expected_suppliers_number=4,
)
supplier_list_dht_v1(
customer_id='customer-2@id-a_8084',
observers_ids=['supplier-2@id-a_8084', 'customer-3@id-a_8084', 'customer-1@id-a_8084', ],
expected_ecc_map='ecc/4x4',
expected_suppliers_number=4,
)
share_id_customer_2 = share_create_v1('customer-2')
filename = 'file_to_be_distributed.txt'
virtual_filename = filename
volume_customer_2 = '/customer_2'
filepath_customer_2 = f'{volume_customer_2}/{filename}'
remote_path_customer_2 = f'{share_id_customer_2}:{virtual_filename}'
run_ssh_command_and_wait('customer-2', f'echo customer_2 > {filepath_customer_2}')
file_create_v1('customer-2', remote_path_customer_2)
file_upload_start_v1('customer-2', remote_path_customer_2, filepath_customer_2)
service_info_v1('customer-2', 'service_shared_data', 'ON')
packet_list_v1('customer-2', wait_all_finish=True)
transfer_list_v1('customer-2', wait_all_finish=True)
file_download_start_v1('customer-2', remote_path=remote_path_customer_2, destination=volume_customer_2)
response = request_put('customer-2', 'supplier/switch/v1', json={
'position': '0',
'new_global_id': new_supplier,
})
assert response.status_code == 200
packet_list_v1('supplier-1', wait_all_finish=True)
packet_list_v1('supplier-2', wait_all_finish=True)
packet_list_v1('supplier-3', wait_all_finish=True)
packet_list_v1('supplier-4', wait_all_finish=True)
packet_list_v1('supplier-5', wait_all_finish=True)
packet_list_v1('supplier-6', wait_all_finish=True)
packet_list_v1('supplier-7', wait_all_finish=True)
packet_list_v1('supplier-8', wait_all_finish=True)
supplier_list_v1('customer-2', expected_min_suppliers=4, expected_max_suppliers=4)
service_info_v1('customer-2', 'service_shared_data', 'ON')
supplier_list_dht_v1(
customer_id='customer-2@id-a_8084',
observers_ids=[new_supplier, 'customer-2@id-a_8084', 'customer-3@id-a_8084', ],
expected_ecc_map='ecc/4x4',
expected_suppliers_number=4,
)
supplier_list_dht_v1(
customer_id='customer-2@id-a_8084',
observers_ids=['customer-2@id-a_8084', 'customer-3@id-a_8084', ],
expected_ecc_map='ecc/4x4',
expected_suppliers_number=4,
)
supplier_list_dht_v1(
customer_id='customer-2@id-a_8084',
observers_ids=['customer-3@id-a_8084', 'customer-1@id-a_8084', ],
expected_ecc_map='ecc/4x4',
expected_suppliers_number=4,
)
supplier_list_dht_v1(
customer_id='customer-2@id-a_8084',
observers_ids=['supplier-2@id-a_8084', 'customer-3@id-a_8084', 'customer-1@id-a_8084', ],
expected_ecc_map='ecc/4x4',
expected_suppliers_number=4,
)
count = 0
while True:
if count > 20:
assert False, 'supplier was not switched after many attempts'
break
response_after = request_get('customer-2', 'supplier/list/v1')
assert response_after.status_code == 200
supplier_list_after = response_after.json()['result']
suppliers_after = list([x['global_id'] for x in supplier_list_after])
assert len(suppliers_after) == 4
assert suppliers_after[1] == suppliers_before[1]
assert suppliers_after[2] == suppliers_before[2]
assert suppliers_after[3] == suppliers_before[3]
if suppliers_after[0] != suppliers_before[0] and suppliers_after[0] == new_supplier:
break
count += 1
time.sleep(1)
def test_customer_1_upload_download_file_with_master_key():
if os.environ.get('RUN_TESTS', '1') == '0':
return pytest.skip() # @UndefinedVariable
packet_list_v1('customer-1', wait_all_finish=True)
transfer_list_v1('customer-1', wait_all_finish=True)
key_id = 'master$customer-1@id-a_8084'
shared_volume = '/customer_1'
origin_filename = 'file_customer_1.txt'
run_ssh_command_and_wait(
'customer-1',
f'python -c "import os, base64; print(base64.b64encode(os.urandom(30000)).decode())" > {shared_volume}/{origin_filename}'
)
local_path = '%s/%s' % (shared_volume, origin_filename)
virtual_file = 'virtual_file.txt'
remote_path = '%s:%s' % (key_id, virtual_file)
download_volume = '/customer_1'
downloaded_file = '%s/%s' % (download_volume, virtual_file)
count = 0
while True:
if count > 10:
assert False, 'customer-1 failed to hire enough suppliers after many attempts'
return
response = request_get('customer-1', 'supplier/list/v1')
assert response.status_code == 200
assert response.json()['status'] == 'OK', response.json()
print('\n\nsupplier/list/v1 : %s\n' % response.json())
if len(response.json()['result']) == 2:
for s in response.json()['result']:
assert s['supplier_state'] == 'CONNECTED'
assert s['contact_state'] == 'CONNECTED'
assert True
break
else:
print('\nstill see %d suppliers, expect 2 suppliers\n' %
len(response.json()['result']))
count += 1
time.sleep(5)
service_info_v1('customer-1', 'service_shared_data', 'ON')
file_create_v1('customer-1', remote_path)
file_upload_start_v1(
'customer-1',
remote_path,
local_path,
wait_result=True,
)
packet_list_v1('customer-1', wait_all_finish=True)
transfer_list_v1('customer-1', wait_all_finish=True)
for _ in range(20):
response = request_post(
'customer-1',
'file/download/start/v1',
json={
'remote_path': remote_path,
'destination_folder': download_volume,
'wait_result': '1',
},
)
assert response.status_code == 200
if response.json()['status'] == 'OK':
break
if response.json()['errors'][0].startswith(
'download not possible, uploading'):
time.sleep(1)
else:
assert False, response.json()
else:
assert False, 'download was not successful: %r' % response.json()
local_file_src = run_ssh_command_and_wait('customer-1', 'cat %s' %
local_path)[0].strip()
print('customer-1: file %s is %d bytes long' %
(local_path, len(local_file_src)))
downloaded_file_src = run_ssh_command_and_wait('customer-1', 'cat %s' %
downloaded_file)[0].strip()
print('customer-1: file %s is %d bytes long' %
(downloaded_file, len(downloaded_file_src)))
assert local_file_src == downloaded_file_src, (
local_file_src,
downloaded_file_src,
)
def test_identity_recover_from_customer_backup_to_customer_restore():
if os.environ.get('RUN_TESTS', '1') == '0':
return pytest.skip() # @UndefinedVariable
# step1: first upload/download one file on customer_backup
key_id = 'master$customer-backup@id-a_8084'
source_volume = '/customer_backup'
origin_filename = 'file_customer_backup.txt'
source_local_path = '%s/%s' % (source_volume, origin_filename)
virtual_file = 'virtual_file.txt'
remote_path = '%s:%s' % (key_id, virtual_file)
download_volume = '/customer_backup'
downloaded_file = '%s/%s' % (download_volume, virtual_file)
supplier_list_v1('customer-backup',
expected_min_suppliers=2,
expected_max_suppliers=2)
service_info_v1('customer-backup', 'service_shared_data', 'ON')
supplier_list_dht_v1(
customer_id='customer-backup@id-a_8084',
observers_ids=[
'customer-backup@id-a_8084',
'supplier-1@id-a_8084',
'supplier-2@id-a_8084',
],
expected_ecc_map='ecc/2x2',
expected_suppliers_number=2,
)
supplier_list_dht_v1(
customer_id='customer-backup@id-a_8084',
observers_ids=[
'supplier-1@id-a_8084',
'supplier-2@id-a_8084',
'customer-backup@id-a_8084',
],
expected_ecc_map='ecc/2x2',
expected_suppliers_number=2,
)
supplier_list_dht_v1(
customer_id='customer-backup@id-a_8084',
observers_ids=[
'supplier-2@id-a_8084',
'customer-backup@id-a_8084',
'supplier-1@id-a_8084',
],
expected_ecc_map='ecc/2x2',
expected_suppliers_number=2,
)
file_create_v1('customer-backup', remote_path)
run_ssh_command_and_wait(
'customer-backup',
f'python -c "import os, base64; print(base64.b64encode(os.urandom(30000)).decode())" > /customer_backup/{origin_filename}'
)
file_upload_start_v1('customer-backup', remote_path, source_local_path)
service_info_v1('customer-backup', 'service_shared_data', 'ON')
file_download_start_v1('customer-backup',
remote_path,
download_volume,
open_share=False)
source_local_file_src = run_ssh_command_and_wait(
'customer-backup', 'cat %s' % source_local_path)[0].strip()
print('customer-backup: file %s is %d bytes long' %
(source_local_path, len(source_local_file_src)))
downloaded_file_src = run_ssh_command_and_wait(
'customer-backup', 'cat %s' % downloaded_file)[0].strip()
print('customer-backup: file %s is %d bytes long' %
(downloaded_file, len(downloaded_file_src)))
assert source_local_file_src == downloaded_file_src, (
source_local_file_src,
downloaded_file_src,
)
# step2: backup customer-backup private key and stop that container
backup_file_directory_c2 = '/customer_backup/identity.backup'
backup_file_directory_c3 = '/customer_restore/identity.backup'
assert not os.path.exists(backup_file_directory_c2)
response = request_post(
'customer-backup',
'identity/backup/v1',
json={
'destination_path': backup_file_directory_c2,
},
)
print('\n\nidentity/backup/v1 : %s\n' % response.json())
assert response.json()['status'] == 'OK', response.json()
# copy private key from one container to another
# just like when you backup your private key and restore it from USB stick on another device
shutil.move(backup_file_directory_c2, backup_file_directory_c3)
# to make sure all uploads to finish
transfer_list_v1('customer-backup', wait_all_finish=True)
packet_list_v1('customer-backup', wait_all_finish=True)
file_list_all_v1('customer-backup')
supplier_list_dht_v1(
customer_id='customer-backup@id-a_8084',
observers_ids=[
'customer-backup@id-a_8084',
'supplier-1@id-a_8084',
'supplier-2@id-a_8084',
],
expected_ecc_map='ecc/2x2',
expected_suppliers_number=2,
)
supplier_list_dht_v1(
customer_id='customer-backup@id-a_8084',
observers_ids=[
'supplier-1@id-a_8084',
'supplier-2@id-a_8084',
'customer-backup@id-a_8084',
],
expected_ecc_map='ecc/2x2',
expected_suppliers_number=2,
)
supplier_list_dht_v1(
customer_id='customer-backup@id-a_8084',
observers_ids=[
'supplier-2@id-a_8084',
'customer-backup@id-a_8084',
'supplier-1@id-a_8084',
],
expected_ecc_map='ecc/2x2',
expected_suppliers_number=2,
)
try:
response = request_get('customer-backup', 'process/stop/v1')
assert response.json()['status'] == 'OK', response.json()
except Exception as exc:
print(f'\n\nprocess/stop/v1 failed with {exc}')
# step3: recover key on customer-restore container and join network
for _ in range(5):
response = request_post(
'customer-restore',
'identity/recover/v1',
json={
'private_key_local_file': backup_file_directory_c3,
},
)
print('\n\nidentity/recover/v1 : %s\n' % response.json())
if response.json()['status'] == 'OK':
break
time.sleep(1)
else:
assert False, 'customer-restore was not able to recover identity after few seconds'
response = request_get('customer-restore',
'network/connected/v1?wait_timeout=1')
assert response.json()['status'] == 'ERROR'
for _ in range(5):
response = request_get('customer-restore',
'network/connected/v1?wait_timeout=5')
if response.json()['status'] == 'OK':
break
time.sleep(5)
else:
assert False, 'customer-restore was not able to join the network after identity recover'
supplier_list_v1('customer-restore',
expected_min_suppliers=2,
expected_max_suppliers=2)
service_info_v1('customer-restore', 'service_shared_data', 'ON')
supplier_list_dht_v1(
customer_id='customer-backup@id-a_8084',
observers_ids=[
'customer-restore@id-a_8084',
'supplier-3@id-a_8084',
'supplier-1@id-a_8084',
],
expected_ecc_map='ecc/2x2',
expected_suppliers_number=2,
)
supplier_list_dht_v1(
customer_id='customer-backup@id-a_8084',
observers_ids=[
'supplier-3@id-a_8084',
'supplier-1@id-a_8084',
'customer-restore@id-a_8084',
],
expected_ecc_map='ecc/2x2',
expected_suppliers_number=2,
)
supplier_list_dht_v1(
customer_id='customer-backup@id-a_8084',
observers_ids=[
'supplier-1@id-a_8084',
'customer-restore@id-a_8084',
'supplier-3@id-a_8084',
],
expected_ecc_map='ecc/2x2',
expected_suppliers_number=2,
)
file_list_all_v1('customer-restore')
# step4: try to recover stored file again
key_id = 'master$customer-backup@id-a_8084'
recover_volume = '/customer_restore'
virtual_file = 'virtual_file.txt'
remote_path = '%s:%s' % (key_id, virtual_file)
recovered_file = '%s/%s' % (recover_volume, virtual_file)
for _ in range(20):
response = request_post(
'customer-restore',
'file/download/start/v1',
json={
'remote_path': remote_path,
'destination_folder': recover_volume,
'wait_result': '1',
},
)
assert response.status_code == 200
if response.json()['status'] == 'OK':
break
if response.json()['errors'][0].startswith(
'download not possible, uploading'):
time.sleep(1)
else:
assert False, response.json()
else:
assert False, 'download was not successful: %r' % response.json()
recovered_file_src = run_ssh_command_and_wait(
'customer-restore', 'cat %s' % recovered_file)[0].strip()
print('customer-restore:%s' % recovered_file, recovered_file_src)
assert source_local_file_src == recovered_file_src, (
source_local_file_src,
recovered_file_src,
)
def test_identity_rotate_supplier_1():
if os.environ.get('RUN_TESTS', '1') == '0':
return pytest.skip() # @UndefinedVariable
# first create supplier-1 identity and start the node, identity will be rotated later
create_identity('supplier-1', 'supplier-1')
connect_network('supplier-1')
r = identity_get_v1('supplier-1')
supplier_1_global_id = r['result']['global_id']
supplier_1_idurl = r['result']['idurl']
service_info_v1('supplier-1', 'service_supplier', 'ON')
# make sure supplier-1 was hired by customer-1
current_suppliers_idurls = supplier_list_v1('customer-1',
expected_min_suppliers=2,
expected_max_suppliers=2)
service_info_v1('customer-1', 'service_shared_data', 'ON')
# if he is not hired yet, we switch our first supplier to supplier-1
if supplier_1_idurl not in current_suppliers_idurls:
supplier_switch_v1('customer-1',
supplier_idurl=supplier_1_idurl,
position=0)
service_info_v1('customer-1', 'service_shared_data', 'ON')
current_suppliers_idurls = supplier_list_v1('customer-1',
expected_min_suppliers=2,
expected_max_suppliers=2)
assert supplier_1_idurl in current_suppliers_idurls
share_id_customer_1 = share_create_v1('customer-1')
filename = 'cat.txt'
virtual_filename = filename
volume_customer_1 = '/customer_1'
filepath_customer_1 = f'{volume_customer_1}/{filename}'
remote_path_customer_1 = f'{share_id_customer_1}:{virtual_filename}'
download_filepath_customer_1 = f'/tmp/{filename}'
run_ssh_command_and_wait('customer-1',
f'echo "customer_1" > {filepath_customer_1}')
file_create_v1('customer-1', remote_path_customer_1)
file_upload_start_v1('customer-1', remote_path_customer_1,
filepath_customer_1)
packet_list_v1('customer-1', wait_all_finish=True)
transfer_list_v1('customer-1', wait_all_finish=True)
service_info_v1('customer-1', 'service_shared_data', 'ON')
file_download_start_v1('customer-1',
remote_path=remote_path_customer_1,
destination='/tmp')
file_1 = run_ssh_command_and_wait('customer-1',
f'cat {filepath_customer_1}')[0].strip()
file_2 = run_ssh_command_and_wait(
'customer-1', f'cat {download_filepath_customer_1}')[0].strip()
assert file_1 == file_2
# rotate identity sources on supplier-1
identity_rotate_v1('supplier-1')
time.sleep(1)
r = identity_get_v1('supplier-1')
supplier_1_global_id_new = r['result']['global_id']
supplier_1_idurl_new = r['result']['idurl']
assert supplier_1_global_id_new != supplier_1_global_id
assert supplier_1_idurl_new != supplier_1_idurl
service_info_v1('supplier-1', 'service_gateway', 'ON')
service_info_v1('supplier-1', 'service_supplier', 'ON')
file_sync_v1('customer-1')
time.sleep(1)
packet_list_v1('customer-1', wait_all_finish=True)
transfer_list_v1('customer-1', wait_all_finish=True)
service_info_v1('customer-1', 'service_shared_data', 'ON')
file_list_all_v1('customer-1')
def test_customers_1_2_3_communicate_via_message_brokers():
if os.environ.get('RUN_TESTS', '1') == '0':
return pytest.skip() # @UndefinedVariable
# prepare customers 1, 2 and 3
kw.supplier_list_v1('customer-1',
expected_min_suppliers=2,
expected_max_suppliers=2)
kw.service_info_v1('customer-1', 'service_shared_data', 'ON')
kw.service_info_v1('customer-1', 'service_private_groups', 'ON')
kw.supplier_list_v1('customer-2',
expected_min_suppliers=2,
expected_max_suppliers=2)
kw.service_info_v1('customer-2', 'service_shared_data', 'ON')
kw.service_info_v1('customer-2', 'service_private_groups', 'ON')
kw.supplier_list_v1('customer-3',
expected_min_suppliers=2,
expected_max_suppliers=2)
kw.service_info_v1('customer-3', 'service_shared_data', 'ON')
kw.service_info_v1('customer-3', 'service_private_groups', 'ON')
kw.wait_packets_finished(CUSTOMERS_IDS + BROKERS_IDS)
assert kw.queue_list_v1('broker-1', extract_ids=True) == []
assert kw.queue_list_v1('broker-2', extract_ids=True) == []
assert kw.queue_list_v1('broker-3', extract_ids=True) == []
assert kw.queue_list_v1('broker-4', extract_ids=True) == []
assert kw.queue_list_v1('broker-5', extract_ids=True) == []
assert kw.queue_consumer_list_v1('broker-1', extract_ids=True) == []
assert kw.queue_consumer_list_v1('broker-2', extract_ids=True) == []
assert kw.queue_consumer_list_v1('broker-3', extract_ids=True) == []
assert kw.queue_consumer_list_v1('broker-4', extract_ids=True) == []
assert kw.queue_consumer_list_v1('broker-5', extract_ids=True) == []
assert kw.queue_producer_list_v1('broker-1', extract_ids=True) == []
assert kw.queue_producer_list_v1('broker-2', extract_ids=True) == []
assert kw.queue_producer_list_v1('broker-3', extract_ids=True) == []
assert kw.queue_producer_list_v1('broker-4', extract_ids=True) == []
assert kw.queue_producer_list_v1('broker-5', extract_ids=True) == []
# remember suppliers of customer-1
customer_1_suppliers = kw.supplier_list_v1('customer-1',
expected_min_suppliers=2,
expected_max_suppliers=2,
extract_suppliers=True)
first_supplier_customer_1 = customer_1_suppliers[0].replace(
'http://*****:*****@')[0]
assert active_queue_id in kw.queue_list_v1(active_broker_name,
extract_ids=True)
broker_consumers = kw.queue_consumer_list_v1(active_broker_name,
extract_ids=True)
broker_producers = kw.queue_producer_list_v1(active_broker_name,
extract_ids=True)
assert len(broker_consumers) == 1
assert len(broker_producers) == 1
assert 'customer-1@id-a_8084' in broker_consumers
assert 'customer-1@id-a_8084' in broker_producers
# share group key from customer-1 to customer-2
kw.group_share_v1('customer-1', group_key_id, 'customer-2@id-b_8084')
# second member join the group
kw.group_join_v1('customer-2', group_key_id)
kw.wait_packets_finished(CUSTOMERS_IDS + BROKERS_IDS)
assert kw.group_info_v1('customer-2',
group_key_id)['result']['last_sequence_id'] == -1
broker_consumers = kw.queue_consumer_list_v1(active_broker_name,
extract_ids=True)
broker_producers = kw.queue_producer_list_v1(active_broker_name,
extract_ids=True)
assert len(broker_consumers) == 2
assert len(broker_producers) == 2
assert 'customer-1@id-a_8084' in broker_consumers
assert 'customer-1@id-a_8084' in broker_producers
assert 'customer-2@id-b_8084' in broker_consumers
assert 'customer-2@id-b_8084' in broker_producers
# MESSAGE A: from customer 1 to the group, customers 1 and 2 must receive the message
execute_message_send_receive(
group_key_id,
producer_id='customer-1',
consumers_ids=[
'customer-1',
'customer-2',
],
message_label='A',
expected_results={
'customer-1': True,
'customer-2': True,
},
expected_last_sequence_id={
'customer-1': 0,
'customer-2': 0,
},
)
# customer-2 share group key to customer-3
kw.group_share_v1('customer-2', group_key_id, 'customer-3@id-a_8084')
# third member join the group
kw.group_join_v1('customer-3', group_key_id)
kw.wait_packets_finished(CUSTOMERS_IDS + BROKERS_IDS)
broker_consumers = kw.queue_consumer_list_v1(active_broker_name,
extract_ids=True)
broker_producers = kw.queue_producer_list_v1(active_broker_name,
extract_ids=True)
assert len(broker_consumers) == 3
assert len(broker_producers) == 3
assert 'customer-1@id-a_8084' in broker_consumers
assert 'customer-1@id-a_8084' in broker_producers
assert 'customer-2@id-b_8084' in broker_consumers
assert 'customer-2@id-b_8084' in broker_producers
assert 'customer-3@id-a_8084' in broker_consumers
assert 'customer-3@id-a_8084' in broker_producers
assert kw.group_info_v1('customer-3',
group_key_id)['result']['last_sequence_id'] == 0
# MESSAGE B: from customer 3 to the group, customers 1, 2 and 3 must receive the message
execute_message_send_receive(
group_key_id,
producer_id='customer-3',
consumers_ids=[
'customer-1',
'customer-2',
'customer-3',
],
message_label='B',
expected_results={
'customer-1': True,
'customer-2': True,
'customer-3': True,
},
expected_last_sequence_id={
'customer-1': 1,
'customer-2': 1,
'customer-3': 1,
},
)
# customer-2 leave the group
kw.group_leave_v1('customer-2', group_key_id)
kw.wait_packets_finished(CUSTOMERS_IDS + BROKERS_IDS)
group_info_offline = kw.group_info_v1('customer-2', group_key_id)['result']
assert group_info_offline['state'] == 'OFFLINE'
assert group_info_offline['label'] == 'TestGroup123'
assert group_info_offline['last_sequence_id'] == 1
assert 'customer-1@id-a_8084' in kw.queue_consumer_list_v1(
active_broker_name, extract_ids=True)
assert 'customer-1@id-a_8084' in kw.queue_producer_list_v1(
active_broker_name, extract_ids=True)
assert 'customer-2@id-b_8084' not in kw.queue_consumer_list_v1(
active_broker_name, extract_ids=True)
assert 'customer-2@id-b_8084' not in kw.queue_producer_list_v1(
active_broker_name, extract_ids=True)
assert 'customer-3@id-a_8084' in kw.queue_consumer_list_v1(
active_broker_name, extract_ids=True)
assert 'customer-3@id-a_8084' in kw.queue_producer_list_v1(
active_broker_name, extract_ids=True)
# MESSAGE C: from customer 1 to the group, customers 1 and 3 must receive the message, customer 2 must not receive it
execute_message_send_receive(
group_key_id,
producer_id='customer-1',
consumers_ids=[
'customer-1',
'customer-2',
'customer-3',
],
message_label='C',
expected_results={
'customer-1': True,
'customer-2': False,
'customer-3': True,
},
expected_last_sequence_id={
'customer-1': 2,
'customer-2': 1,
'customer-3': 2,
},
)
# at that point 3 messages already passed thru the group and archive snapshot suppose to be triggered
# kw.wait_packets_finished(CUSTOMERS_IDS + BROKERS_IDS + SUPPLIERS_IDS)
# sending 3 other messages to the group from customer 1
for i in range(3):
execute_message_send_receive(
group_key_id,
producer_id='customer-1',
consumers_ids=[
'customer-1',
'customer-2',
'customer-3',
],
message_label='D%d' % (i + 1),
expected_results={
'customer-1': True,
'customer-2': False,
'customer-3': True,
},
expected_last_sequence_id={},
)
assert kw.group_info_v1('customer-1',
group_key_id)['result']['last_sequence_id'] == 5
assert kw.group_info_v1('customer-2',
group_key_id)['result']['last_sequence_id'] == 1
assert kw.group_info_v1('customer-3',
group_key_id)['result']['last_sequence_id'] == 5
# second member now join the group again... he missed some conversations : expect 4 messages to be missed
kw.group_join_v1('customer-2', group_key_id)
kw.wait_packets_finished(CUSTOMERS_IDS + BROKERS_IDS)
assert len(kw.queue_consumer_list_v1(active_broker_name,
extract_ids=True)) == 3
assert len(kw.queue_producer_list_v1(active_broker_name,
extract_ids=True)) == 3
# all messages suppose to be restored from archive history
# assert kw.group_info_v1('customer-2', group_key_id)['result']['last_sequence_id'] == 5
# all customers leave the group, except customer-3
kw.group_leave_v1('customer-1', group_key_id)
kw.group_leave_v1('customer-2', group_key_id)
kw.wait_packets_finished(CUSTOMERS_IDS + BROKERS_IDS)
assert len(kw.queue_consumer_list_v1(active_broker_name,
extract_ids=True)) == 1
assert len(kw.queue_producer_list_v1(active_broker_name,
extract_ids=True)) == 1
group_info_offline = kw.group_info_v1('customer-1', group_key_id)['result']
assert group_info_offline['state'] == 'OFFLINE'
assert group_info_offline['label'] == 'TestGroup123'
assert group_info_offline['last_sequence_id'] == 5
group_info_offline = kw.group_info_v1('customer-2', group_key_id)['result']
assert group_info_offline['state'] == 'OFFLINE'
assert group_info_offline['label'] == 'TestGroup123'
# assert group_info_offline['last_sequence_id'] == 5
group_info_offline = kw.group_info_v1('customer-3', group_key_id)['result']
assert group_info_offline['state'] == 'IN_SYNC!'
assert group_info_offline['label'] == 'TestGroup123'
assert group_info_offline['last_sequence_id'] == 5
kw.supplier_list_v1('customer-1',
expected_min_suppliers=2,
expected_max_suppliers=2)
kw.file_list_all_v1('customer-2')
def test_identity_rotate_broker():
if os.environ.get('RUN_TESTS', '1') == '0':
return pytest.skip() # @UndefinedVariable
kw.service_info_v1('broker-1', 'service_message_broker', 'ON')
kw.service_info_v1('broker-2', 'service_message_broker', 'ON')
kw.service_info_v1('broker-3', 'service_message_broker', 'ON')
kw.service_info_v1('broker-4', 'service_message_broker', 'ON')
kw.service_info_v1('broker-5', 'service_message_broker', 'ON')
# prepare customer-1
kw.supplier_list_v1('customer-1',
expected_min_suppliers=2,
expected_max_suppliers=2)
kw.service_info_v1('customer-1', 'service_shared_data', 'ON')
kw.service_info_v1('customer-1', 'service_private_groups', 'ON')
kw.packet_list_v1('customer-1', wait_all_finish=True)
kw.transfer_list_v1('customer-1', wait_all_finish=True)
# prepare customer-2
kw.supplier_list_v1('customer-2',
expected_min_suppliers=2,
expected_max_suppliers=2)
kw.service_info_v1('customer-2', 'service_shared_data', 'ON')
kw.service_info_v1('customer-2', 'service_private_groups', 'ON')
kw.packet_list_v1('customer-2', wait_all_finish=True)
kw.transfer_list_v1('customer-2', wait_all_finish=True)
# create group owned by customer-1 and join
group_key_id = kw.group_create_v1('customer-1', label='TestGroup123')
kw.packet_list_v1('customer-1', wait_all_finish=True)
kw.group_join_v1('customer-1', group_key_id)
kw.packet_list_v1('customer-1', wait_all_finish=True)
kw.packet_list_v1('broker-1', wait_all_finish=True)
kw.packet_list_v1('broker-2', wait_all_finish=True)
kw.packet_list_v1('broker-3', wait_all_finish=True)
kw.packet_list_v1('broker-4', wait_all_finish=True)
kw.packet_list_v1('broker-5', wait_all_finish=True)
group_info_active = kw.group_info_v1('customer-1', group_key_id)['result']
assert group_info_active['state'] == 'IN_SYNC!'
active_queue_id = group_info_active['active_queue_id']
active_broker_id = group_info_active['active_broker_id']
active_broker_name = active_broker_id.split('@')[0]
assert active_queue_id in kw.queue_list_v1(active_broker_name,
extract_ids=True)
# share group key from customer-1 to customer-2, second member join the group
kw.group_share_v1('customer-1', group_key_id, 'customer-2@id-b_8084')
kw.group_join_v1('customer-2', group_key_id)
kw.packet_list_v1('broker-1', wait_all_finish=True)
kw.packet_list_v1('broker-2', wait_all_finish=True)
kw.packet_list_v1('broker-3', wait_all_finish=True)
kw.packet_list_v1('broker-4', wait_all_finish=True)
kw.packet_list_v1('broker-5', wait_all_finish=True)
assert kw.group_info_v1('customer-1',
group_key_id)['result']['last_sequence_id'] == -1
assert kw.group_info_v1('customer-2',
group_key_id)['result']['last_sequence_id'] == -1
# MESSAGE A (3 times): from customer 1 to the group, customers 1 and 2 must receive the message
for i in range(3):
a_message_sent_from_customer_1 = {
'random_message':
'MESSAGE_A%d_%s' % (
i,
base64.b32encode(os.urandom(20)).decode(),
)
}
a_customer_1_receive_result = [
None,
]
a_customer_2_receive_result = [
None,
]
a_receive_customer_1 = threading.Timer(0, kw.message_receive_v1, [
'customer-1',
a_message_sent_from_customer_1,
'test_consumer',
a_customer_1_receive_result,
])
a_receive_customer_2 = threading.Timer(0, kw.message_receive_v1, [
'customer-2',
a_message_sent_from_customer_1,
'test_consumer',
a_customer_2_receive_result,
])
a_send_customer_1 = threading.Timer(0.2, kw.message_send_group_v1, [
'customer-1',
group_key_id,
a_message_sent_from_customer_1,
])
a_receive_customer_1.start()
a_receive_customer_2.start()
a_send_customer_1.start()
a_receive_customer_1.join()
a_receive_customer_2.join()
a_send_customer_1.join()
assert a_customer_1_receive_result[0]['result'][0][
'data'] == a_message_sent_from_customer_1
assert a_customer_2_receive_result[0]['result'][0][
'data'] == a_message_sent_from_customer_1
assert kw.group_info_v1(
'customer-1', group_key_id)['result']['last_sequence_id'] == i
assert kw.group_info_v1(
'customer-2', group_key_id)['result']['last_sequence_id'] == i
# rotate identity sources on broker-1
kw.identity_rotate_v1(active_broker_name)
kw.service_info_v1(active_broker_name, 'service_message_broker', 'ON')
kw.service_info_v1(active_broker_name, 'service_gateway', 'ON')
kw.packet_list_v1(active_broker_name, wait_all_finish=True)
# MESSAGE B: from customer 2 to the group, customers 1 and 2 must switch to another active broker and receive the message
b_message_sent_from_customer_1 = {
'random_message':
'MESSAGE_B_%s' % base64.b32encode(os.urandom(20)).decode(),
}
b_customer_1_receive_result = [
None,
]
b_customer_2_receive_result = [
None,
]
b_receive_customer_1 = threading.Timer(0, kw.message_receive_v1, [
'customer-1',
b_message_sent_from_customer_1,
'test_consumer',
b_customer_1_receive_result,
60,
])
b_receive_customer_2 = threading.Timer(0, kw.message_receive_v1, [
'customer-2',
b_message_sent_from_customer_1,
'test_consumer',
b_customer_2_receive_result,
60,
])
b_send_customer_1 = threading.Timer(0.2, kw.message_send_group_v1, [
'customer-1',
group_key_id,
b_message_sent_from_customer_1,
])
b_receive_customer_1.start()
b_receive_customer_2.start()
b_send_customer_1.start()
b_receive_customer_1.join()
b_receive_customer_2.join()
b_send_customer_1.join()
assert b_customer_1_receive_result[0]['result'][0][
'data'] == b_message_sent_from_customer_1
assert b_customer_2_receive_result[0]['result'][0][
'data'] == b_message_sent_from_customer_1
assert kw.group_info_v1('customer-1',
group_key_id)['result']['last_sequence_id'] == 3
assert kw.group_info_v1('customer-2',
group_key_id)['result']['last_sequence_id'] == 3