# Python API * Table of Contents {:toc} ## Overview Writing your own Python scripts offers a rich programming environment with complete control over all aspects of the emulation. The scripts need to be ran with root privileges because they create new network namespaces. In general, a CORE Python script does not connect to the CORE daemon, in fact the *core-daemon* is just another Python script that uses the CORE Python modules and exchanges messages with the GUI. ## Examples ### Node Models When creating nodes of type `core.nodes.base.CoreNode` these are the default models and the services they map to. * mdr * zebra, OSPFv3MDR, IPForward * PC * DefaultRoute * router * zebra, OSPFv2, OSPFv3, IPForward * host * DefaultRoute, SSH ### Interface Helper There is an interface helper class that can be leveraged for convenience when creating interface data for nodes. Alternatively one can manually create a `core.emulator.data.InterfaceData` class instead with appropriate information. Manually creating interface data: ```python from core.emulator.data import InterfaceData # id is optional and will set to the next available id # name is optional and will default to eth # mac is optional and will result in a randomly generated mac iface_data = InterfaceData( id=0, name="eth0", ip4="10.0.0.1", ip4_mask=24, ip6="2001::", ip6_mask=64, ) ``` Leveraging the interface prefixes helper class: ```python from core.emulator.data import IpPrefixes ip_prefixes = IpPrefixes(ip4_prefix="10.0.0.0/24", ip6_prefix="2001::/64") # node is used to get an ip4/ip6 address indexed from within the above prefixes # name is optional and would default to eth # mac is optional and will result in a randomly generated mac iface_data = ip_prefixes.create_iface( node=node, name="eth0", mac="00:00:00:00:aa:00" ) ``` ### Listening to Events Various events that can occur within a session can be listened to. Event types: * session - events for changes in session state and mobility start/stop/pause * node - events for node movements and icon changes * link - events for link configuration changes and wireless link add/delete * config - configuration events when legacy gui joins a session * exception - alert/error events * file - file events when the legacy gui joins a session ```python def event_listener(event): print(event) # add an event listener to event type you want to listen to # each handler will receive an object unique to that type session.event_handlers.append(event_listener) session.exception_handlers.append(event_listener) session.node_handlers.append(event_listener) session.link_handlers.append(event_listener) session.file_handlers.append(event_listener) session.config_handlers.append(event_listener) ``` ### Configuring Links Links can be configured at the time of creation or during runtime. Currently supported configuration options: * bandwidth (bps) * delay (us) * dup (%) * jitter (us) * loss (%) ```python from core.emulator.data import LinkOptions # configuring when creating a link options = LinkOptions( bandwidth=54_000_000, delay=5000, dup=5, loss=5.5, jitter=0, ) session.add_link(n1_id, n2_id, iface1_data, iface2_data, options) # configuring during runtime session.update_link(n1_id, n2_id, iface1_id, iface2_id, options) ``` ### Peer to Peer Example ```python # required imports from core.emulator.coreemu import CoreEmu from core.emulator.data import IpPrefixes, NodeOptions from core.emulator.enumerations import EventTypes from core.nodes.base import CoreNode # ip nerator for example ip_prefixes = IpPrefixes(ip4_prefix="10.0.0.0/24") # create emulator instance for creating sessions and utility methods coreemu = CoreEmu() session = coreemu.create_session() # must be in configuration state for nodes to start, when using "node_add" below session.set_state(EventTypes.CONFIGURATION_STATE) # create nodes options = NodeOptions(x=100, y=100) n1 = session.add_node(CoreNode, options=options) options = NodeOptions(x=300, y=100) n2 = session.add_node(CoreNode, options=options) # link nodes together iface1 = ip_prefixes.create_iface(n1) iface2 = ip_prefixes.create_iface(n2) session.add_link(n1.id, n2.id, iface1, iface2) # start session session.instantiate() # do whatever you like here input("press enter to shutdown") # stop session session.shutdown() ``` ### Switch/Hub Example ```python # required imports from core.emulator.coreemu import CoreEmu from core.emulator.data import IpPrefixes, NodeOptions from core.emulator.enumerations import EventTypes from core.nodes.base import CoreNode from core.nodes.network import SwitchNode # ip nerator for example ip_prefixes = IpPrefixes(ip4_prefix="10.0.0.0/24") # create emulator instance for creating sessions and utility methods coreemu = CoreEmu() session = coreemu.create_session() # must be in configuration state for nodes to start, when using "node_add" below session.set_state(EventTypes.CONFIGURATION_STATE) # create switch options = NodeOptions(x=200, y=200) switch = session.add_node(SwitchNode, options=options) # create nodes options = NodeOptions(x=100, y=100) n1 = session.add_node(CoreNode, options=options) options = NodeOptions(x=300, y=100) n2 = session.add_node(CoreNode, options=options) # link nodes to switch iface1 = ip_prefixes.create_iface(n1) session.add_link(n1.id, switch.id, iface1) iface1 = ip_prefixes.create_iface(n2) session.add_link(n2.id, switch.id, iface1) # start session session.instantiate() # do whatever you like here input("press enter to shutdown") # stop session session.shutdown() ``` ### WLAN Example ```python # required imports from core.emulator.coreemu import CoreEmu from core.emulator.data import IpPrefixes, NodeOptions from core.emulator.enumerations import EventTypes from core.location.mobility import BasicRangeModel from core.nodes.base import CoreNode from core.nodes.network import WlanNode # ip nerator for example ip_prefixes = IpPrefixes(ip4_prefix="10.0.0.0/24") # create emulator instance for creating sessions and utility methods coreemu = CoreEmu() session = coreemu.create_session() # must be in configuration state for nodes to start, when using "node_add" below session.set_state(EventTypes.CONFIGURATION_STATE) # create wlan options = NodeOptions(x=200, y=200) wlan = session.add_node(WlanNode, options=options) # create nodes options = NodeOptions(model="mdr", x=100, y=100) n1 = session.add_node(CoreNode, options=options) options = NodeOptions(model="mdr", x=300, y=100) n2 = session.add_node(CoreNode, options=options) # configuring wlan session.mobility.set_model_config(wlan.id, BasicRangeModel.name, { "range": "280", "bandwidth": "55000000", "delay": "6000", "jitter": "5", "error": "5", }) # link nodes to wlan iface1 = ip_prefixes.create_iface(n1) session.add_link(n1.id, wlan.id, iface1) iface1 = ip_prefixes.create_iface(n2) session.add_link(n2.id, wlan.id, iface1) # start session session.instantiate() # do whatever you like here input("press enter to shutdown") # stop session session.shutdown() ``` ### EMANE Example For EMANE you can import and use one of the existing models and use its name for configuration. Current models: * core.emane.ieee80211abg.EmaneIeee80211abgModel * core.emane.rfpipe.EmaneRfPipeModel * core.emane.tdma.EmaneTdmaModel * core.emane.bypass.EmaneBypassModel Their configurations options are driven dynamically from parsed EMANE manifest files from the installed version of EMANE. Options and their purpose can be found at the [EMANE Wiki](https://github.com/adjacentlink/emane/wiki). If configuring EMANE global settings or model mac/phy specific settings, any value not provided will use the defaults. When no configuration is used, the defaults are used. ```python # required imports from core.emane.ieee80211abg import EmaneIeee80211abgModel from core.emane.nodes import EmaneNet from core.emulator.coreemu import CoreEmu from core.emulator.data import IpPrefixes, NodeOptions from core.emulator.enumerations import EventTypes from core.nodes.base import CoreNode # ip nerator for example ip_prefixes = IpPrefixes(ip4_prefix="10.0.0.0/24") # create emulator instance for creating sessions and utility methods coreemu = CoreEmu() session = coreemu.create_session() # location information is required to be set for emane session.location.setrefgeo(47.57917, -122.13232, 2.0) session.location.refscale = 150.0 # must be in configuration state for nodes to start, when using "node_add" below session.set_state(EventTypes.CONFIGURATION_STATE) # create emane options = NodeOptions(x=200, y=200, emane=EmaneIeee80211abgModel.name) emane = session.add_node(EmaneNet, options=options) # create nodes options = NodeOptions(model="mdr", x=100, y=100) n1 = session.add_node(CoreNode, options=options) options = NodeOptions(model="mdr", x=300, y=100) n2 = session.add_node(CoreNode, options=options) # configure general emane settings config = session.emane.get_configs() config.update({ "eventservicettl": "2" }) # configure emane model settings # using a dict mapping currently support values as strings session.emane.set_model_config(emane.id, EmaneIeee80211abgModel.name, { "unicastrate": "3", }) # link nodes to emane iface1 = ip_prefixes.create_iface(n1) session.add_link(n1.id, emane.id, iface1) iface1 = ip_prefixes.create_iface(n2) session.add_link(n2.id, emane.id, iface1) # start session session.instantiate() # do whatever you like here input("press enter to shutdown") # stop session session.shutdown() ``` EMANE Model Configuration: ```python from core import utils # emane network specific config session.emane.set_model_config(emane.id, EmaneIeee80211abgModel.name, { "unicastrate": "3", }) # node specific config session.emane.set_model_config(node.id, EmaneIeee80211abgModel.name, { "unicastrate": "3", }) # node interface specific config config_id = utils.iface_config_id(node.id, iface_id) session.emane.set_model_config(config_id, EmaneIeee80211abgModel.name, { "unicastrate": "3", }) ``` ## Configuring a Service Services help generate and run bash scripts on nodes for a given purpose. Configuring the files of a service results in a specific hard coded script being generated, instead of the default scripts, that may leverage dynamic generation. The following features can be configured for a service: * configs - files that will be generated * dirs - directories that will be mounted unique to the node * startup - commands to run start a service * validate - commands to run to validate a service * shutdown - commands to run to stop a service Editing service properties: ```python # configure a service, for a node, for a given session session.services.set_service(node_id, service_name) service = session.services.get_service(node_id, service_name) service.configs = ("file1.sh", "file2.sh") service.dirs = ("/etc/node",) service.startup = ("bash file1.sh",) service.validate = () service.shutdown = () ``` When editing a service file, it must be the name of `config` file that the service will generate. Editing a service file: ```python # to edit the contents of a generated file you can specify # the service, the file name, and its contents session.services.set_service_file( node_id, service_name, file_name, "echo hello", ) ``` ## File Examples File versions of the network examples can be found [here](https://github.com/coreemu/core/tree/master/daemon/examples/python). ## Executing Scripts from GUI To execute a python script from a GUI you need have the following. The builtin name check here to know it is being executed from the GUI, this can be avoided if your script does not use a name check. ```python if __name__ in ["__main__", "__builtin__"]: main() ``` A script can add sessions to the core-daemon. A global *coreemu* variable is exposed to the script pointing to the *CoreEmu* object. The example below has a fallback to a new CoreEmu object, in the case you would like to run the script standalone, outside of the core-daemon. ```python coreemu = globals().get("coreemu", CoreEmu()) session = coreemu.create_session() ```