core-extra/docs/grpc.md

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gRPC API

  • Table of Contents {:toc}

gRPC is a client/server API for interfacing with CORE and used by the python GUI for driving all functionality. It is dependent on having a running core-daemon instance to be leveraged.

A python client can be created from the raw generated grpc files included with CORE or one can leverage a provided gRPC client that helps encapsulate some of the functionality to try and help make things easier.

Python Client

A python client wrapper is provided at CoreGrpcClient to help provide some conveniences when using the API.

Client HTTP Proxy

Since gRPC is HTTP2 based, proxy configurations can cause issues. By default the client disables proxy support to avoid issues when a proxy is present. You can enable and properly account for this issue when needed.

Proto Files

Proto files are used to define the API and protobuf messages that are used for interfaces with this API.

They can be found here to see the specifics of what is going on and response message values that would be returned.

Examples

Node Models

When creating nodes of type NodeType.DEFAULT 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.api.grpc.core_pb2.Interface class instead with appropriate information.

Manually creating gRPC interface data:

from core.api.grpc import core_pb2
# id is optional and will set to the next available id
# name is optional and will default to eth<id>
# mac is optional and will result in a randomly generated mac
iface_data = core_pb2.Interface(
    id=0,
    name="eth0",
    ip4="10.0.0.1",
    ip4_mask=24,
    ip6="2001::",
    ip6_mask=64,
)

Leveraging the interface helper class:

from core.api.grpc import client

iface_helper = client.InterfaceHelper(ip4_prefix="10.0.0.0/24", ip6_prefix="2001::/64")
# node_id is used to get an ip4/ip6 address indexed from within the above prefixes
# iface_id is required and used exactly for that
# name is optional and would default to eth<id>
# mac is optional and will result in a randomly generated mac
iface_data = iface_helper.create_iface(
    node_id=1, iface_id=0, name="eth0", mac="00:00:00:00:aa:00"
)

Listening to Events

TBD

TBD

Peer to Peer Example

# required imports
from core.api.grpc import client
from core.api.grpc.core_pb2 import Node, NodeType, Position, SessionState

# interface helper
iface_helper = client.InterfaceHelper(ip4_prefix="10.0.0.0/24", ip6_prefix="2001::/64")

# create grpc client and connect
core = client.CoreGrpcClient()
core.connect()

# create session and get id
response = core.create_session()
session_id = response.session_id

# change session state to configuration so that nodes get started when added
core.set_session_state(session_id, SessionState.CONFIGURATION)

# create node one
position = Position(x=100, y=100)
n1 = Node(type=NodeType.DEFAULT, position=position, model="PC")
response = core.add_node(session_id, n1)
n1_id = response.node_id

# create node two
position = Position(x=300, y=100)
n2 = Node(type=NodeType.DEFAULT, position=position, model="PC")
response = core.add_node(session_id, n2)
n2_id = response.node_id

# links nodes together
iface1 = iface_helper.create_iface(n1_id, 0)
iface2 = iface_helper.create_iface(n2_id, 0)
core.add_link(session_id, n1_id, n2_id, iface1, iface2)

# change session state
core.set_session_state(session_id, SessionState.INSTANTIATION)

Switch/Hub Example

# required imports
from core.api.grpc import client
from core.api.grpc.core_pb2 import Node, NodeType, Position, SessionState

# interface helper
iface_helper = client.InterfaceHelper(ip4_prefix="10.0.0.0/24", ip6_prefix="2001::/64")

# create grpc client and connect
core = client.CoreGrpcClient()
core.connect()

# create session and get id
response = core.create_session()
session_id = response.session_id

# change session state to configuration so that nodes get started when added
core.set_session_state(session_id, SessionState.CONFIGURATION)

# create switch node
position = Position(x=200, y=200)
switch = Node(type=NodeType.SWITCH, position=position)
response = core.add_node(session_id, switch)
switch_id = response.node_id

# create node one
position = Position(x=100, y=100)
n1 = Node(type=NodeType.DEFAULT, position=position, model="PC")
response = core.add_node(session_id, n1)
n1_id = response.node_id

# create node two
position = Position(x=300, y=100)
n2 = Node(type=NodeType.DEFAULT, position=position, model="PC")
response = core.add_node(session_id, n2)
n2_id = response.node_id

# links nodes to switch
iface1 = iface_helper.create_iface(n1_id, 0)
core.add_link(session_id, n1_id, switch_id, iface1)
iface1 = iface_helper.create_iface(n2_id, 0)
core.add_link(session_id, n2_id, switch_id, iface1)

# change session state
core.set_session_state(session_id, SessionState.INSTANTIATION)

WLAN Example

# required imports
from core.api.grpc import client
from core.api.grpc.core_pb2 import Node, NodeType, Position, SessionState

# interface helper
iface_helper = client.InterfaceHelper(ip4_prefix="10.0.0.0/24", ip6_prefix="2001::/64")

# create grpc client and connect
core = client.CoreGrpcClient()
core.connect()

# create session and get id
response = core.create_session()
session_id = response.session_id

# change session state to configuration so that nodes get started when added
core.set_session_state(session_id, SessionState.CONFIGURATION)

# create wlan node
position = Position(x=200, y=200)
wlan = Node(type=NodeType.WIRELESS_LAN, position=position)
response = core.add_node(session_id, wlan)
wlan_id = response.node_id

# create node one
position = Position(x=100, y=100)
n1 = Node(type=NodeType.DEFAULT, position=position, model="mdr")
response = core.add_node(session_id, n1)
n1_id = response.node_id

# create node two
position = Position(x=300, y=100)
n2 = Node(type=NodeType.DEFAULT, position=position, model="mdr")
response = core.add_node(session_id, n2)
n2_id = response.node_id

# configure wlan using a dict mapping currently
# support values as strings
core.set_wlan_config(session_id, wlan_id, {
    "range": "280",
    "bandwidth": "55000000",
    "delay": "6000",
    "jitter": "5",
    "error": "5",
})

# links nodes to wlan
iface1 = iface_helper.create_iface(n1_id, 0)
core.add_link(session_id, n1_id, wlan_id, iface1)
iface1 = iface_helper.create_iface(n2_id, 0)
core.add_link(session_id, n2_id, wlan_id, iface1)

# change session state
core.set_session_state(session_id, SessionState.INSTANTIATION)

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.

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.

# required imports
from core.api.grpc import client
from core.api.grpc.core_pb2 import Node, NodeType, Position, SessionState
from core.emane.ieee80211abg import EmaneIeee80211abgModel

# interface helper
iface_helper = client.InterfaceHelper(ip4_prefix="10.0.0.0/24", ip6_prefix="2001::/64")

# create grpc client and connect
core = client.CoreGrpcClient()
core.connect()

# create session and get id
response = core.create_session()
session_id = response.session_id

# change session state to configuration so that nodes get started when added
core.set_session_state(session_id, SessionState.CONFIGURATION)

# create emane node
position = Position(x=200, y=200)
emane = Node(type=NodeType.EMANE, position=position, emane=EmaneIeee80211abgModel.name)
response = core.add_node(session_id, emane)
emane_id = response.node_id

# create node one
position = Position(x=100, y=100)
n1 = Node(type=NodeType.DEFAULT, position=position, model="mdr")
response = core.add_node(session_id, n1)
n1_id = response.node_id

# create node two
position = Position(x=300, y=100)
n2 = Node(type=NodeType.DEFAULT, position=position, model="mdr")
response = core.add_node(session_id, n2)
n2_id = response.node_id

# configure general emane settings
core.set_emane_config(session_id, {
    "eventservicettl": "2"
})

# configure emane model settings
# using a dict mapping currently support values as strings
core.set_emane_model_config(session_id, emane_id, EmaneIeee80211abgModel.name, {
    "unicastrate": "3",
})

# links nodes to emane
iface1 = iface_helper.create_iface(n1_id, 0)
core.add_link(session_id, n1_id, emane_id, iface1)
iface1 = iface_helper.create_iface(n2_id, 0)
core.add_link(session_id, n2_id, emane_id, iface1)

# change session state
core.set_session_state(session_id, SessionState.INSTANTIATION)

EMANE Model Configuration:

# emane network specific config
core.set_emane_model_config(session_id, emane_id, EmaneIeee80211abgModel.name, {
    "unicastrate": "3",
})

# node specific config
core.set_emane_model_config(session_id, node_id, EmaneIeee80211abgModel.name, {
    "unicastrate": "3",
})

# node interface specific config
core.set_emane_model_config(session_id, node_id, EmaneIeee80211abgModel.name, {
    "unicastrate": "3",
}, iface_id)

Configuring a Service

TBD

File Examples

File versions of these examples can be found here. These examples will create a session using the gRPC API when the core-daemon is running.

You can then switch to and attach to these sessions using either of the CORE GUIs.