| #!/usr/bin/python |
| |
| import requests |
| import json |
| import random |
| from sets import Set |
| |
| |
| # |
| # Creates client-side connectivity json |
| # |
| def tapi_client_input(sip_uuids): |
| create_input = { |
| "tapi-connectivity:input": { |
| "end-point" : [ |
| { |
| "local-id": sip_uuids[0], |
| "service-interface-point": { |
| "service-interface-point-uuid" : sip_uuids[0] |
| } |
| }, |
| { |
| "local-id": sip_uuids[1], |
| "service-interface-point": { |
| "service-interface-point-uuid" : sip_uuids[1] |
| } |
| } |
| ] |
| } |
| } |
| return create_input |
| |
| |
| # |
| # Creates line-side connectivity json |
| # |
| def tapi_line_input(sip_uuids): |
| create_input = { |
| "tapi-connectivity:input" : { |
| "end-point": [ |
| { |
| "layer-protocol-qualifier": "tapi-photonic-media:PHOTONIC_LAYER_QUALIFIER_NMC", |
| "role": "UNKNOWN", |
| "local-id": "Src_end_point", |
| "direction": "BIDIRECTIONAL", |
| "service-interface-point": { |
| "service-interface-point-uuid" : sip_uuids[0] |
| }, |
| "protection-role": "WORK", |
| "layer-protocol-name": "PHOTONIC_MEDIA" |
| }, |
| { |
| "direction": "BIDIRECTIONAL", |
| "service-interface-point": { |
| "service-interface-point-uuid": sip_uuids[1] |
| }, |
| "protection-role": "WORK", |
| "layer-protocol-name": "PHOTONIC_MEDIA", |
| "layer-protocol-qualifier": "tapi-photonic-media:PHOTONIC_LAYER_QUALIFIER_NMC", |
| "role": "UNKNOWN", |
| "local-id": "Dst_end_point" |
| } |
| ] |
| } |
| } |
| return create_input |
| |
| |
| # |
| # Obtains TAPI context through restconf |
| # |
| def get_context(url_context): |
| resp = requests.get(url_context, auth=('onos', 'rocks')) |
| if resp.status_code != 200: |
| raise Exception('GET {}'.format(resp.status_code)) |
| return resp.json() |
| |
| |
| # |
| # Check if the node is transponder. |
| # True - transponder |
| # False - OLS |
| # |
| def is_transponder_node(node): |
| if len(node["owned-node-edge-point"]) > 0 and "mapped-service-interface-point" in node["owned-node-edge-point"][0]: |
| return True |
| else: |
| return False |
| |
| |
| # |
| # Parse src and dst sip-uuids of specific link from topo. |
| # |
| def parse_src_dst(topo, link_index=-1): |
| if link_index == -1: |
| # select a link randomly from all links of topo |
| link_index = random.randint(0, len(topo["link"]) - 1) |
| nep_pair = topo["link"][link_index]["node-edge-point"] |
| assert topo["uuid"] == nep_pair[0]["topology-uuid"] |
| assert topo["uuid"] == nep_pair[1]["topology-uuid"] |
| src_onep, dst_onep = (find_line_onep(nep_pair[0], topo["node"]), |
| find_line_onep(nep_pair[1], topo["node"])) |
| if src_onep is not None and dst_onep is not None: |
| # If the link is between two transponders directly |
| pass |
| elif src_onep is None and dst_onep is None: |
| raise AssertionError("Impossible for that both two ports are OLS port") |
| else: |
| # If one of src_onep and dst_onep is None, then make src_onep not None, |
| # and find a new dst_onep with same connection id. |
| if src_onep is None: |
| src_onep = dst_onep |
| dst_onep = None |
| conn_id = parse_value(src_onep["name"])["odtn-connection-id"] |
| for node in topo["node"]: |
| cep = src_onep["tapi-connectivity:cep-list"]["connection-end-point"] |
| assert len(cep) == 1 |
| if cep[0]["parent-node-edge-point"]["node-uuid"] != node["uuid"] and is_transponder_node(node): |
| # If this node is not the node that includes src_onep, and not a OLS node |
| for onep in node["owned-node-edge-point"]: |
| if parse_value(onep["name"])["odtn-connection-id"] == conn_id: |
| dst_onep = onep |
| break |
| if dst_onep is not None: |
| break |
| |
| src_sip_uuid, dst_sip_uuid = \ |
| (src_onep["mapped-service-interface-point"][0]["service-interface-point-uuid"], |
| dst_onep["mapped-service-interface-point"][0]["service-interface-point-uuid"]) |
| |
| return src_onep, dst_onep, src_sip_uuid, dst_sip_uuid |
| |
| |
| # |
| # Check whether the sip uuid is used in other existed services. |
| # |
| def is_port_used(sip_uuid, conn_context): |
| try: |
| for service in conn_context["connectivity-service"]: |
| for id in [0, 1]: |
| if service["end-point"][id]["service-interface-point"]["service-interface-point-uuid"] == sip_uuid: |
| return True |
| except KeyError: |
| print "There is no line-side service in ONOS now." |
| return False |
| |
| |
| # |
| # Requests a connectivity service |
| # |
| def request_connection(url_connectivity, context): |
| # All Context SIPs |
| sips = context["tapi-common:context"]["service-interface-point"] |
| |
| # Sorted Photonic Media SIPs. filter is an iterable |
| esips = list(filter(is_dsr_media, sorted(sips, key=lambda sip: sip["name"][0]["value"]))) |
| endpoints = [esips[0], esips[-1]] |
| sip_uuids = [] |
| for sip in endpoints: |
| sip_uuids.append(sip["uuid"]) |
| for uuid in sip_uuids: |
| print(uuid) |
| |
| create_input_json = json.dumps(tapi_client_input(sip_uuids)) |
| print (create_input_json) |
| headers = {'Content-type': 'application/json'} |
| resp = requests.post(url_connectivity, data=create_input_json, headers=headers, auth=('onos', 'rocks')) |
| if resp.status_code != 200: |
| raise Exception('POST {}'.format(resp.status_code)) |
| return resp |
| |
| |
| # |
| # Filter method used to keep only SIPs that are photonic_media |
| # |
| def is_photonic_media(sip): |
| return sip["layer-protocol-name"] == "PHOTONIC_MEDIA" |
| |
| |
| # |
| # Filter method used to keep only SIPs that are DSR |
| # |
| def is_dsr_media(sip): |
| return sip["layer-protocol-name"] == "DSR" |
| |
| |
| # |
| # Processes the topology to verify the correctness |
| # |
| def process_topology(): |
| # TODO use method to parse topology |
| # Getting the Topology |
| # topology = context["tapi-common:context"]["tapi-topology:topology-context"]["topology"][0] |
| # nodes = topology["node"]; |
| # links = topology["link"]; |
| noop |
| |
| |
| # |
| # Find mapped client-side sip_uuid according to a line-side sip_uuid. |
| # connection-ids of these two owned-node-edge-point should be the same. |
| # |
| def find_mapped_client_sip_uuid(line_sip_uuid, nodes): |
| line_node = None |
| line_onep = None |
| for node in nodes: |
| if is_transponder_node(node): |
| for onep in node["owned-node-edge-point"]: |
| if onep["mapped-service-interface-point"][0]["service-interface-point-uuid"] == line_sip_uuid: |
| line_node = node |
| line_onep = onep |
| break |
| if line_node is None: |
| raise AssertionError("Cannot match line-side sip uuid in topology.") |
| conn_id = parse_value(line_onep["name"])["odtn-connection-id"] |
| for onep in line_node["owned-node-edge-point"]: |
| vals = parse_value(onep["name"]) |
| if vals["odtn-connection-id"] == conn_id and vals["odtn-port-type"] == "client": |
| return onep["mapped-service-interface-point"][0]["service-interface-point-uuid"], vals |
| return None |
| |
| |
| # |
| # Create a client-side connection. Firstly, get the context, parsing for SIPs that connect |
| # with each other in line-side; Secondly, issue the request |
| # |
| def create_client_connection(url_context, url_connectivity): |
| headers = {'Content-type': 'application/json'} |
| context = get_context(url_context) |
| # select the first topo from all topologies |
| topo = context["tapi-common:context"]["tapi-topology:topology-context"]["topology"][0] |
| # Gather all current used sip_uuids |
| used_sip_uuids = Set() |
| try: |
| services = context["tapi-common:context"]["tapi-connectivity:connectivity-context"]["connectivity-service"] |
| for service in services: |
| used_sip_uuids.add(service["end-point"][0]["service-interface-point"]["service-interface-point-uuid"]) |
| used_sip_uuids.add(service["end-point"][1]["service-interface-point"]["service-interface-point-uuid"]) |
| except KeyError: |
| print "There is no existed connectivity service inside ONOS." |
| |
| # select the first available line-side service as bridge. If there is no available line-side service, |
| # then only create a client-to-client service for src and dst node. |
| empty_client_src_sip_uuid, empty_client_dst_sip_uuid = None, None |
| empty_src_name, empty_dst_name, empty_client_src_name, empty_client_dst_name = None, None, None, None |
| for link_index in range(0, len(topo["link"])): |
| src_onep, dst_onep, src_sip_uuid, dst_sip_uuid = parse_src_dst(topo, link_index) |
| client_src_sip_uuid, client_src_name = find_mapped_client_sip_uuid(src_sip_uuid, topo["node"]) |
| client_dst_sip_uuid, client_dst_name = find_mapped_client_sip_uuid(dst_sip_uuid, topo["node"]) |
| # firstly, check if line-side service exists |
| # If line-side service exists |
| if src_sip_uuid in used_sip_uuids and dst_sip_uuid in used_sip_uuids: |
| # secondly, check if mapped client-side service exists |
| if (client_src_sip_uuid not in used_sip_uuids) and (client_dst_sip_uuid not in used_sip_uuids): |
| # If there is no such client-side connection exists |
| # Create new client-side connection directly |
| print "Create client-side connection between %s and %s." % \ |
| (client_src_name["onos-cp"], client_dst_name["onos-cp"]) |
| create_input_json = json.dumps(tapi_client_input((client_src_sip_uuid, client_dst_sip_uuid))) |
| resp = requests.post(url_connectivity, data=create_input_json, headers=headers, |
| auth=('onos', 'rocks')) |
| if resp.status_code != 200: |
| raise Exception('POST {}'.format(resp.status_code)) |
| return resp |
| else: |
| # If there exists such client-side connection |
| # Do nothing, just continue |
| pass |
| else: |
| # If line-side service doesn't exist |
| # save 4 sip uuids, and continue |
| empty_client_src_sip_uuid = client_src_sip_uuid |
| empty_client_dst_sip_uuid = client_dst_sip_uuid |
| empty_client_src_name = client_src_name |
| empty_client_dst_name = client_dst_name |
| empty_src_name = parse_value(src_onep["name"]) |
| empty_dst_name = parse_value(dst_onep["name"]) |
| pass |
| |
| # After FOR loop, if this method doesn't return, there is no available line-side |
| # service for mapped client-side service creation. |
| # So, we need to create two client-side services. |
| if empty_client_src_sip_uuid is None: |
| # None case means all client-side services exist. |
| raise AssertionError("There is no available client-side service could be created.") |
| else: |
| print "Create client-side services:" |
| print "\t- from %s to %s." % (empty_client_src_name["onos-cp"], empty_client_dst_name["onos-cp"]) |
| print "This service should go through:" |
| print "\t- %s and %s." % (empty_src_name["onos-cp"], empty_dst_name["onos-cp"]) |
| create_input_json = json.dumps(tapi_client_input((empty_client_src_sip_uuid, empty_client_dst_sip_uuid))) |
| resp = requests.post(url_connectivity, data=create_input_json, headers=headers, |
| auth=('onos', 'rocks')) |
| if resp.status_code != 200: |
| raise Exception('POST {}'.format(resp.status_code)) |
| return resp |
| |
| |
| # |
| # Parse array structure "name" under structure "owned node edge point" |
| # |
| def parse_value(arr): |
| rtn = {} |
| for item in arr: |
| rtn[item["value-name"]] = item["value"] |
| return rtn |
| |
| |
| # |
| # Find node edge point of node structure in topology with client-side port, by using nep with line-side port. |
| # The odtn-connection-id should be the same in both line-side nep and client-side nep |
| # |
| def find_client_onep(line_nep_in_link, nodes): |
| for node in nodes: |
| if node["uuid"] == line_nep_in_link["node-uuid"]: |
| conn_id = None |
| for onep in node["owned-node-edge-point"]: |
| if onep["uuid"] == line_nep_in_link["node-edge-point-uuid"]: |
| name = parse_value(onep["name"]) |
| if name["odtn-port-type"] == "line": |
| conn_id = name["odtn-connection-id"] |
| break |
| if conn_id is None: |
| raise AssertionError("Cannot find owned node edge point with node id %s and nep id %s." |
| % (line_nep_in_link["node-uuid"], line_nep_in_link["node-edge-point-uuid"], )) |
| for onep in node["owned-node-edge-point"]: |
| name = parse_value(onep["name"]) |
| if name["odtn-port-type"] == "client" and name["odtn-connection-id"] == conn_id: |
| return onep |
| |
| return None |
| |
| |
| # |
| # Create a line-side connection. Firstly, get the context, parsing for SIPs with photonic_media type, |
| # and select one pair of them; Secondly, issue the request |
| # |
| def create_line_connection(url_context, url_connectivity): |
| context = get_context(url_context) |
| # select the first topo from all topologies |
| topo = context["tapi-common:context"]["tapi-topology:topology-context"]["topology"][0] |
| # select randomly the src_sip_uuid and dst_sip_uuid with same connection id. |
| src_onep, dst_onep, src_sip_uuid, dst_sip_uuid = parse_src_dst(topo) |
| while is_port_used(src_sip_uuid, context["tapi-common:context"]["tapi-connectivity:connectivity-context"]): |
| print "Conflict occurs between randomly selected line-side link and existed ones." |
| src_onep, dst_onep, src_sip_uuid, dst_sip_uuid = parse_src_dst(topo) |
| |
| print "\nBuild line-side connectivity:\n|Item|SRC|DST|\n|:--|:--|:--|\n|onos-cp|%s|%s|\n|connection id|%s|%s|\n|sip uuid|%s|%s|" % \ |
| (src_onep["name"][2]["value"], dst_onep["name"][2]["value"], |
| src_onep["name"][1]["value"], dst_onep["name"][1]["value"], |
| src_sip_uuid, dst_sip_uuid) |
| create_input_json = json.dumps(tapi_line_input((src_sip_uuid, dst_sip_uuid))) |
| print "\nThe json content of creation operation for line-side connectivity service is \n\t\t%s." % \ |
| create_input_json |
| headers = {'Content-type': 'application/json'} |
| resp = requests.post(url_connectivity, data=create_input_json, headers=headers, auth=('onos', 'rocks')) |
| if resp.status_code != 200: |
| raise Exception('POST {}'.format(resp.status_code)) |
| return resp |
| |
| |
| # |
| # find owned-node-edge-point from all nodes according to line_nep_in_links |
| # |
| def find_line_onep(line_nep_in_link, nodes): |
| for node in nodes: |
| if node["uuid"] == line_nep_in_link["node-uuid"]: |
| if not is_transponder_node(node): |
| break |
| for onep in node["owned-node-edge-point"]: |
| if onep["uuid"] == line_nep_in_link["node-edge-point-uuid"]: |
| # check the length equals 1 to verify the 1-to-1 mapping relationship |
| assert len(onep["mapped-service-interface-point"]) == 1 |
| return onep |
| # When node is OLS, this method will return None |
| return None |
| |
| |
| # |
| # Obtains existing connectivity services |
| # |
| def get_connection(url_connectivity, uuid): |
| # uuid is useless for this method |
| json = '{}' |
| headers = {'Content-type': 'application/json'} |
| resp = requests.post(url_connectivity, data=json, headers=headers, auth=('onos', 'rocks')) |
| if resp.status_code != 200: |
| raise Exception('POST {}'.format(resp.status_code)) |
| return resp |