Merge branch 'develop' into enhancement/core-player

This commit is contained in:
Blake Harnden 2022-03-31 09:57:53 -07:00
commit ba0e4adb04
307 changed files with 2640 additions and 51504 deletions

View file

@ -1,3 +1,17 @@
## 2022-03-21 CORE 8.2.0
* core-gui
* improved failed starts to trigger runtime to allow node investigation
* core-daemon
* improved default service loading to use a full import path
* updated session instantiation to always set to a runtime state
* core-cli
* \#672 - fixed xml loading
* \#578 - restored json flag and added geo output to session overview
* Documentation
* updated emane example and documentation
* improved table markdown
## 2022-02-18 CORE 8.1.0
* Installation

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@ -6,10 +6,6 @@ if WANT_DOCS
DOCS = docs man
endif
if WANT_GUI
GUI = gui
endif
if WANT_DAEMON
DAEMON = daemon
endif
@ -19,7 +15,7 @@ if WANT_NETNS
endif
# keep docs last due to dependencies on binaries
SUBDIRS = $(GUI) $(DAEMON) $(NETNS) $(DOCS)
SUBDIRS = $(DAEMON) $(NETNS) $(DOCS)
ACLOCAL_AMFLAGS = -I config
@ -115,7 +111,6 @@ $(info creating file $1 from $1.in)
-e 's,[@]CORE_STATE_DIR[@],$(CORE_STATE_DIR),g' \
-e 's,[@]CORE_DATA_DIR[@],$(CORE_DATA_DIR),g' \
-e 's,[@]CORE_CONF_DIR[@],$(CORE_CONF_DIR),g' \
-e 's,[@]CORE_GUI_CONF_DIR[@],$(CORE_GUI_CONF_DIR),g' \
< $1.in > $1
endef
@ -123,7 +118,6 @@ all: change-files
.PHONY: change-files
change-files:
$(call change-files,gui/core-gui-legacy)
$(call change-files,daemon/core/constants.py)
$(call change-files,netns/setup.py)

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@ -1,9 +1,5 @@
#!/bin/sh
#
# (c)2010-2012 the Boeing Company
#
# author: Jeff Ahrenholz <jeffrey.m.ahrenholz@boeing.com>
#
# Bootstrap the autoconf system.
#

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@ -2,7 +2,7 @@
# Process this file with autoconf to produce a configure script.
# this defines the CORE version number, must be static for AC_INIT
AC_INIT(core, 8.1.0)
AC_INIT(core, 8.2.0)
# autoconf and automake initialization
AC_CONFIG_SRCDIR([netns/version.h.in])
@ -30,25 +30,14 @@ AC_SUBST(CORE_CONF_DIR)
AC_SUBST(CORE_DATA_DIR)
AC_SUBST(CORE_STATE_DIR)
# CORE GUI configuration files and preferences in CORE_GUI_CONF_DIR
# scenario files in ~/.core/configs/
AC_ARG_WITH([guiconfdir],
[AS_HELP_STRING([--with-guiconfdir=dir],
[specify GUI configuration directory])],
[CORE_GUI_CONF_DIR="$with_guiconfdir"],
[CORE_GUI_CONF_DIR="\$\${HOME}/.core"])
AC_SUBST(CORE_GUI_CONF_DIR)
AC_ARG_ENABLE([gui],
[AS_HELP_STRING([--enable-gui[=ARG]],
[build and install the GUI (default is yes)])],
[], [enable_gui=yes])
AC_SUBST(enable_gui)
# documentation option
AC_ARG_ENABLE([docs],
[AS_HELP_STRING([--enable-docs[=ARG]],
[build python documentation (default is no)])],
[], [enable_docs=no])
AC_SUBST(enable_docs)
# python option
AC_ARG_ENABLE([python],
[AS_HELP_STRING([--enable-python[=ARG]],
[build and install the python bindings (default is yes)])],
@ -94,27 +83,6 @@ if test "x$enable_daemon" = "xyes"; then
want_python=yes
want_linux_netns=yes
# Checks for libraries.
AC_CHECK_LIB([netgraph], [NgMkSockNode])
# Checks for header files.
AC_CHECK_HEADERS([arpa/inet.h fcntl.h limits.h stdint.h stdlib.h string.h sys/ioctl.h sys/mount.h sys/socket.h sys/time.h termios.h unistd.h])
# Checks for typedefs, structures, and compiler characteristics.
AC_C_INLINE
AC_TYPE_INT32_T
AC_TYPE_PID_T
AC_TYPE_SIZE_T
AC_TYPE_SSIZE_T
AC_TYPE_UINT32_T
AC_TYPE_UINT8_T
# Checks for library functions.
AC_FUNC_FORK
AC_FUNC_MALLOC
AC_FUNC_REALLOC
AC_CHECK_FUNCS([atexit dup2 gettimeofday memset socket strerror uname])
AM_PATH_PYTHON(3.6)
AS_IF([$PYTHON -m grpc_tools.protoc -h &> /dev/null], [], [AC_MSG_ERROR([please install python grpcio-tools])])
@ -171,6 +139,25 @@ fi
if [ test "x$enable_daemon" = "xyes" || test "x$enable_vnodedonly" = "xyes" ] ; then
want_linux_netns=yes
# Checks for header files.
AC_CHECK_HEADERS([arpa/inet.h fcntl.h limits.h stdint.h stdlib.h string.h sys/ioctl.h sys/mount.h sys/socket.h sys/time.h termios.h unistd.h])
# Checks for typedefs, structures, and compiler characteristics.
AC_C_INLINE
AC_TYPE_INT32_T
AC_TYPE_PID_T
AC_TYPE_SIZE_T
AC_TYPE_SSIZE_T
AC_TYPE_UINT32_T
AC_TYPE_UINT8_T
# Checks for library functions.
AC_FUNC_FORK
AC_FUNC_MALLOC
AC_FUNC_REALLOC
AC_CHECK_FUNCS([atexit dup2 gettimeofday memset socket strerror uname])
PKG_CHECK_MODULES(libev, libev,
AC_MSG_RESULT([found libev using pkgconfig OK])
AC_SUBST(libev_CFLAGS)
@ -209,7 +196,6 @@ if [test "x$want_python" = "xyes" && test "x$enable_docs" = "xyes"] ; then
fi
# Variable substitutions
AM_CONDITIONAL(WANT_GUI, test x$enable_gui = xyes)
AM_CONDITIONAL(WANT_DAEMON, test x$enable_daemon = xyes)
AM_CONDITIONAL(WANT_DOCS, test x$want_docs = xyes)
AM_CONDITIONAL(WANT_PYTHON, test x$want_python = xyes)
@ -224,9 +210,6 @@ fi
# Output files
AC_CONFIG_FILES([Makefile
gui/version.tcl
gui/Makefile
gui/icons/Makefile
man/Makefile
docs/Makefile
daemon/Makefile
@ -248,17 +231,12 @@ Build:
Prefix: ${prefix}
Exec Prefix: ${exec_prefix}
GUI:
GUI path: ${CORE_LIB_DIR}
GUI config: ${CORE_GUI_CONF_DIR}
Daemon:
Daemon path: ${bindir}
Daemon config: ${CORE_CONF_DIR}
Python: ${PYTHON}
Features to build:
Build GUI: ${enable_gui}
Build Daemon: ${enable_daemon}
Documentation: ${want_docs}

View file

@ -1,8 +1,4 @@
# CORE
# (c)2010-2012 the Boeing Company.
# See the LICENSE file included in this distribution.
#
# author: Jeff Ahrenholz <jeffrey.m.ahrenholz@boeing.com>
#
# Makefile for building netns components.
#

View file

@ -16,7 +16,13 @@ from core.api.grpc.configservices_pb2 import (
GetConfigServiceDefaultsRequest,
GetNodeConfigServiceRequest,
)
from core.api.grpc.core_pb2 import ExecuteScriptRequest, GetConfigRequest
from core.api.grpc.core_pb2 import (
ExecuteScriptRequest,
GetConfigRequest,
LinkedRequest,
WirelessConfigRequest,
WirelessLinkedRequest,
)
from core.api.grpc.emane_pb2 import (
EmaneLinkRequest,
GetEmaneEventChannelRequest,
@ -43,6 +49,7 @@ from core.api.grpc.wlan_pb2 import (
WlanConfig,
WlanLinkRequest,
)
from core.api.grpc.wrappers import LinkOptions
from core.emulator.data import IpPrefixes
from core.errors import CoreError
@ -1049,6 +1056,72 @@ class CoreGrpcClient:
"""
self.stub.EmanePathlosses(streamer.iter())
def linked(
self,
session_id: int,
node1_id: int,
node2_id: int,
iface1_id: int,
iface2_id: int,
linked: bool,
) -> None:
"""
Link or unlink an existing core wired link.
:param session_id: session containing the link
:param node1_id: first node in link
:param node2_id: second node in link
:param iface1_id: node1 interface
:param iface2_id: node2 interface
:param linked: True to connect link, False to disconnect
:return: nothing
"""
request = LinkedRequest(
session_id=session_id,
node1_id=node1_id,
node2_id=node2_id,
iface1_id=iface1_id,
iface2_id=iface2_id,
linked=linked,
)
self.stub.Linked(request)
def wireless_linked(
self,
session_id: int,
wireless_id: int,
node1_id: int,
node2_id: int,
linked: bool,
) -> None:
request = WirelessLinkedRequest(
session_id=session_id,
wireless_id=wireless_id,
node1_id=node1_id,
node2_id=node2_id,
linked=linked,
)
self.stub.WirelessLinked(request)
def wireless_config(
self,
session_id: int,
wireless_id: int,
node1_id: int,
node2_id: int,
options1: LinkOptions,
options2: LinkOptions = None,
) -> None:
request = WirelessConfigRequest(
session_id=session_id,
wireless_id=wireless_id,
node1_id=node1_id,
node2_id=node2_id,
options1=options1.to_proto(),
options2=options2.to_proto(),
)
self.stub.WirelessConfig(request)
def connect(self) -> None:
"""
Open connection to server, must be closed manually.

View file

@ -3,7 +3,7 @@ from queue import Empty, Queue
from typing import Iterable, Optional
from core.api.grpc import core_pb2
from core.api.grpc.grpcutils import convert_link
from core.api.grpc.grpcutils import convert_link_data
from core.emulator.data import (
ConfigData,
EventData,
@ -51,7 +51,7 @@ def handle_link_event(link_data: LinkData) -> core_pb2.Event:
:param link_data: link data
:return: link event that has message type and link information
"""
link = convert_link(link_data)
link = convert_link_data(link_data)
message_type = link_data.message_type.value
link_event = core_pb2.LinkEvent(message_type=message_type, link=link)
return core_pb2.Event(link_event=link_event, source=link_data.source)

View file

@ -1,7 +1,7 @@
import logging
import time
from pathlib import Path
from typing import Any, Dict, List, Tuple, Type, Union
from typing import Any, Dict, List, Optional, Tuple, Type, Union
import grpc
from grpc import ServicerContext
@ -20,6 +20,7 @@ from core.config import ConfigurableOptions
from core.emane.nodes import EmaneNet
from core.emulator.data import InterfaceData, LinkData, LinkOptions, NodeOptions
from core.emulator.enumerations import LinkTypes, NodeTypes
from core.emulator.links import CoreLink
from core.emulator.session import Session
from core.errors import CoreError
from core.location.mobility import BasicRangeModel, Ns2ScriptedMobility
@ -27,7 +28,7 @@ from core.nodes.base import CoreNode, CoreNodeBase, NodeBase
from core.nodes.docker import DockerNode
from core.nodes.interface import CoreInterface
from core.nodes.lxd import LxcNode
from core.nodes.network import CtrlNet, PtpNet, WlanNode
from core.nodes.network import CoreNetwork, CtrlNet, PtpNet, WlanNode
from core.services.coreservices import CoreService
logger = logging.getLogger(__name__)
@ -110,7 +111,7 @@ def link_iface(iface_proto: core_pb2.Interface) -> InterfaceData:
def add_link_data(
link_proto: core_pb2.Link
) -> Tuple[InterfaceData, InterfaceData, LinkOptions, LinkTypes]:
) -> Tuple[InterfaceData, InterfaceData, LinkOptions]:
"""
Convert link proto to link interfaces and options data.
@ -119,7 +120,6 @@ def add_link_data(
"""
iface1_data = link_iface(link_proto.iface1)
iface2_data = link_iface(link_proto.iface2)
link_type = LinkTypes(link_proto.type)
options = LinkOptions()
options_proto = link_proto.options
if options_proto:
@ -134,7 +134,7 @@ def add_link_data(
options.buffer = options_proto.buffer
options.unidirectional = options_proto.unidirectional
options.key = options_proto.key
return iface1_data, iface2_data, options, link_type
return iface1_data, iface2_data, options
def create_nodes(
@ -174,8 +174,8 @@ def create_links(
for link_proto in link_protos:
node1_id = link_proto.node1_id
node2_id = link_proto.node2_id
iface1, iface2, options, link_type = add_link_data(link_proto)
args = (node1_id, node2_id, iface1, iface2, options, link_type)
iface1, iface2, options = add_link_data(link_proto)
args = (node1_id, node2_id, iface1, iface2, options)
funcs.append((session.add_link, args, {}))
start = time.monotonic()
results, exceptions = utils.threadpool(funcs)
@ -198,8 +198,8 @@ def edit_links(
for link_proto in link_protos:
node1_id = link_proto.node1_id
node2_id = link_proto.node2_id
iface1, iface2, options, link_type = add_link_data(link_proto)
args = (node1_id, node2_id, iface1.id, iface2.id, options, link_type)
iface1, iface2, options = add_link_data(link_proto)
args = (node1_id, node2_id, iface1.id, iface2.id, options)
funcs.append((session.update_link, args, {}))
start = time.monotonic()
results, exceptions = utils.threadpool(funcs)
@ -344,61 +344,84 @@ def get_node_proto(
)
def get_links(node: NodeBase):
def get_links(session: Session, node: NodeBase) -> List[core_pb2.Link]:
"""
Retrieve a list of links for grpc to use.
:param session: session to get links for node
:param node: node to get links from
:return: protobuf links
"""
link_protos = []
for core_link in session.link_manager.node_links(node):
link_protos.extend(convert_core_link(core_link))
if isinstance(node, (WlanNode, EmaneNet)):
for link_data in node.links():
link_protos.append(convert_link_data(link_data))
return link_protos
def convert_iface(iface: CoreInterface) -> core_pb2.Interface:
"""
Convert interface to protobuf.
:param iface: interface to convert
:return: protobuf interface
"""
if isinstance(iface.node, CoreNetwork):
return core_pb2.Interface(id=iface.id)
else:
ip4 = iface.get_ip4()
ip4_mask = ip4.prefixlen if ip4 else None
ip4 = str(ip4.ip) if ip4 else None
ip6 = iface.get_ip6()
ip6_mask = ip6.prefixlen if ip6 else None
ip6 = str(ip6.ip) if ip6 else None
mac = str(iface.mac) if iface.mac else None
return core_pb2.Interface(
id=iface.id,
name=iface.name,
mac=mac,
ip4=ip4,
ip4_mask=ip4_mask,
ip6=ip6,
ip6_mask=ip6_mask,
)
def convert_core_link(core_link: CoreLink) -> List[core_pb2.Link]:
"""
Convert core link to protobuf data.
:param core_link: core link to convert
:return: protobuf link data
"""
links = []
for link in node.links():
link_proto = convert_link(link)
links.append(link_proto)
node1, iface1 = core_link.node1, core_link.iface1
node2, iface2 = core_link.node2, core_link.iface2
unidirectional = core_link.is_unidirectional()
link = convert_link(node1, iface1, node2, iface2, iface1.options, unidirectional)
links.append(link)
if unidirectional:
link = convert_link(
node2, iface2, node1, iface1, iface2.options, unidirectional
)
links.append(link)
return links
def convert_iface(iface_data: InterfaceData) -> core_pb2.Interface:
return core_pb2.Interface(
id=iface_data.id,
name=iface_data.name,
mac=iface_data.mac,
ip4=iface_data.ip4,
ip4_mask=iface_data.ip4_mask,
ip6=iface_data.ip6,
ip6_mask=iface_data.ip6_mask,
)
def convert_link_options(options_data: LinkOptions) -> core_pb2.LinkOptions:
return core_pb2.LinkOptions(
jitter=options_data.jitter,
key=options_data.key,
mburst=options_data.mburst,
mer=options_data.mer,
loss=options_data.loss,
bandwidth=options_data.bandwidth,
burst=options_data.burst,
delay=options_data.delay,
dup=options_data.dup,
buffer=options_data.buffer,
unidirectional=options_data.unidirectional,
)
def convert_link(link_data: LinkData) -> core_pb2.Link:
def convert_link_data(link_data: LinkData) -> core_pb2.Link:
"""
Convert link_data into core protobuf link.
:param link_data: link to convert
:return: core protobuf Link
"""
iface1 = None
if link_data.iface1 is not None:
iface1 = convert_iface(link_data.iface1)
iface1 = convert_iface_data(link_data.iface1)
iface2 = None
if link_data.iface2 is not None:
iface2 = convert_iface(link_data.iface2)
iface2 = convert_iface_data(link_data.iface2)
options = convert_link_options(link_data.options)
return core_pb2.Link(
type=link_data.type.value,
@ -413,6 +436,89 @@ def convert_link(link_data: LinkData) -> core_pb2.Link:
)
def convert_iface_data(iface_data: InterfaceData) -> core_pb2.Interface:
"""
Convert interface data to protobuf.
:param iface_data: interface data to convert
:return: interface protobuf
"""
return core_pb2.Interface(
id=iface_data.id,
name=iface_data.name,
mac=iface_data.mac,
ip4=iface_data.ip4,
ip4_mask=iface_data.ip4_mask,
ip6=iface_data.ip6,
ip6_mask=iface_data.ip6_mask,
)
def convert_link_options(options: LinkOptions) -> core_pb2.LinkOptions:
"""
Convert link options to protobuf.
:param options: link options to convert
:return: link options protobuf
"""
return core_pb2.LinkOptions(
jitter=options.jitter,
key=options.key,
mburst=options.mburst,
mer=options.mer,
loss=options.loss,
bandwidth=options.bandwidth,
burst=options.burst,
delay=options.delay,
dup=options.dup,
buffer=options.buffer,
unidirectional=options.unidirectional,
)
def convert_link(
node1: NodeBase,
iface1: Optional[CoreInterface],
node2: NodeBase,
iface2: Optional[CoreInterface],
options: LinkOptions,
unidirectional: bool,
) -> core_pb2.Link:
"""
Convert link objects to link protobuf.
:param node1: first node in link
:param iface1: node1 interface
:param node2: second node in link
:param iface2: node2 interface
:param options: link options
:param unidirectional: if this link is considered unidirectional
:return: protobuf link
"""
if iface1 is not None:
iface1 = convert_iface(iface1)
if iface2 is not None:
iface2 = convert_iface(iface2)
is_node1_wireless = isinstance(node1, (WlanNode, EmaneNet))
is_node2_wireless = isinstance(node2, (WlanNode, EmaneNet))
if not (is_node1_wireless or is_node2_wireless):
options = convert_link_options(options)
options.unidirectional = unidirectional
else:
options = None
return core_pb2.Link(
type=LinkTypes.WIRED.value,
node1_id=node1.id,
node2_id=node2.id,
iface1=iface1,
iface2=iface2,
options=options,
network_id=None,
label=None,
color=None,
)
def get_net_stats() -> Dict[str, Dict]:
"""
Retrieve status about the current interfaces in the system
@ -490,39 +596,13 @@ def get_service_configuration(service: CoreService) -> NodeServiceData:
)
def iface_to_data(iface: CoreInterface) -> InterfaceData:
ip4 = iface.get_ip4()
ip4_addr = str(ip4.ip) if ip4 else None
ip4_mask = ip4.prefixlen if ip4 else None
ip6 = iface.get_ip6()
ip6_addr = str(ip6.ip) if ip6 else None
ip6_mask = ip6.prefixlen if ip6 else None
return InterfaceData(
id=iface.node_id,
name=iface.name,
mac=str(iface.mac),
ip4=ip4_addr,
ip4_mask=ip4_mask,
ip6=ip6_addr,
ip6_mask=ip6_mask,
)
def iface_to_proto(node_id: int, iface: CoreInterface) -> core_pb2.Interface:
def iface_to_proto(iface: CoreInterface) -> core_pb2.Interface:
"""
Convenience for converting a core interface to the protobuf representation.
:param node_id: id of node to convert interface for
:param iface: interface to convert
:return: interface proto
"""
if iface.node and iface.node.id == node_id:
_id = iface.node_id
else:
_id = iface.net_id
net_id = iface.net.id if iface.net else None
node_id = iface.node.id if iface.node else None
net2_id = iface.othernet.id if iface.othernet else None
ip4_net = iface.get_ip4()
ip4 = str(ip4_net.ip) if ip4_net else None
ip4_mask = ip4_net.prefixlen if ip4_net else None
@ -531,10 +611,7 @@ def iface_to_proto(node_id: int, iface: CoreInterface) -> core_pb2.Interface:
ip6_mask = ip6_net.prefixlen if ip6_net else None
mac = str(iface.mac) if iface.mac else None
return core_pb2.Interface(
id=_id,
net_id=net_id,
net2_id=net2_id,
node_id=node_id,
id=iface.id,
name=iface.name,
mac=mac,
mtu=iface.mtu,
@ -574,6 +651,12 @@ def get_nem_id(
def get_emane_model_configs_dict(session: Session) -> Dict[int, List[NodeEmaneConfig]]:
"""
Get emane model configuration protobuf data.
:param session: session to get emane model configuration for
:return: dict of emane model protobuf configurations
"""
configs = {}
for _id, model_configs in session.emane.node_configs.items():
for model_name in model_configs:
@ -591,6 +674,12 @@ def get_emane_model_configs_dict(session: Session) -> Dict[int, List[NodeEmaneCo
def get_hooks(session: Session) -> List[core_pb2.Hook]:
"""
Retrieve hook protobuf data for a session.
:param session: session to get hooks for
:return: list of hook protobufs
"""
hooks = []
for state in session.hooks:
state_hooks = session.hooks[state]
@ -601,6 +690,12 @@ def get_hooks(session: Session) -> List[core_pb2.Hook]:
def get_default_services(session: Session) -> List[ServiceDefaults]:
"""
Retrieve the default service sets for a given session.
:param session: session to get default service sets for
:return: list of default service sets
"""
default_services = []
for name, services in session.services.default_services.items():
default_service = ServiceDefaults(node_type=name, services=services)
@ -611,6 +706,14 @@ def get_default_services(session: Session) -> List[ServiceDefaults]:
def get_mobility_node(
session: Session, node_id: int, context: ServicerContext
) -> Union[WlanNode, EmaneNet]:
"""
Get mobility node.
:param session: session to get node from
:param node_id: id of node to get
:param context: grpc context
:return: wlan or emane node
"""
try:
return session.get_node(node_id, WlanNode)
except CoreError:
@ -621,17 +724,26 @@ def get_mobility_node(
def convert_session(session: Session) -> wrappers.Session:
links = []
nodes = []
"""
Convert session to its wrapped version.
:param session: session to convert
:return: wrapped session data
"""
emane_configs = get_emane_model_configs_dict(session)
nodes = []
links = []
for _id in session.nodes:
node = session.nodes[_id]
if not isinstance(node, (PtpNet, CtrlNet)):
node_emane_configs = emane_configs.get(node.id, [])
node_proto = get_node_proto(session, node, node_emane_configs)
nodes.append(node_proto)
node_links = get_links(node)
links.extend(node_links)
if isinstance(node, (WlanNode, EmaneNet)):
for link_data in node.links():
links.append(convert_link_data(link_data))
for core_link in session.link_manager.links():
links.extend(convert_core_link(core_link))
default_services = get_default_services(session)
x, y, z = session.location.refxyz
lat, lon, alt = session.location.refgeo
@ -665,6 +777,15 @@ def convert_session(session: Session) -> wrappers.Session:
def configure_node(
session: Session, node: core_pb2.Node, core_node: NodeBase, context: ServicerContext
) -> None:
"""
Configure a node using all provided protobuf data.
:param session: session for node
:param node: node protobuf data
:param core_node: session node
:param context: grpc context
:return: nothing
"""
for emane_config in node.emane_configs:
_id = utils.iface_config_id(node.id, emane_config.iface_id)
config = {k: v.value for k, v in emane_config.config.items()}

View file

@ -26,7 +26,15 @@ from core.api.grpc.configservices_pb2 import (
GetNodeConfigServiceRequest,
GetNodeConfigServiceResponse,
)
from core.api.grpc.core_pb2 import ExecuteScriptResponse
from core.api.grpc.core_pb2 import (
ExecuteScriptResponse,
LinkedRequest,
LinkedResponse,
WirelessConfigRequest,
WirelessConfigResponse,
WirelessLinkedRequest,
WirelessLinkedResponse,
)
from core.api.grpc.emane_pb2 import (
EmaneLinkRequest,
EmaneLinkResponse,
@ -76,17 +84,13 @@ from core.configservice.base import ConfigServiceBootError
from core.emane.modelmanager import EmaneModelManager
from core.emulator.coreemu import CoreEmu
from core.emulator.data import InterfaceData, LinkData, LinkOptions
from core.emulator.enumerations import (
EventTypes,
ExceptionLevels,
LinkTypes,
MessageFlags,
)
from core.emulator.enumerations import EventTypes, ExceptionLevels, MessageFlags
from core.emulator.session import NT, Session
from core.errors import CoreCommandError, CoreError
from core.location.mobility import BasicRangeModel, Ns2ScriptedMobility
from core.nodes.base import CoreNode, NodeBase
from core.nodes.network import WlanNode
from core.nodes.network import CoreNetwork, WlanNode
from core.nodes.wireless import WirelessNode
from core.services.coreservices import ServiceManager
logger = logging.getLogger(__name__)
@ -248,13 +252,14 @@ class CoreGrpcServer(core_pb2_grpc.CoreApiServicer):
# clear previous state and setup for creation
session.clear()
session.directory.mkdir(exist_ok=True)
if request.definition:
state = EventTypes.DEFINITION_STATE
else:
state = EventTypes.CONFIGURATION_STATE
session.directory.mkdir(exist_ok=True)
session.set_state(state)
session.user = request.session.user
if request.session.user:
session.set_user(request.session.user)
# session options
session.options.config_reset()
@ -564,12 +569,12 @@ class CoreGrpcServer(core_pb2_grpc.CoreApiServicer):
ifaces = []
for iface_id in node.ifaces:
iface = node.ifaces[iface_id]
iface_proto = grpcutils.iface_to_proto(request.node_id, iface)
iface_proto = grpcutils.iface_to_proto(iface)
ifaces.append(iface_proto)
emane_configs = grpcutils.get_emane_model_configs_dict(session)
node_emane_configs = emane_configs.get(node.id, [])
node_proto = grpcutils.get_node_proto(session, node, node_emane_configs)
links = get_links(node)
links = get_links(session, node)
return core_pb2.GetNodeResponse(node=node_proto, ifaces=ifaces, links=links)
def MoveNode(
@ -705,18 +710,22 @@ class CoreGrpcServer(core_pb2_grpc.CoreApiServicer):
node2_id = request.link.node2_id
self.get_node(session, node1_id, context, NodeBase)
self.get_node(session, node2_id, context, NodeBase)
iface1_data, iface2_data, options, link_type = grpcutils.add_link_data(
request.link
)
iface1_data, iface2_data, options = grpcutils.add_link_data(request.link)
node1_iface, node2_iface = session.add_link(
node1_id, node2_id, iface1_data, iface2_data, options, link_type
node1_id, node2_id, iface1_data, iface2_data, options
)
iface1_data = None
if node1_iface:
iface1_data = grpcutils.iface_to_data(node1_iface)
if isinstance(node1_iface.node, CoreNetwork):
iface1_data = InterfaceData(id=node1_iface.id)
else:
iface1_data = node1_iface.get_data()
iface2_data = None
if node2_iface:
iface2_data = grpcutils.iface_to_data(node2_iface)
if isinstance(node2_iface.node, CoreNetwork):
iface2_data = InterfaceData(id=node2_iface.id)
else:
iface2_data = node2_iface.get_data()
source = request.source if request.source else None
link_data = LinkData(
message_type=MessageFlags.ADD,
@ -731,9 +740,9 @@ class CoreGrpcServer(core_pb2_grpc.CoreApiServicer):
iface1_proto = None
iface2_proto = None
if node1_iface:
iface1_proto = grpcutils.iface_to_proto(node1_id, node1_iface)
iface1_proto = grpcutils.iface_to_proto(node1_iface)
if node2_iface:
iface2_proto = grpcutils.iface_to_proto(node2_id, node2_iface)
iface2_proto = grpcutils.iface_to_proto(node2_iface)
return core_pb2.AddLinkResponse(
result=True, iface1=iface1_proto, iface2=iface2_proto
)
@ -1163,7 +1172,8 @@ class CoreGrpcServer(core_pb2_grpc.CoreApiServicer):
self, request: core_pb2.GetInterfacesRequest, context: ServicerContext
) -> core_pb2.GetInterfacesResponse:
"""
Retrieve all the interfaces of the system including bridges, virtual ethernet, and loopback
Retrieve all the interfaces of the system including bridges, virtual ethernet,
and loopback.
:param request: get-interfaces request
:param context: context object
@ -1188,32 +1198,9 @@ class CoreGrpcServer(core_pb2_grpc.CoreApiServicer):
"""
logger.debug("emane link: %s", request)
session = self.get_session(request.session_id, context)
nem1 = request.nem1
iface1 = session.emane.get_iface(nem1)
if not iface1:
context.abort(grpc.StatusCode.NOT_FOUND, f"nem one {nem1} not found")
node1 = iface1.node
nem2 = request.nem2
iface2 = session.emane.get_iface(nem2)
if not iface2:
context.abort(grpc.StatusCode.NOT_FOUND, f"nem two {nem2} not found")
node2 = iface2.node
if iface1.net == iface2.net:
if request.linked:
flag = MessageFlags.ADD
else:
flag = MessageFlags.DELETE
color = session.get_link_color(iface1.net.id)
link = LinkData(
message_type=flag,
type=LinkTypes.WIRELESS,
node1_id=node1.id,
node2_id=node2.id,
network_id=iface1.net.id,
color=color,
)
flag = MessageFlags.ADD if request.linked else MessageFlags.DELETE
link = session.emane.get_nem_link(request.nem1, request.nem2, flag)
if link:
session.broadcast_link(link)
return EmaneLinkResponse(result=True)
else:
@ -1302,15 +1289,18 @@ class CoreGrpcServer(core_pb2_grpc.CoreApiServicer):
if not isinstance(wlan.model, BasicRangeModel):
context.abort(
grpc.StatusCode.NOT_FOUND,
f"wlan node {request.wlan} does not using BasicRangeModel",
f"wlan node {request.wlan} is not using BasicRangeModel",
)
node1 = self.get_node(session, request.node1_id, context, CoreNode)
node2 = self.get_node(session, request.node2_id, context, CoreNode)
node1_iface, node2_iface = None, None
for net, iface1, iface2 in node1.commonnets(node2):
if net == wlan:
node1_iface = iface1
node2_iface = iface2
for iface in node1.get_ifaces(control=False):
if iface.net == wlan:
node1_iface = iface
break
for iface in node2.get_ifaces(control=False):
if iface.net == wlan:
node2_iface = iface
break
result = False
if node1_iface and node2_iface:
@ -1335,3 +1325,36 @@ class CoreGrpcServer(core_pb2_grpc.CoreApiServicer):
nem2 = grpcutils.get_nem_id(session, node2, request.iface2_id, context)
session.emane.publish_pathloss(nem1, nem2, request.rx1, request.rx2)
return EmanePathlossesResponse()
def Linked(
self, request: LinkedRequest, context: ServicerContext
) -> LinkedResponse:
session = self.get_session(request.session_id, context)
session.linked(
request.node1_id,
request.node2_id,
request.iface1_id,
request.iface2_id,
request.linked,
)
return LinkedResponse()
def WirelessLinked(
self, request: WirelessLinkedRequest, context: ServicerContext
) -> WirelessLinkedResponse:
session = self.get_session(request.session_id, context)
wireless = self.get_node(session, request.wireless_id, context, WirelessNode)
wireless.link_control(request.node1_id, request.node2_id, request.linked)
return WirelessLinkedResponse()
def WirelessConfig(
self, request: WirelessConfigRequest, context: ServicerContext
) -> WirelessConfigResponse:
session = self.get_session(request.session_id, context)
wireless = self.get_node(session, request.wireless_id, context, WirelessNode)
options1 = request.options1
options2 = options1
if request.HasField("options2"):
options2 = request.options2
wireless.link_config(request.node1_id, request.node2_id, options1, options2)
return WirelessConfigResponse()

View file

@ -67,6 +67,7 @@ class NodeType(Enum):
CONTROL_NET = 13
DOCKER = 15
LXC = 16
WIRELESS = 17
class LinkType(Enum):
@ -637,6 +638,15 @@ class SessionSummary:
dir=proto.dir,
)
def to_proto(self) -> core_pb2.SessionSummary:
return core_pb2.SessionSummary(
id=self.id,
state=self.state.value,
nodes=self.nodes,
file=self.file,
dir=self.dir,
)
@dataclass
class Hook:
@ -1093,7 +1103,6 @@ class ConfigEvent:
data_types=list(proto.data_types),
data_values=proto.data_values,
captions=proto.captions,
bitmap=proto.bitmap,
possible_values=proto.possible_values,
groups=proto.groups,
iface_id=proto.iface_id,

File diff suppressed because it is too large Load diff

File diff suppressed because it is too large Load diff

View file

@ -1,60 +0,0 @@
"""
Defines core server for handling TCP connections.
"""
import socketserver
from core.emulator.coreemu import CoreEmu
class CoreServer(socketserver.ThreadingMixIn, socketserver.TCPServer):
"""
TCP server class, manages sessions and spawns request handlers for
incoming connections.
"""
daemon_threads = True
allow_reuse_address = True
def __init__(self, server_address, handler_class, config=None):
"""
Server class initialization takes configuration data and calls
the socketserver constructor.
:param tuple[str, int] server_address: server host and port to use
:param class handler_class: request handler
:param dict config: configuration setting
"""
self.coreemu = CoreEmu(config)
self.config = config
socketserver.TCPServer.__init__(self, server_address, handler_class)
class CoreUdpServer(socketserver.ThreadingMixIn, socketserver.UDPServer):
"""
UDP server class, manages sessions and spawns request handlers for
incoming connections.
"""
daemon_threads = True
allow_reuse_address = True
def __init__(self, server_address, handler_class, mainserver):
"""
Server class initialization takes configuration data and calls
the SocketServer constructor
:param server_address:
:param class handler_class: request handler
:param mainserver:
"""
self.mainserver = mainserver
socketserver.UDPServer.__init__(self, server_address, handler_class)
def start(self):
"""
Thread target to run concurrently with the TCP server.
:return: nothing
"""
self.serve_forever()

View file

@ -1,178 +0,0 @@
"""
Converts CORE data objects into legacy API messages.
"""
import logging
from collections import OrderedDict
from typing import Dict, List
from core.api.tlv import coreapi, structutils
from core.api.tlv.enumerations import ConfigTlvs, NodeTlvs
from core.config import ConfigGroup, ConfigurableOptions
from core.emulator.data import ConfigData, NodeData
logger = logging.getLogger(__name__)
def convert_node(node_data: NodeData):
"""
Convenience method for converting NodeData to a packed TLV message.
:param core.emulator.data.NodeData node_data: node data to convert
:return: packed node message
"""
node = node_data.node
services = None
if node.services is not None:
services = "|".join([x.name for x in node.services])
server = None
if node.server is not None:
server = node.server.name
tlv_data = structutils.pack_values(
coreapi.CoreNodeTlv,
[
(NodeTlvs.NUMBER, node.id),
(NodeTlvs.TYPE, node.apitype.value),
(NodeTlvs.NAME, node.name),
(NodeTlvs.MODEL, node.type),
(NodeTlvs.EMULATION_SERVER, server),
(NodeTlvs.X_POSITION, int(node.position.x)),
(NodeTlvs.Y_POSITION, int(node.position.y)),
(NodeTlvs.CANVAS, node.canvas),
(NodeTlvs.SERVICES, services),
(NodeTlvs.LATITUDE, str(node.position.lat)),
(NodeTlvs.LONGITUDE, str(node.position.lon)),
(NodeTlvs.ALTITUDE, str(node.position.alt)),
(NodeTlvs.ICON, node.icon),
],
)
return coreapi.CoreNodeMessage.pack(node_data.message_type.value, tlv_data)
def convert_config(config_data):
"""
Convenience method for converting ConfigData to a packed TLV message.
:param core.emulator.data.ConfigData config_data: config data to convert
:return: packed message
"""
session = None
if config_data.session is not None:
session = str(config_data.session)
tlv_data = structutils.pack_values(
coreapi.CoreConfigTlv,
[
(ConfigTlvs.NODE, config_data.node),
(ConfigTlvs.OBJECT, config_data.object),
(ConfigTlvs.TYPE, config_data.type),
(ConfigTlvs.DATA_TYPES, config_data.data_types),
(ConfigTlvs.VALUES, config_data.data_values),
(ConfigTlvs.CAPTIONS, config_data.captions),
(ConfigTlvs.BITMAP, config_data.bitmap),
(ConfigTlvs.POSSIBLE_VALUES, config_data.possible_values),
(ConfigTlvs.GROUPS, config_data.groups),
(ConfigTlvs.SESSION, session),
(ConfigTlvs.IFACE_ID, config_data.iface_id),
(ConfigTlvs.NETWORK_ID, config_data.network_id),
(ConfigTlvs.OPAQUE, config_data.opaque),
],
)
return coreapi.CoreConfMessage.pack(config_data.message_type, tlv_data)
class ConfigShim:
"""
Provides helper methods for converting newer configuration values into TLV
compatible formats.
"""
@classmethod
def str_to_dict(cls, key_values: str) -> Dict[str, str]:
"""
Converts a TLV key/value string into an ordered mapping.
:param key_values:
:return: ordered mapping of key/value pairs
"""
key_values = key_values.split("|")
values = OrderedDict()
for key_value in key_values:
key, value = key_value.split("=", 1)
values[key] = value
return values
@classmethod
def groups_to_str(cls, config_groups: List[ConfigGroup]) -> str:
"""
Converts configuration groups to a TLV formatted string.
:param config_groups: configuration groups to format
:return: TLV configuration group string
"""
group_strings = []
for config_group in config_groups:
group_string = (
f"{config_group.name}:{config_group.start}-{config_group.stop}"
)
group_strings.append(group_string)
return "|".join(group_strings)
@classmethod
def config_data(
cls,
flags: int,
node_id: int,
type_flags: int,
configurable_options: ConfigurableOptions,
config: Dict[str, str],
) -> ConfigData:
"""
Convert this class to a Config API message. Some TLVs are defined
by the class, but node number, conf type flags, and values must
be passed in.
:param flags: message flags
:param node_id: node id
:param type_flags: type flags
:param configurable_options: options to create config data for
:param config: configuration values for options
:return: configuration data object
"""
key_values = None
captions = None
data_types = []
possible_values = []
logger.debug("configurable: %s", configurable_options)
logger.debug("configuration options: %s", configurable_options.configurations)
logger.debug("configuration data: %s", config)
for configuration in configurable_options.configurations():
if not captions:
captions = configuration.label
else:
captions += f"|{configuration.label}"
data_types.append(configuration.type.value)
options = ",".join(configuration.options)
possible_values.append(options)
_id = configuration.id
config_value = config.get(_id, configuration.default)
key_value = f"{_id}={config_value}"
if not key_values:
key_values = key_value
else:
key_values += f"|{key_value}"
groups_str = cls.groups_to_str(configurable_options.config_groups())
return ConfigData(
message_type=flags,
node=node_id,
object=configurable_options.name,
type=type_flags,
data_types=tuple(data_types),
data_values=key_values,
captions=captions,
possible_values="|".join(possible_values),
bitmap=configurable_options.bitmap,
groups=groups_str,
)

View file

@ -1,212 +0,0 @@
"""
Enumerations specific to the CORE TLV API.
"""
from enum import Enum
CORE_API_PORT = 4038
class MessageTypes(Enum):
"""
CORE message types.
"""
NODE = 0x01
LINK = 0x02
EXECUTE = 0x03
REGISTER = 0x04
CONFIG = 0x05
FILE = 0x06
INTERFACE = 0x07
EVENT = 0x08
SESSION = 0x09
EXCEPTION = 0x0A
class NodeTlvs(Enum):
"""
Node type, length, value enumerations.
"""
NUMBER = 0x01
TYPE = 0x02
NAME = 0x03
IP_ADDRESS = 0x04
MAC_ADDRESS = 0x05
IP6_ADDRESS = 0x06
MODEL = 0x07
EMULATION_SERVER = 0x08
SESSION = 0x0A
X_POSITION = 0x20
Y_POSITION = 0x21
CANVAS = 0x22
EMULATION_ID = 0x23
NETWORK_ID = 0x24
SERVICES = 0x25
LATITUDE = 0x30
LONGITUDE = 0x31
ALTITUDE = 0x32
ICON = 0x42
OPAQUE = 0x50
class LinkTlvs(Enum):
"""
Link type, length, value enumerations.
"""
N1_NUMBER = 0x01
N2_NUMBER = 0x02
DELAY = 0x03
BANDWIDTH = 0x04
LOSS = 0x05
DUP = 0x06
JITTER = 0x07
MER = 0x08
BURST = 0x09
SESSION = 0x0A
MBURST = 0x10
TYPE = 0x20
GUI_ATTRIBUTES = 0x21
UNIDIRECTIONAL = 0x22
EMULATION_ID = 0x23
NETWORK_ID = 0x24
KEY = 0x25
IFACE1_NUMBER = 0x30
IFACE1_IP4 = 0x31
IFACE1_IP4_MASK = 0x32
IFACE1_MAC = 0x33
IFACE1_IP6 = 0x34
IFACE1_IP6_MASK = 0x35
IFACE2_NUMBER = 0x36
IFACE2_IP4 = 0x37
IFACE2_IP4_MASK = 0x38
IFACE2_MAC = 0x39
IFACE2_IP6 = 0x40
IFACE2_IP6_MASK = 0x41
IFACE1_NAME = 0x42
IFACE2_NAME = 0x43
OPAQUE = 0x50
class ExecuteTlvs(Enum):
"""
Execute type, length, value enumerations.
"""
NODE = 0x01
NUMBER = 0x02
TIME = 0x03
COMMAND = 0x04
RESULT = 0x05
STATUS = 0x06
SESSION = 0x0A
class ConfigTlvs(Enum):
"""
Configuration type, length, value enumerations.
"""
NODE = 0x01
OBJECT = 0x02
TYPE = 0x03
DATA_TYPES = 0x04
VALUES = 0x05
CAPTIONS = 0x06
BITMAP = 0x07
POSSIBLE_VALUES = 0x08
GROUPS = 0x09
SESSION = 0x0A
IFACE_ID = 0x0B
NETWORK_ID = 0x24
OPAQUE = 0x50
class ConfigFlags(Enum):
"""
Configuration flags.
"""
NONE = 0x00
REQUEST = 0x01
UPDATE = 0x02
RESET = 0x03
class FileTlvs(Enum):
"""
File type, length, value enumerations.
"""
NODE = 0x01
NAME = 0x02
MODE = 0x03
NUMBER = 0x04
TYPE = 0x05
SOURCE_NAME = 0x06
SESSION = 0x0A
DATA = 0x10
COMPRESSED_DATA = 0x11
class InterfaceTlvs(Enum):
"""
Interface type, length, value enumerations.
"""
NODE = 0x01
NUMBER = 0x02
NAME = 0x03
IP_ADDRESS = 0x04
MASK = 0x05
MAC_ADDRESS = 0x06
IP6_ADDRESS = 0x07
IP6_MASK = 0x08
TYPE = 0x09
SESSION = 0x0A
STATE = 0x0B
EMULATION_ID = 0x23
NETWORK_ID = 0x24
class EventTlvs(Enum):
"""
Event type, length, value enumerations.
"""
NODE = 0x01
TYPE = 0x02
NAME = 0x03
DATA = 0x04
TIME = 0x05
SESSION = 0x0A
class SessionTlvs(Enum):
"""
Session type, length, value enumerations.
"""
NUMBER = 0x01
NAME = 0x02
FILE = 0x03
NODE_COUNT = 0x04
DATE = 0x05
THUMB = 0x06
USER = 0x07
OPAQUE = 0x0A
class ExceptionTlvs(Enum):
"""
Exception type, length, value enumerations.
"""
NODE = 0x01
SESSION = 0x02
LEVEL = 0x03
SOURCE = 0x04
DATE = 0x05
TEXT = 0x06
OPAQUE = 0x0A

View file

@ -1,45 +0,0 @@
"""
Utilities for working with python struct data.
"""
import logging
logger = logging.getLogger(__name__)
def pack_values(clazz, packers):
"""
Pack values for a given legacy class.
:param class clazz: class that will provide a pack method
:param list packers: a list of tuples that are used to pack values and transform them
:return: packed data string of all values
"""
# iterate through tuples of values to pack
logger.debug("packing: %s", packers)
data = b""
for packer in packers:
# check if a transformer was provided for valid values
transformer = None
if len(packer) == 2:
tlv_type, value = packer
elif len(packer) == 3:
tlv_type, value, transformer = packer
else:
raise RuntimeError("packer had more than 3 arguments")
# only pack actual values and avoid packing empty strings
# protobuf defaults to empty strings and does no imply a value to set
if value is None or (isinstance(value, str) and not value):
continue
# transform values as needed
if transformer:
value = transformer(value)
# pack and add to existing data
logger.debug("packing: %s - %s type(%s)", tlv_type, value, type(value))
data += clazz.pack(tlv_type.value, value)
return data

View file

@ -113,7 +113,6 @@ class ConfigurableOptions:
"""
name: Optional[str] = None
bitmap: Optional[str] = None
options: List[Configuration] = []
@classmethod

View file

@ -4,14 +4,25 @@ from typing import Any, Dict, List
from core.config import Configuration
from core.configservice.base import ConfigService, ConfigServiceMode
from core.emane.nodes import EmaneNet
from core.nodes.base import CoreNodeBase
from core.nodes.base import CoreNodeBase, NodeBase
from core.nodes.interface import DEFAULT_MTU, CoreInterface
from core.nodes.network import WlanNode
from core.nodes.wireless import WirelessNode
GROUP: str = "FRR"
FRR_STATE_DIR: str = "/var/run/frr"
def is_wireless(node: NodeBase) -> bool:
"""
Check if the node is a wireless type node.
:param node: node to check type for
:return: True if wireless type, False otherwise
"""
return isinstance(node, (WlanNode, EmaneNet, WirelessNode))
def has_mtu_mismatch(iface: CoreInterface) -> bool:
"""
Helper to detect MTU mismatch and add the appropriate FRR
@ -324,7 +335,7 @@ class FRRBabel(FrrService, ConfigService):
return self.render_text(text, data)
def frr_iface_config(self, iface: CoreInterface) -> str:
if isinstance(iface.net, (WlanNode, EmaneNet)):
if is_wireless(iface.net):
text = """
babel wireless
no babel split-horizon

View file

@ -5,16 +5,27 @@ from typing import Any, Dict, List
from core.config import Configuration
from core.configservice.base import ConfigService, ConfigServiceMode
from core.emane.nodes import EmaneNet
from core.nodes.base import CoreNodeBase
from core.nodes.base import CoreNodeBase, NodeBase
from core.nodes.interface import DEFAULT_MTU, CoreInterface
from core.nodes.network import PtpNet, WlanNode
from core.nodes.physical import Rj45Node
from core.nodes.wireless import WirelessNode
logger = logging.getLogger(__name__)
GROUP: str = "Quagga"
QUAGGA_STATE_DIR: str = "/var/run/quagga"
def is_wireless(node: NodeBase) -> bool:
"""
Check if the node is a wireless type node.
:param node: node to check type for
:return: True if wireless type, False otherwise
"""
return isinstance(node, (WlanNode, EmaneNet, WirelessNode))
def has_mtu_mismatch(iface: CoreInterface) -> bool:
"""
Helper to detect MTU mismatch and add the appropriate OSPF
@ -265,7 +276,7 @@ class Ospfv3mdr(Ospfv3):
def quagga_iface_config(self, iface: CoreInterface) -> str:
config = super().quagga_iface_config(iface)
if isinstance(iface.net, (WlanNode, EmaneNet)):
if is_wireless(iface.net):
config = self.clean_text(
f"""
{config}
@ -390,7 +401,7 @@ class Babel(QuaggaService, ConfigService):
return self.render_text(text, data)
def quagga_iface_config(self, iface: CoreInterface) -> str:
if isinstance(iface.net, (WlanNode, EmaneNet)):
if is_wireless(iface.net):
text = """
babel wireless
no babel split-horizon

View file

@ -12,12 +12,12 @@ from core import utils
from core.emane.emanemodel import EmaneModel
from core.emane.linkmonitor import EmaneLinkMonitor
from core.emane.modelmanager import EmaneModelManager
from core.emane.nodes import EmaneNet
from core.emane.nodes import EmaneNet, TunTap
from core.emulator.data import LinkData
from core.emulator.enumerations import LinkTypes, MessageFlags, RegisterTlvs
from core.errors import CoreCommandError, CoreError
from core.nodes.base import CoreNetworkBase, CoreNode, NodeBase
from core.nodes.interface import CoreInterface, TunTap
from core.nodes.base import CoreNode, NodeBase
from core.nodes.interface import CoreInterface
from core.xml import emanexml
logger = logging.getLogger(__name__)
@ -224,11 +224,9 @@ class EmaneManager:
:return: net, node, or interface model configuration
"""
model_name = emane_net.model.name
config = None
# try to retrieve interface specific configuration
if iface.node_id is not None:
key = utils.iface_config_id(iface.node.id, iface.node_id)
config = self.get_config(key, model_name, default=False)
key = utils.iface_config_id(iface.node.id, iface.id)
config = self.get_config(key, model_name, default=False)
# attempt to retrieve node specific config, when iface config is not present
if not config:
config = self.get_config(iface.node.id, model_name, default=False)
@ -272,7 +270,8 @@ class EmaneManager:
nodes = set()
for emane_net in self._emane_nets.values():
for iface in emane_net.get_ifaces():
nodes.add(iface.node)
if isinstance(iface.node, CoreNode):
nodes.add(iface.node)
return nodes
def setup(self) -> EmaneState:
@ -323,7 +322,7 @@ class EmaneManager:
for emane_net, iface in self.get_ifaces():
self.start_iface(emane_net, iface)
def start_iface(self, emane_net: EmaneNet, iface: CoreInterface) -> None:
def start_iface(self, emane_net: EmaneNet, iface: TunTap) -> None:
nem_id = self.next_nem_id(iface)
nem_port = self.get_nem_port(iface)
logger.info(
@ -338,7 +337,7 @@ class EmaneManager:
self.start_daemon(iface)
self.install_iface(iface, config)
def get_ifaces(self) -> List[Tuple[EmaneNet, CoreInterface]]:
def get_ifaces(self) -> List[Tuple[EmaneNet, TunTap]]:
ifaces = []
for emane_net in self._emane_nets.values():
if not emane_net.model:
@ -352,8 +351,9 @@ class EmaneManager:
iface.name,
)
continue
ifaces.append((emane_net, iface))
return sorted(ifaces, key=lambda x: (x[1].node.id, x[1].node_id))
if isinstance(iface, TunTap):
ifaces.append((emane_net, iface))
return sorted(ifaces, key=lambda x: (x[1].node.id, x[1].id))
def setup_control_channels(
self, nem_id: int, iface: CoreInterface, config: Dict[str, str]
@ -622,9 +622,9 @@ class EmaneManager:
args = f"{emanecmd} -f {log_file} {platform_xml}"
node.host_cmd(args, cwd=self.session.directory)
def install_iface(self, iface: CoreInterface, config: Dict[str, str]) -> None:
def install_iface(self, iface: TunTap, config: Dict[str, str]) -> None:
external = config.get("external", "0")
if isinstance(iface, TunTap) and external == "0":
if external == "0":
iface.set_ips()
# at this point we register location handlers for generating
# EMANE location events
@ -732,9 +732,6 @@ class EmaneManager:
self.session.broadcast_node(node)
return True
def is_emane_net(self, net: Optional[CoreNetworkBase]) -> bool:
return isinstance(net, EmaneNet)
def emanerunning(self, node: CoreNode) -> bool:
"""
Return True if an EMANE process associated with the given node is running,

View file

@ -4,7 +4,8 @@ share the same MAC+PHY model.
"""
import logging
from typing import TYPE_CHECKING, Dict, List, Optional, Type
import time
from typing import TYPE_CHECKING, Callable, Dict, List, Optional, Type
from core.emulator.data import InterfaceData, LinkData, LinkOptions
from core.emulator.distributed import DistributedServer
@ -15,7 +16,7 @@ from core.emulator.enumerations import (
NodeTypes,
RegisterTlvs,
)
from core.errors import CoreError
from core.errors import CoreCommandError, CoreError
from core.nodes.base import CoreNetworkBase, CoreNode
from core.nodes.interface import CoreInterface
@ -39,6 +40,114 @@ except ImportError:
logger.debug("compatible emane python bindings not installed")
class TunTap(CoreInterface):
"""
TUN/TAP virtual device in TAP mode
"""
def __init__(
self,
_id: int,
name: str,
localname: str,
use_ovs: bool,
node: CoreNode = None,
server: "DistributedServer" = None,
) -> None:
super().__init__(_id, name, localname, use_ovs, node=node, server=server)
self.node: CoreNode = node
def startup(self) -> None:
"""
Startup logic for a tunnel tap.
:return: nothing
"""
self.up = True
def shutdown(self) -> None:
"""
Shutdown functionality for a tunnel tap.
:return: nothing
"""
if not self.up:
return
self.up = False
def waitfor(
self, func: Callable[[], int], attempts: int = 10, maxretrydelay: float = 0.25
) -> bool:
"""
Wait for func() to return zero with exponential backoff.
:param func: function to wait for a result of zero
:param attempts: number of attempts to wait for a zero result
:param maxretrydelay: maximum retry delay
:return: True if wait succeeded, False otherwise
"""
delay = 0.01
result = False
for i in range(1, attempts + 1):
r = func()
if r == 0:
result = True
break
msg = f"attempt {i} failed with nonzero exit status {r}"
if i < attempts + 1:
msg += ", retrying..."
logger.info(msg)
time.sleep(delay)
delay += delay
if delay > maxretrydelay:
delay = maxretrydelay
else:
msg += ", giving up"
logger.info(msg)
return result
def nodedevexists(self) -> int:
"""
Checks if device exists.
:return: 0 if device exists, 1 otherwise
"""
try:
self.node.node_net_client.device_show(self.name)
return 0
except CoreCommandError:
return 1
def waitfordevicenode(self) -> None:
"""
Check for presence of a node device - tap device may not appear right away waits.
:return: nothing
"""
logger.debug("waiting for device node: %s", self.name)
count = 0
while True:
result = self.waitfor(self.nodedevexists)
if result:
break
should_retry = count < 5
is_emane_running = self.node.session.emane.emanerunning(self.node)
if all([should_retry, is_emane_running]):
count += 1
else:
raise RuntimeError("node device failed to exist")
def set_ips(self) -> None:
"""
Set interface ip addresses.
:return: nothing
"""
self.waitfordevicenode()
for ip in self.ips():
self.node.node_net_client.create_address(self.name, str(ip))
class EmaneNet(CoreNetworkBase):
"""
EMANE node contains NEM configuration and causes connected nodes
@ -49,7 +158,6 @@ class EmaneNet(CoreNetworkBase):
apitype: NodeTypes = NodeTypes.EMANE
linktype: LinkTypes = LinkTypes.WIRED
type: str = "wlan"
has_custom_iface: bool = True
def __init__(
self,
@ -73,14 +181,11 @@ class EmaneNet(CoreNetworkBase):
return
self.model.linkconfig(iface, options, iface2)
def config(self, conf: str) -> None:
self.conf = conf
def startup(self) -> None:
pass
self.up = True
def shutdown(self) -> None:
pass
self.up = False
def link(self, iface1: CoreInterface, iface2: CoreInterface) -> None:
pass
@ -88,10 +193,13 @@ class EmaneNet(CoreNetworkBase):
def unlink(self, iface1: CoreInterface, iface2: CoreInterface) -> None:
pass
def linknet(self, net: "CoreNetworkBase") -> CoreInterface:
raise CoreError("emane networks cannot be linked to other networks")
def updatemodel(self, config: Dict[str, str]) -> None:
"""
Update configuration for the current model.
:param config: configuration to update model with
:return: nothing
"""
if not self.model:
raise CoreError(f"no model set to update for node({self.name})")
logger.info("node(%s) updating model(%s): %s", self.id, self.model.name, config)
@ -111,7 +219,7 @@ class EmaneNet(CoreNetworkBase):
self.mobility.update_config(config)
def links(self, flags: MessageFlags = MessageFlags.NONE) -> List[LinkData]:
links = super().links(flags)
links = []
emane_manager = self.session.emane
# gather current emane links
nem_ids = set()
@ -132,22 +240,44 @@ class EmaneNet(CoreNetworkBase):
# ignore incomplete links
if (nem2, nem1) not in emane_links:
continue
link = emane_manager.get_nem_link(nem1, nem2)
link = emane_manager.get_nem_link(nem1, nem2, flags)
if link:
links.append(link)
return links
def custom_iface(self, node: CoreNode, iface_data: InterfaceData) -> CoreInterface:
# TUN/TAP is not ready for addressing yet; the device may
# take some time to appear, and installing it into a
# namespace after it has been bound removes addressing;
# save addresses with the interface now
iface_id = node.newtuntap(iface_data.id, iface_data.name)
node.attachnet(iface_id, self)
iface = node.get_iface(iface_id)
iface.set_mac(iface_data.mac)
for ip in iface_data.get_ips():
iface.add_ip(ip)
def create_tuntap(self, node: CoreNode, iface_data: InterfaceData) -> CoreInterface:
"""
Create a tuntap interface for the provided node.
:param node: node to create tuntap interface for
:param iface_data: interface data to create interface with
:return: created tuntap interface
"""
with node.lock:
if iface_data.id is not None and iface_data.id in node.ifaces:
raise CoreError(
f"node({self.id}) interface({iface_data.id}) already exists"
)
iface_id = (
iface_data.id if iface_data.id is not None else node.next_iface_id()
)
name = iface_data.name if iface_data.name is not None else f"eth{iface_id}"
session_id = self.session.short_session_id()
localname = f"tap{node.id}.{iface_id}.{session_id}"
iface = TunTap(iface_id, name, localname, self.session.use_ovs(), node=node)
if iface_data.mac:
iface.set_mac(iface_data.mac)
for ip in iface_data.get_ips():
iface.add_ip(ip)
node.ifaces[iface_id] = iface
self.attach(iface)
if self.up:
iface.startup()
if self.session.state == EventTypes.RUNTIME_STATE:
self.session.emane.start_iface(self, iface)
return iface
def adopt_iface(self, iface: CoreInterface, name: str) -> None:
raise CoreError(
f"emane network({self.name}) do not support adopting interfaces"
)

View file

@ -15,6 +15,7 @@ from fabric import Connection
from invoke import UnexpectedExit
from core import utils
from core.emulator.links import CoreLink
from core.errors import CoreCommandError, CoreError
from core.executables import get_requirements
from core.nodes.interface import GreTap
@ -183,21 +184,36 @@ class DistributedController:
def start(self) -> None:
"""
Start distributed network tunnels.
Start distributed network tunnels for control networks.
:return: nothing
"""
mtu = self.session.options.get_config_int("mtu")
for node_id in self.session.nodes:
node = self.session.nodes[node_id]
if not isinstance(node, CoreNetwork):
continue
if isinstance(node, CtrlNet) and node.serverintf is not None:
if not isinstance(node, CtrlNet) or node.serverintf is not None:
continue
for name in self.servers:
server = self.servers[name]
self.create_gre_tunnel(node, server, mtu, True)
def create_gre_tunnels(self, core_link: CoreLink) -> None:
"""
Creates gre tunnels for a core link with a ptp network connection.
:param core_link: core link to create gre tunnel for
:return: nothing
"""
if not self.servers:
return
if not core_link.ptp:
raise CoreError(
"attempted to create gre tunnel for core link without a ptp network"
)
mtu = self.session.options.get_config_int("mtu")
for server in self.servers.values():
self.create_gre_tunnel(core_link.ptp, server, mtu, True)
def create_gre_tunnel(
self, node: CoreNetwork, server: DistributedServer, mtu: int, start: bool
) -> Tuple[GreTap, GreTap]:

View file

@ -20,6 +20,17 @@ class MessageFlags(Enum):
TTY = 0x40
class ConfigFlags(Enum):
"""
Configuration flags.
"""
NONE = 0x00
REQUEST = 0x01
UPDATE = 0x02
RESET = 0x03
class NodeTypes(Enum):
"""
Node types.
@ -38,6 +49,7 @@ class NodeTypes(Enum):
CONTROL_NET = 13
DOCKER = 15
LXC = 16
WIRELESS = 17
class LinkTypes(Enum):

View file

@ -0,0 +1,256 @@
"""
Provides functionality for maintaining information about known links
for a session.
"""
import logging
from dataclasses import dataclass
from typing import Dict, Optional, Tuple, ValuesView
from core.emulator.data import LinkData, LinkOptions
from core.emulator.enumerations import LinkTypes, MessageFlags
from core.errors import CoreError
from core.nodes.base import NodeBase
from core.nodes.interface import CoreInterface
from core.nodes.network import PtpNet
logger = logging.getLogger(__name__)
LinkKeyType = Tuple[int, Optional[int], int, Optional[int]]
def create_key(
node1: NodeBase,
iface1: Optional[CoreInterface],
node2: NodeBase,
iface2: Optional[CoreInterface],
) -> LinkKeyType:
"""
Creates a unique key for tracking links.
:param node1: first node in link
:param iface1: node1 interface
:param node2: second node in link
:param iface2: node2 interface
:return: link key
"""
iface1_id = iface1.id if iface1 else None
iface2_id = iface2.id if iface2 else None
if node1.id < node2.id:
return node1.id, iface1_id, node2.id, iface2_id
else:
return node2.id, iface2_id, node1.id, iface1_id
@dataclass
class CoreLink:
"""
Provides a core link data structure.
"""
node1: NodeBase
iface1: Optional[CoreInterface]
node2: NodeBase
iface2: Optional[CoreInterface]
ptp: PtpNet = None
label: str = None
color: str = None
def key(self) -> LinkKeyType:
"""
Retrieve the key for this link.
:return: link key
"""
return create_key(self.node1, self.iface1, self.node2, self.iface2)
def is_unidirectional(self) -> bool:
"""
Checks if this link is considered unidirectional, due to current
iface configurations.
:return: True if unidirectional, False otherwise
"""
unidirectional = False
if self.iface1 and self.iface2:
unidirectional = self.iface1.options != self.iface2.options
return unidirectional
def options(self) -> LinkOptions:
"""
Retrieve the options for this link.
:return: options for this link
"""
if self.is_unidirectional():
options = self.iface1.options
else:
if self.iface1:
options = self.iface1.options
else:
options = self.iface2.options
return options
def get_data(self, message_type: MessageFlags, source: str = None) -> LinkData:
"""
Create link data for this link.
:param message_type: link data message type
:param source: source for this data
:return: link data
"""
iface1_data = self.iface1.get_data() if self.iface1 else None
iface2_data = self.iface2.get_data() if self.iface2 else None
return LinkData(
message_type=message_type,
type=LinkTypes.WIRED,
node1_id=self.node1.id,
node2_id=self.node2.id,
iface1=iface1_data,
iface2=iface2_data,
options=self.options(),
label=self.label,
color=self.color,
source=source,
)
def get_data_unidirectional(self, source: str = None) -> LinkData:
"""
Create other unidirectional link data.
:param source: source for this data
:return: unidirectional link data
"""
iface1_data = self.iface1.get_data() if self.iface1 else None
iface2_data = self.iface2.get_data() if self.iface2 else None
return LinkData(
message_type=MessageFlags.NONE,
type=LinkTypes.WIRED,
node1_id=self.node2.id,
node2_id=self.node1.id,
iface1=iface2_data,
iface2=iface1_data,
options=self.iface2.options,
label=self.label,
color=self.color,
source=source,
)
class LinkManager:
"""
Provides core link management.
"""
def __init__(self) -> None:
"""
Create a LinkManager instance.
"""
self._links: Dict[LinkKeyType, CoreLink] = {}
self._node_links: Dict[int, Dict[LinkKeyType, CoreLink]] = {}
def add(self, core_link: CoreLink) -> None:
"""
Add a core link to be tracked.
:param core_link: link to track
:return: nothing
"""
node1, iface1 = core_link.node1, core_link.iface1
node2, iface2 = core_link.node2, core_link.iface2
if core_link.key() in self._links:
raise CoreError(
f"node1({node1.name}) iface1({iface1.id}) "
f"node2({node2.name}) iface2({iface2.id}) link already exists"
)
logger.info(
"adding link from node(%s:%s) to node(%s:%s)",
node1.name,
iface1.name if iface1 else None,
node2.name,
iface2.name if iface2 else None,
)
self._links[core_link.key()] = core_link
node1_links = self._node_links.setdefault(node1.id, {})
node1_links[core_link.key()] = core_link
node2_links = self._node_links.setdefault(node2.id, {})
node2_links[core_link.key()] = core_link
def delete(
self,
node1: NodeBase,
iface1: Optional[CoreInterface],
node2: NodeBase,
iface2: Optional[CoreInterface],
) -> CoreLink:
"""
Remove a link from being tracked.
:param node1: first node in link
:param iface1: node1 interface
:param node2: second node in link
:param iface2: node2 interface
:return: removed core link
"""
key = create_key(node1, iface1, node2, iface2)
if key not in self._links:
raise CoreError(
f"node1({node1.name}) iface1({iface1.id}) "
f"node2({node2.name}) iface2({iface2.id}) is not linked"
)
logger.info(
"deleting link from node(%s:%s) to node(%s:%s)",
node1.name,
iface1.name if iface1 else None,
node2.name,
iface2.name if iface2 else None,
)
node1_links = self._node_links[node1.id]
node1_links.pop(key)
node2_links = self._node_links[node2.id]
node2_links.pop(key)
return self._links.pop(key)
def reset(self) -> None:
"""
Resets and clears all tracking information.
:return: nothing
"""
self._links.clear()
self._node_links.clear()
def get_link(
self,
node1: NodeBase,
iface1: Optional[CoreInterface],
node2: NodeBase,
iface2: Optional[CoreInterface],
) -> Optional[CoreLink]:
"""
Retrieve a link for provided values.
:param node1: first node in link
:param iface1: interface for node1
:param node2: second node in link
:param iface2: interface for node2
:return: core link if present, None otherwise
"""
key = create_key(node1, iface1, node2, iface2)
return self._links.get(key)
def links(self) -> ValuesView[CoreLink]:
"""
Retrieve all known links
:return: iterator for all known links
"""
return self._links.values()
def node_links(self, node: NodeBase) -> ValuesView[CoreLink]:
"""
Retrieve all links for a given node.
:param node: node to get links for
:return: node links
"""
return self._node_links.get(node.id, {}).values()

View file

@ -35,10 +35,10 @@ from core.emulator.distributed import DistributedController
from core.emulator.enumerations import (
EventTypes,
ExceptionLevels,
LinkTypes,
MessageFlags,
NodeTypes,
)
from core.emulator.links import CoreLink, LinkManager
from core.emulator.sessionconfig import SessionConfig
from core.errors import CoreError
from core.location.event import EventLoop
@ -58,6 +58,7 @@ from core.nodes.network import (
WlanNode,
)
from core.nodes.physical import PhysicalNode, Rj45Node
from core.nodes.wireless import WirelessNode
from core.plugins.sdt import Sdt
from core.services.coreservices import CoreServices
from core.xml import corexml, corexmldeployment
@ -80,12 +81,18 @@ NODES: Dict[NodeTypes, Type[NodeBase]] = {
NodeTypes.CONTROL_NET: CtrlNet,
NodeTypes.DOCKER: DockerNode,
NodeTypes.LXC: LxcNode,
NodeTypes.WIRELESS: WirelessNode,
}
NODES_TYPE: Dict[Type[NodeBase], NodeTypes] = {NODES[x]: x for x in NODES}
CONTAINER_NODES: Set[Type[NodeBase]] = {DockerNode, LxcNode}
CTRL_NET_ID: int = 9001
LINK_COLORS: List[str] = ["green", "blue", "orange", "purple", "turquoise"]
NT: TypeVar = TypeVar("NT", bound=NodeBase)
WIRELESS_TYPE: Tuple[Type[WlanNode], Type[EmaneNet], Type[WirelessNode]] = (
WlanNode,
EmaneNet,
WirelessNode,
)
class Session:
@ -119,7 +126,8 @@ class Session:
# dict of nodes: all nodes and nets
self.nodes: Dict[int, NodeBase] = {}
self.nodes_lock = threading.Lock()
self.nodes_lock: threading.Lock = threading.Lock()
self.link_manager: LinkManager = LinkManager()
# states and hooks handlers
self.state: EventTypes = EventTypes.DEFINITION_STATE
@ -187,43 +195,48 @@ class Session:
raise CoreError(f"invalid node class: {_class}")
return node_type
def _link_wireless(
self, node1: CoreNodeBase, node2: CoreNodeBase, connect: bool
) -> None:
"""
Objects to deal with when connecting/disconnecting wireless links.
:param node1: node one for wireless link
:param node2: node two for wireless link
:param connect: link interfaces if True, unlink otherwise
:return: nothing
:raises core.CoreError: when objects to link is less than 2, or no common
networks are found
"""
logger.info(
"handling wireless linking node1(%s) node2(%s): %s",
node1.name,
node2.name,
connect,
)
common_networks = node1.commonnets(node1)
if not common_networks:
raise CoreError("no common network found for wireless link/unlink")
for common_network, iface1, iface2 in common_networks:
if not isinstance(common_network, (WlanNode, EmaneNet)):
logger.info(
"skipping common network that is not wireless/emane: %s",
common_network,
)
continue
if connect:
common_network.link(iface1, iface2)
else:
common_network.unlink(iface1, iface2)
def use_ovs(self) -> bool:
return self.options.get_config("ovs") == "1"
def linked(
self, node1_id: int, node2_id: int, iface1_id: int, iface2_id: int, linked: bool
) -> None:
"""
Links or unlinks wired core link interfaces from being connected to the same
bridge.
:param node1_id: first node in link
:param node2_id: second node in link
:param iface1_id: node1 interface
:param iface2_id: node2 interface
:param linked: True if interfaces should be connected, False for disconnected
:return: nothing
"""
node1 = self.get_node(node1_id, NodeBase)
node2 = self.get_node(node2_id, NodeBase)
logger.info(
"link node(%s):interface(%s) node(%s):interface(%s) linked(%s)",
node1.name,
iface1_id,
node2.name,
iface2_id,
linked,
)
iface1 = node1.get_iface(iface1_id)
iface2 = node2.get_iface(iface2_id)
core_link = self.link_manager.get_link(node1, iface1, node2, iface2)
if not core_link:
raise CoreError(
f"there is no link for node({node1.name}):interface({iface1_id}) "
f"node({node2.name}):interface({iface2_id})"
)
if linked:
core_link.ptp.attach(iface1)
core_link.ptp.attach(iface2)
else:
core_link.ptp.detach(iface1)
core_link.ptp.detach(iface2)
def add_link(
self,
node1_id: int,
@ -231,8 +244,7 @@ class Session:
iface1_data: InterfaceData = None,
iface2_data: InterfaceData = None,
options: LinkOptions = None,
link_type: LinkTypes = LinkTypes.WIRED,
) -> Tuple[CoreInterface, CoreInterface]:
) -> Tuple[Optional[CoreInterface], Optional[CoreInterface]]:
"""
Add a link between nodes.
@ -244,89 +256,129 @@ class Session:
data, defaults to none
:param options: data for creating link,
defaults to no options
:param link_type: type of link to add
:return: tuple of created core interfaces, depending on link
"""
if not options:
options = LinkOptions()
node1 = self.get_node(node1_id, NodeBase)
node2 = self.get_node(node2_id, NodeBase)
iface1 = None
iface2 = None
options = options if options else LinkOptions()
# set mtu
mtu = self.options.get_config_int("mtu") or DEFAULT_MTU
if iface1_data:
iface1_data.mtu = mtu
if iface2_data:
iface2_data.mtu = mtu
# wireless link
if link_type == LinkTypes.WIRELESS:
if isinstance(node1, CoreNodeBase) and isinstance(node2, CoreNodeBase):
self._link_wireless(node1, node2, connect=True)
else:
raise CoreError(
f"cannot wireless link node1({type(node1)}) node2({type(node2)})"
)
# wired link
node1 = self.get_node(node1_id, NodeBase)
node2 = self.get_node(node2_id, NodeBase)
# check for invalid linking
if (
isinstance(node1, WIRELESS_TYPE)
and isinstance(node2, WIRELESS_TYPE)
or isinstance(node1, WIRELESS_TYPE)
and not isinstance(node2, CoreNodeBase)
or not isinstance(node1, CoreNodeBase)
and isinstance(node2, WIRELESS_TYPE)
):
raise CoreError(f"cannot link node({type(node1)}) node({type(node2)})")
# custom links
iface1 = None
iface2 = None
if isinstance(node1, (WlanNode, WirelessNode)):
iface2 = self._add_wlan_link(node2, iface2_data, node1)
elif isinstance(node2, (WlanNode, WirelessNode)):
iface1 = self._add_wlan_link(node1, iface1_data, node2)
elif isinstance(node1, EmaneNet) and isinstance(node2, CoreNode):
iface2 = self._add_emane_link(node2, iface2_data, node1)
elif isinstance(node2, EmaneNet) and isinstance(node1, CoreNode):
iface1 = self._add_emane_link(node1, iface1_data, node2)
else:
# peer to peer link
if isinstance(node1, CoreNodeBase) and isinstance(node2, CoreNodeBase):
logger.info("linking ptp: %s - %s", node1.name, node2.name)
start = self.state.should_start()
ptp = self.create_node(PtpNet, start)
iface1 = node1.new_iface(ptp, iface1_data)
iface2 = node2.new_iface(ptp, iface2_data)
iface1.config(options)
if not options.unidirectional:
iface2.config(options)
# link node to net
elif isinstance(node1, CoreNodeBase) and isinstance(node2, CoreNetworkBase):
logger.info("linking node to net: %s - %s", node1.name, node2.name)
iface1 = node1.new_iface(node2, iface1_data)
if not isinstance(node2, (EmaneNet, WlanNode)):
iface1.config(options)
# link net to node
elif isinstance(node2, CoreNodeBase) and isinstance(node1, CoreNetworkBase):
logger.info("linking net to node: %s - %s", node1.name, node2.name)
iface2 = node2.new_iface(node1, iface2_data)
wireless_net = isinstance(node1, (EmaneNet, WlanNode))
if not options.unidirectional and not wireless_net:
iface2.config(options)
# network to network
elif isinstance(node1, CoreNetworkBase) and isinstance(
node2, CoreNetworkBase
):
logger.info(
"linking network to network: %s - %s", node1.name, node2.name
)
iface1 = node1.linknet(node2)
use_local = iface1.net == node1
iface1.config(options, use_local=use_local)
if not options.unidirectional:
iface1.config(options, use_local=not use_local)
else:
raise CoreError(
f"cannot link node1({type(node1)}) node2({type(node2)})"
)
# configure tunnel nodes
key = options.key
if isinstance(node1, TunnelNode):
logger.info("setting tunnel key for: %s", node1.name)
node1.setkey(key, iface1_data)
if isinstance(node2, TunnelNode):
logger.info("setting tunnel key for: %s", node2.name)
node2.setkey(key, iface2_data)
iface1, iface2 = self._add_wired_link(
node1, node2, iface1_data, iface2_data, options
)
# configure tunnel nodes
key = options.key
if isinstance(node1, TunnelNode):
logger.info("setting tunnel key for: %s", node1.name)
node1.setkey(key, iface1_data)
if isinstance(node2, TunnelNode):
logger.info("setting tunnel key for: %s", node2.name)
node2.setkey(key, iface2_data)
self.sdt.add_link(node1_id, node2_id)
return iface1, iface2
def delete_link(
def _add_wlan_link(
self,
node1_id: int,
node2_id: int,
iface1_id: int = None,
iface2_id: int = None,
link_type: LinkTypes = LinkTypes.WIRED,
node: NodeBase,
iface_data: InterfaceData,
net: Union[WlanNode, WirelessNode],
) -> CoreInterface:
"""
Create a wlan link.
:param node: node to link to wlan network
:param iface_data: data to create interface with
:param net: wlan network to link to
:return: interface created for node
"""
# create interface
iface = node.create_iface(iface_data)
# attach to wlan
net.attach(iface)
# track link
core_link = CoreLink(node, iface, net, None)
self.link_manager.add(core_link)
return iface
def _add_emane_link(
self, node: CoreNode, iface_data: InterfaceData, net: EmaneNet
) -> CoreInterface:
"""
Create am emane link.
:param node: node to link to emane network
:param iface_data: data to create interface with
:param net: emane network to link to
:return: interface created for node
"""
# create iface tuntap
iface = net.create_tuntap(node, iface_data)
# track link
core_link = CoreLink(node, iface, net, None)
self.link_manager.add(core_link)
return iface
def _add_wired_link(
self,
node1: NodeBase,
node2: NodeBase,
iface1_data: InterfaceData = None,
iface2_data: InterfaceData = None,
options: LinkOptions = None,
) -> Tuple[CoreInterface, CoreInterface]:
"""
Create a wired link between two nodes.
:param node1: first node to be linked
:param node2: second node to be linked
:param iface1_data: data to create interface for node1
:param iface2_data: data to create interface for node2
:param options: options to configure interfaces with
:return: interfaces created for both nodes
"""
# create interfaces
iface1 = node1.create_iface(iface1_data, options)
iface2 = node2.create_iface(iface2_data, options)
# join and attach to ptp bridge
ptp = self.create_node(PtpNet, self.state.should_start())
ptp.attach(iface1)
ptp.attach(iface2)
# track link
core_link = CoreLink(node1, iface1, node2, iface2, ptp)
self.link_manager.add(core_link)
# setup link for gre tunnels if needed
if ptp.up:
self.distributed.create_gre_tunnels(core_link)
return iface1, iface2
def delete_link(
self, node1_id: int, node2_id: int, iface1_id: int = None, iface2_id: int = None
) -> None:
"""
Delete a link between nodes.
@ -335,63 +387,38 @@ class Session:
:param node2_id: node two id
:param iface1_id: interface id for node one
:param iface2_id: interface id for node two
:param link_type: link type to delete
:return: nothing
:raises core.CoreError: when no common network is found for link being deleted
"""
node1 = self.get_node(node1_id, NodeBase)
node2 = self.get_node(node2_id, NodeBase)
logger.info(
"deleting link(%s) node(%s):interface(%s) node(%s):interface(%s)",
link_type.name,
"deleting link node(%s):interface(%s) node(%s):interface(%s)",
node1.name,
iface1_id,
node2.name,
iface2_id,
)
# wireless link
if link_type == LinkTypes.WIRELESS:
if isinstance(node1, CoreNodeBase) and isinstance(node2, CoreNodeBase):
self._link_wireless(node1, node2, connect=False)
else:
raise CoreError(
"cannot delete wireless link "
f"node1({type(node1)}) node2({type(node2)})"
)
# wired link
iface1 = None
iface2 = None
if isinstance(node1, (WlanNode, WirelessNode)):
iface2 = node2.delete_iface(iface2_id)
node1.detach(iface2)
elif isinstance(node2, (WlanNode, WirelessNode)):
iface1 = node1.delete_iface(iface1_id)
node2.detach(iface1)
elif isinstance(node1, EmaneNet):
iface2 = node2.delete_iface(iface2_id)
node1.detach(iface2)
elif isinstance(node2, EmaneNet):
iface1 = node1.delete_iface(iface1_id)
node2.detach(iface1)
else:
if isinstance(node1, CoreNodeBase) and isinstance(node2, CoreNodeBase):
iface1 = node1.get_iface(iface1_id)
iface2 = node2.get_iface(iface2_id)
if iface1.net != iface2.net:
raise CoreError(
f"node1({node1.name}) node2({node2.name}) "
"not connected to same net"
)
ptp = iface1.net
node1.delete_iface(iface1_id)
node2.delete_iface(iface2_id)
self.delete_node(ptp.id)
elif isinstance(node1, CoreNodeBase) and isinstance(node2, CoreNetworkBase):
node1.delete_iface(iface1_id)
elif isinstance(node2, CoreNodeBase) and isinstance(node1, CoreNetworkBase):
node2.delete_iface(iface2_id)
elif isinstance(node1, CoreNetworkBase) and isinstance(
node2, CoreNetworkBase
):
iface1 = node1.get_linked_iface(node2)
if iface1:
node1.detach(iface1)
iface1.shutdown()
iface2 = node2.get_linked_iface(node1)
if iface2:
node2.detach(iface2)
iface2.shutdown()
if not iface1 and not iface2:
raise CoreError(
f"node1({node1.name}) and node2({node2.name}) are not connected"
)
iface1 = node1.delete_iface(iface1_id)
iface2 = node2.delete_iface(iface2_id)
core_link = self.link_manager.delete(node1, iface1, node2, iface2)
if core_link.ptp:
self.delete_node(core_link.ptp.id)
self.sdt.delete_link(node1_id, node2_id)
def update_link(
@ -401,7 +428,6 @@ class Session:
iface1_id: int = None,
iface2_id: int = None,
options: LinkOptions = None,
link_type: LinkTypes = LinkTypes.WIRED,
) -> None:
"""
Update link information between nodes.
@ -411,7 +437,6 @@ class Session:
:param iface1_id: interface id for node one
:param iface2_id: interface id for node two
:param options: data to update link with
:param link_type: type of link to update
:return: nothing
:raises core.CoreError: when updating a wireless type link, when there is a
unknown link between networks
@ -421,72 +446,26 @@ class Session:
node1 = self.get_node(node1_id, NodeBase)
node2 = self.get_node(node2_id, NodeBase)
logger.info(
"update link(%s) node(%s):interface(%s) node(%s):interface(%s)",
link_type.name,
"update link node(%s):interface(%s) node(%s):interface(%s)",
node1.name,
iface1_id,
node2.name,
iface2_id,
)
# wireless link
if link_type == LinkTypes.WIRELESS:
raise CoreError("cannot update wireless link")
else:
if isinstance(node1, CoreNodeBase) and isinstance(node2, CoreNodeBase):
iface1 = node1.ifaces.get(iface1_id)
if not iface1:
raise CoreError(
f"node({node1.name}) missing interface({iface1_id})"
)
iface2 = node2.ifaces.get(iface2_id)
if not iface2:
raise CoreError(
f"node({node2.name}) missing interface({iface2_id})"
)
if iface1.net != iface2.net:
raise CoreError(
f"node1({node1.name}) node2({node2.name}) "
"not connected to same net"
)
iface1.config(options)
if not options.unidirectional:
iface2.config(options)
elif isinstance(node1, CoreNodeBase) and isinstance(node2, CoreNetworkBase):
iface = node1.get_iface(iface1_id)
if iface.net != node2:
raise CoreError(
f"node1({node1.name}) iface1({iface1_id})"
f" is not linked to node1({node2.name})"
)
iface.config(options)
elif isinstance(node2, CoreNodeBase) and isinstance(node1, CoreNetworkBase):
iface = node2.get_iface(iface2_id)
if iface.net != node1:
raise CoreError(
f"node2({node2.name}) iface2({iface2_id})"
f" is not linked to node1({node1.name})"
)
iface.config(options)
elif isinstance(node1, CoreNetworkBase) and isinstance(
node2, CoreNetworkBase
):
iface = node1.get_linked_iface(node2)
if not iface:
iface = node2.get_linked_iface(node1)
if iface:
use_local = iface.net == node1
iface.config(options, use_local=use_local)
if not options.unidirectional:
iface.config(options, use_local=not use_local)
else:
raise CoreError(
f"node1({node1.name}) and node2({node2.name}) are not linked"
)
else:
raise CoreError(
f"cannot update link node1({type(node1)}) node2({type(node2)})"
)
iface1 = node1.get_iface(iface1_id) if iface1_id is not None else None
iface2 = node2.get_iface(iface2_id) if iface2_id is not None else None
core_link = self.link_manager.get_link(node1, iface1, node2, iface2)
if not core_link:
raise CoreError(
f"there is no link for node({node1.name}):interface({iface1_id}) "
f"node({node2.name}):interface({iface2_id})"
)
if iface1:
iface1.options.update(options)
iface1.set_config()
if iface2 and not options.unidirectional:
iface2.options.update(options)
iface2.set_config()
def next_node_id(self) -> int:
"""
@ -618,26 +597,6 @@ class Session:
node.position.set_geo(lon, lat, alt)
self.sdt.edit_node(node, lon, lat, alt)
def start_mobility(self, node_ids: List[int] = None) -> None:
"""
Start mobility for the provided node ids.
:param node_ids: nodes to start mobility for
:return: nothing
"""
self.mobility.startup(node_ids)
def is_active(self) -> bool:
"""
Determine if this session is considered to be active.
(Runtime or Data collect states)
:return: True if active, False otherwise
"""
result = self.state in {EventTypes.RUNTIME_STATE, EventTypes.DATACOLLECT_STATE}
logger.info("session(%s) checking if active: %s", self.id, result)
return result
def open_xml(self, file_path: Path, start: bool = False) -> None:
"""
Import a session from the EmulationScript XML format.
@ -723,6 +682,7 @@ class Session:
"""
self.emane.shutdown()
self.delete_nodes()
self.link_manager.reset()
self.distributed.shutdown()
self.hooks.clear()
self.emane.reset()
@ -732,23 +692,6 @@ class Session:
self.mobility.config_reset()
self.link_colors.clear()
def start_events(self) -> None:
"""
Start event loop.
:return: nothing
"""
self.event_loop.run()
def mobility_event(self, event_data: EventData) -> None:
"""
Handle a mobility event.
:param event_data: event data to handle
:return: nothing
"""
self.mobility.handleevent(event_data)
def set_location(self, lat: float, lon: float, alt: float, scale: float) -> None:
"""
Set session geospatial location.
@ -1007,15 +950,14 @@ class Session:
env["SESSION_STATE"] = str(self.state)
# try reading and merging optional environments from:
# /etc/core/environment
# /home/user/.core/environment
# /home/user/.coregui/environment
# /tmp/pycore.<session id>/environment
core_env_path = constants.CORE_CONF_DIR / "environment"
session_env_path = self.directory / "environment"
if self.user:
user_home_path = Path(f"~{self.user}").expanduser()
user_env1 = user_home_path / ".core" / "environment"
user_env2 = user_home_path / ".coregui" / "environment"
paths = [core_env_path, user_env1, user_env2, session_env_path]
user_env = user_home_path / ".coregui" / "environment"
paths = [core_env_path, user_env, session_env_path]
else:
paths = [core_env_path, session_env_path]
for path in paths:
@ -1026,21 +968,6 @@ class Session:
logger.exception("error reading environment file: %s", path)
return env
def set_thumbnail(self, thumb_file: Path) -> None:
"""
Set the thumbnail filename. Move files from /tmp to session dir.
:param thumb_file: tumbnail file to set for session
:return: nothing
"""
if not thumb_file.is_file():
logger.error("thumbnail file to set does not exist: %s", thumb_file)
self.thumbnail = None
return
dst_path = self.directory / thumb_file.name
shutil.copy(thumb_file, dst_path)
self.thumbnail = dst_path
def set_user(self, user: str) -> None:
"""
Set the username for this session. Update the permissions of the
@ -1049,14 +976,13 @@ class Session:
:param user: user to give write permissions to for the session directory
:return: nothing
"""
if user:
try:
uid = pwd.getpwnam(user).pw_uid
gid = self.directory.stat().st_gid
os.chown(self.directory, uid, gid)
except IOError:
logger.exception("failed to set permission on %s", self.directory)
self.user = user
try:
uid = pwd.getpwnam(user).pw_uid
gid = self.directory.stat().st_gid
os.chown(self.directory, uid, gid)
except IOError:
logger.exception("failed to set permission on %s", self.directory)
def create_node(
self, _class: Type[NT], start: bool, *args: Any, **kwargs: Any
@ -1194,6 +1120,10 @@ class Session:
# boot node services and then start mobility
exceptions = self.boot_nodes()
if not exceptions:
# complete wireless node
for node in self.nodes.values():
if isinstance(node, WirelessNode):
node.post_startup()
self.mobility.startup()
# notify listeners that instantiation is complete
event = EventData(event_type=EventTypes.INSTANTIATION_COMPLETE)
@ -1480,7 +1410,8 @@ class Session:
ip4_mask=ip4_mask,
mtu=DEFAULT_MTU,
)
iface = node.new_iface(control_net, iface_data)
iface = node.create_iface(iface_data)
control_net.attach(iface)
iface.control = True
except ValueError:
msg = f"Control interface not added to node {node.id}. "

View file

@ -404,9 +404,11 @@ class CoreClient:
for edge in self.links.values():
link = edge.link
if not definition:
if link.iface1 and not link.iface1.mac:
node1 = self.session.nodes[link.node1_id]
node2 = self.session.nodes[link.node2_id]
if nutils.is_container(node1) and link.iface1 and not link.iface1.mac:
link.iface1.mac = self.ifaces_manager.next_mac()
if link.iface2 and not link.iface2.mac:
if nutils.is_container(node2) and link.iface2 and not link.iface2.mac:
link.iface2.mac = self.ifaces_manager.next_mac()
links.append(link)
if edge.asymmetric_link:

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View file

@ -230,13 +230,8 @@ class NodeConfigDialog(Dialog):
if nutils.is_model(self.node):
label = ttk.Label(frame, text="Type")
label.grid(row=row, column=0, sticky=tk.EW, padx=PADX, pady=PADY)
combobox = ttk.Combobox(
frame,
textvariable=self.type,
values=list(nutils.NODE_MODELS),
state=combo_state,
)
combobox.grid(row=row, column=1, sticky=tk.EW)
entry = ttk.Entry(frame, textvariable=self.type, state=tk.DISABLED)
entry.grid(row=row, column=1, sticky=tk.EW)
row += 1
# container image field
@ -275,7 +270,7 @@ class NodeConfigDialog(Dialog):
ifaces_scroll.listbox.bind("<<ListboxSelect>>", self.iface_select)
# interfaces
if self.canvas_node.ifaces:
if nutils.is_container(self.node):
self.draw_ifaces()
self.draw_spacer()

View file

@ -298,7 +298,10 @@ class CanvasNode:
other_iface = edge.other_iface(self)
label = other_node.core_node.name
if other_iface:
label = f"{label}:{other_iface.name}"
iface_label = other_iface.id
if other_iface.name:
iface_label = other_iface.name
label = f"{label}:{iface_label}"
func_unlink = functools.partial(self.click_unlink, edge)
unlink_menu.add_command(label=label, command=func_unlink)
themes.style_menu(unlink_menu)

View file

@ -53,6 +53,7 @@ class ImageEnum(Enum):
LINK = "link"
HUB = "hub"
WLAN = "wlan"
WIRELESS = "wireless"
EMANE = "emane"
RJ45 = "rj45"
TUNNEL = "tunnel"

View file

@ -241,10 +241,10 @@ class InterfaceManager:
dst_node = edge.dst.core_node
self.determine_subnets(edge.src, edge.dst)
src_iface = None
if nutils.is_container(src_node):
if nutils.is_iface_node(src_node):
src_iface = self.create_iface(edge.src, edge.linked_wireless)
dst_iface = None
if nutils.is_container(dst_node):
if nutils.is_iface_node(dst_node):
dst_iface = self.create_iface(edge.dst, edge.linked_wireless)
link = Link(
type=LinkType.WIRED,
@ -258,22 +258,26 @@ class InterfaceManager:
def create_iface(self, canvas_node: CanvasNode, wireless_link: bool) -> Interface:
node = canvas_node.core_node
ip4, ip6 = self.get_ips(node)
if wireless_link:
ip4_mask = WIRELESS_IP4_MASK
ip6_mask = WIRELESS_IP6_MASK
if nutils.is_bridge(node):
iface_id = canvas_node.next_iface_id()
iface = Interface(id=iface_id)
else:
ip4_mask = IP4_MASK
ip6_mask = IP6_MASK
iface_id = canvas_node.next_iface_id()
name = f"eth{iface_id}"
iface = Interface(
id=iface_id,
name=name,
ip4=ip4,
ip4_mask=ip4_mask,
ip6=ip6,
ip6_mask=ip6_mask,
)
ip4, ip6 = self.get_ips(node)
if wireless_link:
ip4_mask = WIRELESS_IP4_MASK
ip6_mask = WIRELESS_IP6_MASK
else:
ip4_mask = IP4_MASK
ip6_mask = IP6_MASK
iface_id = canvas_node.next_iface_id()
name = f"eth{iface_id}"
iface = Interface(
id=iface_id,
name=name,
ip4=ip4,
ip4_mask=ip4_mask,
ip6=ip6,
ip6_mask=ip6_mask,
)
logger.info("create node(%s) interface(%s)", node.name, iface)
return iface

View file

@ -18,12 +18,16 @@ NETWORK_NODES: List["NodeDraw"] = []
NODE_ICONS = {}
CONTAINER_NODES: Set[NodeType] = {NodeType.DEFAULT, NodeType.DOCKER, NodeType.LXC}
IMAGE_NODES: Set[NodeType] = {NodeType.DOCKER, NodeType.LXC}
WIRELESS_NODES: Set[NodeType] = {NodeType.WIRELESS_LAN, NodeType.EMANE}
WIRELESS_NODES: Set[NodeType] = {
NodeType.WIRELESS_LAN,
NodeType.EMANE,
NodeType.WIRELESS,
}
RJ45_NODES: Set[NodeType] = {NodeType.RJ45}
BRIDGE_NODES: Set[NodeType] = {NodeType.HUB, NodeType.SWITCH}
IGNORE_NODES: Set[NodeType] = {NodeType.CONTROL_NET}
MOBILITY_NODES: Set[NodeType] = {NodeType.WIRELESS_LAN, NodeType.EMANE}
NODE_MODELS: Set[str] = {"router", "host", "PC", "mdr", "prouter"}
NODE_MODELS: Set[str] = {"router", "PC", "mdr", "prouter"}
ROUTER_NODES: Set[str] = {"router", "mdr"}
ANTENNA_ICON: Optional[PhotoImage] = None
@ -46,6 +50,7 @@ def setup() -> None:
(ImageEnum.HUB, NodeType.HUB, "Hub"),
(ImageEnum.SWITCH, NodeType.SWITCH, "Switch"),
(ImageEnum.WLAN, NodeType.WIRELESS_LAN, "WLAN"),
(ImageEnum.WIRELESS, NodeType.WIRELESS, "Wireless"),
(ImageEnum.EMANE, NodeType.EMANE, "EMANE"),
(ImageEnum.RJ45, NodeType.RJ45, "RJ45"),
(ImageEnum.TUNNEL, NodeType.TUNNEL, "Tunnel"),
@ -97,6 +102,10 @@ def is_custom(node: Node) -> bool:
return is_model(node) and node.model not in NODE_MODELS
def is_iface_node(node: Node) -> bool:
return is_container(node) or is_bridge(node)
def get_custom_services(gui_config: GuiConfig, name: str) -> List[str]:
for custom_node in gui_config.nodes:
if custom_node.name == name:

View file

@ -225,7 +225,6 @@ class WirelessModel(ConfigurableOptions):
"""
config_type: RegisterTlvs = RegisterTlvs.WIRELESS
bitmap: str = None
position_callback: Callable[[CoreInterface], None] = None
def __init__(self, session: "Session", _id: int) -> None:
@ -321,7 +320,8 @@ class BasicRangeModel(WirelessModel):
loss=self.loss,
jitter=self.jitter,
)
iface.config(options)
iface.options.update(options)
iface.set_config()
def get_position(self, iface: CoreInterface) -> Tuple[float, float, float]:
"""

View file

@ -13,11 +13,11 @@ import netaddr
from core import utils
from core.configservice.dependencies import ConfigServiceDependencies
from core.emulator.data import InterfaceData, LinkData
from core.emulator.enumerations import LinkTypes, MessageFlags, NodeTypes
from core.emulator.data import InterfaceData, LinkOptions
from core.emulator.enumerations import LinkTypes, NodeTypes
from core.errors import CoreCommandError, CoreError
from core.executables import BASH, MOUNT, TEST, VCMD, VNODED
from core.nodes.interface import DEFAULT_MTU, CoreInterface, TunTap, Veth
from core.nodes.interface import DEFAULT_MTU, CoreInterface
from core.nodes.netclient import LinuxNetClient, get_net_client
logger = logging.getLogger(__name__)
@ -74,6 +74,7 @@ class NodeBase(abc.ABC):
self.icon: Optional[str] = None
self.position: Position = Position()
self.up: bool = False
self.lock: RLock = RLock()
self.net_client: LinuxNetClient = get_net_client(
self.session.use_ovs(), self.host_cmd
)
@ -96,6 +97,18 @@ class NodeBase(abc.ABC):
"""
raise NotImplementedError
@abc.abstractmethod
def adopt_iface(self, iface: CoreInterface, name: str) -> None:
"""
Adopt an interface, placing within network namespacing for containers
and setting to bridge masters for network like nodes.
:param iface: interface to adopt
:param name: proper name to use for interface
:return: nothing
"""
raise NotImplementedError
def host_cmd(
self,
args: str,
@ -120,6 +133,19 @@ class NodeBase(abc.ABC):
else:
return self.server.remote_cmd(args, env, cwd, wait)
def cmd(self, args: str, wait: bool = True, shell: bool = False) -> str:
"""
Runs a command that is in the context of a node, default is to run a standard
host command.
:param args: command to run
:param wait: True to wait for status, False otherwise
:param shell: True to use shell, False otherwise
:return: combined stdout and stderr
:raises CoreCommandError: when a non-zero exit status occurs
"""
return self.host_cmd(args, wait=wait, shell=shell)
def setposition(self, x: float = None, y: float = None, z: float = None) -> bool:
"""
Set the (x,y,z) position of the object.
@ -139,6 +165,70 @@ class NodeBase(abc.ABC):
"""
return self.position.get()
def create_iface(
self, iface_data: InterfaceData = None, options: LinkOptions = None
) -> CoreInterface:
"""
Creates an interface and adopts it to a node.
:param iface_data: data to create interface with
:param options: options to create interface with
:return: created interface
"""
with self.lock:
if iface_data and iface_data.id is not None:
if iface_data.id in self.ifaces:
raise CoreError(
f"node({self.id}) interface({iface_data.id}) already exists"
)
iface_id = iface_data.id
else:
iface_id = self.next_iface_id()
mtu = DEFAULT_MTU
if iface_data and iface_data.mtu is not None:
mtu = iface_data.mtu
name = f"veth{self.id}.{iface_id}.{self.session.short_session_id()}"
localname = f"{name}p"
iface = CoreInterface(
iface_id,
name,
localname,
self.session.use_ovs(),
mtu,
self,
self.server,
)
if iface_data:
if iface_data.mac:
iface.set_mac(iface_data.mac)
for ip in iface_data.get_ips():
iface.add_ip(ip)
if iface_data.name:
name = iface_data.name
if options:
iface.options.update(options)
self.ifaces[iface_id] = iface
if self.up:
iface.startup()
self.adopt_iface(iface, name)
else:
iface.name = name
return iface
def delete_iface(self, iface_id: int) -> CoreInterface:
"""
Delete an interface.
:param iface_id: interface id to delete
:return: the removed interface
"""
if iface_id not in self.ifaces:
raise CoreError(f"node({self.name}) interface({iface_id}) does not exist")
iface = self.ifaces.pop(iface_id)
logger.info("node(%s) removing interface(%s)", self.name, iface.name)
iface.shutdown()
return iface
def get_iface(self, iface_id: int) -> CoreInterface:
"""
Retrieve interface based on id.
@ -191,15 +281,6 @@ class NodeBase(abc.ABC):
self.iface_id += 1
return iface_id
def links(self, flags: MessageFlags = MessageFlags.NONE) -> List[LinkData]:
"""
Build link data for this node.
:param flags: message flags
:return: list of link data
"""
return []
class CoreNodeBase(NodeBase):
"""
@ -227,14 +308,6 @@ class CoreNodeBase(NodeBase):
self.directory: Optional[Path] = None
self.tmpnodedir: bool = False
@abc.abstractmethod
def startup(self) -> None:
raise NotImplementedError
@abc.abstractmethod
def shutdown(self) -> None:
raise NotImplementedError
@abc.abstractmethod
def create_dir(self, dir_path: Path) -> None:
"""
@ -270,19 +343,6 @@ class CoreNodeBase(NodeBase):
"""
raise NotImplementedError
@abc.abstractmethod
def cmd(self, args: str, wait: bool = True, shell: bool = False) -> str:
"""
Runs a command within a node container.
:param args: command to run
:param wait: True to wait for status, False otherwise
:param shell: True to use shell, False otherwise
:return: combined stdout and stderr
:raises CoreCommandError: when a non-zero exit status occurs
"""
raise NotImplementedError
@abc.abstractmethod
def termcmdstring(self, sh: str) -> str:
"""
@ -293,19 +353,6 @@ class CoreNodeBase(NodeBase):
"""
raise NotImplementedError
@abc.abstractmethod
def new_iface(
self, net: "CoreNetworkBase", iface_data: InterfaceData
) -> CoreInterface:
"""
Create a new interface.
:param net: network to associate with
:param iface_data: interface data for new interface
:return: interface index
"""
raise NotImplementedError
@abc.abstractmethod
def path_exists(self, path: str) -> bool:
"""
@ -318,7 +365,7 @@ class CoreNodeBase(NodeBase):
def host_path(self, path: Path, is_dir: bool = False) -> Path:
"""
Return the name of a node"s file on the host filesystem.
Return the name of a node's file on the host filesystem.
:param path: path to translate to host path
:param is_dir: True if path is a directory path, False otherwise
@ -393,54 +440,6 @@ class CoreNodeBase(NodeBase):
if self.tmpnodedir:
self.host_cmd(f"rm -rf {self.directory}")
def add_iface(self, iface: CoreInterface, iface_id: int) -> None:
"""
Add network interface to node and set the network interface index if successful.
:param iface: network interface to add
:param iface_id: interface id
:return: nothing
"""
if iface_id in self.ifaces:
raise CoreError(f"interface({iface_id}) already exists")
self.ifaces[iface_id] = iface
iface.node_id = iface_id
def delete_iface(self, iface_id: int) -> None:
"""
Delete a network interface
:param iface_id: interface index to delete
:return: nothing
"""
if iface_id not in self.ifaces:
raise CoreError(f"node({self.name}) interface({iface_id}) does not exist")
iface = self.ifaces.pop(iface_id)
logger.info("node(%s) removing interface(%s)", self.name, iface.name)
iface.detachnet()
iface.shutdown()
def attachnet(self, iface_id: int, net: "CoreNetworkBase") -> None:
"""
Attach a network.
:param iface_id: interface of index to attach
:param net: network to attach
:return: nothing
"""
iface = self.get_iface(iface_id)
iface.attachnet(net)
def detachnet(self, iface_id: int) -> None:
"""
Detach network interface.
:param iface_id: interface id to detach
:return: nothing
"""
iface = self.get_iface(iface_id)
iface.detachnet()
def setposition(self, x: float = None, y: float = None, z: float = None) -> None:
"""
Set position.
@ -455,25 +454,6 @@ class CoreNodeBase(NodeBase):
for iface in self.get_ifaces():
iface.setposition()
def commonnets(
self, node: "CoreNodeBase", want_ctrl: bool = False
) -> List[Tuple["CoreNetworkBase", CoreInterface, CoreInterface]]:
"""
Given another node or net object, return common networks between
this node and that object. A list of tuples is returned, with each tuple
consisting of (network, interface1, interface2).
:param node: node to get common network with
:param want_ctrl: flag set to determine if control network are wanted
:return: tuples of common networks
"""
common = []
for iface1 in self.get_ifaces(control=want_ctrl):
for iface2 in node.get_ifaces():
if iface1.net == iface2.net:
common.append((iface1.net, iface1, iface2))
return common
class CoreNode(CoreNodeBase):
"""
@ -504,7 +484,6 @@ class CoreNode(CoreNodeBase):
self.directory: Optional[Path] = directory
self.ctrlchnlname: Path = self.session.directory / self.name
self.pid: Optional[int] = None
self.lock: RLock = RLock()
self._mounts: List[Tuple[Path, Path]] = []
self.node_net_client: LinuxNetClient = self.create_node_net_client(
self.session.use_ovs()
@ -585,6 +564,10 @@ class CoreNode(CoreNodeBase):
self._mounts = []
# shutdown all interfaces
for iface in self.get_ifaces():
try:
self.node_net_client.device_flush(iface.name)
except CoreCommandError:
pass
iface.shutdown()
# kill node process if present
try:
@ -691,150 +674,6 @@ class CoreNode(CoreNodeBase):
self.cmd(f"{MOUNT} -n --bind {src_path} {target_path}")
self._mounts.append((src_path, target_path))
def next_iface_id(self) -> int:
"""
Retrieve a new interface index.
:return: new interface index
"""
with self.lock:
return super().next_iface_id()
def newveth(self, iface_id: int = None, ifname: str = None, mtu: int = None) -> int:
"""
Create a new interface.
:param iface_id: id for the new interface
:param ifname: name for the new interface
:param mtu: mtu for interface
:return: nothing
"""
with self.lock:
mtu = mtu if mtu is not None else DEFAULT_MTU
iface_id = iface_id if iface_id is not None else self.next_iface_id()
ifname = ifname if ifname is not None else f"eth{iface_id}"
sessionid = self.session.short_session_id()
try:
suffix = f"{self.id:x}.{iface_id}.{sessionid}"
except TypeError:
suffix = f"{self.id}.{iface_id}.{sessionid}"
localname = f"veth{suffix}"
name = f"{localname}p"
veth = Veth(self.session, name, localname, mtu, self.server, self)
veth.adopt_node(iface_id, ifname, self.up)
return iface_id
def newtuntap(self, iface_id: int = None, ifname: str = None) -> int:
"""
Create a new tunnel tap.
:param iface_id: interface id
:param ifname: interface name
:return: interface index
"""
with self.lock:
iface_id = iface_id if iface_id is not None else self.next_iface_id()
ifname = ifname if ifname is not None else f"eth{iface_id}"
sessionid = self.session.short_session_id()
localname = f"tap{self.id}.{iface_id}.{sessionid}"
name = ifname
tuntap = TunTap(self.session, name, localname, node=self)
if self.up:
tuntap.startup()
try:
self.add_iface(tuntap, iface_id)
except CoreError as e:
tuntap.shutdown()
raise e
return iface_id
def set_mac(self, iface_id: int, mac: str) -> None:
"""
Set hardware address for an interface.
:param iface_id: id of interface to set hardware address for
:param mac: mac address to set
:return: nothing
:raises CoreCommandError: when a non-zero exit status occurs
"""
iface = self.get_iface(iface_id)
iface.set_mac(mac)
if self.up:
self.node_net_client.device_mac(iface.name, str(iface.mac))
def add_ip(self, iface_id: int, ip: str) -> None:
"""
Add an ip address to an interface in the format "10.0.0.1/24".
:param iface_id: id of interface to add address to
:param ip: address to add to interface
:return: nothing
:raises CoreError: when ip address provided is invalid
:raises CoreCommandError: when a non-zero exit status occurs
"""
iface = self.get_iface(iface_id)
iface.add_ip(ip)
if self.up:
# ipv4 check
broadcast = None
if netaddr.valid_ipv4(ip):
broadcast = "+"
self.node_net_client.create_address(iface.name, ip, broadcast)
def remove_ip(self, iface_id: int, ip: str) -> None:
"""
Remove an ip address from an interface in the format "10.0.0.1/24".
:param iface_id: id of interface to delete address from
:param ip: ip address to remove from interface
:return: nothing
:raises CoreError: when ip address provided is invalid
:raises CoreCommandError: when a non-zero exit status occurs
"""
iface = self.get_iface(iface_id)
iface.remove_ip(ip)
if self.up:
self.node_net_client.delete_address(iface.name, ip)
def ifup(self, iface_id: int) -> None:
"""
Bring an interface up.
:param iface_id: index of interface to bring up
:return: nothing
"""
if self.up:
iface = self.get_iface(iface_id)
self.node_net_client.device_up(iface.name)
def new_iface(
self, net: "CoreNetworkBase", iface_data: InterfaceData
) -> CoreInterface:
"""
Create a new network interface.
:param net: network to associate with
:param iface_data: interface data for new interface
:return: interface index
"""
with self.lock:
if net.has_custom_iface:
return net.custom_iface(self, iface_data)
else:
iface_id = iface_data.id
if iface_id is not None and iface_id in self.ifaces:
raise CoreError(
f"node({self.name}) already has interface({iface_id})"
)
iface_id = self.newveth(iface_id, iface_data.name, iface_data.mtu)
self.attachnet(iface_id, net)
if iface_data.mac:
self.set_mac(iface_id, iface_data.mac)
for ip in iface_data.get_ips():
self.add_ip(iface_id, ip)
self.ifup(iface_id)
return self.get_iface(iface_id)
def _find_parent_path(self, path: Path) -> Optional[Path]:
"""
Check if there is a mounted parent directory created for this node.
@ -910,6 +749,49 @@ class CoreNode(CoreNodeBase):
if mode is not None:
self.host_cmd(f"chmod {mode:o} {host_path}")
def adopt_iface(self, iface: CoreInterface, name: str) -> None:
"""
Adopt interface to the network namespace of the node and setting
the proper name provided.
:param iface: interface to adopt
:param name: proper name for interface
:return: nothing
"""
# TODO: container, checksums off (container only?)
# TODO: container, get flow id (container only?)
# validate iface belongs to node and get id
iface_id = self.get_iface_id(iface)
if iface_id == -1:
raise CoreError(f"adopting unknown iface({iface.name})")
# add iface to container namespace
self.net_client.device_ns(iface.name, str(self.pid))
# use default iface name for container, if a unique name was not provided
if iface.name == name:
name = f"eth{iface_id}"
self.node_net_client.device_name(iface.name, name)
iface.name = name
# turn checksums off
self.node_net_client.checksums_off(iface.name)
# retrieve flow id for container
iface.flow_id = self.node_net_client.get_ifindex(iface.name)
logger.debug("interface flow index: %s - %s", iface.name, iface.flow_id)
# set mac address
if iface.mac:
self.node_net_client.device_mac(iface.name, str(iface.mac))
logger.debug("interface mac: %s - %s", iface.name, iface.mac)
# set all addresses
for ip in iface.ips():
# ipv4 check
broadcast = None
if netaddr.valid_ipv4(ip):
broadcast = "+"
self.node_net_client.create_address(iface.name, str(ip), broadcast)
# configure iface options
iface.set_config()
# set iface up
self.node_net_client.device_up(iface.name)
class CoreNetworkBase(NodeBase):
"""
@ -917,7 +799,6 @@ class CoreNetworkBase(NodeBase):
"""
linktype: LinkTypes = LinkTypes.WIRED
has_custom_iface: bool = False
def __init__(
self,
@ -941,57 +822,6 @@ class CoreNetworkBase(NodeBase):
self.linked: Dict[CoreInterface, Dict[CoreInterface, bool]] = {}
self.linked_lock: threading.Lock = threading.Lock()
@abc.abstractmethod
def startup(self) -> None:
"""
Each object implements its own startup method.
:return: nothing
"""
raise NotImplementedError
@abc.abstractmethod
def shutdown(self) -> None:
"""
Each object implements its own shutdown method.
:return: nothing
"""
raise NotImplementedError
@abc.abstractmethod
def linknet(self, net: "CoreNetworkBase") -> CoreInterface:
"""
Link network to another.
:param net: network to link with
:return: created interface
"""
raise NotImplementedError
@abc.abstractmethod
def custom_iface(self, node: CoreNode, iface_data: InterfaceData) -> CoreInterface:
"""
Defines custom logic for creating an interface, if required.
:param node: node to create interface for
:param iface_data: data for creating interface
:return: created interface
"""
raise NotImplementedError
def get_linked_iface(self, net: "CoreNetworkBase") -> Optional[CoreInterface]:
"""
Return the interface that links this net with another net.
:param net: interface to get link for
:return: interface the provided network is linked to
"""
for iface in self.get_ifaces():
if iface.othernet == net:
return iface
return None
def attach(self, iface: CoreInterface) -> None:
"""
Attach network interface.
@ -999,9 +829,10 @@ class CoreNetworkBase(NodeBase):
:param iface: network interface to attach
:return: nothing
"""
i = self.next_iface_id()
self.ifaces[i] = iface
iface.net_id = i
iface_id = self.next_iface_id()
self.ifaces[iface_id] = iface
iface.net = self
iface.net_id = iface_id
with self.linked_lock:
self.linked[iface] = {}
@ -1013,56 +844,11 @@ class CoreNetworkBase(NodeBase):
:return: nothing
"""
del self.ifaces[iface.net_id]
iface.net = None
iface.net_id = None
with self.linked_lock:
del self.linked[iface]
def links(self, flags: MessageFlags = MessageFlags.NONE) -> List[LinkData]:
"""
Build link data objects for this network. Each link object describes a link
between this network and a node.
:param flags: message type
:return: list of link data
"""
all_links = []
# build a link message from this network node to each node having a
# connected interface
for iface in self.get_ifaces():
unidirectional = 0
linked_node = iface.node
if linked_node is None:
# two layer-2 switches/hubs linked together
if not iface.othernet:
continue
linked_node = iface.othernet
if linked_node.id == self.id:
continue
if iface.local_options != iface.options:
unidirectional = 1
iface_data = iface.get_data()
link_data = LinkData(
message_type=flags,
type=self.linktype,
node1_id=self.id,
node2_id=linked_node.id,
iface2=iface_data,
options=iface.local_options,
)
link_data.options.unidirectional = unidirectional
all_links.append(link_data)
if unidirectional:
link_data = LinkData(
message_type=MessageFlags.NONE,
type=self.linktype,
node1_id=linked_node.id,
node2_id=self.id,
options=iface.options,
)
link_data.options.unidirectional = unidirectional
all_links.append(link_data)
return all_links
class Position:
"""

View file

@ -93,10 +93,9 @@ class DockerNode(CoreNode):
will run on, default is None for localhost
:param image: image to start container with
"""
if image is None:
image = "ubuntu"
self.image: str = image
super().__init__(session, _id, name, directory, server)
self.image = image if image is not None else "ubuntu"
self.client: Optional[DockerClient] = None
def create_node_net_client(self, use_ovs: bool) -> LinuxNetClient:
"""
@ -141,7 +140,6 @@ class DockerNode(CoreNode):
# nothing to do if node is not up
if not self.up:
return
with self.lock:
self.ifaces.clear()
self.client.stop_container()

View file

@ -4,7 +4,6 @@ virtual ethernet classes that implement the interfaces available under Linux.
import logging
import math
import time
from pathlib import Path
from typing import TYPE_CHECKING, Callable, Dict, List, Optional
@ -20,11 +19,12 @@ from core.nodes.netclient import LinuxNetClient, get_net_client
logger = logging.getLogger(__name__)
if TYPE_CHECKING:
from core.emulator.distributed import DistributedServer
from core.emulator.session import Session
from core.nodes.base import CoreNetworkBase, CoreNode
from core.emulator.distributed import DistributedServer
from core.nodes.base import CoreNetworkBase, CoreNode, NodeBase
DEFAULT_MTU: int = 1500
IFACE_NAME_LENGTH: int = 15
def tc_clear_cmd(name: str) -> str:
@ -78,35 +78,42 @@ class CoreInterface:
def __init__(
self,
session: "Session",
_id: int,
name: str,
localname: str,
use_ovs: bool,
mtu: int = DEFAULT_MTU,
node: "NodeBase" = None,
server: "DistributedServer" = None,
node: "CoreNode" = None,
) -> None:
"""
Creates a CoreInterface instance.
:param session: core session instance
:param _id: interface id for associated node
:param name: interface name
:param localname: interface local name
:param use_ovs: True to use ovs, False otherwise
:param mtu: mtu value
:param node: node associated with this interface
:param server: remote server node will run on, default is None for localhost
:param node: node for interface
"""
if len(name) >= 16:
raise CoreError(f"interface name ({name}) too long, max 16")
if len(localname) >= 16:
raise CoreError(f"interface local name ({localname}) too long, max 16")
self.session: "Session" = session
self.node: Optional["CoreNode"] = node
if len(name) >= IFACE_NAME_LENGTH:
raise CoreError(
f"interface name ({name}) too long, max {IFACE_NAME_LENGTH}"
)
if len(localname) >= IFACE_NAME_LENGTH:
raise CoreError(
f"interface local name ({localname}) too long, max {IFACE_NAME_LENGTH}"
)
self.id: int = _id
self.node: Optional["NodeBase"] = node
# id of interface for network, used by wlan/emane
self.net_id: Optional[int] = None
self.name: str = name
self.localname: str = localname
self.up: bool = False
self.mtu: int = mtu
self.net: Optional[CoreNetworkBase] = None
self.othernet: Optional[CoreNetworkBase] = None
self.ip4s: List[netaddr.IPNetwork] = []
self.ip6s: List[netaddr.IPNetwork] = []
self.mac: Optional[netaddr.EUI] = None
@ -114,20 +121,12 @@ class CoreInterface:
self.poshook: Callable[[CoreInterface], None] = lambda x: None
# used with EMANE
self.transport_type: TransportType = TransportType.VIRTUAL
# id of interface for node
self.node_id: Optional[int] = None
# id of interface for network
self.net_id: Optional[int] = None
# id used to find flow data
self.flow_id: Optional[int] = None
self.server: Optional["DistributedServer"] = server
self.net_client: LinuxNetClient = get_net_client(
self.session.use_ovs(), self.host_cmd
)
self.net_client: LinuxNetClient = get_net_client(use_ovs, self.host_cmd)
self.control: bool = False
# configuration data
self.has_local_netem: bool = False
self.local_options: LinkOptions = LinkOptions()
self.has_netem: bool = False
self.options: LinkOptions = LinkOptions()
@ -161,7 +160,13 @@ class CoreInterface:
:return: nothing
"""
pass
self.net_client.create_veth(self.localname, self.name)
if self.mtu > 0:
self.net_client.set_mtu(self.name, self.mtu)
self.net_client.set_mtu(self.localname, self.mtu)
self.net_client.device_up(self.name)
self.net_client.device_up(self.localname)
self.up = True
def shutdown(self) -> None:
"""
@ -169,29 +174,14 @@ class CoreInterface:
:return: nothing
"""
pass
def attachnet(self, net: "CoreNetworkBase") -> None:
"""
Attach network.
:param net: network to attach
:return: nothing
"""
if self.net:
self.detachnet()
self.net = None
net.attach(self)
self.net = net
def detachnet(self) -> None:
"""
Detach from a network.
:return: nothing
"""
if self.net is not None:
self.net.detach(self)
if not self.up:
return
if self.localname:
try:
self.net_client.delete_device(self.localname)
except CoreCommandError:
pass
self.up = False
def add_ip(self, ip: str) -> None:
"""
@ -303,41 +293,24 @@ class CoreInterface:
"""
return self.transport_type == TransportType.VIRTUAL
def config(self, options: LinkOptions, use_local: bool = True) -> None:
"""
Configure interface using tc based on existing state and provided
link options.
:param options: options to configure with
:param use_local: True to use localname for device, False for name
:return: nothing
"""
# determine name, options, and if anything has changed
name = self.localname if use_local else self.name
current_options = self.local_options if use_local else self.options
changed = current_options.update(options)
# nothing more to do when nothing has changed or not up
if not changed or not self.up:
return
def set_config(self) -> None:
# clear current settings
if current_options.is_clear():
clear_local_netem = use_local and self.has_local_netem
clear_netem = not use_local and self.has_netem
if clear_local_netem or clear_netem:
cmd = tc_clear_cmd(name)
self.host_cmd(cmd)
if use_local:
self.has_local_netem = False
if self.options.is_clear():
if self.has_netem:
cmd = tc_clear_cmd(self.name)
if self.node:
self.node.cmd(cmd)
else:
self.has_netem = False
self.host_cmd(cmd)
self.has_netem = False
# set updated settings
else:
cmd = tc_cmd(name, current_options, self.mtu)
self.host_cmd(cmd)
if use_local:
self.has_local_netem = True
cmd = tc_cmd(self.name, self.options, self.mtu)
if self.node:
self.node.cmd(cmd)
else:
self.has_netem = True
self.host_cmd(cmd)
self.has_netem = True
def get_data(self) -> InterfaceData:
"""
@ -345,231 +318,22 @@ class CoreInterface:
:return: interface data
"""
if self.node:
iface_id = self.node.get_iface_id(self)
else:
iface_id = self.othernet.get_iface_id(self)
data = InterfaceData(
id=iface_id, name=self.name, mac=str(self.mac) if self.mac else None
)
ip4 = self.get_ip4()
if ip4:
data.ip4 = str(ip4.ip)
data.ip4_mask = ip4.prefixlen
ip4_addr = str(ip4.ip) if ip4 else None
ip4_mask = ip4.prefixlen if ip4 else None
ip6 = self.get_ip6()
if ip6:
data.ip6 = str(ip6.ip)
data.ip6_mask = ip6.prefixlen
return data
class Veth(CoreInterface):
"""
Provides virtual ethernet functionality for core nodes.
"""
def adopt_node(self, iface_id: int, name: str, start: bool) -> None:
"""
Adopt this interface to the provided node, configuring and associating
with the node as needed.
:param iface_id: interface id for node
:param name: name of interface fo rnode
:param start: True to start interface, False otherwise
:return: nothing
"""
if start:
self.startup()
self.net_client.device_ns(self.name, str(self.node.pid))
self.node.node_net_client.checksums_off(self.name)
self.flow_id = self.node.node_net_client.get_ifindex(self.name)
logger.debug("interface flow index: %s - %s", self.name, self.flow_id)
mac = self.node.node_net_client.get_mac(self.name)
logger.debug("interface mac: %s - %s", self.name, mac)
self.set_mac(mac)
self.node.node_net_client.device_name(self.name, name)
self.name = name
try:
self.node.add_iface(self, iface_id)
except CoreError as e:
self.shutdown()
raise e
def startup(self) -> None:
"""
Interface startup logic.
:return: nothing
:raises CoreCommandError: when there is a command exception
"""
self.net_client.create_veth(self.localname, self.name)
if self.mtu > 0:
self.net_client.set_mtu(self.name, self.mtu)
self.net_client.set_mtu(self.localname, self.mtu)
self.net_client.device_up(self.localname)
self.up = True
def shutdown(self) -> None:
"""
Interface shutdown logic.
:return: nothing
"""
if not self.up:
return
if self.node:
try:
self.node.node_net_client.device_flush(self.name)
except CoreCommandError:
pass
if self.localname:
try:
self.net_client.delete_device(self.localname)
except CoreCommandError:
pass
self.up = False
class TunTap(CoreInterface):
"""
TUN/TAP virtual device in TAP mode
"""
def startup(self) -> None:
"""
Startup logic for a tunnel tap.
:return: nothing
"""
# TODO: more sophisticated TAP creation here
# Debian does not support -p (tap) option, RedHat does.
# For now, this is disabled to allow the TAP to be created by another
# system (e.g. EMANE"s emanetransportd)
# check_call(["tunctl", "-t", self.name])
# self.install()
self.up = True
def shutdown(self) -> None:
"""
Shutdown functionality for a tunnel tap.
:return: nothing
"""
if not self.up:
return
try:
self.node.node_net_client.device_flush(self.name)
except CoreCommandError:
logger.exception("error shutting down tunnel tap")
self.up = False
def waitfor(
self, func: Callable[[], int], attempts: int = 10, maxretrydelay: float = 0.25
) -> bool:
"""
Wait for func() to return zero with exponential backoff.
:param func: function to wait for a result of zero
:param attempts: number of attempts to wait for a zero result
:param maxretrydelay: maximum retry delay
:return: True if wait succeeded, False otherwise
"""
delay = 0.01
result = False
for i in range(1, attempts + 1):
r = func()
if r == 0:
result = True
break
msg = f"attempt {i} failed with nonzero exit status {r}"
if i < attempts + 1:
msg += ", retrying..."
logger.info(msg)
time.sleep(delay)
delay += delay
if delay > maxretrydelay:
delay = maxretrydelay
else:
msg += ", giving up"
logger.info(msg)
return result
def waitfordevicelocal(self) -> None:
"""
Check for presence of a local device - tap device may not
appear right away waits
:return: wait for device local response
"""
logger.debug("waiting for device local: %s", self.localname)
def localdevexists():
try:
self.net_client.device_show(self.localname)
return 0
except CoreCommandError:
return 1
self.waitfor(localdevexists)
def waitfordevicenode(self) -> None:
"""
Check for presence of a node device - tap device may not appear right away waits.
:return: nothing
"""
logger.debug("waiting for device node: %s", self.name)
def nodedevexists():
try:
self.node.node_net_client.device_show(self.name)
return 0
except CoreCommandError:
return 1
count = 0
while True:
result = self.waitfor(nodedevexists)
if result:
break
# TODO: emane specific code
# check if this is an EMANE interface; if so, continue
# waiting if EMANE is still running
should_retry = count < 5
is_emane = self.session.emane.is_emane_net(self.net)
is_emane_running = self.session.emane.emanerunning(self.node)
if all([should_retry, is_emane, is_emane_running]):
count += 1
else:
raise RuntimeError("node device failed to exist")
def install(self) -> None:
"""
Install this TAP into its namespace. This is not done from the
startup() method but called at a later time when a userspace
program (running on the host) has had a chance to open the socket
end of the TAP.
:return: nothing
:raises CoreCommandError: when there is a command exception
"""
self.waitfordevicelocal()
netns = str(self.node.pid)
self.net_client.device_ns(self.localname, netns)
self.node.node_net_client.device_name(self.localname, self.name)
self.node.node_net_client.device_up(self.name)
def set_ips(self) -> None:
"""
Set interface ip addresses.
:return: nothing
"""
self.waitfordevicenode()
for ip in self.ips():
self.node.node_net_client.create_address(self.name, str(ip))
ip6_addr = str(ip6.ip) if ip6 else None
ip6_mask = ip6.prefixlen if ip6 else None
mac = str(self.mac) if self.mac else None
return InterfaceData(
id=self.id,
name=self.name,
mac=mac,
ip4=ip4_addr,
ip4_mask=ip4_mask,
ip6=ip6_addr,
ip6_mask=ip6_mask,
)
class GreTap(CoreInterface):
@ -594,7 +358,7 @@ class GreTap(CoreInterface):
"""
Creates a GreTap instance.
:param session: core session instance
:param session: session for this gre tap
:param remoteip: remote address
:param key: gre tap key
:param node: related core node
@ -612,7 +376,7 @@ class GreTap(CoreInterface):
sessionid = session.short_session_id()
localname = f"gt.{self.id}.{sessionid}"
name = f"{localname}p"
super().__init__(session, name, localname, mtu, server, node)
super().__init__(0, name, localname, session.use_ovs(), mtu, node, server)
self.transport_type: TransportType = TransportType.RAW
self.remote_ip: str = remoteip
self.ttl: int = ttl

View file

@ -6,6 +6,7 @@ from tempfile import NamedTemporaryFile
from typing import TYPE_CHECKING, Callable, Dict, Optional
from core import utils
from core.emulator.data import InterfaceData, LinkOptions
from core.emulator.distributed import DistributedServer
from core.emulator.enumerations import NodeTypes
from core.errors import CoreCommandError
@ -89,10 +90,9 @@ class LxcNode(CoreNode):
will run on, default is None for localhost
:param image: image to start container with
"""
if image is None:
image = "ubuntu"
self.image: str = image
super().__init__(session, _id, name, directory, server)
self.image: str = image if image is not None else "ubuntu"
self.client: Optional[LxdClient] = None
def alive(self) -> bool:
"""
@ -125,7 +125,6 @@ class LxcNode(CoreNode):
# nothing to do if node is not up
if not self.up:
return
with self.lock:
self.ifaces.clear()
self.client.stop_container()
@ -212,7 +211,10 @@ class LxcNode(CoreNode):
if mode is not None:
self.cmd(f"chmod {mode:o} {dst_path}")
def add_iface(self, iface: CoreInterface, iface_id: int) -> None:
super().add_iface(iface, iface_id)
def create_iface(
self, iface_data: InterfaceData = None, options: LinkOptions = None
) -> CoreInterface:
iface = super().create_iface(iface_data, options)
# adding small delay to allow time for adding addresses to work correctly
time.sleep(0.5)
return iface

View file

@ -22,8 +22,8 @@ from core.emulator.enumerations import (
)
from core.errors import CoreCommandError, CoreError
from core.executables import NFTABLES
from core.nodes.base import CoreNetworkBase, CoreNode
from core.nodes.interface import CoreInterface, GreTap, Veth
from core.nodes.base import CoreNetworkBase
from core.nodes.interface import CoreInterface, GreTap
from core.nodes.netclient import get_net_client
logger = logging.getLogger(__name__)
@ -222,7 +222,7 @@ class CoreNetwork(CoreNetworkBase):
policy: NetworkPolicy = None,
) -> None:
"""
Creates a LxBrNet instance.
Creates a CoreNetwork instance.
:param session: core session instance
:param _id: object id
@ -280,6 +280,17 @@ class CoreNetwork(CoreNetworkBase):
self.up = True
nft_queue.start()
def adopt_iface(self, iface: CoreInterface, name: str) -> None:
"""
Adopt interface and set it to use this bridge as master.
:param iface: interface to adpopt
:param name: formal name for interface
:return: nothing
"""
iface.net_client.set_iface_master(self.brname, iface.name)
iface.set_config()
def shutdown(self) -> None:
"""
Linux bridge shutdown logic.
@ -309,9 +320,9 @@ class CoreNetwork(CoreNetworkBase):
:param iface: network interface to attach
:return: nothing
"""
super().attach(iface)
if self.up:
iface.net_client.set_iface_master(self.brname, iface.localname)
super().attach(iface)
def detach(self, iface: CoreInterface) -> None:
"""
@ -320,9 +331,9 @@ class CoreNetwork(CoreNetworkBase):
:param iface: network interface to detach
:return: nothing
"""
super().detach(iface)
if self.up:
iface.net_client.delete_iface(self.brname, iface.localname)
super().detach(iface)
def is_linked(self, iface1: CoreInterface, iface2: CoreInterface) -> bool:
"""
@ -378,67 +389,6 @@ class CoreNetwork(CoreNetworkBase):
self.linked[iface1][iface2] = True
nft_queue.update(self)
def linknet(self, net: CoreNetworkBase) -> CoreInterface:
"""
Link this bridge with another by creating a veth pair and installing
each device into each bridge.
:param net: network to link with
:return: created interface
"""
sessionid = self.session.short_session_id()
try:
_id = f"{self.id:x}"
except TypeError:
_id = str(self.id)
try:
net_id = f"{net.id:x}"
except TypeError:
net_id = str(net.id)
localname = f"veth{_id}.{net_id}.{sessionid}"
name = f"veth{net_id}.{_id}.{sessionid}"
iface = Veth(self.session, name, localname)
if self.up:
iface.startup()
self.attach(iface)
if net.up and net.brname:
iface.net_client.set_iface_master(net.brname, iface.name)
i = net.next_iface_id()
net.ifaces[i] = iface
with net.linked_lock:
net.linked[iface] = {}
iface.net = self
iface.othernet = net
return iface
def get_linked_iface(self, net: CoreNetworkBase) -> Optional[CoreInterface]:
"""
Return the interface of that links this net with another net
(that were linked using linknet()).
:param net: interface to get link for
:return: interface the provided network is linked to
"""
for iface in self.get_ifaces():
if iface.othernet == net:
return iface
return None
def add_ips(self, ips: List[str]) -> None:
"""
Add ip addresses on the bridge in the format "10.0.0.1/24".
:param ips: ip address to add
:return: nothing
"""
if not self.up:
return
for ip in ips:
self.net_client.create_address(self.brname, ip)
def custom_iface(self, node: CoreNode, iface_data: InterfaceData) -> CoreInterface:
raise CoreError(f"{type(self).__name__} does not support, custom interfaces")
class GreTapBridge(CoreNetwork):
"""
@ -686,15 +636,6 @@ class CtrlNet(CoreNetwork):
super().shutdown()
def links(self, flags: MessageFlags = MessageFlags.NONE) -> List[LinkData]:
"""
Do not include CtrlNet in link messages describing this session.
:param flags: message flags
:return: list of link data
"""
return []
class PtpNet(CoreNetwork):
"""
@ -714,50 +655,6 @@ class PtpNet(CoreNetwork):
raise CoreError("ptp links support at most 2 network interfaces")
super().attach(iface)
def links(self, flags: MessageFlags = MessageFlags.NONE) -> List[LinkData]:
"""
Build CORE API TLVs for a point-to-point link. One Link message
describes this network.
:param flags: message flags
:return: list of link data
"""
all_links = []
if len(self.ifaces) != 2:
return all_links
ifaces = self.get_ifaces()
iface1 = ifaces[0]
iface2 = ifaces[1]
unidirectional = 0 if iface1.local_options == iface2.local_options else 1
iface1_data = iface1.get_data()
iface2_data = iface2.get_data()
link_data = LinkData(
message_type=flags,
type=self.linktype,
node1_id=iface1.node.id,
node2_id=iface2.node.id,
iface1=iface1_data,
iface2=iface2_data,
options=iface1.local_options,
)
link_data.options.unidirectional = unidirectional
all_links.append(link_data)
# build a 2nd link message for the upstream link parameters
# (swap if1 and if2)
if unidirectional:
link_data = LinkData(
message_type=MessageFlags.NONE,
type=self.linktype,
node1_id=iface2.node.id,
node2_id=iface1.node.id,
iface1=InterfaceData(id=iface2_data.id),
iface2=InterfaceData(id=iface1_data.id),
options=iface2.local_options,
)
link_data.options.unidirectional = unidirectional
all_links.append(link_data)
return all_links
class SwitchNode(CoreNetwork):
"""
@ -884,10 +781,10 @@ class WlanNode(CoreNetwork):
:param flags: message flags
:return: list of link data
"""
links = super().links(flags)
if self.model:
links.extend(self.model.links(flags))
return links
return self.model.links(flags)
else:
return []
class TunnelNode(GreTapBridge):

View file

@ -3,17 +3,18 @@ PhysicalNode class for including real systems in the emulated network.
"""
import logging
import threading
from pathlib import Path
from typing import TYPE_CHECKING, List, Optional, Tuple
from core.emulator.data import InterfaceData
import netaddr
from core.emulator.data import InterfaceData, LinkOptions
from core.emulator.distributed import DistributedServer
from core.emulator.enumerations import NodeTypes, TransportType
from core.errors import CoreCommandError, CoreError
from core.executables import MOUNT, TEST, UMOUNT
from core.nodes.base import CoreNetworkBase, CoreNodeBase
from core.nodes.interface import DEFAULT_MTU, CoreInterface
from core.executables import BASH, TEST, UMOUNT
from core.nodes.base import CoreNode, CoreNodeBase
from core.nodes.interface import CoreInterface
logger = logging.getLogger(__name__)
@ -21,185 +22,6 @@ if TYPE_CHECKING:
from core.emulator.session import Session
class PhysicalNode(CoreNodeBase):
def __init__(
self,
session: "Session",
_id: int = None,
name: str = None,
directory: Path = None,
server: DistributedServer = None,
) -> None:
super().__init__(session, _id, name, server)
if not self.server:
raise CoreError("physical nodes must be assigned to a remote server")
self.directory: Optional[Path] = directory
self.lock: threading.RLock = threading.RLock()
self._mounts: List[Tuple[Path, Path]] = []
def startup(self) -> None:
with self.lock:
self.makenodedir()
self.up = True
def shutdown(self) -> None:
if not self.up:
return
with self.lock:
while self._mounts:
_, target_path = self._mounts.pop(-1)
self.umount(target_path)
for iface in self.get_ifaces():
iface.shutdown()
self.rmnodedir()
def path_exists(self, path: str) -> bool:
"""
Determines if a file or directory path exists.
:param path: path to file or directory
:return: True if path exists, False otherwise
"""
try:
self.host_cmd(f"{TEST} -e {path}")
return True
except CoreCommandError:
return False
def termcmdstring(self, sh: str = "/bin/sh") -> str:
"""
Create a terminal command string.
:param sh: shell to execute command in
:return: str
"""
return sh
def set_mac(self, iface_id: int, mac: str) -> None:
"""
Set mac address for an interface.
:param iface_id: index of interface to set hardware address for
:param mac: mac address to set
:return: nothing
:raises CoreCommandError: when a non-zero exit status occurs
"""
iface = self.get_iface(iface_id)
iface.set_mac(mac)
if self.up:
self.net_client.device_mac(iface.name, str(iface.mac))
def add_ip(self, iface_id: int, ip: str) -> None:
"""
Add an ip address to an interface in the format "10.0.0.1/24".
:param iface_id: id of interface to add address to
:param ip: address to add to interface
:return: nothing
:raises CoreError: when ip address provided is invalid
:raises CoreCommandError: when a non-zero exit status occurs
"""
iface = self.get_iface(iface_id)
iface.add_ip(ip)
if self.up:
self.net_client.create_address(iface.name, ip)
def remove_ip(self, iface_id: int, ip: str) -> None:
"""
Remove an ip address from an interface in the format "10.0.0.1/24".
:param iface_id: id of interface to delete address from
:param ip: ip address to remove from interface
:return: nothing
:raises CoreError: when ip address provided is invalid
:raises CoreCommandError: when a non-zero exit status occurs
"""
iface = self.get_iface(iface_id)
iface.remove_ip(ip)
if self.up:
self.net_client.delete_address(iface.name, ip)
def adopt_iface(
self, iface: CoreInterface, iface_id: int, mac: str, ips: List[str]
) -> None:
"""
When a link message is received linking this node to another part of
the emulation, no new interface is created; instead, adopt the
GreTap interface as the node interface.
"""
iface.name = f"gt{iface_id}"
iface.node = self
self.add_iface(iface, iface_id)
# use a more reasonable name, e.g. "gt0" instead of "gt.56286.150"
if self.up:
self.net_client.device_down(iface.localname)
self.net_client.device_name(iface.localname, iface.name)
iface.localname = iface.name
if mac:
self.set_mac(iface_id, mac)
for ip in ips:
self.add_ip(iface_id, ip)
if self.up:
self.net_client.device_up(iface.localname)
def next_iface_id(self) -> int:
with self.lock:
while self.iface_id in self.ifaces:
self.iface_id += 1
iface_id = self.iface_id
self.iface_id += 1
return iface_id
def new_iface(
self, net: CoreNetworkBase, iface_data: InterfaceData
) -> CoreInterface:
logger.info("creating interface")
ips = iface_data.get_ips()
iface_id = iface_data.id
if iface_id is None:
iface_id = self.next_iface_id()
name = iface_data.name
if name is None:
name = f"gt{iface_id}"
_, remote_tap = self.session.distributed.create_gre_tunnel(
net, self.server, iface_data.mtu, self.up
)
self.adopt_iface(remote_tap, iface_id, iface_data.mac, ips)
return remote_tap
def privatedir(self, dir_path: Path) -> None:
if not str(dir_path).startswith("/"):
raise CoreError(f"private directory path not fully qualified: {dir_path}")
host_path = self.host_path(dir_path, is_dir=True)
self.host_cmd(f"mkdir -p {host_path}")
self.mount(host_path, dir_path)
def mount(self, src_path: Path, target_path: Path) -> None:
logger.debug("node(%s) mounting: %s at %s", self.name, src_path, target_path)
self.cmd(f"mkdir -p {target_path}")
self.host_cmd(f"{MOUNT} --bind {src_path} {target_path}", cwd=self.directory)
self._mounts.append((src_path, target_path))
def umount(self, target_path: Path) -> None:
logger.info("unmounting '%s'", target_path)
try:
self.host_cmd(f"{UMOUNT} -l {target_path}", cwd=self.directory)
except CoreCommandError:
logger.exception("unmounting failed for %s", target_path)
def cmd(self, args: str, wait: bool = True, shell: bool = False) -> str:
return self.host_cmd(args, wait=wait)
def create_dir(self, dir_path: Path) -> None:
raise CoreError("physical node does not support creating directories")
def create_file(self, file_path: Path, contents: str, mode: int = 0o644) -> None:
raise CoreError("physical node does not support creating files")
def copy_file(self, src_path: Path, dst_path: Path, mode: int = None) -> None:
raise CoreError("physical node does not support copying files")
class Rj45Node(CoreNodeBase):
"""
RJ45Node is a physical interface on the host linked to the emulated
@ -214,7 +36,6 @@ class Rj45Node(CoreNodeBase):
session: "Session",
_id: int = None,
name: str = None,
mtu: int = DEFAULT_MTU,
server: DistributedServer = None,
) -> None:
"""
@ -223,17 +44,14 @@ class Rj45Node(CoreNodeBase):
:param session: core session instance
:param _id: node id
:param name: node name
:param mtu: rj45 mtu
:param server: remote server node
will run on, default is None for localhost
"""
super().__init__(session, _id, name, server)
self.iface: CoreInterface = CoreInterface(
session, name, name, mtu, server, self
self.iface_id, name, name, session.use_ovs(), node=self, server=server
)
self.iface.transport_type = TransportType.RAW
self.lock: threading.RLock = threading.RLock()
self.iface_id: Optional[int] = None
self.old_up: bool = False
self.old_addrs: List[Tuple[str, Optional[str]]] = []
@ -245,7 +63,7 @@ class Rj45Node(CoreNodeBase):
:raises CoreCommandError: when there is a command exception
"""
# interface will also be marked up during net.attach()
self.savestate()
self.save_state()
self.net_client.device_up(self.iface.localname)
self.up = True
@ -266,7 +84,7 @@ class Rj45Node(CoreNodeBase):
except CoreCommandError:
pass
self.up = False
self.restorestate()
self.restore_state()
def path_exists(self, path: str) -> bool:
"""
@ -281,33 +99,28 @@ class Rj45Node(CoreNodeBase):
except CoreCommandError:
return False
def new_iface(
self, net: CoreNetworkBase, iface_data: InterfaceData
def create_iface(
self, iface_data: InterfaceData = None, options: LinkOptions = None
) -> CoreInterface:
"""
This is called when linking with another node. Since this node
represents an interface, we do not create another object here,
but attach ourselves to the given network.
:param net: new network instance
:param iface_data: interface data for new interface
:return: interface index
:raises ValueError: when an interface has already been created, one max
"""
with self.lock:
iface_id = iface_data.id
if iface_id is None:
iface_id = 0
if self.iface.net is not None:
if self.iface.id in self.ifaces:
raise CoreError(
f"RJ45({self.name}) nodes support at most 1 network interface"
f"rj45({self.name}) nodes support at most 1 network interface"
)
self.ifaces[iface_id] = self.iface
self.iface_id = iface_id
self.iface.attachnet(net)
if iface_data and iface_data.mtu is not None:
self.iface.mtu = iface_data.mtu
self.iface.ip4s.clear()
self.iface.ip6s.clear()
for ip in iface_data.get_ips():
self.add_ip(ip)
return self.iface
self.iface.add_ip(ip)
self.ifaces[self.iface.id] = self.iface
if self.up:
for ip in self.iface.ips():
self.net_client.create_address(self.iface.name, str(ip))
return self.iface
def adopt_iface(self, iface: CoreInterface, name: str) -> None:
raise CoreError(f"rj45({self.name}) does not support adopt interface")
def delete_iface(self, iface_id: int) -> None:
"""
@ -318,16 +131,10 @@ class Rj45Node(CoreNodeBase):
"""
self.get_iface(iface_id)
self.ifaces.pop(iface_id)
if self.iface.net is None:
raise CoreError(
f"RJ45({self.name}) is not currently connected to a network"
)
self.iface.detachnet()
self.iface.net = None
self.shutdown()
def get_iface(self, iface_id: int) -> CoreInterface:
if iface_id != self.iface_id or iface_id not in self.ifaces:
if iface_id not in self.ifaces:
raise CoreError(f"node({self.name}) interface({iface_id}) does not exist")
return self.iface
@ -341,42 +148,17 @@ class Rj45Node(CoreNodeBase):
"""
if iface is not self.iface:
raise CoreError(f"node({self.name}) does not have interface({iface.name})")
return self.iface_id
return self.iface.id
def add_ip(self, ip: str) -> None:
"""
Add an ip address to an interface in the format "10.0.0.1/24".
:param ip: address to add to interface
:return: nothing
:raises CoreError: when ip address provided is invalid
:raises CoreCommandError: when a non-zero exit status occurs
"""
self.iface.add_ip(ip)
if self.up:
self.net_client.create_address(self.name, ip)
def remove_ip(self, ip: str) -> None:
"""
Remove an ip address from an interface in the format "10.0.0.1/24".
:param ip: ip address to remove from interface
:return: nothing
:raises CoreError: when ip address provided is invalid
:raises CoreCommandError: when a non-zero exit status occurs
"""
self.iface.remove_ip(ip)
if self.up:
self.net_client.delete_address(self.name, ip)
def savestate(self) -> None:
def save_state(self) -> None:
"""
Save the addresses and other interface state before using the
interface for emulation purposes. TODO: save/restore the PROMISC flag
interface for emulation purposes.
:return: nothing
:raises CoreCommandError: when there is a command exception
"""
# TODO: save/restore the PROMISC flag
self.old_up = False
self.old_addrs: List[Tuple[str, Optional[str]]] = []
localname = self.iface.localname
@ -397,7 +179,7 @@ class Rj45Node(CoreNodeBase):
self.old_addrs.append((items[1], None))
logger.info("saved rj45 state: addrs(%s) up(%s)", self.old_addrs, self.old_up)
def restorestate(self) -> None:
def restore_state(self) -> None:
"""
Restore the addresses and other interface state after using it.
@ -437,3 +219,69 @@ class Rj45Node(CoreNodeBase):
def copy_file(self, src_path: Path, dst_path: Path, mode: int = None) -> None:
raise CoreError("rj45 does not support copying files")
class PhysicalNode(CoreNode):
def __init__(
self,
session: "Session",
_id: int = None,
name: str = None,
directory: Path = None,
server: DistributedServer = None,
) -> None:
if not self.server:
raise CoreError("physical nodes must be assigned to a remote server")
super().__init__(session, _id, name, directory, server)
def startup(self) -> None:
with self.lock:
self.makenodedir()
self.up = True
def shutdown(self) -> None:
if not self.up:
return
with self.lock:
while self._mounts:
_, target_path = self._mounts.pop(-1)
self.umount(target_path)
for iface in self.get_ifaces():
iface.shutdown()
self.rmnodedir()
def _create_cmd(self, args: str, shell: bool = False) -> str:
if shell:
args = f'{BASH} -c "{args}"'
return args
def adopt_iface(self, iface: CoreInterface, name: str) -> None:
# validate iface belongs to node and get id
iface_id = self.get_iface_id(iface)
if iface_id == -1:
raise CoreError(f"adopting unknown iface({iface.name})")
# turn checksums off
self.node_net_client.checksums_off(iface.name)
# retrieve flow id for container
iface.flow_id = self.node_net_client.get_ifindex(iface.name)
logger.debug("interface flow index: %s - %s", iface.name, iface.flow_id)
if iface.mac:
self.net_client.device_mac(iface.name, str(iface.mac))
# set all addresses
for ip in iface.ips():
# ipv4 check
broadcast = None
if netaddr.valid_ipv4(ip):
broadcast = "+"
self.node_net_client.create_address(iface.name, str(ip), broadcast)
# configure iface options
iface.set_config()
# set iface up
self.net_client.device_up(iface.name)
def umount(self, target_path: Path) -> None:
logger.info("unmounting '%s'", target_path)
try:
self.host_cmd(f"{UMOUNT} -l {target_path}", cwd=self.directory)
except CoreCommandError:
logger.exception("unmounting failed for %s", target_path)

View file

@ -0,0 +1,240 @@
"""
Defines a wireless node that allows programmatic link connectivity and
configuration between pairs of nodes.
"""
import logging
import math
from dataclasses import dataclass
from typing import TYPE_CHECKING, Dict, Tuple
from core.emulator.data import LinkData, LinkOptions
from core.emulator.enumerations import LinkTypes, MessageFlags
from core.errors import CoreError
from core.executables import NFTABLES
from core.nodes.base import CoreNetworkBase
from core.nodes.interface import CoreInterface
if TYPE_CHECKING:
from core.emulator.session import Session
from core.emulator.distributed import DistributedServer
logger = logging.getLogger(__name__)
def calc_distance(
point1: Tuple[float, float, float], point2: Tuple[float, float, float]
) -> float:
a = point1[0] - point2[0]
b = point1[1] - point2[1]
c = 0
if point1[2] is not None and point2[2] is not None:
c = point1[2] - point2[2]
return math.hypot(math.hypot(a, b), c)
@dataclass
class WirelessLink:
bridge1: str
bridge2: str
iface: CoreInterface
class WirelessNode(CoreNetworkBase):
def __init__(
self,
session: "Session",
_id: int,
name: str,
server: "DistributedServer" = None,
):
super().__init__(session, _id, name, server)
self.bridges: Dict[int, Tuple[CoreInterface, str]] = {}
self.links: Dict[Tuple[int, int], WirelessLink] = {}
self.labels: Dict[Tuple[int, int], str] = {}
def startup(self) -> None:
if self.up:
return
self.up = True
def shutdown(self) -> None:
while self.bridges:
_, (_, bridge_name) = self.bridges.popitem()
self.net_client.delete_bridge(bridge_name)
self.host_cmd(f"{NFTABLES} delete table bridge {bridge_name}")
while self.links:
_, link = self.links.popitem()
link.iface.shutdown()
self.up = False
def attach(self, iface: CoreInterface) -> None:
super().attach(iface)
logging.info("attaching node(%s) iface(%s)", iface.node.name, iface.name)
if self.up:
# create node unique bridge
bridge_name = f"wb{iface.node.id}.{self.id}.{self.session.id}"
self.net_client.create_bridge(bridge_name)
# setup initial bridge rules
self.host_cmd(f'{NFTABLES} "add table bridge {bridge_name}"')
self.host_cmd(
f"{NFTABLES} "
f"'add chain bridge {bridge_name} forward {{type filter hook "
f"forward priority -1; policy drop;}}'"
)
self.host_cmd(
f"{NFTABLES} "
f"'add rule bridge {bridge_name} forward "
f"ibriport != {bridge_name} accept'"
)
# associate node iface with bridge
iface.net_client.set_iface_master(bridge_name, iface.localname)
# assign position callback
iface.poshook = self.position_callback
# save created bridge
self.bridges[iface.node.id] = (iface, bridge_name)
def post_startup(self) -> None:
routes = {}
for node_id, (iface, bridge_name) in self.bridges.items():
for onode_id, (oiface, obridge_name) in self.bridges.items():
if node_id == onode_id:
continue
if node_id < onode_id:
node1, node2 = iface.node, oiface.node
bridge1, bridge2 = bridge_name, obridge_name
else:
node1, node2 = oiface.node, iface.node
bridge1, bridge2 = obridge_name, bridge_name
key = (node1.id, node2.id)
if key in self.links:
continue
# create node to node link
session_id = self.session.short_session_id()
name1 = f"we{self.id}.{node1.id}.{node2.id}.{session_id}"
name2 = f"we{self.id}.{node2.id}.{node1.id}.{session_id}"
link_iface = CoreInterface(0, name1, name2, self.session.use_ovs())
link_iface.startup()
link = WirelessLink(bridge1, bridge2, link_iface)
self.links[key] = link
# assign ifaces to respective bridges
self.net_client.set_iface_master(bridge1, link_iface.name)
self.net_client.set_iface_master(bridge2, link_iface.localname)
# track bridge routes
node1_routes = routes.setdefault(node1.id, set())
node1_routes.add(name1)
node2_routes = routes.setdefault(node2.id, set())
node2_routes.add(name2)
# send link
self.send_link(node1.id, node2.id, MessageFlags.ADD)
for node_id, ifaces in routes.items():
iface, bridge_name = self.bridges[node_id]
ifaces = ",".join(ifaces)
# out routes
self.host_cmd(
f"{NFTABLES} "
f'"add rule bridge {bridge_name} forward '
f"iif {iface.localname} oif {{{ifaces}}} "
f'accept"'
)
# in routes
self.host_cmd(
f"{NFTABLES} "
f'"add rule bridge {bridge_name} forward '
f"iif {{{ifaces}}} oif {iface.localname} "
f'accept"'
)
def link_control(self, node1_id: int, node2_id: int, linked: bool) -> None:
key = (node1_id, node2_id) if node1_id < node2_id else (node2_id, node1_id)
link = self.links.get(key)
if not link:
raise CoreError(f"invalid node links node1({node1_id}) node2({node2_id})")
bridge1, bridge2 = link.bridge1, link.bridge2
iface = link.iface
if linked:
self.net_client.set_iface_master(bridge1, iface.name)
self.net_client.set_iface_master(bridge2, iface.localname)
message_type = MessageFlags.ADD
else:
self.net_client.delete_iface(bridge1, iface.name)
self.net_client.delete_iface(bridge2, iface.localname)
message_type = MessageFlags.DELETE
label = self.labels.get(key)
self.send_link(key[0], key[1], message_type, label)
def link_config(
self, node1_id: int, node2_id: int, options1: LinkOptions, options2: LinkOptions
) -> None:
key = (node1_id, node2_id) if node1_id < node2_id else (node2_id, node1_id)
link = self.links.get(key)
if not link:
raise CoreError(f"invalid node links node1({node1_id}) node2({node2_id})")
iface = link.iface
iface.options.update(options1)
iface.set_config()
name, localname = iface.name, iface.localname
iface.name, iface.localname = localname, name
iface.options.update(options2)
iface.set_config()
iface.name, iface.localname = name, localname
if options1 == options2:
if options1.is_clear():
label = ""
else:
label = f"{options1.loss:.2f}%/{options1.delay}us"
else:
label = (
f"({options1.loss:.2f}%/{options1.delay}us) "
f"({options2.loss:.2f}%/{options2.delay}us)"
)
self.labels[key] = label
self.send_link(key[0], key[1], MessageFlags.NONE, label)
def send_link(
self,
node1_id: int,
node2_id: int,
message_type: MessageFlags,
label: str = None,
) -> None:
"""
Broadcasts out a wireless link/unlink message.
:param node1_id: first node in link
:param node2_id: second node in link
:param message_type: type of link message to send
:param label: label to display for link
:return: nothing
"""
color = self.session.get_link_color(self.id)
link_data = LinkData(
message_type=message_type,
type=LinkTypes.WIRELESS,
node1_id=node1_id,
node2_id=node2_id,
network_id=self.id,
color=color,
label=label,
)
self.session.broadcast_link(link_data)
def position_callback(self, iface: CoreInterface) -> None:
for oiface, bridge_name in self.bridges.values():
if iface == oiface:
continue
point1 = iface.node.position.get()
point2 = oiface.node.position.get()
distance = calc_distance(point1, point2) - 250
distance = max(distance, 0.0)
logger.info(
"n1(%s) n2(%s) d(%s)", iface.node.name, oiface.node.name, distance
)
loss = min((distance / 500) * 100.0, 100.0)
node1_id = iface.node.id
node2_id = oiface.node.id
options = LinkOptions(loss=loss, delay=0)
self.link_config(node1_id, node2_id, options, options)
def adopt_iface(self, iface: CoreInterface, name: str) -> None:
raise CoreError(f"{type(self)} does not support adopt interface")

View file

@ -4,7 +4,7 @@ sdt.py: Scripted Display Tool (SDT3D) helper
import logging
import socket
from typing import IO, TYPE_CHECKING, Dict, List, Optional, Set, Tuple
from typing import TYPE_CHECKING, Dict, List, Optional, Set, Tuple
from urllib.parse import urlparse
from core.constants import CORE_CONF_DIR, CORE_DATA_DIR
@ -12,22 +12,15 @@ from core.emane.nodes import EmaneNet
from core.emulator.data import LinkData, NodeData
from core.emulator.enumerations import EventTypes, MessageFlags
from core.errors import CoreError
from core.nodes.base import CoreNetworkBase, NodeBase
from core.nodes.base import NodeBase
from core.nodes.network import WlanNode
from core.nodes.wireless import WirelessNode
logger = logging.getLogger(__name__)
if TYPE_CHECKING:
from core.emulator.session import Session
def get_link_id(node1_id: int, node2_id: int, network_id: int) -> str:
link_id = f"{node1_id}-{node2_id}"
if network_id is not None:
link_id = f"{link_id}-{network_id}"
return link_id
CORE_LAYER: str = "CORE"
NODE_LAYER: str = "CORE::Nodes"
LINK_LAYER: str = "CORE::Links"
@ -36,6 +29,17 @@ CORE_LAYERS: List[str] = [CORE_LAYER, LINK_LAYER, NODE_LAYER, WIRED_LINK_LAYER]
DEFAULT_LINK_COLOR: str = "red"
def is_wireless(node: NodeBase) -> bool:
return isinstance(node, (WlanNode, EmaneNet, WirelessNode))
def get_link_id(node1_id: int, node2_id: int, network_id: int) -> str:
link_id = f"{node1_id}-{node2_id}"
if network_id is not None:
link_id = f"{link_id}-{network_id}"
return link_id
class Sdt:
"""
Helper class for exporting session objects to NRL"s SDT3D.
@ -67,7 +71,7 @@ class Sdt:
:param session: session this manager is tied to
"""
self.session: "Session" = session
self.sock: Optional[IO] = None
self.sock: Optional[socket.socket] = None
self.connected: bool = False
self.url: str = self.DEFAULT_SDT_URL
self.address: Optional[Tuple[Optional[str], Optional[int]]] = None
@ -210,26 +214,23 @@ class Sdt:
:return: nothing
"""
nets = []
# create layers
for layer in CORE_LAYERS:
self.cmd(f"layer {layer}")
with self.session.nodes_lock:
for node_id in self.session.nodes:
node = self.session.nodes[node_id]
if isinstance(node, CoreNetworkBase):
nets = []
for node in self.session.nodes.values():
if isinstance(node, (EmaneNet, WlanNode)):
nets.append(node)
if not isinstance(node, NodeBase):
continue
self.add_node(node)
for link in self.session.link_manager.links():
if is_wireless(link.node1) or is_wireless(link.node2):
continue
link_data = link.get_data(MessageFlags.ADD)
self.handle_link_update(link_data)
for net in nets:
all_links = net.links(flags=MessageFlags.ADD)
for link_data in all_links:
is_wireless = isinstance(net, (WlanNode, EmaneNet))
if is_wireless and link_data.node1_id == net.id:
continue
for link_data in net.links(MessageFlags.ADD):
self.handle_link_update(link_data)
def get_node_position(self, node: NodeBase) -> Optional[str]:
@ -341,7 +342,7 @@ class Sdt:
result = False
try:
node = self.session.get_node(node_id, NodeBase)
result = isinstance(node, (WlanNode, EmaneNet))
result = isinstance(node, (WlanNode, EmaneNet, WirelessNode))
except CoreError:
pass
return result

View file

@ -109,114 +109,6 @@ class ServiceDependencies:
return self.boot_paths
class ServiceShim:
keys: List[str] = [
"dirs",
"files",
"startidx",
"cmdup",
"cmddown",
"cmdval",
"meta",
"starttime",
]
@classmethod
def tovaluelist(cls, node: CoreNode, service: "CoreService") -> str:
"""
Convert service properties into a string list of key=value pairs,
separated by "|".
:param node: node to get value list for
:param service: service to get value list for
:return: value list string
"""
start_time = 0
start_index = 0
valmap = [
service.dirs,
service.configs,
start_index,
service.startup,
service.shutdown,
service.validate,
service.meta,
start_time,
]
if not service.custom:
valmap[1] = service.get_configs(node)
valmap[3] = service.get_startup(node)
vals = ["%s=%s" % (x, y) for x, y in zip(cls.keys, valmap)]
return "|".join(vals)
@classmethod
def fromvaluelist(cls, service: "CoreService", values: List[str]) -> None:
"""
Convert list of values into properties for this instantiated
(customized) service.
:param service: service to get value list for
:param values: value list to set properties from
:return: nothing
"""
# TODO: support empty value? e.g. override default meta with ''
for key in cls.keys:
try:
cls.setvalue(service, key, values[cls.keys.index(key)])
except IndexError:
# old config does not need to have new keys
logger.exception("error indexing into key")
@classmethod
def setvalue(cls, service: "CoreService", key: str, value: str) -> None:
"""
Set values for this service.
:param service: service to get value list for
:param key: key to set value for
:param value: value of key to set
:return: nothing
"""
if key not in cls.keys:
raise ValueError("key `%s` not in `%s`" % (key, cls.keys))
# this handles data conversion to int, string, and tuples
if value:
if key == "startidx":
value = int(value)
elif key == "starttime":
value = float(value)
elif key == "meta":
value = str(value)
else:
value = utils.make_tuple_fromstr(value, str)
if key == "dirs":
service.dirs = value
elif key == "files":
service.configs = value
elif key == "cmdup":
service.startup = value
elif key == "cmddown":
service.shutdown = value
elif key == "cmdval":
service.validate = value
elif key == "meta":
service.meta = value
@classmethod
def servicesfromopaque(cls, opaque: str) -> List[str]:
"""
Build a list of services from an opaque data string.
:param opaque: opaque data string
:return: services
"""
servicesstring = opaque.split(":")
if servicesstring[0] != "service":
return []
return servicesstring[1].split(",")
class ServiceManager:
"""
Manages services available for CORE nodes to use.

View file

@ -7,15 +7,26 @@ from typing import Optional, Tuple
import netaddr
from core.emane.nodes import EmaneNet
from core.nodes.base import CoreNode
from core.nodes.base import CoreNode, NodeBase
from core.nodes.interface import DEFAULT_MTU, CoreInterface
from core.nodes.network import PtpNet, WlanNode
from core.nodes.physical import Rj45Node
from core.nodes.wireless import WirelessNode
from core.services.coreservices import CoreService
FRR_STATE_DIR: str = "/var/run/frr"
def is_wireless(node: NodeBase) -> bool:
"""
Check if the node is a wireless type node.
:param node: node to check type for
:return: True if wireless type, False otherwise
"""
return isinstance(node, (WlanNode, EmaneNet, WirelessNode))
class FRRZebra(CoreService):
name: str = "FRRzebra"
group: str = "FRR"
@ -593,7 +604,7 @@ class FRRBabel(FrrService):
@classmethod
def generate_frr_iface_config(cls, node: CoreNode, iface: CoreInterface) -> str:
if iface.net and isinstance(iface.net, (EmaneNet, WlanNode)):
if is_wireless(iface.net):
return " babel wireless\n no babel split-horizon\n"
else:
return " babel wired\n babel split-horizon\n"

View file

@ -7,15 +7,26 @@ import netaddr
from core.emane.nodes import EmaneNet
from core.emulator.enumerations import LinkTypes
from core.nodes.base import CoreNode
from core.nodes.base import CoreNode, NodeBase
from core.nodes.interface import DEFAULT_MTU, CoreInterface
from core.nodes.network import PtpNet, WlanNode
from core.nodes.physical import Rj45Node
from core.nodes.wireless import WirelessNode
from core.services.coreservices import CoreService
QUAGGA_STATE_DIR: str = "/var/run/quagga"
def is_wireless(node: NodeBase) -> bool:
"""
Check if the node is a wireless type node.
:param node: node to check type for
:return: True if wireless type, False otherwise
"""
return isinstance(node, (WlanNode, EmaneNet, WirelessNode))
class Zebra(CoreService):
name: str = "zebra"
group: str = "Quagga"
@ -431,7 +442,7 @@ class Ospfv3mdr(Ospfv3):
@classmethod
def generate_quagga_iface_config(cls, node: CoreNode, iface: CoreInterface) -> str:
cfg = cls.mtu_check(iface)
if iface.net is not None and isinstance(iface.net, (WlanNode, EmaneNet)):
if is_wireless(iface.net):
return (
cfg
+ """\

View file

@ -1,6 +1,6 @@
import logging
from pathlib import Path
from typing import TYPE_CHECKING, Any, Dict, Generic, List, Optional, Type, TypeVar
from typing import TYPE_CHECKING, Any, Dict, Generic, Optional, Type, TypeVar
from lxml import etree
@ -8,13 +8,15 @@ import core.nodes.base
import core.nodes.physical
from core import utils
from core.emane.nodes import EmaneNet
from core.emulator.data import InterfaceData, LinkData, LinkOptions, NodeOptions
from core.emulator.data import InterfaceData, LinkOptions, NodeOptions
from core.emulator.enumerations import EventTypes, NodeTypes
from core.errors import CoreXmlError
from core.nodes.base import CoreNodeBase, NodeBase
from core.nodes.docker import DockerNode
from core.nodes.interface import CoreInterface
from core.nodes.lxd import LxcNode
from core.nodes.network import CtrlNet, GreTapBridge, WlanNode
from core.nodes.wireless import WirelessNode
from core.services.coreservices import CoreService
logger = logging.getLogger(__name__)
@ -269,8 +271,8 @@ class CoreXmlWriter:
def write_session(self) -> None:
# generate xml content
links = self.write_nodes()
self.write_links(links)
self.write_nodes()
self.write_links()
self.write_mobility_configs()
self.write_emane_configs()
self.write_service_configs()
@ -449,8 +451,7 @@ class CoreXmlWriter:
if node_types.getchildren():
self.scenario.append(node_types)
def write_nodes(self) -> List[LinkData]:
links = []
def write_nodes(self) -> None:
for node_id in self.session.nodes:
node = self.session.nodes[node_id]
# network node
@ -464,10 +465,6 @@ class CoreXmlWriter:
elif isinstance(node, core.nodes.base.CoreNodeBase):
self.write_device(node)
# add known links
links.extend(node.links())
return links
def write_network(self, node: NodeBase) -> None:
# ignore p2p and other nodes that are not part of the api
if not node.apitype:
@ -476,15 +473,21 @@ class CoreXmlWriter:
network = NetworkElement(self.session, node)
self.networks.append(network.element)
def write_links(self, links: List[LinkData]) -> None:
def write_links(self) -> None:
link_elements = etree.Element("links")
# add link data
for link_data in links:
# skip basic range links
if link_data.iface1 is None and link_data.iface2 is None:
continue
link_element = self.create_link_element(link_data)
for core_link in self.session.link_manager.links():
node1, iface1 = core_link.node1, core_link.iface1
node2, iface2 = core_link.node2, core_link.iface2
unidirectional = core_link.is_unidirectional()
link_element = self.create_link_element(
node1, iface1, node2, iface2, core_link.options(), unidirectional
)
link_elements.append(link_element)
if unidirectional:
link_element = self.create_link_element(
node2, iface2, node1, iface1, iface2.options, unidirectional
)
link_elements.append(link_element)
if link_elements.getchildren():
self.scenario.append(link_elements)
@ -493,67 +496,71 @@ class CoreXmlWriter:
self.devices.append(device.element)
def create_iface_element(
self, element_name: str, node_id: int, iface_data: InterfaceData
self, element_name: str, iface: CoreInterface
) -> etree.Element:
iface_element = etree.Element(element_name)
node = self.session.get_node(node_id, NodeBase)
if isinstance(node, CoreNodeBase):
iface = node.get_iface(iface_data.id)
# check if emane interface
if isinstance(iface.net, EmaneNet):
nem_id = self.session.emane.get_nem_id(iface)
add_attribute(iface_element, "nem", nem_id)
add_attribute(iface_element, "id", iface_data.id)
add_attribute(iface_element, "name", iface_data.name)
add_attribute(iface_element, "mac", iface_data.mac)
add_attribute(iface_element, "ip4", iface_data.ip4)
add_attribute(iface_element, "ip4_mask", iface_data.ip4_mask)
add_attribute(iface_element, "ip6", iface_data.ip6)
add_attribute(iface_element, "ip6_mask", iface_data.ip6_mask)
# check if interface if connected to emane
if isinstance(iface.node, CoreNodeBase) and isinstance(iface.net, EmaneNet):
nem_id = self.session.emane.get_nem_id(iface)
add_attribute(iface_element, "nem", nem_id)
ip4 = iface.get_ip4()
ip4_mask = None
if ip4:
ip4_mask = ip4.prefixlen
ip4 = str(ip4.ip)
ip6 = iface.get_ip6()
ip6_mask = None
if ip6:
ip6_mask = ip6.prefixlen
ip6 = str(ip6.ip)
add_attribute(iface_element, "id", iface.id)
add_attribute(iface_element, "name", iface.name)
add_attribute(iface_element, "mac", iface.mac)
add_attribute(iface_element, "ip4", ip4)
add_attribute(iface_element, "ip4_mask", ip4_mask)
add_attribute(iface_element, "ip6", ip6)
add_attribute(iface_element, "ip6_mask", ip6_mask)
return iface_element
def create_link_element(self, link_data: LinkData) -> etree.Element:
def create_link_element(
self,
node1: NodeBase,
iface1: Optional[CoreInterface],
node2: NodeBase,
iface2: Optional[CoreInterface],
options: LinkOptions,
unidirectional: bool,
) -> etree.Element:
link_element = etree.Element("link")
add_attribute(link_element, "node1", link_data.node1_id)
add_attribute(link_element, "node2", link_data.node2_id)
add_attribute(link_element, "node1", node1.id)
add_attribute(link_element, "node2", node2.id)
# check for interface one
if link_data.iface1 is not None:
iface1 = self.create_iface_element(
"iface1", link_data.node1_id, link_data.iface1
)
if iface1 is not None:
iface1 = self.create_iface_element("iface1", iface1)
link_element.append(iface1)
# check for interface two
if link_data.iface2 is not None:
iface2 = self.create_iface_element(
"iface2", link_data.node2_id, link_data.iface2
)
if iface2 is not None:
iface2 = self.create_iface_element("iface2", iface2)
link_element.append(iface2)
# check for options, don't write for emane/wlan links
node1 = self.session.get_node(link_data.node1_id, NodeBase)
node2 = self.session.get_node(link_data.node2_id, NodeBase)
is_node1_wireless = isinstance(node1, (WlanNode, EmaneNet))
is_node2_wireless = isinstance(node2, (WlanNode, EmaneNet))
if not any([is_node1_wireless, is_node2_wireless]):
options_data = link_data.options
options = etree.Element("options")
add_attribute(options, "delay", options_data.delay)
add_attribute(options, "bandwidth", options_data.bandwidth)
add_attribute(options, "loss", options_data.loss)
add_attribute(options, "dup", options_data.dup)
add_attribute(options, "jitter", options_data.jitter)
add_attribute(options, "mer", options_data.mer)
add_attribute(options, "burst", options_data.burst)
add_attribute(options, "mburst", options_data.mburst)
add_attribute(options, "unidirectional", options_data.unidirectional)
add_attribute(options, "network_id", link_data.network_id)
add_attribute(options, "key", options_data.key)
add_attribute(options, "buffer", options_data.buffer)
if options.items():
link_element.append(options)
is_node1_wireless = isinstance(node1, (WlanNode, EmaneNet, WirelessNode))
is_node2_wireless = isinstance(node2, (WlanNode, EmaneNet, WirelessNode))
if not (is_node1_wireless or is_node2_wireless):
unidirectional = 1 if unidirectional else 0
options_element = etree.Element("options")
add_attribute(options_element, "delay", options.delay)
add_attribute(options_element, "bandwidth", options.bandwidth)
add_attribute(options_element, "loss", options.loss)
add_attribute(options_element, "dup", options.dup)
add_attribute(options_element, "jitter", options.jitter)
add_attribute(options_element, "mer", options.mer)
add_attribute(options_element, "burst", options.burst)
add_attribute(options_element, "mburst", options.mburst)
add_attribute(options_element, "unidirectional", unidirectional)
add_attribute(options_element, "key", options.key)
add_attribute(options_element, "buffer", options.buffer)
if options_element.items():
link_element.append(options_element)
return link_element

View file

@ -1,7 +1,5 @@
[core-daemon]
#distributed_address = 127.0.0.1
listenaddr = localhost
port = 4038
grpcaddress = localhost
grpcport = 50051
quagga_bin_search = "/usr/local/bin /usr/bin /usr/lib/quagga"
@ -12,8 +10,8 @@ frr_sbin_search = "/usr/local/sbin /usr/sbin /usr/lib/frr"
# uncomment the following line to load custom services from the specified dir
# this may be a comma-separated list, and directory names should be unique
# and not named 'services'
#custom_services_dir = /home/username/.core/myservices
#custom_config_services_dir = /home/username/.coregui/custom_services
#custom_services_dir = /home/<user>/.coregui/custom_services
#custom_config_services_dir = /home/<user>/.coregui/custom_services
# uncomment to establish a standalone control backchannel for accessing nodes
# (overriden by the session option of the same name)
@ -48,7 +46,7 @@ emane_platform_port = 8101
emane_transform_port = 8201
emane_event_generate = True
emane_event_monitor = False
#emane_models_dir = /home/username/.core/myemane
#emane_models_dir = /home/<user>/.coregui/custom_emane
# EMANE log level range [0,4] default: 2
#emane_log_level = 2
emane_realtime = True

View file

@ -1,8 +1,4 @@
# CORE
# (c)2012 the Boeing Company.
# See the LICENSE file included in this distribution.
#
# author: Jeff Ahrenholz <jeffrey.m.ahrenholz@boeing.com>
#
# Builds html and pdf documentation using Sphinx.
#

View file

@ -0,0 +1,29 @@
from core.api.grpc import client
from core.api.grpc.wrappers import NodeType, Position
# 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()
# add session
session = core.create_session()
# create nodes
position = Position(x=200, y=200)
wlan = session.add_node(1, _type=NodeType.WIRELESS, position=position)
position = Position(x=100, y=100)
node1 = session.add_node(2, model="mdr", position=position)
position = Position(x=300, y=100)
node2 = session.add_node(3, model="mdr", position=position)
# create links
iface1 = iface_helper.create_iface(node1.id, 0)
session.add_link(node1=node1, node2=wlan, iface1=iface1)
iface1 = iface_helper.create_iface(node2.id, 0)
session.add_link(node1=node2, node2=wlan, iface1=iface1)
# start session
core.start_session(session)

View file

@ -0,0 +1,46 @@
# required imports
import logging
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 WlanNode
# enable info logging
logging.basicConfig(level=logging.INFO)
# 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
session.set_state(EventTypes.CONFIGURATION_STATE)
# create wireless
options = NodeOptions(x=200, y=200)
wireless = 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)
# link nodes to wireless
iface1 = ip_prefixes.create_iface(n1)
session.add_link(n1.id, wireless.id, iface1)
iface1 = ip_prefixes.create_iface(n2)
session.add_link(n2.id, wireless.id, iface1)
# start session
session.instantiate()
# do whatever you like here
input("press enter to shutdown")
# stop session
session.shutdown()

View file

@ -61,6 +61,8 @@ service CoreApi {
}
rpc DeleteLink (DeleteLinkRequest) returns (DeleteLinkResponse) {
}
rpc Linked (LinkedRequest) returns (LinkedResponse) {
}
// mobility rpc
rpc GetMobilityConfig (mobility.GetMobilityConfigRequest) returns (mobility.GetMobilityConfigResponse) {
@ -98,6 +100,12 @@ service CoreApi {
rpc WlanLink (wlan.WlanLinkRequest) returns (wlan.WlanLinkResponse) {
}
// wireless rpc
rpc WirelessLinked (WirelessLinkedRequest) returns (WirelessLinkedResponse) {
}
rpc WirelessConfig (WirelessConfigRequest) returns (WirelessConfigResponse) {
}
// emane rpc
rpc GetEmaneModelConfig (emane.GetEmaneModelConfigRequest) returns (emane.GetEmaneModelConfigResponse) {
}
@ -280,12 +288,11 @@ message ConfigEvent {
repeated int32 data_types = 5;
string data_values = 6;
string captions = 7;
string bitmap = 8;
string possible_values = 9;
string groups = 10;
int32 iface_id = 11;
int32 network_id = 12;
string opaque = 13;
string possible_values = 8;
string groups = 9;
int32 iface_id = 10;
int32 network_id = 11;
string opaque = 12;
}
message ExceptionEvent {
@ -684,3 +691,38 @@ message Server {
string name = 1;
string host = 2;
}
message LinkedRequest {
int32 session_id = 1;
int32 node1_id = 2;
int32 node2_id = 3;
int32 iface1_id = 4;
int32 iface2_id = 5;
bool linked = 6;
}
message LinkedResponse {
}
message WirelessLinkedRequest {
int32 session_id = 1;
int32 wireless_id = 2;
int32 node1_id = 3;
int32 node2_id = 4;
bool linked = 5;
}
message WirelessLinkedResponse {
}
message WirelessConfigRequest {
int32 session_id = 1;
int32 wireless_id = 2;
int32 node1_id = 3;
int32 node2_id = 4;
LinkOptions options1 = 5;
LinkOptions options2 = 6;
}
message WirelessConfigResponse {
}

View file

@ -1,6 +1,6 @@
[tool.poetry]
name = "core"
version = "8.1.0"
version = "8.2.0"
description = "CORE Common Open Research Emulator"
authors = ["Boeing Research and Technology"]
license = "BSD-2-Clause"

View file

@ -1,22 +1,24 @@
#!/usr/bin/env python3
import json
import sys
from argparse import (
ArgumentDefaultsHelpFormatter,
ArgumentParser,
ArgumentTypeError,
Namespace,
_SubParsersAction,
)
from functools import wraps
from pathlib import Path
from typing import Optional, Tuple
from typing import Any, Dict, Optional, Tuple
import grpc
import netaddr
from google.protobuf.json_format import MessageToDict
from netaddr import EUI, AddrFormatError, IPNetwork
from core.api.grpc.client import CoreGrpcClient
from core.api.grpc.wrappers import (
ConfigOption,
Geo,
Interface,
Link,
@ -29,6 +31,15 @@ from core.api.grpc.wrappers import (
NODE_TYPES = [x for x in NodeType if x != NodeType.PEER_TO_PEER]
def protobuf_to_json(message: Any) -> Dict[str, Any]:
return MessageToDict(message, including_default_value_fields=True, preserving_proto_field_name=True)
def print_json(data: Any) -> None:
data = json.dumps(data, indent=2)
print(data)
def coreclient(func):
@wraps(func)
def wrapper(*args, **kwargs):
@ -94,11 +105,11 @@ def geo_type(value: str) -> Tuple[float, float, float]:
return lon, lat, alt
def file_type(value: str) -> str:
def file_type(value: str) -> Path:
path = Path(value)
if not path.is_file():
raise ArgumentTypeError(f"invalid file: {value}")
return str(path.absolute())
return path
def get_current_session(core: CoreGrpcClient, session_id: Optional[int]) -> int:
@ -140,12 +151,15 @@ def print_iface(iface: Interface) -> None:
def get_wlan_config(core: CoreGrpcClient, args: Namespace) -> None:
session_id = get_current_session(core, args.session)
config = core.get_wlan_config(session_id, args.node)
size = 0
for option in config.values():
size = max(size, len(option.name))
print(f"{'Name':<{size}.{size}} | Value")
for option in config.values():
print(f"{option.name:<{size}.{size}} | {option.value}")
if args.json:
print_json(ConfigOption.to_dict(config))
else:
size = 0
for option in config.values():
size = max(size, len(option.name))
print(f"{'Name':<{size}.{size}} | Value")
for option in config.values():
print(f"{option.name:<{size}.{size}} | {option.value}")
@coreclient
@ -163,80 +177,102 @@ def set_wlan_config(core: CoreGrpcClient, args: Namespace) -> None:
if args.range:
config["range"] = str(args.range)
result = core.set_wlan_config(session_id, args.node, config)
print(f"set wlan config: {result}")
if args.json:
print_json(dict(result=result))
else:
print(f"set wlan config: {result}")
@coreclient
def open_xml(core: CoreGrpcClient, args: Namespace) -> None:
result, session_id = core.open_xml(args.file, args.start)
print(f"opened xml: {result},{session_id}")
if args.json:
print_json(dict(result=result, session_id=session_id))
else:
print(f"opened xml: {result},{session_id}")
@coreclient
def query_sessions(core: CoreGrpcClient, args: Namespace) -> None:
sessions = core.get_sessions()
print("Session ID | Session State | Nodes")
for session in sessions:
print(f"{session.id:<10} | {session.state.name:<13} | {session.nodes}")
if args.json:
sessions = [protobuf_to_json(x.to_proto()) for x in sessions]
print_json(sessions)
else:
print("Session ID | Session State | Nodes")
for session in sessions:
print(f"{session.id:<10} | {session.state.name:<13} | {session.nodes}")
@coreclient
def query_session(core: CoreGrpcClient, args: Namespace) -> None:
session = core.get_session(args.id)
print("Nodes")
print("Node ID | Node Name | Node Type")
for node in session.nodes.values():
print(f"{node.id:<7} | {node.name:<9} | {node.type.name}")
print("\nLinks")
for link in session.links:
n1 = session.nodes[link.node1_id].name
n2 = session.nodes[link.node2_id].name
print(f"Node | ", end="")
print_iface_header()
print(f"{n1:<6} | ", end="")
if link.iface1:
print_iface(link.iface1)
else:
if args.json:
session = protobuf_to_json(session.to_proto())
print_json(session)
else:
print("Nodes")
print("ID | Name | Type | XY | Geo")
for node in session.nodes.values():
xy_pos = f"{int(node.position.x)},{int(node.position.y)}"
geo_pos = f"{node.geo.lon:.7f},{node.geo.lat:.7f},{node.geo.alt:f}"
print(f"{node.id:<7} | {node.name[:7]:<7} | {node.type.name[:7]:<7} | {xy_pos:<9} | {geo_pos}")
print("\nLinks")
for link in session.links:
n1 = session.nodes[link.node1_id].name
n2 = session.nodes[link.node2_id].name
print(f"Node | ", end="")
print_iface_header()
print(f"{n1:<6} | ", end="")
if link.iface1:
print_iface(link.iface1)
else:
print()
print(f"{n2:<6} | ", end="")
if link.iface2:
print_iface(link.iface2)
else:
print()
print()
print(f"{n2:<6} | ", end="")
if link.iface2:
print_iface(link.iface2)
else:
print()
print()
@coreclient
def query_node(core: CoreGrpcClient, args: Namespace) -> None:
session = core.get_session(args.id)
node, ifaces, _ = core.get_node(args.id, args.node)
print("ID | Name | Type | XY")
xy_pos = f"{int(node.position.x)},{int(node.position.y)}"
print(f"{node.id:<4} | {node.name[:7]:<7} | {node.type.name[:7]:<7} | {xy_pos}")
if node.geo:
print("Geo")
print(f"{node.geo.lon:.7f},{node.geo.lat:.7f},{node.geo.alt:f}")
if ifaces:
print("Interfaces")
print("Connected To | ", end="")
print_iface_header()
for iface in ifaces:
if iface.net_id == node.id:
if iface.node_id:
name = session.nodes[iface.node_id].name
if args.json:
node = protobuf_to_json(node.to_proto())
ifaces = [protobuf_to_json(x.to_proto()) for x in ifaces]
print_json(dict(node=node, ifaces=ifaces))
else:
print("ID | Name | Type | XY | Geo")
xy_pos = f"{int(node.position.x)},{int(node.position.y)}"
geo_pos = f"{node.geo.lon:.7f},{node.geo.lat:.7f},{node.geo.alt:f}"
print(f"{node.id:<7} | {node.name[:7]:<7} | {node.type.name[:7]:<7} | {xy_pos:<9} | {geo_pos}")
if ifaces:
print("Interfaces")
print("Connected To | ", end="")
print_iface_header()
for iface in ifaces:
if iface.net_id == node.id:
if iface.node_id:
name = session.nodes[iface.node_id].name
else:
name = session.nodes[iface.net2_id].name
else:
name = session.nodes[iface.net2_id].name
else:
net_node = session.nodes.get(iface.net_id)
name = net_node.name if net_node else ""
print(f"{name:<12} | ", end="")
print_iface(iface)
net_node = session.nodes.get(iface.net_id)
name = net_node.name if net_node else ""
print(f"{name:<12} | ", end="")
print_iface(iface)
@coreclient
def delete_session(core: CoreGrpcClient, args: Namespace) -> None:
result = core.delete_session(args.id)
print(f"delete session({args.id}): {result}")
if args.json:
print_json(dict(result=result))
else:
print(f"delete session({args.id}): {result}")
@coreclient
@ -263,14 +299,20 @@ def add_node(core: CoreGrpcClient, args: Namespace) -> None:
geo=geo,
)
node_id = core.add_node(session_id, node)
print(f"created node: {node_id}")
if args.json:
print_json(dict(node_id=node_id))
else:
print(f"created node: {node_id}")
@coreclient
def edit_node(core: CoreGrpcClient, args: Namespace) -> None:
session_id = get_current_session(core, args.session)
result = core.edit_node(session_id, args.id, args.icon)
print(f"edit node: {result}")
if args.json:
print_json(dict(result=result))
else:
print(f"edit node: {result}")
@coreclient
@ -285,14 +327,20 @@ def move_node(core: CoreGrpcClient, args: Namespace) -> None:
lon, lat, alt = args.geo
geo = Geo(lon=lon, lat=lat, alt=alt)
result = core.move_node(session_id, args.id, pos, geo)
print(f"move node: {result}")
if args.json:
print_json(dict(result=result))
else:
print(f"move node: {result}")
@coreclient
def delete_node(core: CoreGrpcClient, args: Namespace) -> None:
session_id = get_current_session(core, args.session)
result = core.delete_node(session_id, args.id)
print(f"deleted node: {result}")
if args.json:
print_json(dict(result=result))
else:
print(f"deleted node: {result}")
@coreclient
@ -313,8 +361,13 @@ def add_link(core: CoreGrpcClient, args: Namespace) -> None:
unidirectional=args.uni,
)
link = Link(args.node1, args.node2, iface1=iface1, iface2=iface2, options=options)
result, _, _ = core.add_link(session_id, link)
print(f"add link: {result}")
result, iface1, iface2 = core.add_link(session_id, link)
if args.json:
iface1 = protobuf_to_json(iface1.to_proto())
iface2 = protobuf_to_json(iface2.to_proto())
print_json(dict(result=result, iface1=iface1, iface2=iface2))
else:
print(f"add link: {result}")
@coreclient
@ -332,7 +385,10 @@ def edit_link(core: CoreGrpcClient, args: Namespace) -> None:
iface2 = Interface(args.iface2)
link = Link(args.node1, args.node2, iface1=iface1, iface2=iface2, options=options)
result = core.edit_link(session_id, link)
print(f"edit link: {result}")
if args.json:
print_json(dict(result=result))
else:
print(f"edit link: {result}")
@coreclient
@ -342,10 +398,13 @@ def delete_link(core: CoreGrpcClient, args: Namespace) -> None:
iface2 = Interface(args.iface2)
link = Link(args.node1, args.node2, iface1=iface1, iface2=iface2)
result = core.delete_link(session_id, link)
print(f"delete link: {result}")
if args.json:
print_json(dict(result=result))
else:
print(f"delete link: {result}")
def setup_sessions_parser(parent: _SubParsersAction) -> None:
def setup_sessions_parser(parent) -> None:
parser = parent.add_parser("session", help="session interactions")
parser.formatter_class = ArgumentDefaultsHelpFormatter
parser.add_argument("-i", "--id", type=int, help="session id to use", required=True)
@ -358,7 +417,7 @@ def setup_sessions_parser(parent: _SubParsersAction) -> None:
delete_parser.set_defaults(func=delete_session)
def setup_node_parser(parent: _SubParsersAction) -> None:
def setup_node_parser(parent) -> None:
parser = parent.add_parser("node", help="node interactions")
parser.formatter_class = ArgumentDefaultsHelpFormatter
parser.add_argument("-s", "--session", type=int, help="session to interact with")
@ -402,7 +461,7 @@ def setup_node_parser(parent: _SubParsersAction) -> None:
delete_parser.set_defaults(func=delete_node)
def setup_link_parser(parent: _SubParsersAction) -> None:
def setup_link_parser(parent) -> None:
parser = parent.add_parser("link", help="link interactions")
parser.formatter_class = ArgumentDefaultsHelpFormatter
parser.add_argument("-s", "--session", type=int, help="session to interact with")
@ -455,7 +514,7 @@ def setup_link_parser(parent: _SubParsersAction) -> None:
delete_parser.set_defaults(func=delete_link)
def setup_query_parser(parent: _SubParsersAction) -> None:
def setup_query_parser(parent) -> None:
parser = parent.add_parser("query", help="query interactions")
subparsers = parser.add_subparsers(help="query commands")
subparsers.required = True
@ -477,7 +536,7 @@ def setup_query_parser(parent: _SubParsersAction) -> None:
node_parser.set_defaults(func=query_node)
def setup_xml_parser(parent: _SubParsersAction) -> None:
def setup_xml_parser(parent) -> None:
parser = parent.add_parser("xml", help="open session xml")
parser.formatter_class = ArgumentDefaultsHelpFormatter
parser.add_argument("-f", "--file", type=file_type, help="xml file to open", required=True)
@ -485,7 +544,7 @@ def setup_xml_parser(parent: _SubParsersAction) -> None:
parser.set_defaults(func=open_xml)
def setup_wlan_parser(parent: _SubParsersAction) -> None:
def setup_wlan_parser(parent) -> None:
parser = parent.add_parser("wlan", help="wlan specific interactions")
parser.formatter_class = ArgumentDefaultsHelpFormatter
parser.add_argument("-s", "--session", type=int, help="session to interact with")
@ -511,6 +570,9 @@ def setup_wlan_parser(parent: _SubParsersAction) -> None:
def main() -> None:
parser = ArgumentParser(formatter_class=ArgumentDefaultsHelpFormatter)
parser.add_argument(
"-js", "--json", action="store_true", help="print responses to terminal as json"
)
subparsers = parser.add_subparsers(help="supported commands")
subparsers.required = True
subparsers.dest = "command"

View file

@ -8,19 +8,15 @@ message handlers are defined and some support for sending messages.
import argparse
import logging
import os
import sys
import threading
import time
from configparser import ConfigParser
from pathlib import Path
from core import constants
from core.api.grpc.server import CoreGrpcServer
from core.api.tlv.corehandlers import CoreHandler, CoreUdpHandler
from core.api.tlv.coreserver import CoreServer, CoreUdpServer
from core.api.tlv.enumerations import CORE_API_PORT
from core.constants import CORE_CONF_DIR, COREDPY_VERSION
from core.utils import close_onexec, load_logging_config
from core.emulator.coreemu import CoreEmu
from core.utils import load_logging_config
logger = logging.getLogger(__name__)
@ -34,20 +30,6 @@ def banner():
logger.info("CORE daemon v.%s started %s", constants.COREDPY_VERSION, time.ctime())
def start_udp(mainserver, server_address):
"""
Start a thread running a UDP server on the same host,port for
connectionless requests.
:param CoreServer mainserver: main core tcp server to piggy back off of
:param server_address:
:return: CoreUdpServer
"""
mainserver.udpserver = CoreUdpServer(server_address, CoreUdpHandler, mainserver)
mainserver.udpthread = threading.Thread(target=mainserver.udpserver.start, daemon=True)
mainserver.udpthread.start()
def cored(cfg):
"""
Start the CoreServer object and enter the server loop.
@ -55,34 +37,13 @@ def cored(cfg):
:param dict cfg: core configuration
:return: nothing
"""
host = cfg["listenaddr"]
port = int(cfg["port"])
if host == "" or host is None:
host = "localhost"
try:
address = (host, port)
server = CoreServer(address, CoreHandler, cfg)
except:
logger.exception("error starting main server on: %s:%s", host, port)
sys.exit(1)
# initialize grpc api
grpc_server = CoreGrpcServer(server.coreemu)
coreemu = CoreEmu(cfg)
grpc_server = CoreGrpcServer(coreemu)
address_config = cfg["grpcaddress"]
port_config = cfg["grpcport"]
grpc_address = f"{address_config}:{port_config}"
grpc_thread = threading.Thread(target=grpc_server.listen, args=(grpc_address,), daemon=True)
grpc_thread.start()
# start udp server
start_udp(server, address)
# close handlers
close_onexec(server.fileno())
logger.info("CORE TLV API TCP/UDP listening on: %s:%s", host, port)
server.serve_forever()
grpc_server.listen(grpc_address)
def get_merged_config(filename):
@ -98,49 +59,38 @@ def get_merged_config(filename):
default_grpc_port = "50051"
default_address = "localhost"
defaults = {
"port": str(CORE_API_PORT),
"listenaddr": default_address,
"grpcport": default_grpc_port,
"grpcaddress": default_address,
"logfile": default_log
}
parser = argparse.ArgumentParser(
description=f"CORE daemon v.{COREDPY_VERSION} instantiates Linux network namespace nodes.")
parser.add_argument("-f", "--configfile", dest="configfile",
help=f"read config from specified file; default = {filename}")
parser.add_argument("-p", "--port", dest="port", type=int,
help=f"port number to listen on; default = {CORE_API_PORT}")
parser.add_argument("--ovs", action="store_true", help="enable experimental ovs mode, default is false")
parser.add_argument("--grpc-port", dest="grpcport",
help=f"grpc port to listen on; default {default_grpc_port}")
parser.add_argument("--grpc-address", dest="grpcaddress",
help=f"grpc address to listen on; default {default_address}")
parser.add_argument("-l", "--logfile", help=f"core logging configuration; default {default_log}")
# parse command line options
args = parser.parse_args()
# convert ovs to internal format
args.ovs = "1" if args.ovs else "0"
# read the config file
if args.configfile is not None:
filename = args.configfile
del args.configfile
cfg = ConfigParser(defaults)
cfg.read(filename)
section = "core-daemon"
if not cfg.has_section(section):
cfg.add_section(section)
# merge argparse with configparser
for opt in vars(args):
val = getattr(args, opt)
if val is not None:
cfg.set(section, opt, str(val))
return dict(cfg.items(section))

View file

@ -1,70 +0,0 @@
#!/usr/bin/env python3
import argparse
import re
import sys
from pathlib import Path
from core import utils
from core.api.grpc.client import CoreGrpcClient
from core.errors import CoreCommandError
if __name__ == "__main__":
# parse flags
parser = argparse.ArgumentParser(description="Converts CORE imn files to xml")
parser.add_argument("-f", "--file", dest="file", help="imn file to convert")
parser.add_argument(
"-d", "--dest", dest="dest", default=None, help="destination for xml file, defaults to same location as imn"
)
args = parser.parse_args()
# validate provided file exists
imn_file = Path(args.file)
if not imn_file.exists():
print(f"{args.file} does not exist")
sys.exit(1)
# validate destination
if args.dest is not None:
dest = Path(args.dest)
if not dest.exists() or not dest.is_dir():
print(f"{dest.resolve()} does not exist or is not a directory")
sys.exit(1)
xml_file = Path(dest, imn_file.with_suffix(".xml").name)
else:
xml_file = Path(imn_file.with_suffix(".xml").name)
# validate xml file
if xml_file.exists():
print(f"{xml_file.resolve()} already exists")
sys.exit(1)
# run provided imn using core-gui batch mode
try:
print(f"running {imn_file.resolve()} in batch mode")
output = utils.cmd(f"core-gui --batch {imn_file.resolve()}")
last_line = output.split("\n")[-1].strip()
# check for active session
if last_line == "Another session is active.":
print("need to restart core-daemon or shutdown previous batch session")
sys.exit(1)
# parse session id
m = re.search(r"Session id is (\d+)\.", last_line)
if not m:
print(f"failed to find session id: {output}")
sys.exit(1)
session_id = int(m.group(1))
print(f"created session {session_id}")
# save xml and delete session
client = CoreGrpcClient()
with client.context_connect():
print(f"saving xml {xml_file.resolve()}")
client.save_xml(session_id, str(xml_file))
print(f"deleting session {session_id}")
client.delete_session(session_id)
except CoreCommandError as e:
print(f"core-gui batch failed for {imn_file.resolve()}: {e}")
sys.exit(1)

View file

@ -1,247 +0,0 @@
#!/usr/bin/env python3
"""
core-manage: Helper tool to add, remove, or check for services, models, and
node types in a CORE installation.
"""
import ast
import optparse
import os
import re
import sys
from core import services
from core.constants import CORE_CONF_DIR
class FileUpdater:
"""
Helper class for changing configuration files.
"""
actions = ("add", "remove", "check")
targets = ("service", "model", "nodetype")
def __init__(self, action, target, data, options):
"""
"""
self.action = action
self.target = target
self.data = data
self.options = options
self.verbose = options.verbose
self.search, self.filename = self.get_filename(target)
def process(self):
""" Invoke update_file() using a helper method depending on target.
"""
if self.verbose:
txt = "Updating"
if self.action == "check":
txt = "Checking"
sys.stdout.write(f"{txt} file: {self.filename}\n")
if self.target == "service":
r = self.update_file(fn=self.update_services)
elif self.target == "model":
r = self.update_file(fn=self.update_emane_models)
elif self.target == "nodetype":
r = self.update_nodes_conf()
if self.verbose:
txt = ""
if not r:
txt = "NOT "
if self.action == "check":
sys.stdout.write(f"String {txt} found.\n")
else:
sys.stdout.write(f"File {txt} updated.\n")
return r
def update_services(self, line):
""" Modify the __init__.py file having this format:
__all__ = ["quagga", "nrl", "xorp", "bird", ]
Returns True or False when "check" is the action, a modified line
otherwise.
"""
line = line.strip("\n")
key, valstr = line.split("= ")
vals = ast.literal_eval(valstr)
r = self.update_keyvals(key, vals)
if self.action == "check":
return r
valstr = str(r)
return "= ".join([key, valstr]) + "\n"
def update_emane_models(self, line):
""" Modify the core.conf file having this format:
emane_models = RfPipe, Ieee80211abg, CommEffect, Bypass
Returns True or False when "check" is the action, a modified line
otherwise.
"""
line = line.strip("\n")
key, valstr = line.split("= ")
vals = valstr.split(", ")
r = self.update_keyvals(key, vals)
if self.action == "check":
return r
valstr = ", ".join(r)
return "= ".join([key, valstr]) + "\n"
def update_keyvals(self, key, vals):
""" Perform self.action on (key, vals).
Returns True or False when "check" is the action, a modified line
otherwise.
"""
if self.action == "check":
if self.data in vals:
return True
else:
return False
elif self.action == "add":
if self.data not in vals:
vals.append(self.data)
elif self.action == "remove":
try:
vals.remove(self.data)
except ValueError:
pass
return vals
def get_filename(self, target):
""" Return search string and filename based on target.
"""
if target == "service":
filename = os.path.abspath(services.__file__)
search = "__all__ ="
elif target == "model":
filename = os.path.join(CORE_CONF_DIR, "core.conf")
search = "emane_models ="
elif target == "nodetype":
if self.options.userpath is None:
raise ValueError("missing user path")
filename = os.path.join(self.options.userpath, "nodes.conf")
search = self.data
else:
raise ValueError("unknown target")
if not os.path.exists(filename):
raise ValueError(f"file {filename} does not exist")
return search, filename
def update_file(self, fn=None):
""" Open a file and search for self.search, invoking the supplied
function on the matching line. Write file changes if necessary.
Returns True if the file has changed (or action is "check" and the
search string is found), False otherwise.
"""
changed = False
output = "" # this accumulates output, assumes input is small
with open(self.filename, "r") as f:
for line in f:
if line[:len(self.search)] == self.search:
r = fn(line) # line may be modified by fn() here
if self.action == "check":
return r
else:
if line != r:
changed = True
line = r
output += line
if changed:
with open(self.filename, "w") as f:
f.write(output)
return changed
def update_nodes_conf(self):
""" Add/remove/check entries from nodes.conf. This file
contains a Tcl-formatted array of node types. The array index must be
properly set for new entries. Uses self.{action, filename, search,
data} variables as input and returns the same value as update_file().
"""
changed = False
output = "" # this accumulates output, assumes input is small
with open(self.filename, "r") as f:
for line in f:
# make sure data is not added twice
if line.find(self.search) >= 0:
if self.action == "check":
return True
elif self.action == "add":
return False
elif self.action == "remove":
changed = True
continue
else:
output += line
if self.action == "add":
index = int(re.match("^\d+", line).group(0))
output += str(index + 1) + " " + self.data + "\n"
changed = True
if changed:
with open(self.filename, "w") as f:
f.write(output)
return changed
def main():
actions = ", ".join(FileUpdater.actions)
targets = ", ".join(FileUpdater.targets)
usagestr = "usage: %prog [-h] [options] <action> <target> <string>\n"
usagestr += "\nHelper tool to add, remove, or check for "
usagestr += "services, models, and node types\nin a CORE installation.\n"
usagestr += "\nExamples:\n %prog add service newrouting"
usagestr += "\n %prog -v check model RfPipe"
usagestr += "\n %prog --userpath=\"$HOME/.core\" add nodetype \"{ftp ftp.gif ftp.gif {DefaultRoute FTP} netns {FTP server} }\" \n"
usagestr += f"\nArguments:\n <action> should be one of: {actions}"
usagestr += f"\n <target> should be one of: {targets}"
usagestr += f"\n <string> is the text to {actions}"
parser = optparse.OptionParser(usage=usagestr)
parser.set_defaults(userpath=None, verbose=False, )
parser.add_option("--userpath", dest="userpath", type="string",
help="use the specified user path (e.g. \"$HOME/.core" \
"\") to access nodes.conf")
parser.add_option("-v", "--verbose", dest="verbose", action="store_true",
help="be verbose when performing action")
def usage(msg=None, err=0):
sys.stdout.write("\n")
if msg:
sys.stdout.write(msg + "\n\n")
parser.print_help()
sys.exit(err)
(options, args) = parser.parse_args()
if len(args) != 3:
usage("Missing required arguments!", 1)
action = args[0]
if action not in FileUpdater.actions:
usage(f"invalid action {action}", 1)
target = args[1]
if target not in FileUpdater.targets:
usage(f"invalid target {target}", 1)
if target == "nodetype" and not options.userpath:
usage(f"user path option required for this target ({target})")
data = args[2]
try:
up = FileUpdater(action, target, data, options)
r = up.process()
except Exception as e:
sys.stderr.write(f"Exception: {e}\n")
sys.exit(1)
if not r:
sys.exit(1)
sys.exit(0)
if __name__ == "__main__":
main()

View file

@ -1,279 +0,0 @@
#!/usr/bin/env python3
"""
coresendmsg: utility for generating CORE messages
"""
import optparse
import os
import socket
import sys
from core.api.tlv import coreapi
from core.api.tlv.enumerations import CORE_API_PORT, MessageTypes, SessionTlvs
from core.emulator.enumerations import MessageFlags
def print_available_tlvs(t, tlv_class):
"""
Print a TLV list.
"""
print(f"TLVs available for {t} message:")
for tlv in sorted([tlv for tlv in tlv_class.tlv_type_map], key=lambda x: x.name):
print(tlv.name.lower())
def print_examples(name):
"""
Print example usage of this script.
"""
examples = [
("node number=3 x_position=125 y_position=525",
"move node number 3 to x,y=(125,525)"),
("node number=4 icon=/usr/local/share/core/icons/normal/router_red.gif",
"change node number 4\"s icon to red"),
("node flags=add number=5 type=0 name=\"n5\" x_position=500 y_position=500",
"add a new router node n5"),
("link n1_number=2 n2_number=3 delay=15000",
"set a 15ms delay on the link between n2 and n3"),
("link n1_number=2 n2_number=3 gui_attributes=\"color=blue\"",
"change the color of the link between n2 and n3"),
("link flags=add n1_number=4 n2_number=5 interface1_ip4=\"10.0.3.2\" "
"interface1_ip4_mask=24 interface2_ip4=\"10.0.3.1\" interface2_ip4_mask=24",
"link node n5 with n4 using the given interface addresses"),
("execute flags=string,text node=1 number=1000 command=\"uname -a\" -l",
"run a command on node 1 and wait for the result"),
("execute node=2 number=1001 command=\"killall ospfd\"",
"run a command on node 2 and ignore the result"),
("file flags=add node=1 name=\"/var/log/test.log\" data=\"hello world.\"",
"write a test.log file on node 1 with the given contents"),
("file flags=add node=2 name=\"test.log\" source_name=\"./test.log\"",
"move a test.log file from host to node 2"),
]
print(f"Example {name} invocations:")
for cmd, descr in examples:
print(f" {name} {cmd}\n\t\t{descr}")
def receive_message(sock):
"""
Retrieve a message from a socket and return the CoreMessage object or
None upon disconnect. Socket data beyond the first message is dropped.
"""
try:
# large receive buffer used for UDP sockets, instead of just receiving
# the 4-byte header
data = sock.recv(4096)
msghdr = data[:coreapi.CoreMessage.header_len]
except KeyboardInterrupt:
print("CTRL+C pressed")
sys.exit(1)
if len(msghdr) == 0:
return None
msgdata = None
msgtype, msgflags, msglen = coreapi.CoreMessage.unpack_header(msghdr)
if msglen:
msgdata = data[coreapi.CoreMessage.header_len:]
try:
msgcls = coreapi.CLASS_MAP[msgtype]
except KeyError:
msg = coreapi.CoreMessage(msgflags, msghdr, msgdata)
msg.message_type = msgtype
print(f"unimplemented CORE message type: {msg.type_str()}")
return msg
if len(data) > msglen + coreapi.CoreMessage.header_len:
data_size = len(data) - (msglen + coreapi.CoreMessage.header_len)
print(f"received a message of type {msgtype}, dropping {data_size} bytes of extra data")
return msgcls(msgflags, msghdr, msgdata)
def connect_to_session(sock, requested):
"""
Use Session Messages to retrieve the current list of sessions and
connect to the first one.
"""
# request the session list
tlvdata = coreapi.CoreSessionTlv.pack(SessionTlvs.NUMBER.value, "")
flags = MessageFlags.STRING.value
smsg = coreapi.CoreSessionMessage.pack(flags, tlvdata)
sock.sendall(smsg)
print("waiting for session list...")
smsgreply = receive_message(sock)
if smsgreply is None:
print("disconnected")
return False
sessstr = smsgreply.get_tlv(SessionTlvs.NUMBER.value)
if sessstr is None:
print("missing session numbers")
return False
# join the first session (that is not our own connection)
tmp, localport = sock.getsockname()
sessions = sessstr.split("|")
sessions.remove(str(localport))
if len(sessions) == 0:
print("no sessions to join")
return False
if not requested:
session = sessions[0]
elif requested in sessions:
session = requested
else:
print("requested session not found!")
return False
print(f"joining session: {session}")
tlvdata = coreapi.CoreSessionTlv.pack(SessionTlvs.NUMBER.value, session)
flags = MessageFlags.ADD.value
smsg = coreapi.CoreSessionMessage.pack(flags, tlvdata)
sock.sendall(smsg)
return True
def receive_response(sock, opt):
"""
Receive and print a CORE message from the given socket.
"""
print("waiting for response...")
msg = receive_message(sock)
if msg is None:
print(f"disconnected from {opt.address}:{opt.port}")
sys.exit(0)
print(f"received message: {msg}")
def main():
"""
Parse command-line arguments to build and send a CORE message.
"""
types = [message_type.name.lower() for message_type in MessageTypes]
flags = [flag.name.lower() for flag in MessageFlags]
types_usage = " ".join(types)
flags_usage = " ".join(flags)
usagestr = (
"usage: %prog [-h|-H] [options] [message-type] [flags=flags] "
"[message-TLVs]\n\n"
f"Supported message types:\n {types_usage}\n"
f"Supported message flags (flags=f1,f2,...):\n {flags_usage}"
)
parser = optparse.OptionParser(usage=usagestr)
default_address = "localhost"
default_session = None
default_tcp = False
parser.set_defaults(
port=CORE_API_PORT,
address=default_address,
session=default_session,
listen=False,
examples=False,
tlvs=False,
tcp=default_tcp
)
parser.add_option("-H", dest="examples", action="store_true",
help="show example usage help message and exit")
parser.add_option("-p", "--port", dest="port", type=int,
help=f"TCP port to connect to, default: {CORE_API_PORT}")
parser.add_option("-a", "--address", dest="address", type=str,
help=f"Address to connect to, default: {default_address}")
parser.add_option("-s", "--session", dest="session", type=str,
help=f"Session to join, default: {default_session}")
parser.add_option("-l", "--listen", dest="listen", action="store_true",
help="Listen for a response message and print it.")
parser.add_option("-t", "--list-tlvs", dest="tlvs", action="store_true",
help="List TLVs for the specified message type.")
parser.add_option("--tcp", dest="tcp", action="store_true",
help=f"Use TCP instead of UDP and connect to a session default: {default_tcp}")
def usage(msg=None, err=0):
print()
if msg:
print(f"{msg}\n")
parser.print_help()
sys.exit(err)
# parse command line opt
opt, args = parser.parse_args()
if opt.examples:
print_examples(os.path.basename(sys.argv[0]))
sys.exit(0)
if len(args) == 0:
usage("Please specify a message type to send.")
# given a message type t, determine the message and TLV classes
t = args.pop(0)
t = t.lower()
if t not in types:
usage(f"Unknown message type requested: {t}")
message_type = MessageTypes[t.upper()]
msg_cls = coreapi.CLASS_MAP[message_type.value]
tlv_cls = msg_cls.tlv_class
# list TLV types for this message type
if opt.tlvs:
print_available_tlvs(t, tlv_cls)
sys.exit(0)
# build a message consisting of TLVs from "type=value" arguments
flagstr = ""
tlvdata = b""
for a in args:
typevalue = a.split("=")
if len(typevalue) < 2:
usage(f"Use \"type=value\" syntax instead of \"{a}\".")
tlv_typestr = typevalue[0].lower()
tlv_valstr = "=".join(typevalue[1:])
if tlv_typestr == "flags":
flagstr = tlv_valstr
continue
try:
tlv_type = tlv_cls.tlv_type_map[tlv_typestr.upper()]
tlvdata += tlv_cls.pack_string(tlv_type.value, tlv_valstr)
except KeyError:
usage(f"Unknown TLV: \"{tlv_typestr}\"")
flags = 0
for f in flagstr.split(","):
if f == "":
continue
try:
flag_enum = MessageFlags[f.upper()]
n = flag_enum.value
flags |= n
except KeyError:
usage(f"Invalid flag \"{f}\".")
msg = msg_cls.pack(flags, tlvdata)
if opt.tcp:
protocol = socket.SOCK_STREAM
else:
protocol = socket.SOCK_DGRAM
sock = socket.socket(socket.AF_INET, protocol)
sock.setblocking(True)
try:
sock.connect((opt.address, opt.port))
except Exception as e:
print(f"Error connecting to {opt.address}:{opt.port}:\n\t{e}")
sys.exit(1)
if opt.tcp and not connect_to_session(sock, opt.session):
print("warning: continuing without joining a session!")
sock.sendall(msg)
if opt.listen:
receive_response(sock, opt)
if opt.tcp:
sock.shutdown(socket.SHUT_RDWR)
sock.close()
sys.exit(0)
if __name__ == "__main__":
main()

View file

@ -7,11 +7,9 @@ import time
import mock
import pytest
from mock.mock import MagicMock
from core.api.grpc.client import InterfaceHelper
from core.api.grpc.server import CoreGrpcServer
from core.api.tlv.corehandlers import CoreHandler
from core.emulator.coreemu import CoreEmu
from core.emulator.data import IpPrefixes
from core.emulator.distributed import DistributedServer
@ -104,17 +102,6 @@ def module_grpc(global_coreemu):
grpc_server.server.stop(None)
@pytest.fixture(scope="module")
def module_coretlv(patcher, global_coreemu, global_session):
request_mock = MagicMock()
request_mock.fileno = MagicMock(return_value=1)
server = MockServer(global_coreemu)
request_handler = CoreHandler(request_mock, "", server)
request_handler.session = global_session
request_handler.add_session_handlers()
yield request_handler
@pytest.fixture
def grpc_server(module_grpc):
yield module_grpc
@ -130,16 +117,6 @@ def session(global_session):
global_session.clear()
@pytest.fixture
def coretlv(module_coretlv):
session = module_coretlv.session
session.set_state(EventTypes.CONFIGURATION_STATE)
coreemu = module_coretlv.coreemu
coreemu.sessions[session.id] = session
yield module_coretlv
coreemu.shutdown()
def pytest_addoption(parser):
parser.addoption("--distributed", help="distributed server address")
parser.addoption("--mock", action="store_true", help="run without mocking")

View file

@ -9,7 +9,6 @@ from typing import List, Type
import pytest
from core.emulator.data import IpPrefixes, NodeOptions
from core.emulator.enumerations import MessageFlags
from core.emulator.session import Session
from core.errors import CoreCommandError
from core.location.mobility import BasicRangeModel, Ns2ScriptedMobility
@ -63,44 +62,6 @@ class TestCore:
status = ping(node1, node2, ip_prefixes)
assert not status
def test_iface(self, session: Session, ip_prefixes: IpPrefixes):
"""
Test interface methods.
:param session: session for test
:param ip_prefixes: generates ip addresses for nodes
"""
# create ptp
ptp_node = session.add_node(PtpNet)
# create nodes
node1 = session.add_node(CoreNode)
node2 = session.add_node(CoreNode)
# link nodes to ptp net
for node in [node1, node2]:
iface = ip_prefixes.create_iface(node)
session.add_link(node.id, ptp_node.id, iface1_data=iface)
# instantiate session
session.instantiate()
# check link data gets generated
assert ptp_node.links(MessageFlags.ADD)
# check common nets exist between linked nodes
assert node1.commonnets(node2)
assert node2.commonnets(node1)
# check we can retrieve interface id
assert 0 in node1.ifaces
assert 0 in node2.ifaces
# delete interface and test that if no longer exists
node1.delete_iface(0)
assert 0 not in node1.ifaces
def test_wlan_ping(self, session: Session, ip_prefixes: IpPrefixes):
"""
Test basic wlan network.

View file

@ -29,12 +29,14 @@ class TestDistributed:
# when
session.distributed.add_server(server_name, host)
node1 = session.add_node(HubNode)
options = NodeOptions(server=server_name)
node = session.add_node(HubNode, options=options)
node2 = session.add_node(HubNode, options=options)
session.add_link(node1.id, node2.id)
session.instantiate()
# then
assert node.server is not None
assert node.server.name == server_name
assert node.server.host == host
assert len(session.distributed.tunnels) > 0
assert node2.server is not None
assert node2.server.name == server_name
assert node2.server.host == host
assert len(session.distributed.tunnels) == 1

View file

@ -31,12 +31,10 @@ from core.api.grpc.wrappers import (
SessionLocation,
SessionState,
)
from core.api.tlv.dataconversion import ConfigShim
from core.api.tlv.enumerations import ConfigFlags
from core.emane.models.ieee80211abg import EmaneIeee80211abgModel
from core.emane.nodes import EmaneNet
from core.emulator.data import EventData, IpPrefixes, NodeData, NodeOptions
from core.emulator.enumerations import EventTypes, ExceptionLevels
from core.emulator.enumerations import EventTypes, ExceptionLevels, MessageFlags
from core.errors import CoreError
from core.location.mobility import BasicRangeModel, Ns2ScriptedMobility
from core.nodes.base import CoreNode
@ -415,7 +413,7 @@ class TestGrpc:
session = grpc_server.coreemu.create_session()
switch = session.add_node(SwitchNode)
node = session.add_node(CoreNode)
assert len(switch.links()) == 0
assert len(session.link_manager.links()) == 0
iface = InterfaceHelper("10.0.0.0/24").create_iface(node.id, 0)
link = Link(node.id, switch.id, iface1=iface)
@ -425,7 +423,7 @@ class TestGrpc:
# then
assert result is True
assert len(switch.links()) == 1
assert len(session.link_manager.links()) == 1
assert iface1.id == iface.id
assert iface1.ip4 == iface.ip4
@ -447,11 +445,10 @@ class TestGrpc:
session = grpc_server.coreemu.create_session()
switch = session.add_node(SwitchNode)
node = session.add_node(CoreNode)
iface = ip_prefixes.create_iface(node)
session.add_link(node.id, switch.id, iface)
iface_data = ip_prefixes.create_iface(node)
iface, _ = session.add_link(node.id, switch.id, iface_data)
options = LinkOptions(bandwidth=30000)
link = switch.links()[0]
assert options.bandwidth != link.options.bandwidth
assert iface.options.bandwidth != options.bandwidth
link = Link(node.id, switch.id, iface1=Interface(id=iface.id), options=options)
# then
@ -460,8 +457,7 @@ class TestGrpc:
# then
assert result is True
link = switch.links()[0]
assert options.bandwidth == link.options.bandwidth
assert options.bandwidth == iface.options.bandwidth
def test_delete_link(self, grpc_server: CoreGrpcServer, ip_prefixes: IpPrefixes):
# given
@ -472,13 +468,7 @@ class TestGrpc:
node2 = session.add_node(CoreNode)
iface2 = ip_prefixes.create_iface(node2)
session.add_link(node1.id, node2.id, iface1, iface2)
link_node = None
for node_id in session.nodes:
node = session.nodes[node_id]
if node.id not in {node1.id, node2.id}:
link_node = node
break
assert len(link_node.links()) == 1
assert len(session.link_manager.links()) == 1
link = Link(
node1.id,
node2.id,
@ -492,7 +482,7 @@ class TestGrpc:
# then
assert result is True
assert len(link_node.links()) == 0
assert len(session.link_manager.links()) == 0
def test_get_wlan_config(self, grpc_server: CoreGrpcServer):
# given
@ -757,9 +747,11 @@ class TestGrpc:
session = grpc_server.coreemu.create_session()
wlan = session.add_node(WlanNode)
node = session.add_node(CoreNode)
iface = ip_prefixes.create_iface(node)
session.add_link(node.id, wlan.id, iface)
link_data = wlan.links()[0]
iface_data = ip_prefixes.create_iface(node)
session.add_link(node.id, wlan.id, iface_data)
core_link = list(session.link_manager.links())[0]
link_data = core_link.get_data(MessageFlags.ADD)
queue = Queue()
def handle_event(event: Event) -> None:
@ -820,30 +812,6 @@ class TestGrpc:
# then
queue.get(timeout=5)
def test_config_events(self, grpc_server: CoreGrpcServer):
# given
client = CoreGrpcClient()
session = grpc_server.coreemu.create_session()
queue = Queue()
def handle_event(event: Event) -> None:
assert event.session_id == session.id
assert event.config_event is not None
queue.put(event)
# then
with client.context_connect():
client.events(session.id, handle_event)
time.sleep(0.1)
session_config = session.options.get_configs()
config_data = ConfigShim.config_data(
0, None, ConfigFlags.UPDATE.value, session.options, session_config
)
session.broadcast_config(config_data)
# then
queue.get(timeout=5)
def test_exception_events(self, grpc_server: CoreGrpcServer):
# given
client = CoreGrpcClient()
@ -958,3 +926,26 @@ class TestGrpc:
with pytest.raises(grpc.RpcError):
with client.context_connect():
client.move_nodes(streamer)
def test_wlan_link(self, grpc_server: CoreGrpcServer, ip_prefixes: IpPrefixes):
# given
client = CoreGrpcClient()
session = grpc_server.coreemu.create_session()
wlan = session.add_node(WlanNode)
node1 = session.add_node(CoreNode)
node2 = session.add_node(CoreNode)
iface1_data = ip_prefixes.create_iface(node1)
iface2_data = ip_prefixes.create_iface(node2)
session.add_link(node1.id, wlan.id, iface1_data)
session.add_link(node2.id, wlan.id, iface2_data)
session.instantiate()
assert len(session.link_manager.links()) == 2
# when
with client.context_connect():
result1 = client.wlan_link(session.id, wlan.id, node1.id, node2.id, True)
result2 = client.wlan_link(session.id, wlan.id, node1.id, node2.id, False)
# then
assert result1 is True
assert result2 is True

View file

@ -1,941 +0,0 @@
"""
Tests for testing tlv message handling.
"""
import time
from pathlib import Path
from typing import Optional
import mock
import netaddr
import pytest
from mock import MagicMock
from core.api.tlv import coreapi
from core.api.tlv.corehandlers import CoreHandler
from core.api.tlv.enumerations import (
ConfigFlags,
ConfigTlvs,
EventTlvs,
ExecuteTlvs,
FileTlvs,
LinkTlvs,
NodeTlvs,
SessionTlvs,
)
from core.emane.models.ieee80211abg import EmaneIeee80211abgModel
from core.emulator.enumerations import EventTypes, MessageFlags, NodeTypes, RegisterTlvs
from core.errors import CoreError
from core.location.mobility import BasicRangeModel
from core.nodes.base import CoreNode, NodeBase
from core.nodes.network import SwitchNode, WlanNode
def dict_to_str(values) -> str:
return "|".join(f"{x}={values[x]}" for x in values)
class TestGui:
@pytest.mark.parametrize(
"node_type, model",
[
(NodeTypes.DEFAULT, "PC"),
(NodeTypes.EMANE, None),
(NodeTypes.HUB, None),
(NodeTypes.SWITCH, None),
(NodeTypes.WIRELESS_LAN, None),
(NodeTypes.TUNNEL, None),
],
)
def test_node_add(
self, coretlv: CoreHandler, node_type: NodeTypes, model: Optional[str]
):
node_id = 1
name = "node1"
message = coreapi.CoreNodeMessage.create(
MessageFlags.ADD.value,
[
(NodeTlvs.NUMBER, node_id),
(NodeTlvs.TYPE, node_type.value),
(NodeTlvs.NAME, name),
(NodeTlvs.X_POSITION, 0),
(NodeTlvs.Y_POSITION, 0),
(NodeTlvs.MODEL, model),
],
)
coretlv.handle_message(message)
node = coretlv.session.get_node(node_id, NodeBase)
assert node
assert node.name == name
def test_node_update(self, coretlv: CoreHandler):
node_id = 1
coretlv.session.add_node(CoreNode, _id=node_id)
x = 50
y = 100
message = coreapi.CoreNodeMessage.create(
0,
[
(NodeTlvs.NUMBER, node_id),
(NodeTlvs.X_POSITION, x),
(NodeTlvs.Y_POSITION, y),
],
)
coretlv.handle_message(message)
node = coretlv.session.get_node(node_id, NodeBase)
assert node is not None
assert node.position.x == x
assert node.position.y == y
def test_node_delete(self, coretlv: CoreHandler):
node_id = 1
coretlv.session.add_node(CoreNode, _id=node_id)
message = coreapi.CoreNodeMessage.create(
MessageFlags.DELETE.value, [(NodeTlvs.NUMBER, node_id)]
)
coretlv.handle_message(message)
with pytest.raises(CoreError):
coretlv.session.get_node(node_id, NodeBase)
def test_link_add_node_to_net(self, coretlv: CoreHandler):
node1_id = 1
coretlv.session.add_node(CoreNode, _id=node1_id)
switch_id = 2
coretlv.session.add_node(SwitchNode, _id=switch_id)
ip_prefix = netaddr.IPNetwork("10.0.0.0/24")
iface1_ip4 = str(ip_prefix[node1_id])
message = coreapi.CoreLinkMessage.create(
MessageFlags.ADD.value,
[
(LinkTlvs.N1_NUMBER, node1_id),
(LinkTlvs.N2_NUMBER, switch_id),
(LinkTlvs.IFACE1_NUMBER, 0),
(LinkTlvs.IFACE1_IP4, iface1_ip4),
(LinkTlvs.IFACE1_IP4_MASK, 24),
],
)
coretlv.handle_message(message)
switch_node = coretlv.session.get_node(switch_id, SwitchNode)
all_links = switch_node.links()
assert len(all_links) == 1
def test_link_add_net_to_node(self, coretlv: CoreHandler):
node1_id = 1
coretlv.session.add_node(CoreNode, _id=node1_id)
switch_id = 2
coretlv.session.add_node(SwitchNode, _id=switch_id)
ip_prefix = netaddr.IPNetwork("10.0.0.0/24")
iface2_ip4 = str(ip_prefix[node1_id])
message = coreapi.CoreLinkMessage.create(
MessageFlags.ADD.value,
[
(LinkTlvs.N1_NUMBER, switch_id),
(LinkTlvs.N2_NUMBER, node1_id),
(LinkTlvs.IFACE2_NUMBER, 0),
(LinkTlvs.IFACE2_IP4, iface2_ip4),
(LinkTlvs.IFACE2_IP4_MASK, 24),
],
)
coretlv.handle_message(message)
switch_node = coretlv.session.get_node(switch_id, SwitchNode)
all_links = switch_node.links()
assert len(all_links) == 1
def test_link_add_node_to_node(self, coretlv: CoreHandler):
node1_id = 1
coretlv.session.add_node(CoreNode, _id=node1_id)
node2_id = 2
coretlv.session.add_node(CoreNode, _id=node2_id)
ip_prefix = netaddr.IPNetwork("10.0.0.0/24")
iface1_ip4 = str(ip_prefix[node1_id])
iface2_ip4 = str(ip_prefix[node2_id])
message = coreapi.CoreLinkMessage.create(
MessageFlags.ADD.value,
[
(LinkTlvs.N1_NUMBER, node1_id),
(LinkTlvs.N2_NUMBER, node2_id),
(LinkTlvs.IFACE1_NUMBER, 0),
(LinkTlvs.IFACE1_IP4, iface1_ip4),
(LinkTlvs.IFACE1_IP4_MASK, 24),
(LinkTlvs.IFACE2_NUMBER, 0),
(LinkTlvs.IFACE2_IP4, iface2_ip4),
(LinkTlvs.IFACE2_IP4_MASK, 24),
],
)
coretlv.handle_message(message)
all_links = []
for node_id in coretlv.session.nodes:
node = coretlv.session.nodes[node_id]
all_links += node.links()
assert len(all_links) == 1
def test_link_update(self, coretlv: CoreHandler):
node1_id = 1
coretlv.session.add_node(CoreNode, _id=node1_id)
switch_id = 2
coretlv.session.add_node(SwitchNode, _id=switch_id)
ip_prefix = netaddr.IPNetwork("10.0.0.0/24")
iface1_ip4 = str(ip_prefix[node1_id])
message = coreapi.CoreLinkMessage.create(
MessageFlags.ADD.value,
[
(LinkTlvs.N1_NUMBER, node1_id),
(LinkTlvs.N2_NUMBER, switch_id),
(LinkTlvs.IFACE1_NUMBER, 0),
(LinkTlvs.IFACE1_IP4, iface1_ip4),
(LinkTlvs.IFACE1_IP4_MASK, 24),
],
)
coretlv.handle_message(message)
switch_node = coretlv.session.get_node(switch_id, SwitchNode)
all_links = switch_node.links()
assert len(all_links) == 1
link = all_links[0]
assert link.options.bandwidth is None
bandwidth = 50000
message = coreapi.CoreLinkMessage.create(
0,
[
(LinkTlvs.N1_NUMBER, node1_id),
(LinkTlvs.N2_NUMBER, switch_id),
(LinkTlvs.IFACE1_NUMBER, 0),
(LinkTlvs.BANDWIDTH, bandwidth),
],
)
coretlv.handle_message(message)
switch_node = coretlv.session.get_node(switch_id, SwitchNode)
all_links = switch_node.links()
assert len(all_links) == 1
link = all_links[0]
assert link.options.bandwidth == bandwidth
def test_link_delete_node_to_node(self, coretlv: CoreHandler):
node1_id = 1
coretlv.session.add_node(CoreNode, _id=node1_id)
node2_id = 2
coretlv.session.add_node(CoreNode, _id=node2_id)
ip_prefix = netaddr.IPNetwork("10.0.0.0/24")
iface1_ip4 = str(ip_prefix[node1_id])
iface2_ip4 = str(ip_prefix[node2_id])
message = coreapi.CoreLinkMessage.create(
MessageFlags.ADD.value,
[
(LinkTlvs.N1_NUMBER, node1_id),
(LinkTlvs.N2_NUMBER, node2_id),
(LinkTlvs.IFACE1_NUMBER, 0),
(LinkTlvs.IFACE1_IP4, iface1_ip4),
(LinkTlvs.IFACE1_IP4_MASK, 24),
(LinkTlvs.IFACE2_IP4, iface2_ip4),
(LinkTlvs.IFACE2_IP4_MASK, 24),
],
)
coretlv.handle_message(message)
all_links = []
for node_id in coretlv.session.nodes:
node = coretlv.session.nodes[node_id]
all_links += node.links()
assert len(all_links) == 1
message = coreapi.CoreLinkMessage.create(
MessageFlags.DELETE.value,
[
(LinkTlvs.N1_NUMBER, node1_id),
(LinkTlvs.N2_NUMBER, node2_id),
(LinkTlvs.IFACE1_NUMBER, 0),
(LinkTlvs.IFACE2_NUMBER, 0),
],
)
coretlv.handle_message(message)
all_links = []
for node_id in coretlv.session.nodes:
node = coretlv.session.nodes[node_id]
all_links += node.links()
assert len(all_links) == 0
def test_link_delete_node_to_net(self, coretlv: CoreHandler):
node1_id = 1
coretlv.session.add_node(CoreNode, _id=node1_id)
switch_id = 2
coretlv.session.add_node(SwitchNode, _id=switch_id)
ip_prefix = netaddr.IPNetwork("10.0.0.0/24")
iface1_ip4 = str(ip_prefix[node1_id])
message = coreapi.CoreLinkMessage.create(
MessageFlags.ADD.value,
[
(LinkTlvs.N1_NUMBER, node1_id),
(LinkTlvs.N2_NUMBER, switch_id),
(LinkTlvs.IFACE1_NUMBER, 0),
(LinkTlvs.IFACE1_IP4, iface1_ip4),
(LinkTlvs.IFACE1_IP4_MASK, 24),
],
)
coretlv.handle_message(message)
switch_node = coretlv.session.get_node(switch_id, SwitchNode)
all_links = switch_node.links()
assert len(all_links) == 1
message = coreapi.CoreLinkMessage.create(
MessageFlags.DELETE.value,
[
(LinkTlvs.N1_NUMBER, node1_id),
(LinkTlvs.N2_NUMBER, switch_id),
(LinkTlvs.IFACE1_NUMBER, 0),
],
)
coretlv.handle_message(message)
switch_node = coretlv.session.get_node(switch_id, SwitchNode)
all_links = switch_node.links()
assert len(all_links) == 0
def test_link_delete_net_to_node(self, coretlv: CoreHandler):
node1_id = 1
coretlv.session.add_node(CoreNode, _id=node1_id)
switch_id = 2
coretlv.session.add_node(SwitchNode, _id=switch_id)
ip_prefix = netaddr.IPNetwork("10.0.0.0/24")
iface1_ip4 = str(ip_prefix[node1_id])
message = coreapi.CoreLinkMessage.create(
MessageFlags.ADD.value,
[
(LinkTlvs.N1_NUMBER, node1_id),
(LinkTlvs.N2_NUMBER, switch_id),
(LinkTlvs.IFACE1_NUMBER, 0),
(LinkTlvs.IFACE1_IP4, iface1_ip4),
(LinkTlvs.IFACE1_IP4_MASK, 24),
],
)
coretlv.handle_message(message)
switch_node = coretlv.session.get_node(switch_id, SwitchNode)
all_links = switch_node.links()
assert len(all_links) == 1
message = coreapi.CoreLinkMessage.create(
MessageFlags.DELETE.value,
[
(LinkTlvs.N1_NUMBER, switch_id),
(LinkTlvs.N2_NUMBER, node1_id),
(LinkTlvs.IFACE2_NUMBER, 0),
],
)
coretlv.handle_message(message)
switch_node = coretlv.session.get_node(switch_id, SwitchNode)
all_links = switch_node.links()
assert len(all_links) == 0
def test_session_update(self, coretlv: CoreHandler):
session_id = coretlv.session.id
name = "test"
message = coreapi.CoreSessionMessage.create(
0, [(SessionTlvs.NUMBER, str(session_id)), (SessionTlvs.NAME, name)]
)
coretlv.handle_message(message)
assert coretlv.session.name == name
def test_session_query(self, coretlv: CoreHandler):
coretlv.dispatch_replies = mock.MagicMock()
message = coreapi.CoreSessionMessage.create(MessageFlags.STRING.value, [])
coretlv.handle_message(message)
args, _ = coretlv.dispatch_replies.call_args
replies = args[0]
assert len(replies) == 1
def test_session_join(self, coretlv: CoreHandler):
coretlv.dispatch_replies = mock.MagicMock()
session_id = coretlv.session.id
message = coreapi.CoreSessionMessage.create(
MessageFlags.ADD.value, [(SessionTlvs.NUMBER, str(session_id))]
)
coretlv.handle_message(message)
assert coretlv.session.id == session_id
def test_session_delete(self, coretlv: CoreHandler):
assert len(coretlv.coreemu.sessions) == 1
session_id = coretlv.session.id
message = coreapi.CoreSessionMessage.create(
MessageFlags.DELETE.value, [(SessionTlvs.NUMBER, str(session_id))]
)
coretlv.handle_message(message)
assert len(coretlv.coreemu.sessions) == 0
def test_file_hook_add(self, coretlv: CoreHandler):
state = EventTypes.DATACOLLECT_STATE
assert coretlv.session.hooks.get(state) is None
file_name = "test.sh"
file_data = "echo hello"
message = coreapi.CoreFileMessage.create(
MessageFlags.ADD.value,
[
(FileTlvs.TYPE, f"hook:{state.value}"),
(FileTlvs.NAME, file_name),
(FileTlvs.DATA, file_data),
],
)
coretlv.handle_message(message)
hooks = coretlv.session.hooks.get(state)
assert len(hooks) == 1
name, data = hooks[0]
assert file_name == name
assert file_data == data
def test_file_service_file_set(self, coretlv: CoreHandler):
node = coretlv.session.add_node(CoreNode)
service = "DefaultRoute"
file_name = "defaultroute.sh"
file_data = "echo hello"
message = coreapi.CoreFileMessage.create(
MessageFlags.ADD.value,
[
(FileTlvs.NODE, node.id),
(FileTlvs.TYPE, f"service:{service}"),
(FileTlvs.NAME, file_name),
(FileTlvs.DATA, file_data),
],
)
coretlv.handle_message(message)
service_file = coretlv.session.services.get_service_file(
node, service, file_name
)
assert file_data == service_file.data
def test_file_node_file_copy(self, request, coretlv: CoreHandler):
file_path = Path("/var/log/test/node.log")
node = coretlv.session.add_node(CoreNode)
node.makenodedir()
file_data = "echo hello"
message = coreapi.CoreFileMessage.create(
MessageFlags.ADD.value,
[
(FileTlvs.NODE, node.id),
(FileTlvs.NAME, str(file_path)),
(FileTlvs.DATA, file_data),
],
)
coretlv.handle_message(message)
if not request.config.getoption("mock"):
expected_path = node.directory / "var.log/test" / file_path.name
assert expected_path.exists()
def test_exec_node_tty(self, coretlv: CoreHandler):
coretlv.dispatch_replies = mock.MagicMock()
node = coretlv.session.add_node(CoreNode)
message = coreapi.CoreExecMessage.create(
MessageFlags.TTY.value,
[
(ExecuteTlvs.NODE, node.id),
(ExecuteTlvs.NUMBER, 1),
(ExecuteTlvs.COMMAND, "bash"),
],
)
coretlv.handle_message(message)
args, _ = coretlv.dispatch_replies.call_args
replies = args[0]
assert len(replies) == 1
def test_exec_local_command(self, request, coretlv: CoreHandler):
if request.config.getoption("mock"):
pytest.skip("mocking calls")
coretlv.dispatch_replies = mock.MagicMock()
node = coretlv.session.add_node(CoreNode)
cmd = "echo hello"
message = coreapi.CoreExecMessage.create(
MessageFlags.TEXT.value | MessageFlags.LOCAL.value,
[
(ExecuteTlvs.NODE, node.id),
(ExecuteTlvs.NUMBER, 1),
(ExecuteTlvs.COMMAND, cmd),
],
)
coretlv.handle_message(message)
args, _ = coretlv.dispatch_replies.call_args
replies = args[0]
assert len(replies) == 1
def test_exec_node_command(self, coretlv: CoreHandler):
coretlv.dispatch_replies = mock.MagicMock()
node = coretlv.session.add_node(CoreNode)
cmd = "echo hello"
message = coreapi.CoreExecMessage.create(
MessageFlags.TEXT.value,
[
(ExecuteTlvs.NODE, node.id),
(ExecuteTlvs.NUMBER, 1),
(ExecuteTlvs.COMMAND, cmd),
],
)
node.cmd = MagicMock(return_value="hello")
coretlv.handle_message(message)
node.cmd.assert_called_with(cmd)
@pytest.mark.parametrize(
"state",
[
EventTypes.SHUTDOWN_STATE,
EventTypes.RUNTIME_STATE,
EventTypes.DATACOLLECT_STATE,
EventTypes.CONFIGURATION_STATE,
EventTypes.DEFINITION_STATE,
],
)
def test_event_state(self, coretlv: CoreHandler, state: EventTypes):
message = coreapi.CoreEventMessage.create(0, [(EventTlvs.TYPE, state.value)])
coretlv.handle_message(message)
assert coretlv.session.state == state
def test_event_schedule(self, coretlv: CoreHandler):
coretlv.session.add_event = mock.MagicMock()
node = coretlv.session.add_node(CoreNode)
message = coreapi.CoreEventMessage.create(
MessageFlags.ADD.value,
[
(EventTlvs.TYPE, EventTypes.SCHEDULED.value),
(EventTlvs.TIME, str(time.monotonic() + 100)),
(EventTlvs.NODE, node.id),
(EventTlvs.NAME, "event"),
(EventTlvs.DATA, "data"),
],
)
coretlv.handle_message(message)
coretlv.session.add_event.assert_called_once()
def test_event_save_xml(self, coretlv: CoreHandler, tmpdir):
xml_file = tmpdir.join("coretlv.session.xml")
file_path = xml_file.strpath
coretlv.session.add_node(CoreNode)
message = coreapi.CoreEventMessage.create(
0,
[(EventTlvs.TYPE, EventTypes.FILE_SAVE.value), (EventTlvs.NAME, file_path)],
)
coretlv.handle_message(message)
assert Path(file_path).exists()
def test_event_open_xml(self, coretlv: CoreHandler, tmpdir):
xml_file = tmpdir.join("coretlv.session.xml")
file_path = Path(xml_file.strpath)
node = coretlv.session.add_node(CoreNode)
coretlv.session.save_xml(file_path)
coretlv.session.delete_node(node.id)
message = coreapi.CoreEventMessage.create(
0,
[
(EventTlvs.TYPE, EventTypes.FILE_OPEN.value),
(EventTlvs.NAME, str(file_path)),
],
)
coretlv.handle_message(message)
assert coretlv.session.get_node(node.id, NodeBase)
@pytest.mark.parametrize(
"state",
[
EventTypes.START,
EventTypes.STOP,
EventTypes.RESTART,
EventTypes.PAUSE,
EventTypes.RECONFIGURE,
],
)
def test_event_service(self, coretlv: CoreHandler, state: EventTypes):
coretlv.session.broadcast_event = mock.MagicMock()
node = coretlv.session.add_node(CoreNode)
message = coreapi.CoreEventMessage.create(
0,
[
(EventTlvs.TYPE, state.value),
(EventTlvs.NODE, node.id),
(EventTlvs.NAME, "service:DefaultRoute"),
],
)
coretlv.handle_message(message)
coretlv.session.broadcast_event.assert_called_once()
@pytest.mark.parametrize(
"state",
[
EventTypes.START,
EventTypes.STOP,
EventTypes.RESTART,
EventTypes.PAUSE,
EventTypes.RECONFIGURE,
],
)
def test_event_mobility(self, coretlv: CoreHandler, state: EventTypes):
message = coreapi.CoreEventMessage.create(
0, [(EventTlvs.TYPE, state.value), (EventTlvs.NAME, "mobility:ns2script")]
)
coretlv.handle_message(message)
def test_register_gui(self, coretlv: CoreHandler):
message = coreapi.CoreRegMessage.create(0, [(RegisterTlvs.GUI, "gui")])
coretlv.handle_message(message)
def test_register_xml(self, coretlv: CoreHandler, tmpdir):
xml_file = tmpdir.join("coretlv.session.xml")
file_path = xml_file.strpath
node = coretlv.session.add_node(CoreNode)
coretlv.session.save_xml(file_path)
coretlv.session.delete_node(node.id)
message = coreapi.CoreRegMessage.create(
0, [(RegisterTlvs.EXECUTE_SERVER, file_path)]
)
coretlv.session.instantiate()
coretlv.handle_message(message)
assert coretlv.coreemu.sessions[1].get_node(node.id, CoreNode)
def test_register_python(self, coretlv: CoreHandler, tmpdir):
xml_file = tmpdir.join("test.py")
file_path = xml_file.strpath
with open(file_path, "w") as f:
f.write("from core.nodes.base import CoreNode\n")
f.write("coreemu = globals()['coreemu']\n")
f.write(f"session = coreemu.sessions[{coretlv.session.id}]\n")
f.write("session.add_node(CoreNode)\n")
message = coreapi.CoreRegMessage.create(
0, [(RegisterTlvs.EXECUTE_SERVER, file_path)]
)
coretlv.session.instantiate()
coretlv.handle_message(message)
assert len(coretlv.session.nodes) == 1
def test_config_all(self, coretlv: CoreHandler):
message = coreapi.CoreConfMessage.create(
MessageFlags.ADD.value,
[(ConfigTlvs.OBJECT, "all"), (ConfigTlvs.TYPE, ConfigFlags.RESET.value)],
)
coretlv.session.location.refxyz = (10, 10, 10)
coretlv.handle_message(message)
assert coretlv.session.location.refxyz == (0, 0, 0)
def test_config_options_request(self, coretlv: CoreHandler):
message = coreapi.CoreConfMessage.create(
0,
[
(ConfigTlvs.OBJECT, "session"),
(ConfigTlvs.TYPE, ConfigFlags.REQUEST.value),
],
)
coretlv.handle_broadcast_config = mock.MagicMock()
coretlv.handle_message(message)
coretlv.handle_broadcast_config.assert_called_once()
def test_config_options_update(self, coretlv: CoreHandler):
test_key = "test"
test_value = "test"
values = {test_key: test_value}
message = coreapi.CoreConfMessage.create(
0,
[
(ConfigTlvs.OBJECT, "session"),
(ConfigTlvs.TYPE, ConfigFlags.UPDATE.value),
(ConfigTlvs.VALUES, dict_to_str(values)),
],
)
coretlv.handle_message(message)
assert coretlv.session.options.get_config(test_key) == test_value
def test_config_location_reset(self, coretlv: CoreHandler):
message = coreapi.CoreConfMessage.create(
0,
[
(ConfigTlvs.OBJECT, "location"),
(ConfigTlvs.TYPE, ConfigFlags.RESET.value),
],
)
coretlv.session.location.refxyz = (10, 10, 10)
coretlv.handle_message(message)
assert coretlv.session.location.refxyz == (0, 0, 0)
def test_config_location_update(self, coretlv: CoreHandler):
message = coreapi.CoreConfMessage.create(
0,
[
(ConfigTlvs.OBJECT, "location"),
(ConfigTlvs.TYPE, ConfigFlags.UPDATE.value),
(ConfigTlvs.VALUES, "10|10|70|50|0|0.5"),
],
)
coretlv.handle_message(message)
assert coretlv.session.location.refxyz == (10, 10, 0.0)
assert coretlv.session.location.refgeo == (70, 50, 0)
assert coretlv.session.location.refscale == 0.5
def test_config_metadata_request(self, coretlv: CoreHandler):
message = coreapi.CoreConfMessage.create(
0,
[
(ConfigTlvs.OBJECT, "metadata"),
(ConfigTlvs.TYPE, ConfigFlags.REQUEST.value),
],
)
coretlv.handle_broadcast_config = mock.MagicMock()
coretlv.handle_message(message)
coretlv.handle_broadcast_config.assert_called_once()
def test_config_metadata_update(self, coretlv: CoreHandler):
test_key = "test"
test_value = "test"
values = {test_key: test_value}
message = coreapi.CoreConfMessage.create(
0,
[
(ConfigTlvs.OBJECT, "metadata"),
(ConfigTlvs.TYPE, ConfigFlags.UPDATE.value),
(ConfigTlvs.VALUES, dict_to_str(values)),
],
)
coretlv.handle_message(message)
assert coretlv.session.metadata[test_key] == test_value
def test_config_broker_request(self, coretlv: CoreHandler):
server = "test"
host = "10.0.0.1"
port = 50000
message = coreapi.CoreConfMessage.create(
0,
[
(ConfigTlvs.OBJECT, "broker"),
(ConfigTlvs.TYPE, ConfigFlags.UPDATE.value),
(ConfigTlvs.VALUES, f"{server}:{host}:{port}"),
],
)
coretlv.session.distributed.add_server = mock.MagicMock()
coretlv.handle_message(message)
coretlv.session.distributed.add_server.assert_called_once_with(server, host)
def test_config_services_request_all(self, coretlv: CoreHandler):
message = coreapi.CoreConfMessage.create(
0,
[
(ConfigTlvs.OBJECT, "services"),
(ConfigTlvs.TYPE, ConfigFlags.REQUEST.value),
],
)
coretlv.handle_broadcast_config = mock.MagicMock()
coretlv.handle_message(message)
coretlv.handle_broadcast_config.assert_called_once()
def test_config_services_request_specific(self, coretlv: CoreHandler):
node = coretlv.session.add_node(CoreNode)
message = coreapi.CoreConfMessage.create(
0,
[
(ConfigTlvs.NODE, node.id),
(ConfigTlvs.OBJECT, "services"),
(ConfigTlvs.TYPE, ConfigFlags.REQUEST.value),
(ConfigTlvs.OPAQUE, "service:DefaultRoute"),
],
)
coretlv.handle_broadcast_config = mock.MagicMock()
coretlv.handle_message(message)
coretlv.handle_broadcast_config.assert_called_once()
def test_config_services_request_specific_file(self, coretlv: CoreHandler):
node = coretlv.session.add_node(CoreNode)
message = coreapi.CoreConfMessage.create(
0,
[
(ConfigTlvs.NODE, node.id),
(ConfigTlvs.OBJECT, "services"),
(ConfigTlvs.TYPE, ConfigFlags.REQUEST.value),
(ConfigTlvs.OPAQUE, "service:DefaultRoute:defaultroute.sh"),
],
)
coretlv.session.broadcast_file = mock.MagicMock()
coretlv.handle_message(message)
coretlv.session.broadcast_file.assert_called_once()
def test_config_services_reset(self, coretlv: CoreHandler):
node = coretlv.session.add_node(CoreNode)
service = "DefaultRoute"
coretlv.session.services.set_service(node.id, service)
message = coreapi.CoreConfMessage.create(
0,
[
(ConfigTlvs.OBJECT, "services"),
(ConfigTlvs.TYPE, ConfigFlags.RESET.value),
],
)
assert coretlv.session.services.get_service(node.id, service) is not None
coretlv.handle_message(message)
assert coretlv.session.services.get_service(node.id, service) is None
def test_config_services_set(self, coretlv: CoreHandler):
node = coretlv.session.add_node(CoreNode)
service = "DefaultRoute"
values = {"meta": "metadata"}
message = coreapi.CoreConfMessage.create(
0,
[
(ConfigTlvs.NODE, node.id),
(ConfigTlvs.OBJECT, "services"),
(ConfigTlvs.TYPE, ConfigFlags.UPDATE.value),
(ConfigTlvs.OPAQUE, f"service:{service}"),
(ConfigTlvs.VALUES, dict_to_str(values)),
],
)
assert coretlv.session.services.get_service(node.id, service) is None
coretlv.handle_message(message)
assert coretlv.session.services.get_service(node.id, service) is not None
def test_config_mobility_reset(self, coretlv: CoreHandler):
wlan = coretlv.session.add_node(WlanNode)
message = coreapi.CoreConfMessage.create(
0,
[
(ConfigTlvs.OBJECT, "MobilityManager"),
(ConfigTlvs.TYPE, ConfigFlags.RESET.value),
],
)
coretlv.session.mobility.set_model_config(wlan.id, BasicRangeModel.name, {})
assert len(coretlv.session.mobility.node_configurations) == 1
coretlv.handle_message(message)
assert len(coretlv.session.mobility.node_configurations) == 0
def test_config_mobility_model_request(self, coretlv: CoreHandler):
wlan = coretlv.session.add_node(WlanNode)
message = coreapi.CoreConfMessage.create(
0,
[
(ConfigTlvs.NODE, wlan.id),
(ConfigTlvs.OBJECT, BasicRangeModel.name),
(ConfigTlvs.TYPE, ConfigFlags.REQUEST.value),
],
)
coretlv.handle_broadcast_config = mock.MagicMock()
coretlv.handle_message(message)
coretlv.handle_broadcast_config.assert_called_once()
def test_config_mobility_model_update(self, coretlv: CoreHandler):
wlan = coretlv.session.add_node(WlanNode)
config_key = "range"
config_value = "1000"
values = {config_key: config_value}
message = coreapi.CoreConfMessage.create(
0,
[
(ConfigTlvs.NODE, wlan.id),
(ConfigTlvs.OBJECT, BasicRangeModel.name),
(ConfigTlvs.TYPE, ConfigFlags.UPDATE.value),
(ConfigTlvs.VALUES, dict_to_str(values)),
],
)
coretlv.handle_message(message)
config = coretlv.session.mobility.get_model_config(
wlan.id, BasicRangeModel.name
)
assert config[config_key] == config_value
def test_config_emane_model_request(self, coretlv: CoreHandler):
wlan = coretlv.session.add_node(WlanNode)
message = coreapi.CoreConfMessage.create(
0,
[
(ConfigTlvs.NODE, wlan.id),
(ConfigTlvs.OBJECT, EmaneIeee80211abgModel.name),
(ConfigTlvs.TYPE, ConfigFlags.REQUEST.value),
],
)
coretlv.handle_broadcast_config = mock.MagicMock()
coretlv.handle_message(message)
coretlv.handle_broadcast_config.assert_called_once()
def test_config_emane_model_update(self, coretlv: CoreHandler):
wlan = coretlv.session.add_node(WlanNode)
config_key = "distance"
config_value = "50051"
values = {config_key: config_value}
message = coreapi.CoreConfMessage.create(
0,
[
(ConfigTlvs.NODE, wlan.id),
(ConfigTlvs.OBJECT, EmaneIeee80211abgModel.name),
(ConfigTlvs.TYPE, ConfigFlags.UPDATE.value),
(ConfigTlvs.VALUES, dict_to_str(values)),
],
)
coretlv.handle_message(message)
config = coretlv.session.emane.get_config(wlan.id, EmaneIeee80211abgModel.name)
assert config[config_key] == config_value

View file

@ -46,14 +46,17 @@ class TestLinks:
)
# then
assert len(session.link_manager.links()) == 1
assert node1.get_iface(iface1_data.id)
assert node2.get_iface(iface2_data.id)
assert iface1 is not None
assert iface1.options == LINK_OPTIONS
assert iface1.has_netem
assert node1.get_iface(iface1_data.id)
assert iface2 is not None
assert iface1.local_options == LINK_OPTIONS
assert iface1.has_local_netem
assert iface2.local_options == LINK_OPTIONS
assert iface2.has_local_netem
assert iface2.options == LINK_OPTIONS
assert iface2.has_netem
assert node1.get_iface(iface1_data.id)
def test_add_node_to_net(self, session: Session, ip_prefixes: IpPrefixes):
# given
@ -62,16 +65,20 @@ class TestLinks:
iface1_data = ip_prefixes.create_iface(node1)
# when
iface, _ = session.add_link(
iface1, iface2 = session.add_link(
node1.id, node2.id, iface1_data=iface1_data, options=LINK_OPTIONS
)
# then
assert node2.links()
assert len(session.link_manager.links()) == 1
assert iface1 is not None
assert iface1.options == LINK_OPTIONS
assert iface1.has_netem
assert node1.get_iface(iface1_data.id)
assert iface is not None
assert iface.local_options == LINK_OPTIONS
assert iface.has_local_netem
assert iface2 is not None
assert iface2.options == LINK_OPTIONS
assert iface2.has_netem
assert node2.get_iface(iface1_data.id)
def test_add_net_to_node(self, session: Session, ip_prefixes: IpPrefixes):
# given
@ -80,32 +87,37 @@ class TestLinks:
iface2_data = ip_prefixes.create_iface(node2)
# when
_, iface = session.add_link(
iface1, iface2 = session.add_link(
node1.id, node2.id, iface2_data=iface2_data, options=LINK_OPTIONS
)
# then
assert node1.links()
assert node2.get_iface(iface2_data.id)
assert iface is not None
assert iface.local_options == LINK_OPTIONS
assert iface.has_local_netem
assert len(session.link_manager.links()) == 1
assert iface1 is not None
assert iface1.options == LINK_OPTIONS
assert iface1.has_netem
assert node1.get_iface(iface1.id)
assert iface2 is not None
assert iface2.options == LINK_OPTIONS
assert iface2.has_netem
assert node2.get_iface(iface2.id)
def test_add_net_to_net(self, session):
def test_add_net_to_net(self, session: Session):
# given
node1 = session.add_node(SwitchNode)
node2 = session.add_node(SwitchNode)
# when
iface, _ = session.add_link(node1.id, node2.id, options=LINK_OPTIONS)
iface1, iface2 = session.add_link(node1.id, node2.id, options=LINK_OPTIONS)
# then
assert node1.links()
assert iface is not None
assert iface.local_options == LINK_OPTIONS
assert iface.options == LINK_OPTIONS
assert iface.has_local_netem
assert iface.has_netem
assert len(session.link_manager.links()) == 1
assert iface1 is not None
assert iface1.options == LINK_OPTIONS
assert iface1.has_netem
assert iface2 is not None
assert iface2.options == LINK_OPTIONS
assert iface2.has_netem
def test_add_node_to_node_uni(self, session: Session, ip_prefixes: IpPrefixes):
# given
@ -141,48 +153,52 @@ class TestLinks:
)
# then
assert len(session.link_manager.links()) == 1
assert node1.get_iface(iface1_data.id)
assert node2.get_iface(iface2_data.id)
assert iface1 is not None
assert iface1.options == link_options1
assert iface1.has_netem
assert iface2 is not None
assert iface1.local_options == link_options1
assert iface1.has_local_netem
assert iface2.local_options == link_options2
assert iface2.has_local_netem
assert iface2.options == link_options2
assert iface2.has_netem
def test_update_node_to_net(self, session: Session, ip_prefixes: IpPrefixes):
# given
node1 = session.add_node(CoreNode)
node2 = session.add_node(SwitchNode)
iface1_data = ip_prefixes.create_iface(node1)
iface1, _ = session.add_link(node1.id, node2.id, iface1_data)
assert iface1.local_options != LINK_OPTIONS
iface1, iface2 = session.add_link(node1.id, node2.id, iface1_data)
assert len(session.link_manager.links()) == 1
assert iface1.options != LINK_OPTIONS
assert iface2.options != LINK_OPTIONS
# when
session.update_link(
node1.id, node2.id, iface1_id=iface1_data.id, options=LINK_OPTIONS
)
session.update_link(node1.id, node2.id, iface1.id, iface2.id, LINK_OPTIONS)
# then
assert iface1.local_options == LINK_OPTIONS
assert iface1.has_local_netem
assert iface1.options == LINK_OPTIONS
assert iface1.has_netem
assert iface2.options == LINK_OPTIONS
assert iface2.has_netem
def test_update_net_to_node(self, session: Session, ip_prefixes: IpPrefixes):
# given
node1 = session.add_node(SwitchNode)
node2 = session.add_node(CoreNode)
iface2_data = ip_prefixes.create_iface(node2)
_, iface2 = session.add_link(node1.id, node2.id, iface2_data=iface2_data)
assert iface2.local_options != LINK_OPTIONS
iface1, iface2 = session.add_link(node1.id, node2.id, iface2_data=iface2_data)
assert iface1.options != LINK_OPTIONS
assert iface2.options != LINK_OPTIONS
# when
session.update_link(
node1.id, node2.id, iface2_id=iface2_data.id, options=LINK_OPTIONS
)
session.update_link(node1.id, node2.id, iface1.id, iface2.id, LINK_OPTIONS)
# then
assert iface2.local_options == LINK_OPTIONS
assert iface2.has_local_netem
assert iface1.options == LINK_OPTIONS
assert iface1.has_netem
assert iface2.options == LINK_OPTIONS
assert iface2.has_netem
def test_update_ptp(self, session: Session, ip_prefixes: IpPrefixes):
# given
@ -191,55 +207,68 @@ class TestLinks:
iface1_data = ip_prefixes.create_iface(node1)
iface2_data = ip_prefixes.create_iface(node2)
iface1, iface2 = session.add_link(node1.id, node2.id, iface1_data, iface2_data)
assert iface1.local_options != LINK_OPTIONS
assert iface2.local_options != LINK_OPTIONS
assert iface1.options != LINK_OPTIONS
assert iface2.options != LINK_OPTIONS
# when
session.update_link(
node1.id, node2.id, iface1_data.id, iface2_data.id, LINK_OPTIONS
)
session.update_link(node1.id, node2.id, iface1.id, iface2.id, LINK_OPTIONS)
# then
assert iface1.local_options == LINK_OPTIONS
assert iface1.has_local_netem
assert iface2.local_options == LINK_OPTIONS
assert iface2.has_local_netem
assert iface1.options == LINK_OPTIONS
assert iface1.has_netem
assert iface2.options == LINK_OPTIONS
assert iface2.has_netem
def test_update_net_to_net(self, session: Session, ip_prefixes: IpPrefixes):
# given
node1 = session.add_node(SwitchNode)
node2 = session.add_node(SwitchNode)
iface1, _ = session.add_link(node1.id, node2.id)
assert iface1.local_options != LINK_OPTIONS
iface1, iface2 = session.add_link(node1.id, node2.id)
assert iface1.options != LINK_OPTIONS
assert iface2.options != LINK_OPTIONS
# when
session.update_link(node1.id, node2.id, options=LINK_OPTIONS)
session.update_link(node1.id, node2.id, iface1.id, iface2.id, LINK_OPTIONS)
# then
assert iface1.local_options == LINK_OPTIONS
assert iface1.has_local_netem
assert iface1.options == LINK_OPTIONS
assert iface1.has_netem
assert iface2.options == LINK_OPTIONS
assert iface2.has_netem
def test_update_error(self, session: Session, ip_prefixes: IpPrefixes):
# given
node1 = session.add_node(CoreNode)
node2 = session.add_node(CoreNode)
iface1_data = ip_prefixes.create_iface(node1)
iface2_data = ip_prefixes.create_iface(node2)
iface1, iface2 = session.add_link(node1.id, node2.id, iface1_data, iface2_data)
assert iface1.options != LINK_OPTIONS
assert iface2.options != LINK_OPTIONS
# when
with pytest.raises(CoreError):
session.delete_link(node1.id, INVALID_ID, iface1.id, iface2.id)
def test_clear_net_to_net(self, session: Session, ip_prefixes: IpPrefixes):
# given
node1 = session.add_node(SwitchNode)
node2 = session.add_node(SwitchNode)
iface1, _ = session.add_link(node1.id, node2.id, options=LINK_OPTIONS)
assert iface1.local_options == LINK_OPTIONS
assert iface1.has_local_netem
iface1, iface2 = session.add_link(node1.id, node2.id, options=LINK_OPTIONS)
assert iface1.options == LINK_OPTIONS
assert iface1.has_netem
assert iface2.options == LINK_OPTIONS
assert iface2.has_netem
# when
options = LinkOptions(delay=0, bandwidth=0, loss=0.0, dup=0, jitter=0, buffer=0)
session.update_link(node1.id, node2.id, options=options)
session.update_link(node1.id, node2.id, iface1.id, iface2.id, options)
# then
assert iface1.local_options.is_clear()
assert not iface1.has_local_netem
assert iface1.options.is_clear()
assert not iface1.has_netem
assert iface2.options.is_clear()
assert not iface2.has_netem
def test_delete_node_to_node(self, session: Session, ip_prefixes: IpPrefixes):
# given
@ -247,82 +276,100 @@ class TestLinks:
node2 = session.add_node(CoreNode)
iface1_data = ip_prefixes.create_iface(node1)
iface2_data = ip_prefixes.create_iface(node2)
session.add_link(node1.id, node2.id, iface1_data, iface2_data)
assert node1.get_iface(iface1_data.id)
assert node2.get_iface(iface2_data.id)
iface1, iface2 = session.add_link(node1.id, node2.id, iface1_data, iface2_data)
assert len(session.link_manager.links()) == 1
assert node1.get_iface(iface1.id)
assert node2.get_iface(iface2.id)
# when
session.delete_link(node1.id, node2.id, iface1_data.id, iface2_data.id)
session.delete_link(node1.id, node2.id, iface1.id, iface2.id)
# then
assert iface1_data.id not in node1.ifaces
assert iface2_data.id not in node2.ifaces
assert len(session.link_manager.links()) == 0
assert iface1.id not in node1.ifaces
assert iface2.id not in node2.ifaces
def test_delete_node_to_net(self, session: Session, ip_prefixes: IpPrefixes):
# given
node1 = session.add_node(CoreNode)
node2 = session.add_node(SwitchNode)
iface1_data = ip_prefixes.create_iface(node1)
session.add_link(node1.id, node2.id, iface1_data)
assert node1.get_iface(iface1_data.id)
iface1, iface2 = session.add_link(node1.id, node2.id, iface1_data)
assert len(session.link_manager.links()) == 1
assert node1.get_iface(iface1.id)
assert node2.get_iface(iface2.id)
# when
session.delete_link(node1.id, node2.id, iface1_id=iface1_data.id)
session.delete_link(node1.id, node2.id, iface1.id, iface2.id)
# then
assert iface1_data.id not in node1.ifaces
assert len(session.link_manager.links()) == 0
assert iface1.id not in node1.ifaces
assert iface2.id not in node2.ifaces
def test_delete_net_to_node(self, session: Session, ip_prefixes: IpPrefixes):
# given
node1 = session.add_node(SwitchNode)
node2 = session.add_node(CoreNode)
iface2_data = ip_prefixes.create_iface(node2)
session.add_link(node1.id, node2.id, iface2_data=iface2_data)
assert node2.get_iface(iface2_data.id)
iface1, iface2 = session.add_link(node1.id, node2.id, iface2_data=iface2_data)
assert len(session.link_manager.links()) == 1
assert node1.get_iface(iface1.id)
assert node2.get_iface(iface2.id)
# when
session.delete_link(node1.id, node2.id, iface2_id=iface2_data.id)
session.delete_link(node1.id, node2.id, iface1.id, iface2.id)
# then
assert iface2_data.id not in node2.ifaces
assert len(session.link_manager.links()) == 0
assert iface1.id not in node1.ifaces
assert iface2.id not in node2.ifaces
def test_delete_net_to_net(self, session: Session, ip_prefixes: IpPrefixes):
# given
node1 = session.add_node(SwitchNode)
node2 = session.add_node(SwitchNode)
session.add_link(node1.id, node2.id)
assert node1.get_linked_iface(node2)
iface1, iface2 = session.add_link(node1.id, node2.id)
assert len(session.link_manager.links()) == 1
assert node1.get_iface(iface1.id)
assert node2.get_iface(iface2.id)
# when
session.delete_link(node1.id, node2.id)
session.delete_link(node1.id, node2.id, iface1.id, iface2.id)
# then
assert not node1.get_linked_iface(node2)
assert len(session.link_manager.links()) == 0
assert iface1.id not in node1.ifaces
assert iface2.id not in node2.ifaces
def test_delete_node_error(self, session: Session, ip_prefixes: IpPrefixes):
# given
node1 = session.add_node(SwitchNode)
node2 = session.add_node(SwitchNode)
session.add_link(node1.id, node2.id)
assert node1.get_linked_iface(node2)
iface1, iface2 = session.add_link(node1.id, node2.id)
assert len(session.link_manager.links()) == 1
assert node1.get_iface(iface1.id)
assert node2.get_iface(iface2.id)
# when
with pytest.raises(CoreError):
session.delete_link(node1.id, INVALID_ID)
session.delete_link(node1.id, INVALID_ID, iface1.id, iface2.id)
with pytest.raises(CoreError):
session.delete_link(INVALID_ID, node2.id)
session.delete_link(INVALID_ID, node2.id, iface1.id, iface2.id)
def test_delete_net_to_net_error(self, session: Session, ip_prefixes: IpPrefixes):
# given
node1 = session.add_node(SwitchNode)
node2 = session.add_node(SwitchNode)
node3 = session.add_node(SwitchNode)
session.add_link(node1.id, node2.id)
assert node1.get_linked_iface(node2)
iface1, iface2 = session.add_link(node1.id, node2.id)
assert len(session.link_manager.links()) == 1
assert node1.get_iface(iface1.id)
assert node2.get_iface(iface2.id)
# when
with pytest.raises(CoreError):
session.delete_link(node1.id, node3.id)
session.delete_link(node1.id, node3.id, iface1.id, iface2.id)
def test_delete_node_to_net_error(self, session: Session, ip_prefixes: IpPrefixes):
# given
@ -330,12 +377,14 @@ class TestLinks:
node2 = session.add_node(SwitchNode)
node3 = session.add_node(SwitchNode)
iface1_data = ip_prefixes.create_iface(node1)
iface1, _ = session.add_link(node1.id, node2.id, iface1_data)
assert iface1
iface1, iface2 = session.add_link(node1.id, node2.id, iface1_data)
assert len(session.link_manager.links()) == 1
assert node1.get_iface(iface1.id)
assert node2.get_iface(iface2.id)
# when
with pytest.raises(CoreError):
session.delete_link(node1.id, node3.id)
session.delete_link(node1.id, node3.id, iface1.id, iface2.id)
def test_delete_net_to_node_error(self, session: Session, ip_prefixes: IpPrefixes):
# given
@ -343,12 +392,14 @@ class TestLinks:
node2 = session.add_node(CoreNode)
node3 = session.add_node(SwitchNode)
iface2_data = ip_prefixes.create_iface(node2)
_, iface2 = session.add_link(node1.id, node2.id, iface2_data=iface2_data)
assert iface2
iface1, iface2 = session.add_link(node1.id, node2.id, iface2_data=iface2_data)
assert len(session.link_manager.links()) == 1
assert node1.get_iface(iface1.id)
assert node2.get_iface(iface2.id)
# when
with pytest.raises(CoreError):
session.delete_link(node1.id, node3.id)
session.delete_link(node1.id, node3.id, iface1.id, iface2.id)
def test_delete_node_to_node_error(self, session: Session, ip_prefixes: IpPrefixes):
# given
@ -358,9 +409,10 @@ class TestLinks:
iface1_data = ip_prefixes.create_iface(node1)
iface2_data = ip_prefixes.create_iface(node2)
iface1, iface2 = session.add_link(node1.id, node2.id, iface1_data, iface2_data)
assert iface1
assert iface2
assert len(session.link_manager.links()) == 1
assert node1.get_iface(iface1.id)
assert node2.get_iface(iface2.id)
# when
with pytest.raises(CoreError):
session.delete_link(node1.id, node3.id)
session.delete_link(node1.id, node3.id, iface1.id, iface2.id)

View file

@ -60,6 +60,40 @@ class TestNodes:
with pytest.raises(CoreError):
session.get_node(node.id, CoreNode)
def test_node_add_iface(self, session: Session):
# given
node = session.add_node(CoreNode)
# when
iface = node.create_iface()
# then
assert iface.id in node.ifaces
def test_node_get_iface(self, session: Session):
# given
node = session.add_node(CoreNode)
iface = node.create_iface()
assert iface.id in node.ifaces
# when
iface2 = node.get_iface(iface.id)
# then
assert iface == iface2
def test_node_delete_iface(self, session: Session):
# given
node = session.add_node(CoreNode)
iface = node.create_iface()
assert iface.id in node.ifaces
# when
node.delete_iface(iface.id)
# then
assert iface.id not in node.ifaces
@pytest.mark.parametrize(
"mac,expected",
[
@ -70,12 +104,11 @@ class TestNodes:
def test_node_set_mac(self, session: Session, mac: str, expected: str):
# given
node = session.add_node(CoreNode)
switch = session.add_node(SwitchNode)
iface_data = InterfaceData()
iface = node.new_iface(switch, iface_data)
iface = node.create_iface(iface_data)
# when
node.set_mac(iface.node_id, mac)
iface.set_mac(mac)
# then
assert str(iface.mac) == expected
@ -86,13 +119,12 @@ class TestNodes:
def test_node_set_mac_exception(self, session: Session, mac: str):
# given
node = session.add_node(CoreNode)
switch = session.add_node(SwitchNode)
iface_data = InterfaceData()
iface = node.new_iface(switch, iface_data)
iface = node.create_iface(iface_data)
# when
with pytest.raises(CoreError):
node.set_mac(iface.node_id, mac)
iface.set_mac(mac)
@pytest.mark.parametrize(
"ip,expected,is_ip6",
@ -106,12 +138,11 @@ class TestNodes:
def test_node_add_ip(self, session: Session, ip: str, expected: str, is_ip6: bool):
# given
node = session.add_node(CoreNode)
switch = session.add_node(SwitchNode)
iface_data = InterfaceData()
iface = node.new_iface(switch, iface_data)
iface = node.create_iface(iface_data)
# when
node.add_ip(iface.node_id, ip)
iface.add_ip(ip)
# then
if is_ip6:
@ -122,14 +153,13 @@ class TestNodes:
def test_node_add_ip_exception(self, session):
# given
node = session.add_node(CoreNode)
switch = session.add_node(SwitchNode)
iface_data = InterfaceData()
iface = node.new_iface(switch, iface_data)
iface = node.create_iface(iface_data)
ip = "256.168.0.1/24"
# when
with pytest.raises(CoreError):
node.add_ip(iface.node_id, ip)
iface.add_ip(ip)
@pytest.mark.parametrize("net_type", NET_TYPES)
def test_net(self, session, net_type):

View file

@ -10,7 +10,7 @@ from core.emulator.session import Session
from core.errors import CoreError
from core.location.mobility import BasicRangeModel
from core.nodes.base import CoreNode
from core.nodes.network import PtpNet, SwitchNode, WlanNode
from core.nodes.network import SwitchNode, WlanNode
from core.services.utility import SshService
@ -65,25 +65,18 @@ class TestXml:
:param tmpdir: tmpdir to create data in
:param ip_prefixes: generates ip addresses for nodes
"""
# create ptp
ptp_node = session.add_node(PtpNet)
# create nodes
node1 = session.add_node(CoreNode)
node2 = session.add_node(CoreNode)
# link nodes to ptp net
for node in [node1, node2]:
iface_data = ip_prefixes.create_iface(node)
session.add_link(node.id, ptp_node.id, iface1_data=iface_data)
# link nodes
iface1_data = ip_prefixes.create_iface(node1)
iface2_data = ip_prefixes.create_iface(node2)
session.add_link(node1.id, node2.id, iface1_data, iface2_data)
# instantiate session
session.instantiate()
# get ids for nodes
node1_id = node1.id
node2_id = node2.id
# save xml
xml_file = tmpdir.join("session.xml")
file_path = Path(xml_file.strpath)
@ -98,16 +91,19 @@ class TestXml:
# verify nodes have been removed from session
with pytest.raises(CoreError):
assert not session.get_node(node1_id, CoreNode)
assert not session.get_node(node1.id, CoreNode)
with pytest.raises(CoreError):
assert not session.get_node(node2_id, CoreNode)
assert not session.get_node(node2.id, CoreNode)
# verify no links are known
assert len(session.link_manager.links()) == 0
# load saved xml
session.open_xml(file_path, start=True)
# verify nodes have been recreated
assert session.get_node(node1_id, CoreNode)
assert session.get_node(node2_id, CoreNode)
assert session.get_node(node1.id, CoreNode)
assert session.get_node(node2.id, CoreNode)
assert len(session.link_manager.links()) == 1
def test_xml_ptp_services(
self, session: Session, tmpdir: TemporaryFile, ip_prefixes: IpPrefixes
@ -119,18 +115,15 @@ class TestXml:
:param tmpdir: tmpdir to create data in
:param ip_prefixes: generates ip addresses for nodes
"""
# create ptp
ptp_node = session.add_node(PtpNet)
# create nodes
options = NodeOptions(model="host")
node1 = session.add_node(CoreNode, options=options)
node2 = session.add_node(CoreNode)
# link nodes to ptp net
for node in [node1, node2]:
iface_data = ip_prefixes.create_iface(node)
session.add_link(node.id, ptp_node.id, iface1_data=iface_data)
iface1_data = ip_prefixes.create_iface(node1)
iface2_data = ip_prefixes.create_iface(node2)
session.add_link(node1.id, node2.id, iface1_data, iface2_data)
# set custom values for node service
session.services.set_service(node1.id, SshService.name)
@ -143,10 +136,6 @@ class TestXml:
# instantiate session
session.instantiate()
# get ids for nodes
node1_id = node1.id
node2_id = node2.id
# save xml
xml_file = tmpdir.join("session.xml")
file_path = Path(xml_file.strpath)
@ -161,9 +150,9 @@ class TestXml:
# verify nodes have been removed from session
with pytest.raises(CoreError):
assert not session.get_node(node1_id, CoreNode)
assert not session.get_node(node1.id, CoreNode)
with pytest.raises(CoreError):
assert not session.get_node(node2_id, CoreNode)
assert not session.get_node(node2.id, CoreNode)
# load saved xml
session.open_xml(file_path, start=True)
@ -172,8 +161,8 @@ class TestXml:
service = session.services.get_service(node1.id, SshService.name)
# verify nodes have been recreated
assert session.get_node(node1_id, CoreNode)
assert session.get_node(node2_id, CoreNode)
assert session.get_node(node1.id, CoreNode)
assert session.get_node(node2.id, CoreNode)
assert service.config_data.get(service_file) == file_data
def test_xml_mobility(
@ -187,8 +176,8 @@ class TestXml:
:param ip_prefixes: generates ip addresses for nodes
"""
# create wlan
wlan_node = session.add_node(WlanNode)
session.mobility.set_model(wlan_node, BasicRangeModel, {"test": "1"})
wlan = session.add_node(WlanNode)
session.mobility.set_model(wlan, BasicRangeModel, {"test": "1"})
# create nodes
options = NodeOptions(model="mdr")
@ -199,16 +188,11 @@ class TestXml:
# link nodes
for node in [node1, node2]:
iface_data = ip_prefixes.create_iface(node)
session.add_link(node.id, wlan_node.id, iface1_data=iface_data)
session.add_link(node.id, wlan.id, iface1_data=iface_data)
# instantiate session
session.instantiate()
# get ids for nodes
wlan_id = wlan_node.id
node1_id = node1.id
node2_id = node2.id
# save xml
xml_file = tmpdir.join("session.xml")
file_path = Path(xml_file.strpath)
@ -223,20 +207,20 @@ class TestXml:
# verify nodes have been removed from session
with pytest.raises(CoreError):
assert not session.get_node(node1_id, CoreNode)
assert not session.get_node(node1.id, CoreNode)
with pytest.raises(CoreError):
assert not session.get_node(node2_id, CoreNode)
assert not session.get_node(node2.id, CoreNode)
# load saved xml
session.open_xml(file_path, start=True)
# retrieve configuration we set originally
value = str(session.mobility.get_config("test", wlan_id, BasicRangeModel.name))
value = str(session.mobility.get_config("test", wlan.id, BasicRangeModel.name))
# verify nodes and configuration were restored
assert session.get_node(node1_id, CoreNode)
assert session.get_node(node2_id, CoreNode)
assert session.get_node(wlan_id, WlanNode)
assert session.get_node(node1.id, CoreNode)
assert session.get_node(node2.id, CoreNode)
assert session.get_node(wlan.id, WlanNode)
assert value == "1"
def test_network_to_network(self, session: Session, tmpdir: TemporaryFile):
@ -256,10 +240,6 @@ class TestXml:
# instantiate session
session.instantiate()
# get ids for nodes
node1_id = switch1.id
node2_id = switch2.id
# save xml
xml_file = tmpdir.join("session.xml")
file_path = Path(xml_file.strpath)
@ -274,19 +254,19 @@ class TestXml:
# verify nodes have been removed from session
with pytest.raises(CoreError):
assert not session.get_node(node1_id, SwitchNode)
assert not session.get_node(switch1.id, SwitchNode)
with pytest.raises(CoreError):
assert not session.get_node(node2_id, SwitchNode)
assert not session.get_node(switch2.id, SwitchNode)
# load saved xml
session.open_xml(file_path, start=True)
# verify nodes have been recreated
switch1 = session.get_node(node1_id, SwitchNode)
switch2 = session.get_node(node2_id, SwitchNode)
switch1 = session.get_node(switch1.id, SwitchNode)
switch2 = session.get_node(switch2.id, SwitchNode)
assert switch1
assert switch2
assert len(switch1.links() + switch2.links()) == 1
assert len(session.link_manager.links()) == 1
def test_link_options(
self, session: Session, tmpdir: TemporaryFile, ip_prefixes: IpPrefixes
@ -316,10 +296,6 @@ class TestXml:
# instantiate session
session.instantiate()
# get ids for nodes
node1_id = node1.id
node2_id = switch.id
# save xml
xml_file = tmpdir.join("session.xml")
file_path = Path(xml_file.strpath)
@ -334,27 +310,25 @@ class TestXml:
# verify nodes have been removed from session
with pytest.raises(CoreError):
assert not session.get_node(node1_id, CoreNode)
assert not session.get_node(node1.id, CoreNode)
with pytest.raises(CoreError):
assert not session.get_node(node2_id, SwitchNode)
assert not session.get_node(switch.id, SwitchNode)
# load saved xml
session.open_xml(file_path, start=True)
# verify nodes have been recreated
assert session.get_node(node1_id, CoreNode)
assert session.get_node(node2_id, SwitchNode)
links = []
for node_id in session.nodes:
node = session.nodes[node_id]
links += node.links()
link = links[0]
assert options.loss == link.options.loss
assert options.bandwidth == link.options.bandwidth
assert options.jitter == link.options.jitter
assert options.delay == link.options.delay
assert options.dup == link.options.dup
assert options.buffer == link.options.buffer
assert session.get_node(node1.id, CoreNode)
assert session.get_node(switch.id, SwitchNode)
assert len(session.link_manager.links()) == 1
link = list(session.link_manager.links())[0]
link_options = link.options()
assert options.loss == link_options.loss
assert options.bandwidth == link_options.bandwidth
assert options.jitter == link_options.jitter
assert options.delay == link_options.delay
assert options.dup == link_options.dup
assert options.buffer == link_options.buffer
def test_link_options_ptp(
self, session: Session, tmpdir: TemporaryFile, ip_prefixes: IpPrefixes
@ -385,10 +359,6 @@ class TestXml:
# instantiate session
session.instantiate()
# get ids for nodes
node1_id = node1.id
node2_id = node2.id
# save xml
xml_file = tmpdir.join("session.xml")
file_path = Path(xml_file.strpath)
@ -403,27 +373,25 @@ class TestXml:
# verify nodes have been removed from session
with pytest.raises(CoreError):
assert not session.get_node(node1_id, CoreNode)
assert not session.get_node(node1.id, CoreNode)
with pytest.raises(CoreError):
assert not session.get_node(node2_id, CoreNode)
assert not session.get_node(node2.id, CoreNode)
# load saved xml
session.open_xml(file_path, start=True)
# verify nodes have been recreated
assert session.get_node(node1_id, CoreNode)
assert session.get_node(node2_id, CoreNode)
links = []
for node_id in session.nodes:
node = session.nodes[node_id]
links += node.links()
link = links[0]
assert options.loss == link.options.loss
assert options.bandwidth == link.options.bandwidth
assert options.jitter == link.options.jitter
assert options.delay == link.options.delay
assert options.dup == link.options.dup
assert options.buffer == link.options.buffer
assert session.get_node(node1.id, CoreNode)
assert session.get_node(node2.id, CoreNode)
assert len(session.link_manager.links()) == 1
link = list(session.link_manager.links())[0]
link_options = link.options()
assert options.loss == link_options.loss
assert options.bandwidth == link_options.bandwidth
assert options.jitter == link_options.jitter
assert options.delay == link_options.delay
assert options.dup == link_options.dup
assert options.buffer == link_options.buffer
def test_link_options_bidirectional(
self, session: Session, tmpdir: TemporaryFile, ip_prefixes: IpPrefixes
@ -450,7 +418,9 @@ class TestXml:
options1.dup = 5
options1.jitter = 5
options1.buffer = 50
session.add_link(node1.id, node2.id, iface1_data, iface2_data, options1)
iface1, iface2 = session.add_link(
node1.id, node2.id, iface1_data, iface2_data, options1
)
options2 = LinkOptions()
options2.unidirectional = 1
options2.bandwidth = 10000
@ -459,17 +429,11 @@ class TestXml:
options2.dup = 10
options2.jitter = 10
options2.buffer = 100
session.update_link(
node2.id, node1.id, iface2_data.id, iface1_data.id, options2
)
session.update_link(node2.id, node1.id, iface2.id, iface1.id, options2)
# instantiate session
session.instantiate()
# get ids for nodes
node1_id = node1.id
node2_id = node2.id
# save xml
xml_file = tmpdir.join("session.xml")
file_path = Path(xml_file.strpath)
@ -484,32 +448,26 @@ class TestXml:
# verify nodes have been removed from session
with pytest.raises(CoreError):
assert not session.get_node(node1_id, CoreNode)
assert not session.get_node(node1.id, CoreNode)
with pytest.raises(CoreError):
assert not session.get_node(node2_id, CoreNode)
assert not session.get_node(node2.id, CoreNode)
# load saved xml
session.open_xml(file_path, start=True)
# verify nodes have been recreated
assert session.get_node(node1_id, CoreNode)
assert session.get_node(node2_id, CoreNode)
links = []
for node_id in session.nodes:
node = session.nodes[node_id]
links += node.links()
assert len(links) == 2
link1 = links[0]
link2 = links[1]
assert options1.bandwidth == link1.options.bandwidth
assert options1.delay == link1.options.delay
assert options1.loss == link1.options.loss
assert options1.dup == link1.options.dup
assert options1.jitter == link1.options.jitter
assert options1.buffer == link1.options.buffer
assert options2.bandwidth == link2.options.bandwidth
assert options2.delay == link2.options.delay
assert options2.loss == link2.options.loss
assert options2.dup == link2.options.dup
assert options2.jitter == link2.options.jitter
assert options2.buffer == link2.options.buffer
assert session.get_node(node1.id, CoreNode)
assert session.get_node(node2.id, CoreNode)
assert len(session.link_manager.links()) == 1
assert options1.bandwidth == iface1.options.bandwidth
assert options1.delay == iface1.options.delay
assert options1.loss == iface1.options.loss
assert options1.dup == iface1.options.dup
assert options1.jitter == iface1.options.jitter
assert options1.buffer == iface1.options.buffer
assert options2.bandwidth == iface2.options.bandwidth
assert options2.delay == iface2.options.delay
assert options2.loss == iface2.options.loss
assert options2.dup == iface2.options.dup
assert options2.jitter == iface2.options.jitter
assert options2.buffer == iface2.options.buffer

View file

@ -10,17 +10,14 @@
* Nodes are created using Linux namespaces
* Links are created using Linux bridges and virtual ethernet peers
* Packets sent over links are manipulated using traffic control
* Controlled via the CORE GUI
* Provides both a custom TLV API and gRPC API
* Python program that leverages a small C binary for node creation
* Provides gRPC API
* core-gui
* GUI and daemon communicate over the custom TLV API
* GUI and daemon communicate over gRPC API
* Drag and drop creation for nodes and links
* Can launch terminals for emulated nodes in running sessions
* Can save/open scenario files to recreate previous sessions
* TCL/TK program
* coresendmsg
* Command line utility for sending TLV API messages to the core-daemon
* vnoded
* Command line utility for creating CORE node namespaces
* vcmd
* Command line utility for sending shell commands to nodes
@ -55,21 +52,10 @@ Nftables provides Ethernet frame filtering on Linux bridges. Wireless networks a
emulated by controlling which interfaces can send and receive with nftables
rules.
## Prior Work
The Tcl/Tk CORE GUI was originally derived from the open source
[IMUNES](http://imunes.net) project from the University of Zagreb as a custom
project within Boeing Research and Technology's Network Technology research
group in 2004. Since then they have developed the CORE framework to use Linux
namespacing, have developed a Python framework, and made numerous user and
kernel-space developments, such as support for wireless networks, IPsec,
distribute emulation, simulation integration, and more. The IMUNES project
also consists of userspace and kernel components.
## Open Source Project and Resources
CORE has been released by Boeing to the open source community under the BSD
license. If you find CORE useful for your work, please contribute back to the
project. Contributions can be as simple as reporting a bug, dropping a line of
encouragement or technical suggestions to the mailing lists, or can also
include submitting patches or maintaining aspects of the tool.
encouragement, or can also include submitting patches or maintaining aspects
of the tool.

View file

@ -5,7 +5,7 @@
## Repository Overview
The CORE source consists of several different programming languages for
The CORE source consists of several programming languages for
historical reasons. Current development focuses on the Python modules and
daemon. Here is a brief description of the source directories.
@ -13,7 +13,6 @@ daemon. Here is a brief description of the source directories.
|-----------|--------------------------------------------------------------------------------------|
| daemon | Python CORE daemon/gui code that handles receiving API calls and creating containers |
| docs | Markdown Documentation currently hosted on GitHub |
| gui | Tcl/Tk GUI |
| man | Template files for creating man pages for various CORE command line utilities |
| netns | C program for creating CORE containers |
@ -58,7 +57,7 @@ sudo core-daemon
# run python gui
core-pygui
# run tcl gui
# run gui
core-gui
# run mocked unit tests

View file

@ -9,7 +9,6 @@ skinparam {
package User {
component "core-gui" as gui #DeepSkyBlue
component "coresendmsg" #DeepSkyBlue
component "python scripts" as scripts #DeepSkyBlue
component vcmd #DeepSkyBlue
}
@ -31,15 +30,11 @@ package "Linux System" {
}
package API {
interface TLV as tlv
interface gRPC as grpc
}
gui <..> tlv
coresendmsg <..> tlv
scripts <..> tlv
gui <..> grpc
scripts <..> grpc
tlv -- daemon
grpc -- daemon
scripts -- core
daemon - core

View file

@ -5,7 +5,7 @@ skinparam {
StateBackgroundColor #LightSteelBlue
}
Definition: Session XML/IMN
Definition: Session XML
Definition: GUI Drawing
Definition: Scripts

View file

@ -124,7 +124,7 @@ connect_kwargs: {"key_filename": "/home/user/.ssh/core"}
Within the core-gui navigate to menu option:
**Session -> Emulation servers...**
**Session -> Servers...**
Within the dialog box presented, add or modify an existing server if present
to use the name, address, and port for the a server you plan to use.
@ -132,12 +132,6 @@ to use the name, address, and port for the a server you plan to use.
Server configurations are loaded and written to in a configuration file for
the GUI.
**~/.core/servers.conf**
```conf
# name address port
server2 192.168.0.2 4038
```
## Assigning Nodes
The user needs to assign nodes to emulation servers in the scenario. Making no

View file

@ -80,7 +80,7 @@ EMANE. An example emane section from the **core.conf** file is shown below:
emane_platform_port = 8101
emane_transform_port = 8201
emane_event_monitor = False
#emane_models_dir = /home/username/.core/myemane
#emane_models_dir = /home/<user>/.coregui/custom_emane
# EMANE log level range [0,4] default: 2
emane_log_level = 2
emane_realtime = True
@ -242,7 +242,7 @@ directory to find the generated EMANE xml files. One easy way to view
this information is by double-clicking one of the virtual nodes and listing the files
in the shell.
![](static/single-pc-emane.png)
![](static/emane-single-pc.png)
## Distributed EMANE
@ -277,7 +277,7 @@ it will be emulated locally.
Using the EMANE node configuration dialog. You can change the EMANE model
being used, along with changing any configuration setting from their defaults.
![](static/distributed-emane-configuration.png)
![](static/emane-configuration.png)
> **NOTE:** Here is a quick checklist for distributed emulation with EMANE.
@ -304,5 +304,3 @@ Double-clicking on a node during runtime will cause the GUI to attempt to SSH
to the emulation server for that node and run an interactive shell. The public
key SSH configuration should be tested with all emulation servers prior to
starting the emulation.
![](static/distributed-emane-network.png)

View file

@ -335,7 +335,7 @@ Create `/tmp/emane/blockageaft.xml` with the following contents.
## Run Demo
1. Select `Open...` within the GUI
1. Load `emane-demo-antenna.xml`
1. Click ![Start Button](../static/gui/start.gif)
1. Click ![Start Button](../static/gui/start.png)
1. After startup completes, double click n1 to bring up the nodes terminal
## Example Demo

View file

@ -11,7 +11,7 @@ for more specifics.
## Run Demo
1. Select `Open...` within the GUI
1. Load `emane-demo-eel.xml`
1. Click ![Start Button](../static/gui/start.gif)
1. Click ![Start Button](../static/gui/start.png)
1. After startup completes, double click n1 to bring up the nodes terminal
## Example Demo

View file

@ -12,7 +12,7 @@ may provide more helpful details.
## Run Demo
1. Select `Open...` within the GUI
1. Load `emane-demo-files.xml`
1. Click ![Start Button](../static/gui/start.gif)
1. Click ![Start Button](../static/gui/start.png)
1. After startup completes, double click n1 to bring up the nodes terminal
## Example Demo
@ -21,14 +21,14 @@ case we are running the RF Pipe model.
### Generated Files
|Name|Description|
|---|---|
|\<node name>-platform.xml|configuration file for the emulator instances|
|\<interface name>-nem.xml|configuration for creating a NEM|
|\<interface name>-mac.xml|configuration for defining a NEMs MAC layer|
|\<interface name>-phy.xml|configuration for defining a NEMs PHY layer|
|\<interface name>-trans-virtual.xml|configuration when a virtual transport is being used|
|\<interface name>-trans.xml|configuration when a raw transport is being used|
| Name | Description |
|-------------------------------------|------------------------------------------------------|
| \<node name>-platform.xml | configuration file for the emulator instances |
| \<interface name>-nem.xml | configuration for creating a NEM |
| \<interface name>-mac.xml | configuration for defining a NEMs MAC layer |
| \<interface name>-phy.xml | configuration for defining a NEMs PHY layer |
| \<interface name>-trans-virtual.xml | configuration when a virtual transport is being used |
| \<interface name>-trans.xml | configuration when a raw transport is being used |
### Listing File
Below are the files within n1 after starting the demo session.

View file

@ -13,7 +13,7 @@ may provide more helpful details.
## Run Demo
1. Select `Open...` within the GUI
1. Load `emane-demo-gpsd.xml`
1. Click ![Start Button](../static/gui/start.gif)
1. Click ![Start Button](../static/gui/start.png)
1. After startup completes, double click n1 to bring up the nodes terminal
## Example Demo

View file

@ -11,7 +11,7 @@ for more specifics.
## Run Demo
1. Select `Open...` within the GUI
1. Load `emane-demo-precomputed.xml`
1. Click ![Start Button](../static/gui/start.gif)
1. Click ![Start Button](../static/gui/start.png)
1. After startup completes, double click n1 to bring up the nodes terminal
## Example Demo

View file

@ -1,12 +1,10 @@
# Using the CORE GUI
# CORE GUI
* Table of Contents
{:toc}
The following image shows the CORE GUI:
![](static/core_screenshot.png)
![](static/core-gui.png)
## Overview
@ -28,45 +26,54 @@ Beyond installing CORE, you must have the CORE daemon running. This is done
on the command line with either systemd or sysv.
```shell
# systemd
# systemd service
sudo systemctl daemon-reload
sudo systemctl start core-daemon
# sysv
sudo service core-daemon start
```
You can also invoke the daemon directly from the command line, which can be
useful if you'd like to see the logging output directly.
```shell
# direct invocation
sudo core-daemon
```
## GUI Files
The GUI will create a directory in your home directory on first run called
~/.coregui. This directory will help layout various files that the GUI may use.
* .coregui/
* backgrounds/
* place backgrounds used for display in the GUI
* custom_emane/
* place to keep custom emane models to use with the core-daemon
* custom_services/
* place to keep custom services to use with the core-daemon
* icons/
* icons the GUI uses along with customs icons desired
* mobility/
* place to keep custom mobility files
* scripts/
* place to keep core related scripts
* xmls/
* place to keep saved session xml files
* gui.log
* log file when running the gui, look here when issues occur for exceptions etc
* config.yaml
* configuration file used to save/load various gui related settings (custom nodes, layouts, addresses, etc)
## Modes of Operation
The CORE GUI has two primary modes of operation, **Edit** and **Execute**
modes. Running the GUI, by typing **core-gui** with no options, starts in
Edit mode. Nodes are drawn on a blank canvas using the toolbar on the left
modes. Running the GUI, by typing **core-pygui** with no options, starts in
Edit mode. Nodes are drawn on a blank canvas using the toolbar on the left
and configured from right-click menus or by double-clicking them. The GUI
does not need to be run as root.
Once editing is complete, pressing the green **Start** button (or choosing
**Execute** from the **Session** menu) instantiates the topology within the
Linux kernel and enters Execute mode. In execute mode, the user can interact
with the running emulated machines by double-clicking or right-clicking on
them. The editing toolbar disappears and is replaced by an execute toolbar,
which provides tools while running the emulation. Pressing the red **Stop**
button (or choosing **Terminate** from the **Session** menu) will destroy
the running emulation and return CORE to Edit mode.
CORE can be started directly in Execute mode by specifying **--start** and a
topology file on the command line:
```shell
core-gui --start ~/.core/configs/myfile.imn
```
Once editing is complete, pressing the green **Start** button instantiates
the topology and enters Execute mode. In execute mode,
the user can interact with the running emulated machines by double-clicking or
right-clicking on them. The editing toolbar disappears and is replaced by an
execute toolbar, which provides tools while running the emulation. Pressing
the red **Stop** button will destroy the running emulation and return CORE
to Edit mode.
Once the emulation is running, the GUI can be closed, and a prompt will appear
asking if the emulation should be terminated. The emulation may be left
@ -74,11 +81,22 @@ running and the GUI can reconnect to an existing session at a later time.
The GUI can be run as a normal user on Linux.
The GUI can be connected to a different address or TCP port using the
**--address** and/or **--port** options. The defaults are shown below.
The GUI currently provides the following options on startup.
```shell
core-gui --address 127.0.0.1 --port 4038
usage: core-gui [-h] [-l {DEBUG,INFO,WARNING,ERROR,CRITICAL}] [-p]
[-s SESSION] [--create-dir]
CORE Python GUI
optional arguments:
-h, --help show this help message and exit
-l {DEBUG,INFO,WARNING,ERROR,CRITICAL}, --level {DEBUG,INFO,WARNING,ERROR,CRITICAL}
logging level
-p, --proxy enable proxy
-s SESSION, --session SESSION
session id to join
--create-dir create gui directory and exit
```
## Toolbar
@ -95,22 +113,21 @@ sub-menus, which appear when you click on their group icon.
| Icon | Name | Description |
|----------------------------|----------------|----------------------------------------------------------------------------------------|
| ![](static/gui/select.gif) | Selection Tool | Tool for selecting, moving, configuring nodes. |
| ![](static/gui/start.gif) | Start Button | Starts Execute mode, instantiates the emulation. |
| ![](static/gui/link.gif) | Link | Allows network links to be drawn between two nodes by clicking and dragging the mouse. |
| ![](static/gui/select.png) | Selection Tool | Tool for selecting, moving, configuring nodes. |
| ![](static/gui/start.png) | Start Button | Starts Execute mode, instantiates the emulation. |
| ![](static/gui/link.png) | Link | Allows network links to be drawn between two nodes by clicking and dragging the mouse. |
### CORE Nodes
These nodes will create a new node container and run associated services.
| Icon | Name | Description |
|-----------------------------------------|---------|------------------------------------------------------------------------------|
| ![](static/gui/router.gif) | Router | Runs Quagga OSPFv2 and OSPFv3 routing to forward packets. |
| ![](static/gui/host.gif) | Host | Emulated server machine having a default route, runs SSH server. |
| ![](static/gui/pc.gif) | PC | Basic emulated machine having a default route, runs no processes by default. |
| ![](static/gui/mdr.gif) | MDR | Runs Quagga OSPFv3 MDR routing for MANET-optimized routing. |
| ![](static/gui/router_green.gif) | PRouter | Physical router represents a real testbed machine. |
| ![](static/gui/document-properties.gif) | Edit | Bring up the custom node dialog. |
| Icon | Name | Description |
|----------------------------|---------|------------------------------------------------------------------------------|
| ![](static/gui/router.png) | Router | Runs Quagga OSPFv2 and OSPFv3 routing to forward packets. |
| ![](static/gui/host.png) | Host | Emulated server machine having a default route, runs SSH server. |
| ![](static/gui/pc.png) | PC | Basic emulated machine having a default route, runs no processes by default. |
| ![](static/gui/mdr.png) | MDR | Runs Quagga OSPFv3 MDR routing for MANET-optimized routing. |
| ![](static/gui/router.png) | PRouter | Physical router represents a real testbed machine. |
### Network Nodes
@ -119,20 +136,20 @@ purpose described below.
| Icon | Name | Description |
|-------------------------------|--------------|----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------|
| ![](static/gui/hub.gif) | Hub | Ethernet hub forwards incoming packets to every connected node. |
| ![](static/gui/lanswitch.gif) | Switch | Ethernet switch intelligently forwards incoming packets to attached hosts using an Ethernet address hash table. |
| ![](static/gui/wlan.gif) | Wireless LAN | When routers are connected to this WLAN node, they join a wireless network and an antenna is drawn instead of a connecting line; the WLAN node typically controls connectivity between attached wireless nodes based on the distance between them. |
| ![](static/gui/rj45.gif) | RJ45 | RJ45 Physical Interface Tool, emulated nodes can be linked to real physical interfaces; using this tool, real networks and devices can be physically connected to the live-running emulation. |
| ![](static/gui/tunnel.gif) | Tunnel | Tool allows connecting together more than one CORE emulation using GRE tunnels. |
| ![](static/gui/hub.png) | Hub | Ethernet hub forwards incoming packets to every connected node. |
| ![](static/gui/lanswitch.png) | Switch | Ethernet switch intelligently forwards incoming packets to attached hosts using an Ethernet address hash table. |
| ![](static/gui/wlan.png) | Wireless LAN | When routers are connected to this WLAN node, they join a wireless network and an antenna is drawn instead of a connecting line; the WLAN node typically controls connectivity between attached wireless nodes based on the distance between them. |
| ![](static/gui/rj45.png) | RJ45 | RJ45 Physical Interface Tool, emulated nodes can be linked to real physical interfaces; using this tool, real networks and devices can be physically connected to the live-running emulation. |
| ![](static/gui/tunnel.png) | Tunnel | Tool allows connecting together more than one CORE emulation using GRE tunnels. |
### Annotation Tools
| Icon | Name | Description |
|-------------------------------|-----------|---------------------------------------------------------------------|
| ![](static/gui/marker.gif) | Marker | For drawing marks on the canvas. |
| ![](static/gui/oval.gif) | Oval | For drawing circles on the canvas that appear in the background. |
| ![](static/gui/rectangle.gif) | Rectangle | For drawing rectangles on the canvas that appear in the background. |
| ![](static/gui/text.gif) | Text | For placing text captions on the canvas. |
| ![](static/gui/marker.png) | Marker | For drawing marks on the canvas. |
| ![](static/gui/oval.png) | Oval | For drawing circles on the canvas that appear in the background. |
| ![](static/gui/rectangle.png) | Rectangle | For drawing rectangles on the canvas that appear in the background. |
| ![](static/gui/text.png) | Text | For placing text captions on the canvas. |
### Execution Toolbar
@ -140,14 +157,12 @@ When the Start button is pressed, CORE switches to Execute mode, and the Edit
toolbar on the left of the CORE window is replaced with the Execution toolbar
Below are the items on this toolbar, starting from the top.
| Icon | Name | Description |
|-----------------------------|-----------------------|-------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------|
| ![](static/gui/select.gif) | Selection Tool | In Execute mode, the Selection Tool can be used for moving nodes around the canvas, and double-clicking on a node will open a shell window for that node; right-clicking on a node invokes a pop-up menu of run-time options for that node. |
| ![](static/gui/stop.gif) | Stop Button | Stops Execute mode, terminates the emulation, returns CORE to edit mode. |
| ![](static/gui/observe.gif) | Observer Widgets Tool | Clicking on this magnifying glass icon invokes a menu for easily selecting an Observer Widget. The icon has a darker gray background when an Observer Widget is active, during which time moving the mouse over a node will pop up an information display for that node. |
| ![](static/gui/marker.gif) | Marker | For drawing freehand lines on the canvas, useful during demonstrations; markings are not saved. |
| ![](static/gui/twonode.gif) | Two-node Tool | Click to choose a starting and ending node, and run a one-time *traceroute* between those nodes or a continuous *ping -R* between nodes. The output is displayed in real time in a results box, while the IP addresses are parsed and the complete network path is highlighted on the CORE display. |
| ![](static/gui/run.gif) | Run Tool | This tool allows easily running a command on all or a subset of all nodes. A list box allows selecting any of the nodes. A text entry box allows entering any command. The command should return immediately, otherwise the display will block awaiting response. The *ping* command, for example, with no parameters, is not a good idea. The result of each command is displayed in a results box. The first occurrence of the special text "NODE" will be replaced with the node name. The command will not be attempted to run on nodes that are not routers, PCs, or hosts, even if they are selected. |
| Icon | Name | Description |
|----------------------------|----------------|-------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------|
| ![](static/gui/stop.png) | Stop Button | Stops Execute mode, terminates the emulation, returns CORE to edit mode. |
| ![](static/gui/select.png) | Selection Tool | In Execute mode, the Selection Tool can be used for moving nodes around the canvas, and double-clicking on a node will open a shell window for that node; right-clicking on a node invokes a pop-up menu of run-time options for that node. |
| ![](static/gui/marker.png) | Marker | For drawing freehand lines on the canvas, useful during demonstrations; markings are not saved. |
| ![](static/gui/run.png) | Run Tool | This tool allows easily running a command on all or a subset of all nodes. A list box allows selecting any of the nodes. A text entry box allows entering any command. The command should return immediately, otherwise the display will block awaiting response. The *ping* command, for example, with no parameters, is not a good idea. The result of each command is displayed in a results box. The first occurrence of the special text "NODE" will be replaced with the node name. The command will not be attempted to run on nodes that are not routers, PCs, or hosts, even if they are selected. |
## Menu
@ -157,98 +172,61 @@ menu, by clicking the dashed line at the top.
### File Menu
The File menu contains options for manipulating the **.imn** Configuration
Files. Generally, these menu items should not be used in Execute mode.
The File menu contains options for saving and opening saved sessions.
| Option | Description |
|------------------------------------|-------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------|
| New | This starts a new file with an empty canvas. |
| Open | Invokes the File Open dialog box for selecting a new **.imn** or XML file to open. You can change the default path used for this dialog in the Preferences Dialog. |
| Save | Saves the current topology. If you have not yet specified a file name, the Save As dialog box is invoked. |
| Save As XML | Invokes the Save As dialog box for selecting a new **.xml** file for saving the current configuration in the XML file. |
| Save As imn | Invokes the Save As dialog box for selecting a new **.imn** topology file for saving the current configuration. Files are saved in the *IMUNES network configuration* file. |
| Export Python script | Prints Python snippets to the console, for inclusion in a CORE Python script. |
| Execute XML or Python script | Invokes a File Open dialog box for selecting an XML file to run or a Python script to run and automatically connect to. If a Python script, the script must create a new CORE Session and add this session to the daemon's list of sessions in order for this to work. |
| Execute Python script with options | Invokes a File Open dialog box for selecting a Python script to run and automatically connect to. After a selection is made, a Python Script Options dialog box is invoked to allow for command-line options to be added. The Python script must create a new CORE Session and add this session to the daemon's list of sessions in order for this to work. |
| Open current file in editor | This opens the current topology file in the **vim** text editor. First you need to save the file. Once the file has been edited with a text editor, you will need to reload the file to see your changes. The text editor can be changed from the Preferences Dialog. |
| Print | This uses the Tcl/Tk postscript command to print the current canvas to a printer. A dialog is invoked where you can specify a printing command, the default being **lpr**. The postscript output is piped to the print command. |
| Save screenshot | Saves the current canvas as a postscript graphic file. |
| Recently used files | Above the Quit menu command is a list of recently use files, if any have been opened. You can clear this list in the Preferences dialog box. You can specify the number of files to keep in this list from the Preferences dialog. Click on one of the file names listed to open that configuration file. |
| Quit | The Quit command should be used to exit the CORE GUI. CORE may prompt for termination if you are currently in Execute mode. Preferences and the recently-used files list are saved. |
| Option | Description |
|-----------------------|-------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------|
| New Session | This starts a new session with an empty canvas. |
| Save | Saves the current topology. If you have not yet specified a file name, the Save As dialog box is invoked. |
| Save As | Invokes the Save As dialog box for selecting a new **.xml** file for saving the current configuration in the XML file. |
| Open | Invokes the File Open dialog box for selecting a new XML file to open. |
| Recently used files | Above the Quit menu command is a list of recently use files, if any have been opened. You can clear this list in the Preferences dialog box. You can specify the number of files to keep in this list from the Preferences dialog. Click on one of the file names listed to open that configuration file. |
| Execute Python Script | Invokes a File Open dialog box for selecting a Python script to run and automatically connect to. After a selection is made, a Python Script Options dialog box is invoked to allow for command-line options to be added. The Python script must create a new CORE Session and add this session to the daemon's list of sessions in order for this to work. |
| Quit | The Quit command should be used to exit the CORE GUI. CORE may prompt for termination if you are currently in Execute mode. Preferences and the recently-used files list are saved. |
### Edit Menu
| Option | Description |
|------------------|-------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------|
| Undo | Attempts to undo the last edit in edit mode. |
| Redo | Attempts to redo an edit that has been undone. |
| Cut, Copy, Paste | Used to cut, copy, and paste a selection. When nodes are pasted, their node numbers are automatically incremented, and existing links are preserved with new IP addresses assigned. Services and their customizations are copied to the new node, but care should be taken as node IP addresses have changed with possibly old addresses remaining in any custom service configurations. Annotations may also be copied and pasted. |
| Select All | Selects all items on the canvas. Selected items can be moved as a group. |
| Select Adjacent | Select all nodes that are linked to the already selected node(s). For wireless nodes this simply selects the WLAN node(s) that the wireless node belongs to. You can use this by clicking on a node and pressing CTRL+N to select the adjacent nodes. |
| Find... | Invokes the *Find* dialog box. The Find dialog can be used to search for nodes by name or number. Results are listed in a table that includes the node or link location and details such as IP addresses or link parameters. Clicking on a result will focus the canvas on that node or link, switching canvases if necessary. |
| Clear marker | Clears any annotations drawn with the marker tool. Also clears any markings used to indicate a node's status. |
| Preferences... | Invokes the Preferences dialog box. |
| Option | Description |
|--------------------------|---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------|
| Preferences | Invokes the Preferences dialog box. |
| Custom Nodes | Custom node creation dialog box. |
| Undo | (Disabled) Attempts to undo the last edit in edit mode. |
| Redo | (Disabled) Attempts to redo an edit that has been undone. |
| Cut, Copy, Paste, Delete | Used to cut, copy, paste, and delete a selection. When nodes are pasted, their node numbers are automatically incremented, and existing links are preserved with new IP addresses assigned. Services and their customizations are copied to the new node, but care should be taken as node IP addresses have changed with possibly old addresses remaining in any custom service configurations. Annotations may also be copied and pasted. |
### Canvas Menu
The canvas menu provides commands for adding, removing, changing, and switching
to different editing canvases.
The canvas menu provides commands related to the editing canvas.
| Option | Description |
|-----------------------------|-------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------|
| New | Creates a new empty canvas at the right of all existing canvases. |
| Manage... | Invokes the *Manage Canvases* dialog box, where canvases may be renamed and reordered, and you can easily switch to one of the canvases by selecting it. |
| Delete | Deletes the current canvas and all items that it contains. |
| Size/scale... | Invokes a Canvas Size and Scale dialog that allows configuring the canvas size, scale, and geographic reference point. The size controls allow changing the width and height of the current canvas, in pixels or meters. The scale allows specifying how many meters are equivalent to 100 pixels. The reference point controls specify the latitude, longitude, and altitude reference point used to convert between geographic and Cartesian coordinate systems. By clicking the *Save as default* option, all new canvases will be created with these properties. The default canvas size can also be changed in the Preferences dialog box. |
| Wallpaper... | Used for setting the canvas background image. |
| Previous, Next, First, Last | Used for switching the active canvas to the first, last, or adjacent canvas. |
| Option | Description |
|------------|-------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------|
| Size/scale | Invokes a Canvas Size and Scale dialog that allows configuring the canvas size, scale, and geographic reference point. The size controls allow changing the width and height of the current canvas, in pixels or meters. The scale allows specifying how many meters are equivalent to 100 pixels. The reference point controls specify the latitude, longitude, and altitude reference point used to convert between geographic and Cartesian coordinate systems. By clicking the *Save as default* option, all new canvases will be created with these properties. The default canvas size can also be changed in the Preferences dialog box. |
| Wallpaper | Used for setting the canvas background image. |
### View Menu
The View menu features items for controlling what is displayed on the drawing
canvas.
The View menu features items for toggling on and off their display on the canvas.
| Option | Description |
|-------------------|--------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------|
| Show | Opens a submenu of items that can be displayed or hidden, such as interface names, addresses, and labels. Use these options to help declutter the display. These options are generally saved in the topology files, so scenarios have a more consistent look when copied from one computer to another. |
| Show hidden nodes | Reveal nodes that have been hidden. Nodes are hidden by selecting one or more nodes, right-clicking one and choosing *hide*. |
| Locked | Toggles locked view; when the view is locked, nodes cannot be moved around on the canvas with the mouse. This could be useful when sharing the topology with someone and you do not expect them to change things. |
| 3D GUI... | Launches a 3D GUI by running the command defined under Preferences, *3D GUI command*. This is typically a script that runs the SDT3D display. SDT is the Scripted Display Tool from NRL that is based on NASA's Java-based WorldWind virtual globe software. |
| Zoom In | Magnifies the display. You can also zoom in by clicking *zoom 100%* label in the status bar, or by pressing the **+** (plus) key. |
| Zoom Out | Reduces the size of the display. You can also zoom out by right-clicking *zoom 100%* label in the status bar or by pressing the **-** (minus) key. |
| Option | Description |
|-----------------|-----------------------------------|
| Interface Names | Display interface names on links. |
| IPv4 Addresses | Display IPv4 addresses on links. |
| IPv6 Addresses | Display IPv6 addresses on links. |
| Node Labels | Display node names. |
| Link Labels | Display link labels. |
| Annotations | Display annotations. |
| Canvas Grid | Display the canvas grid. |
### Tools Menu
The tools menu lists different utility functions.
| Option | Description |
|------------------------|--------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------|
| Autorearrange all | Automatically arranges all nodes on the canvas. Nodes having a greater number of links are moved to the center. This mode can continue to run while placing nodes. To turn off this autorearrange mode, click on a blank area of the canvas with the select tool, or choose this menu option again. |
| Autorearrange selected | Automatically arranges the selected nodes on the canvas. |
| Align to grid | Moves nodes into a grid formation, starting with the smallest-numbered node in the upper-left corner of the canvas, arranging nodes in vertical columns. |
| Traffic... | Invokes the CORE Traffic Flows dialog box, which allows configuring, starting, and stopping MGEN traffic flows for the emulation. |
| IP addresses... | Invokes the IP Addresses dialog box for configuring which IPv4/IPv6 prefixes are used when automatically addressing new interfaces. |
| MAC addresses... | Invokes the MAC Addresses dialog box for configuring the starting number used as the lowest byte when generating each interface MAC address. This value should be changed when tunneling between CORE emulations to prevent MAC address conflicts. |
| Build hosts file... | Invokes the Build hosts File dialog box for generating **/etc/hosts** file entries based on IP addresses used in the emulation. |
| Renumber nodes... | Invokes the Renumber Nodes dialog box, which allows swapping one node number with another in a few clicks. |
| Experimental... | Menu of experimental options, such as a tool to convert ns-2 scripts to IMUNES imn topologies, supporting only basic ns-2 functionality, and a tool for automatically dividing up a topology into partitions. |
| Topology generator | Opens a submenu of topologies to generate. You can first select the type of node that the topology should consist of, or routers will be chosen by default. Nodes may be randomly placed, aligned in grids, or various other topology patterns. All of the supported patterns are listed in the table below. |
| Debugger... | Opens the CORE Debugger window for executing arbitrary Tcl/Tk commands. |
#### Topology Generator
| Pattern | Description |
|----------------|-----------------------------------------------------------------------------------------------------------------------------------------------------------------|
| Random | Nodes are randomly placed about the canvas, but are not linked together. This can be used in conjunction with a WLAN node to quickly create a wireless network. |
| Grid | Nodes are placed in horizontal rows starting in the upper-left corner, evenly spaced to the right; nodes are not linked to each other. |
| Connected Grid | Nodes are placed in an N x M (width and height) rectangular grid, and each node is linked to the node above, below, left and right of itself. |
| Chain | Nodes are linked together one after the other in a chain. |
| Star | One node is placed in the center with N nodes surrounding it in a circular pattern, with each node linked to the center node. |
| Cycle | Nodes are arranged in a circular pattern with every node connected to its neighbor to form a closed circular path. |
| Wheel | The wheel pattern links nodes in a combination of both Star and Cycle patterns. |
| Cube | Generate a cube graph of nodes. |
| Clique | Creates a clique graph of nodes, where every node is connected to every other node. |
| Bipartite | Creates a bipartite graph of nodes, having two disjoint sets of vertices. |
| Option | Description |
|---------------|----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------|
| Find | Display find dialog used for highlighting a node on the canvas. |
| Auto Grid | Automatically layout nodes in a grid. |
| IP addresses | Invokes the IP Addresses dialog box for configuring which IPv4/IPv6 prefixes are used when automatically addressing new interfaces. |
| MAC addresses | Invokes the MAC Addresses dialog box for configuring the starting number used as the lowest byte when generating each interface MAC address. This value should be changed when tunneling between CORE emulations to prevent MAC address conflicts. |
### Widgets Menu
@ -275,30 +253,29 @@ Here are some standard widgets:
Only half of the line is drawn because each
router may be in a different adjacency state with respect to the other.
* **Throughput** - displays the kilobits-per-second throughput above each link,
using statistics gathered from the ng_pipe Netgraph node that implements each
link. If the throughput exceeds a certain threshold, the link will become
highlighted. For wireless nodes which broadcast data to all nodes in range,
the throughput rate is displayed next to the node and the node will become
circled if the threshold is exceeded.
using statistics gathered from each link. If the throughput exceeds a certain
threshold, the link will become highlighted. For wireless nodes which broadcast
data to all nodes in range, the throughput rate is displayed next to the node and
the node will become circled if the threshold is exceeded.
#### Observer Widgets
These Widgets are available from the *Observer Widgets* submenu of the
*Widgets* menu, and from the Widgets Tool on the toolbar. Only one Observer Widget may
These Widgets are available from the **Observer Widgets** submenu of the
**Widgets** menu, and from the Widgets Tool on the toolbar. Only one Observer Widget may
be used at a time. Mouse over a node while the session is running to pop up
an informational display about that node.
Available Observer Widgets include IPv4 and IPv6 routing tables, socket
information, list of running processes, and OSPFv2/v3 neighbor information.
Observer Widgets may be edited by the user and rearranged. Choosing *Edit...*
from the Observer Widget menu will invoke the Observer Widgets dialog. A list
of Observer Widgets is displayed along with up and down arrows for rearranging
the list. Controls are available for renaming each widget, for changing the
command that is run during mouse over, and for adding and deleting items from
the list. Note that specified commands should return immediately to avoid
delays in the GUI display. Changes are saved to a **widgets.conf** file in
the CORE configuration directory.
Observer Widgets may be edited by the user and rearranged. Choosing
**Widgets->Observer Widgets->Edit Observers** from the Observer Widget menu will
invoke the Observer Widgets dialog. A list of Observer Widgets is displayed along
with up and down arrows for rearranging the list. Controls are available for
renaming each widget, for changing the command that is run during mouse over, and
for adding and deleting items from the list. Note that specified commands should
return immediately to avoid delays in the GUI display. Changes are saved to a
**config.yaml** file in the CORE configuration directory.
### Session Menu
@ -306,28 +283,23 @@ The Session Menu has entries for starting, stopping, and managing sessions,
in addition to global options such as node types, comments, hooks, servers,
and options.
| Option | Description |
|----------------------|---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------|
| Start or Stop | This starts or stops the emulation, performing the same function as the green Start or red Stop button. |
| Change sessions... | Invokes the CORE Sessions dialog box containing a list of active CORE sessions in the daemon. Basic session information such as name, node count, start time, and a thumbnail are displayed. This dialog allows connecting to different sessions, shutting them down, or starting a new session. |
| Node types... | Invokes the CORE Node Types dialog, performing the same function as the Edit button on the Network-Layer Nodes toolbar. |
| Comments... | Invokes the CORE Session Comments window where optional text comments may be specified. These comments are saved at the top of the configuration file, and can be useful for describing the topology or how to use the network. |
| Hooks... | Invokes the CORE Session Hooks window where scripts may be configured for a particular session state. The session states are defined in the [table](#session-states) below. The top of the window has a list of configured hooks, and buttons on the bottom left allow adding, editing, and removing hook scripts. The new or edit button will open a hook script editing window. A hook script is a shell script invoked on the host (not within a virtual node). |
| Reset node positions | If you have moved nodes around using the mouse or by using a mobility module, choosing this item will reset all nodes to their original position on the canvas. The node locations are remembered when you first press the Start button. |
| Emulation servers... | Invokes the CORE emulation servers dialog for configuring. |
| Change Sessions... | Invokes the Sessions dialog for switching between different running sessions. This dialog is presented during startup when one or more sessions are already running. |
| Options... | Presents per-session options, such as the IPv4 prefix to be used, if any, for a control network the ability to preserve the session directory; and an on/off switch for SDT3D support. |
| Option | Description |
|----------|---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------|
| Sessions | Invokes the CORE Sessions dialog box containing a list of active CORE sessions in the daemon. Basic session information such as name, node count, start time, and a thumbnail are displayed. This dialog allows connecting to different sessions, shutting them down, or starting a new session. |
| Servers | Invokes the CORE emulation servers dialog for configuring. |
| Options | Presents per-session options, such as the IPv4 prefix to be used, if any, for a control network the ability to preserve the session directory; and an on/off switch for SDT3D support. |
| Hooks | Invokes the CORE Session Hooks window where scripts may be configured for a particular session state. The session states are defined in the [table](#session-states) below. The top of the window has a list of configured hooks, and buttons on the bottom left allow adding, editing, and removing hook scripts. The new or edit button will open a hook script editing window. A hook script is a shell script invoked on the host (not within a virtual node). |
#### Session States
| State | Description |
|---------------|--------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------|
| definition | Used by the GUI to tell the backend to clear any state. |
| configuration | When the user presses the *Start* button, node, link, and other configuration data is sent to the backend. This state is also reached when the user customizes a service. |
| instantiation | After configuration data has been sent, just before the nodes are created. |
| runtime | All nodes and networks have been built and are running. (This is the same state at which the previously-named *global experiment script* was run.) |
| datacollect | The user has pressed the *Stop* button, but before services have been stopped and nodes have been shut down. This is a good time to collect log files and other data from the nodes. |
| shutdown | All nodes and networks have been shut down and destroyed. |
| Definition | Used by the GUI to tell the backend to clear any state. |
| Configuration | When the user presses the *Start* button, node, link, and other configuration data is sent to the backend. This state is also reached when the user customizes a service. |
| Instantiation | After configuration data has been sent, just before the nodes are created. |
| Runtime | All nodes and networks have been built and are running. (This is the same state at which the previously-named *global experiment script* was run.) |
| Datacollect | The user has pressed the *Stop* button, but before services have been stopped and nodes have been shut down. This is a good time to collect log files and other data from the nodes. |
| Shutdown | All nodes and networks have been shut down and destroyed. |
### Help Menu
@ -341,13 +313,13 @@ and options.
CORE's emulated networks run in real time, so they can be connected to live
physical networks. The RJ45 tool and the Tunnel tool help with connecting to
the real world. These tools are available from the *Link-layer nodes* menu.
the real world. These tools are available from the **Link-layer nodes** menu.
When connecting two or more CORE emulations together, MAC address collisions
should be avoided. CORE automatically assigns MAC addresses to interfaces when
the emulation is started, starting with **00:00:00:aa:00:00** and incrementing
the bottom byte. The starting byte should be changed on the second CORE machine
using the *MAC addresses...* option from the *Tools* menu.
using the **Tools->MAC Addresses** option the menu.
### RJ45 Tool
@ -360,8 +332,8 @@ connection. When the physical interface is assigned to CORE, it may not be used
for anything else. Another consideration is that the computer or network that
you are connecting to must be co-located with the CORE machine.
To place an RJ45 connection, click on the *Link-layer nodes* toolbar and select
the *RJ45 Tool* from the submenu. Click on the canvas near the node you want to
To place an RJ45 connection, click on the **Link-layer nodes** toolbar and select
the **RJ45 Tool** from the submenu. Click on the canvas near the node you want to
connect to. This could be a router, hub, switch, or WLAN, for example. Now
click on the *Link Tool* and draw a link between the RJ45 and the other node.
The RJ45 node will display "UNASSIGNED". Double-click the RJ45 node to assign a
@ -459,7 +431,7 @@ firewall is not blocking the GRE traffic.
The host machine that runs the CORE GUI and/or daemon is not necessarily
accessible from a node. Running an X11 application on a node, for example,
requires some channel of communication for the application to connect with
the X server for graphical display. There are several different ways to
the X server for graphical display. There are different ways to
connect from the node to the host and vice versa.
#### Control Network
@ -476,12 +448,6 @@ the node, and SSH with X11 forwarding can be used from the host to the node.
ssh -X 172.16.0.5 xclock
```
Note that the **coresendmsg** utility can be used for a node to send
messages to the CORE daemon running on the host (if the **listenaddr = 0.0.0.0**
is set in the **/etc/core/core.conf** file) to interact with the running
emulation. For example, a node may move itself or other nodes, or change
its icon based on some node state.
#### Other Methods
There are still other ways to connect a host with a node. The RJ45 Tool
@ -509,11 +475,11 @@ the node linked to the RJ45 may have the address **10.0.1.1**.
### Wired Networks
Wired networks are created using the *Link Tool* to draw a link between two
Wired networks are created using the **Link Tool** to draw a link between two
nodes. This automatically draws a red line representing an Ethernet link and
creates new interfaces on network-layer nodes.
Double-click on the link to invoke the *link configuration* dialog box. Here
Double-click on the link to invoke the **link configuration** dialog box. Here
you can change the Bandwidth, Delay, Loss, and Duplicate
rate parameters for that link. You can also modify the color and width of the
link, affecting its display.
@ -550,11 +516,10 @@ on platform. See the table below for a brief overview of wireless model types.
To quickly build a wireless network, you can first place several router nodes
onto the canvas. If you have the
Quagga MDR software installed, it is
recommended that you use the *mdr* node type for reduced routing overhead. Next
choose the *wireless LAN* from the *Link-layer nodes* submenu. First set the
recommended that you use the **mdr** node type for reduced routing overhead. Next
choose the **WLAN** from the **Link-layer nodes** submenu. First set the
desired WLAN parameters by double-clicking the cloud icon. Then you can link
all of the routers by right-clicking on the WLAN and choosing *Link to all
routers*.
all selected right-clicking on the WLAN and choosing **Link to Selected**.
Linking a router to the WLAN causes a small antenna to appear, but no red link
line is drawn. Routers can have multiple wireless links and both wireless and
@ -564,28 +529,27 @@ enables OSPFv3 with MANET extensions. This is a Boeing-developed extension to
Quagga's OSPFv3 that reduces flooding overhead and optimizes the flooding
procedure for mobile ad-hoc (MANET) networks.
The default configuration of the WLAN is set to use the basic range model,
using the *Basic* tab in the WLAN configuration dialog. Having this model
The default configuration of the WLAN is set to use the basic range model. Having this model
selected causes **core-daemon** to calculate the distance between nodes based
on screen pixels. A numeric range in screen pixels is set for the wireless
network using the *Range* slider. When two wireless nodes are within range of
network using the **Range** slider. When two wireless nodes are within range of
each other, a green line is drawn between them and they are linked. Two
wireless nodes that are farther than the range pixels apart are not linked.
During Execute mode, users may move wireless nodes around by clicking and
dragging them, and wireless links will be dynamically made or broken.
The *EMANE* tab lists available EMANE models to use for wireless networking.
The **EMANE Nodes** leverage available EMANE models to use for wireless networking.
See the [EMANE](emane.md) chapter for details on using EMANE.
### Mobility Scripting
CORE has a few ways to script mobility.
| Option | Description |
|--------------|---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------|
| ns-2 script | The script specifies either absolute positions or waypoints with a velocity. Locations are given with Cartesian coordinates. |
| CORE API | An external entity can move nodes by sending CORE API Node messages with updated X,Y coordinates; the **coresendmsg** utility allows a shell script to generate these messages. |
| EMANE events | See [EMANE](emane.md) for details on using EMANE scripts to move nodes around. Location information is typically given as latitude, longitude, and altitude. |
| Option | Description |
|--------------|--------------------------------------------------------------------------------------------------------------------------------------------------------------|
| ns-2 script | The script specifies either absolute positions or waypoints with a velocity. Locations are given with Cartesian coordinates. |
| gRPC API | An external entity can move nodes by leveraging the gRPC API |
| EMANE events | See [EMANE](emane.md) for details on using EMANE scripts to move nodes around. Location information is typically given as latitude, longitude, and altitude. |
For the first method, you can create a mobility script using a text
editor, or using a tool such as [BonnMotion](http://net.cs.uni-bonn.de/wg/cs/applications/bonnmotion/), and associate the script with one of the wireless
@ -604,7 +568,7 @@ bm NSFile -f sample
When the Execute mode is started and one of the WLAN nodes has a mobility
script, a mobility script window will appear. This window contains controls for
starting, stopping, and resetting the running time for the mobility script. The
*loop* checkbox causes the script to play continuously. The *resolution* text
**loop** checkbox causes the script to play continuously. The **resolution** text
box contains the number of milliseconds between each timer event; lower values
cause the mobility to appear smoother but consumes greater CPU time.
@ -628,79 +592,28 @@ accurate.
Examples mobility scripts (and their associated topology files) can be found
in the **configs/** directory.
## Multiple Canvases
## Alerts
CORE supports multiple canvases for organizing emulated nodes. Nodes running on
different canvases may be linked together.
The alerts button is located in the bottom right-hand corner
of the status bar in the CORE GUI. This will change colors to indicate one or
more problems with the running emulation. Clicking on the alerts button will invoke the
alerts dialog.
To create a new canvas, choose *New* from the *Canvas* menu. A new canvas tab
appears in the bottom left corner. Clicking on a canvas tab switches to that
canvas. Double-click on one of the tabs to invoke the *Manage Canvases* dialog
box. Here, canvases may be renamed and reordered, and you can easily switch to
one of the canvases by selecting it.
Each canvas maintains its own set of nodes and annotations. To link between
canvases, select a node and right-click on it, choose *Create link to*, choose
the target canvas from the list, and from that submenu the desired node. A
pseudo-link will be drawn, representing the link between the two nodes on
different canvases. Double-clicking on the label at the end of the arrow will
jump to the canvas that it links.
## Check Emulation Light (CEL)
The |cel| Check Emulation Light, or CEL, is located in the bottom right-hand corner
of the status bar in the CORE GUI. This is a yellow icon that indicates one or
more problems with the running emulation. Clicking on the CEL will invoke the
CEL dialog.
The Check Emulation Light dialog contains a list of exceptions received from
the CORE daemon. An exception has a time, severity level, optional node number,
and source. When the CEL is blinking, this indicates one or more fatal
exceptions. An exception with a fatal severity level indicates that one or more
The alerts dialog contains a list of alerts received from
the CORE daemon. An alert has a time, severity level, optional node number,
and source. When the alerts button is red, this indicates one or more fatal
exceptions. An alert with a fatal severity level indicates that one or more
of the basic pieces of emulation could not be created, such as failure to
create a bridge or namespace, or the failure to launch EMANE processes for an
EMANE-based network.
Clicking on an exception displays details for that
exception. If a node number is specified, that node is highlighted on the
canvas when the exception is selected. The exception source is a text string
Clicking on an alert displays details for that
exceptio. The exception source is a text string
to help trace where the exception occurred; "service:UserDefined" for example,
would appear for a failed validation command with the UserDefined service.
Buttons are available at the bottom of the dialog for clearing the exception
list and for viewing the CORE daemon and node log files.
> **NOTE:** In batch mode, exceptions received from the CORE daemon are displayed on
the console.
## Configuration Files
Configurations are saved to **xml** or **.imn** topology files using
the *File* menu. You
can easily edit these files with a text editor.
Any time you edit the topology
file, you will need to stop the emulation if it were running and reload the
file.
The **.imn** file format comes from IMUNES, and is
basically Tcl lists of nodes, links, etc.
Tabs and spacing in the topology files are important. The file starts by
listing every node, then links, annotations, canvases, and options. Each entity
has a block contained in braces. The first block is indented by four spaces.
Within the **network-config** block (and any *custom-*-config* block), the
indentation is one tab character.
> **NOTE:** There are several topology examples included with CORE in
the **configs/** directory.
This directory can be found in **~/.core/configs**, or
installed to the filesystem
under **/usr[/local]/share/examples/configs**.
> **NOTE:** When using the **.imn** file format, file paths for things like custom
icons may contain the special variables **$CORE_DATA_DIR** or **$CONFDIR** which
will be substituted with **/usr/share/core** or **~/.core/configs**.
> **NOTE:** Feel free to edit the files directly using your favorite text editor.
A button is available at the bottom of the dialog for clearing the exception
list.
## Customizing your Topology's Look
@ -723,12 +636,3 @@ A background image for the canvas may be set using the *Wallpaper...* option
from the *Canvas* menu. The image may be centered, tiled, or scaled to fit the
canvas size. An existing terrain, map, or network diagram could be used as a
background, for example, with CORE nodes drawn on top.
## Preferences
The *Preferences* Dialog can be accessed from the **Edit_Menu**. There are
numerous defaults that can be set with this dialog, which are stored in the
**~/.core/prefs.conf** preferences file.

View file

@ -23,8 +23,7 @@ networking scenarios, security studies, and increasing the size of physical test
| [Installation](install.md) | How to install CORE and its requirements |
| [Architecture](architecture.md) | Overview of the architecture |
| [Node Types](nodetypes.md) | Overview of node types supported within CORE |
| [Python GUI](pygui.md) | How to use the default python based GUI |
| [Legacy GUI (deprecated)](gui.md) | How to use the deprecated Tcl based GUI |
| [GUI](gui.md) | How to use the GUI |
| [Python API](python.md) | Covers how to control core directly using python |
| [gRPC API](grpc.md) | Covers how control core using gRPC |
| [Distributed](distributed.md) | Details for running CORE across multiple servers |
@ -34,17 +33,3 @@ networking scenarios, security studies, and increasing the size of physical test
| [EMANE](emane.md) | Overview of EMANE integration and integrating custom EMANE models |
| [Performance](performance.md) | Notes on performance when using CORE |
| [Developers Guide](devguide.md) | Overview on how to contribute to CORE |
## Credits
The CORE project was derived from the open source IMUNES project from the University of Zagreb in 2004. In 2006,
changes for CORE were released back to that project, some items of which were adopted. Marko Zec <zec@fer.hr> is the
primary developer from the University of Zagreb responsible for the IMUNES (GUI) and VirtNet (kernel) projects. Ana
Kukec and Miljenko Mikuc are known contributors.
Jeff Ahrenholz has been the primary Boeing developer of CORE, and has written this manual. Tom Goff designed the
Python framework and has made significant contributions. Claudiu Danilov, Rod Santiago, Kevin Larson, Gary Pei,
Phil Spagnolo, and Ian Chakeres have contributed code to CORE. Dan Mackley helped develop the CORE API, originally to
interface with a simulator. Jae Kim and Tom Henderson have supervised the project and provided direction.
Copyright (c) 2005-2020, the Boeing Company.

View file

@ -51,11 +51,6 @@ The following is a list of files that would be installed after running the autom
* executable files
* `<prefix>/bin/{core-daemon, core-gui, vcmd, vnoded, etc}`
* tcl/tk gui files
* `<prefix>/lib/core`
* `<prefix>/share/core/icons`
* example imn files
* `<prefix>/share/core/examples`
* python files
* poetry virtual env
* `cd <repo>/daemon && poetry env info`
@ -77,15 +72,11 @@ After the installation complete it will have installed the following scripts.
|---------------------|------------------------------------------------------------------------------|
| core-cleanup | tool to help removed lingering core created containers, bridges, directories |
| core-cli | tool to query, open xml files, and send commands using gRPC |
| core-daemon | runs the backed core server providing TLV and gRPC APIs |
| core-gui | runs the legacy tcl/tk based GUI |
| core-imn-to-xml | tool to help automate converting a .imn file to .xml format |
| core-manage | tool to add, remove, or check for services, models, and node types |
| core-pygui | runs the new python/tk based GUI |
| core-daemon | runs the backed core server providing a gRPC API |
| core-gui | starts GUI |
| core-python | provides a convenience for running the core python virtual environment |
| core-route-monitor | tool to help monitor traffic across nodes and feed that to SDT |
| core-service-update | tool to update automate modifying a legacy service to match current naming |
| coresendmsg | tool to send TLV API commands from command line |
## Upgrading from Older Release
Please make sure to uninstall any previous installations of CORE cleanly
@ -237,7 +228,7 @@ sudo docker exec -it core core-gui
```
## Running User Scripts
If you create your own python scripts to run CORE directly or using the gRPC/TLV
If you create your own python scripts to run CORE directly or using the gRPC
APIs you will need to make sure you are running them within context of the
installed virtual environment. To help support this CORE provides the `core-python`
executable. This executable will allow you to enter CORE's python virtual

View file

@ -1,649 +0,0 @@
# (BETA) Python GUI
* Table of Contents
{:toc}
![](static/core-pygui.png)
## Overview
The GUI is used to draw nodes and network devices on a canvas, linking them
together to create an emulated network session.
After pressing the start button, CORE will proceed through these phases,
staying in the **runtime** phase. After the session is stopped, CORE will
proceed to the **data collection** phase before tearing down the emulated
state.
CORE can be customized to perform any action at each state. See the
**Hooks...** entry on the [Session Menu](#session-menu) for details about
when these session states are reached.
## Prerequisites
Beyond installing CORE, you must have the CORE daemon running. This is done
on the command line with either systemd or sysv.
```shell
# systemd service
sudo systemctl daemon-reload
sudo systemctl start core-daemon
# sysv service
sudo service core-daemon start
# direct invocation
sudo core-daemon
```
## GUI Files
> **NOTE:** Previously the BETA GUI placed files under ~/.coretk, this has been
> updated to be ~/.coregui. The prior config file named ~/.coretk/gui.yaml is
> also now known as ~/.coregui/config.yaml and has a slightly different format
The GUI will create a directory in your home directory on first run called
~/.coregui. This directory will help layout various files that the GUI may use.
* .coregui/
* backgrounds/
* place backgrounds used for display in the GUI
* custom_emane/
* place to keep custom emane models to use with the core-daemon
* custom_services/
* place to keep custom services to use with the core-daemon
* icons/
* icons the GUI uses along with customs icons desired
* mobility/
* place to keep custom mobility files
* scripts/
* place to keep core related scripts
* xmls/
* place to keep saved session xml files
* gui.log
* log file when running the gui, look here when issues occur for exceptions etc
* config.yaml
* configuration file used to save/load various gui related settings (custom nodes, layouts, addresses, etc)
## Modes of Operation
The CORE GUI has two primary modes of operation, **Edit** and **Execute**
modes. Running the GUI, by typing **core-pygui** with no options, starts in
Edit mode. Nodes are drawn on a blank canvas using the toolbar on the left
and configured from right-click menus or by double-clicking them. The GUI
does not need to be run as root.
Once editing is complete, pressing the green **Start** button instantiates
the topology and enters Execute mode. In execute mode,
the user can interact with the running emulated machines by double-clicking or
right-clicking on them. The editing toolbar disappears and is replaced by an
execute toolbar, which provides tools while running the emulation. Pressing
the red **Stop** button will destroy the running emulation and return CORE
to Edit mode.
Once the emulation is running, the GUI can be closed, and a prompt will appear
asking if the emulation should be terminated. The emulation may be left
running and the GUI can reconnect to an existing session at a later time.
The GUI can be run as a normal user on Linux.
The python GUI currently provides the following options on startup.
```shell
usage: core-pygui [-h] [-l {DEBUG,INFO,WARNING,ERROR,CRITICAL}] [-p]
CORE Python GUI
optional arguments:
-h, --help show this help message and exit
-l {DEBUG,INFO,WARNING,ERROR,CRITICAL}, --level {DEBUG,INFO,WARNING,ERROR,CRITICAL}
logging level
-p, --proxy enable proxy
```
## Toolbar
The toolbar is a row of buttons that runs vertically along the left side of the
CORE GUI window. The toolbar changes depending on the mode of operation.
### Editing Toolbar
When CORE is in Edit mode (the default), the vertical Editing Toolbar exists on
the left side of the CORE window. Below are brief descriptions for each toolbar
item, starting from the top. Most of the tools are grouped into related
sub-menus, which appear when you click on their group icon.
| Icon | Name | Description |
|------------------------------|----------------|----------------------------------------------------------------------------------------|
| ![](static/pygui/select.png) | Selection Tool | Tool for selecting, moving, configuring nodes. |
| ![](static/pygui/start.png) | Start Button | Starts Execute mode, instantiates the emulation. |
| ![](static/pygui/link.png) | Link | Allows network links to be drawn between two nodes by clicking and dragging the mouse. |
### CORE Nodes
These nodes will create a new node container and run associated services.
| Icon | Name | Description |
|------------------------------|---------|------------------------------------------------------------------------------|
| ![](static/pygui/router.png) | Router | Runs Quagga OSPFv2 and OSPFv3 routing to forward packets. |
| ![](static/pygui/host.png) | Host | Emulated server machine having a default route, runs SSH server. |
| ![](static/pygui/pc.png) | PC | Basic emulated machine having a default route, runs no processes by default. |
| ![](static/pygui/mdr.png) | MDR | Runs Quagga OSPFv3 MDR routing for MANET-optimized routing. |
| ![](static/pygui/router.png) | PRouter | Physical router represents a real testbed machine. |
### Network Nodes
These nodes are mostly used to create a Linux bridge that serves the
purpose described below.
| Icon | Name | Description |
|---------------------------------|--------------|----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------|
| ![](static/pygui/hub.png) | Hub | Ethernet hub forwards incoming packets to every connected node. |
| ![](static/pygui/lanswitch.png) | Switch | Ethernet switch intelligently forwards incoming packets to attached hosts using an Ethernet address hash table. |
| ![](static/pygui/wlan.png) | Wireless LAN | When routers are connected to this WLAN node, they join a wireless network and an antenna is drawn instead of a connecting line; the WLAN node typically controls connectivity between attached wireless nodes based on the distance between them. |
| ![](static/pygui/rj45.png) | RJ45 | RJ45 Physical Interface Tool, emulated nodes can be linked to real physical interfaces; using this tool, real networks and devices can be physically connected to the live-running emulation. |
| ![](static/pygui/tunnel.png) | Tunnel | Tool allows connecting together more than one CORE emulation using GRE tunnels. |
### Annotation Tools
| Icon | Name | Description |
|---------------------------------|-----------|---------------------------------------------------------------------|
| ![](static/pygui/marker.png) | Marker | For drawing marks on the canvas. |
| ![](static/pygui/oval.png) | Oval | For drawing circles on the canvas that appear in the background. |
| ![](static/pygui/rectangle.png) | Rectangle | For drawing rectangles on the canvas that appear in the background. |
| ![](static/pygui/text.png) | Text | For placing text captions on the canvas. |
### Execution Toolbar
When the Start button is pressed, CORE switches to Execute mode, and the Edit
toolbar on the left of the CORE window is replaced with the Execution toolbar
Below are the items on this toolbar, starting from the top.
| Icon | Name | Description |
|------------------------------|----------------|-------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------|
| ![](static/pygui/stop.png) | Stop Button | Stops Execute mode, terminates the emulation, returns CORE to edit mode. |
| ![](static/pygui/select.png) | Selection Tool | In Execute mode, the Selection Tool can be used for moving nodes around the canvas, and double-clicking on a node will open a shell window for that node; right-clicking on a node invokes a pop-up menu of run-time options for that node. |
| ![](static/pygui/marker.png) | Marker | For drawing freehand lines on the canvas, useful during demonstrations; markings are not saved. |
| ![](static/pygui/run.png) | Run Tool | This tool allows easily running a command on all or a subset of all nodes. A list box allows selecting any of the nodes. A text entry box allows entering any command. The command should return immediately, otherwise the display will block awaiting response. The *ping* command, for example, with no parameters, is not a good idea. The result of each command is displayed in a results box. The first occurrence of the special text "NODE" will be replaced with the node name. The command will not be attempted to run on nodes that are not routers, PCs, or hosts, even if they are selected. |
## Menu
The menubar runs along the top of the CORE GUI window and provides access to a
variety of features. Some of the menus are detachable, such as the *Widgets*
menu, by clicking the dashed line at the top.
### File Menu
The File menu contains options for manipulating the **.imn** Configuration
Files. Generally, these menu items should not be used in Execute mode.
| Option | Description |
|-----------------------|-------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------|
| New Session | This starts a new session with an empty canvas. |
| Save | Saves the current topology. If you have not yet specified a file name, the Save As dialog box is invoked. |
| Save As | Invokes the Save As dialog box for selecting a new **.xml** file for saving the current configuration in the XML file. |
| Open | Invokes the File Open dialog box for selecting a new XML file to open. |
| Recently used files | Above the Quit menu command is a list of recently use files, if any have been opened. You can clear this list in the Preferences dialog box. You can specify the number of files to keep in this list from the Preferences dialog. Click on one of the file names listed to open that configuration file. |
| Execute Python Script | Invokes a File Open dialog box for selecting a Python script to run and automatically connect to. After a selection is made, a Python Script Options dialog box is invoked to allow for command-line options to be added. The Python script must create a new CORE Session and add this session to the daemon's list of sessions in order for this to work. |
| Quit | The Quit command should be used to exit the CORE GUI. CORE may prompt for termination if you are currently in Execute mode. Preferences and the recently-used files list are saved. |
### Edit Menu
| Option | Description |
|--------------------------|---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------|
| Preferences | Invokes the Preferences dialog box. |
| Custom Nodes | Custom node creation dialog box. |
| Undo | (Disabled) Attempts to undo the last edit in edit mode. |
| Redo | (Disabled) Attempts to redo an edit that has been undone. |
| Cut, Copy, Paste, Delete | Used to cut, copy, paste, and delete a selection. When nodes are pasted, their node numbers are automatically incremented, and existing links are preserved with new IP addresses assigned. Services and their customizations are copied to the new node, but care should be taken as node IP addresses have changed with possibly old addresses remaining in any custom service configurations. Annotations may also be copied and pasted. |
### Canvas Menu
The canvas menu provides commands related to the editing canvas.
| Option | Description |
|------------|-------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------|
| Size/scale | Invokes a Canvas Size and Scale dialog that allows configuring the canvas size, scale, and geographic reference point. The size controls allow changing the width and height of the current canvas, in pixels or meters. The scale allows specifying how many meters are equivalent to 100 pixels. The reference point controls specify the latitude, longitude, and altitude reference point used to convert between geographic and Cartesian coordinate systems. By clicking the *Save as default* option, all new canvases will be created with these properties. The default canvas size can also be changed in the Preferences dialog box. |
| Wallpaper | Used for setting the canvas background image. |
### View Menu
The View menu features items for toggling on and off their display on the canvas.
| Option | Description |
|-----------------|-----------------------------------|
| Interface Names | Display interface names on links. |
| IPv4 Addresses | Display IPv4 addresses on links. |
| IPv6 Addresses | Display IPv6 addresses on links. |
| Node Labels | Display node names. |
| Link Labels | Display link labels. |
| Annotations | Display annotations. |
| Canvas Grid | Display the canvas grid. |
### Tools Menu
The tools menu lists different utility functions.
| Option | Description |
|---------------|----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------|
| Find | Display find dialog used for highlighting a node on the canvas. |
| Auto Grid | Automatically layout nodes in a grid. |
| IP addresses | Invokes the IP Addresses dialog box for configuring which IPv4/IPv6 prefixes are used when automatically addressing new interfaces. |
| MAC addresses | Invokes the MAC Addresses dialog box for configuring the starting number used as the lowest byte when generating each interface MAC address. This value should be changed when tunneling between CORE emulations to prevent MAC address conflicts. |
### Widgets Menu
Widgets are GUI elements that allow interaction with a running emulation.
Widgets typically automate the running of commands on emulated nodes to report
status information of some type and display this on screen.
#### Periodic Widgets
These Widgets are those available from the main *Widgets* menu. More than one
of these Widgets may be run concurrently. An event loop fires once every second
that the emulation is running. If one of these Widgets is enabled, its periodic
routine will be invoked at this time. Each Widget may have a configuration
dialog box which is also accessible from the *Widgets* menu.
Here are some standard widgets:
* **Adjacency** - displays router adjacency states for Quagga's OSPFv2 and OSPFv3
routing protocols. A line is drawn from each router halfway to the router ID
of an adjacent router. The color of the line is based on the OSPF adjacency
state such as Two-way or Full. To learn about the different colors, see the
*Configure Adjacency...* menu item. The **vtysh** command is used to
dump OSPF neighbor information.
Only half of the line is drawn because each
router may be in a different adjacency state with respect to the other.
* **Throughput** - displays the kilobits-per-second throughput above each link,
using statistics gathered from the ng_pipe Netgraph node that implements each
link. If the throughput exceeds a certain threshold, the link will become
highlighted. For wireless nodes which broadcast data to all nodes in range,
the throughput rate is displayed next to the node and the node will become
circled if the threshold is exceeded.
#### Observer Widgets
These Widgets are available from the **Observer Widgets** submenu of the
**Widgets** menu, and from the Widgets Tool on the toolbar. Only one Observer Widget may
be used at a time. Mouse over a node while the session is running to pop up
an informational display about that node.
Available Observer Widgets include IPv4 and IPv6 routing tables, socket
information, list of running processes, and OSPFv2/v3 neighbor information.
Observer Widgets may be edited by the user and rearranged. Choosing
**Widgets->Observer Widgets->Edit Observers** from the Observer Widget menu will
invoke the Observer Widgets dialog. A list of Observer Widgets is displayed along
with up and down arrows for rearranging the list. Controls are available for
renaming each widget, for changing the command that is run during mouse over, and
for adding and deleting items from the list. Note that specified commands should
return immediately to avoid delays in the GUI display. Changes are saved to a
**config.yaml** file in the CORE configuration directory.
### Session Menu
The Session Menu has entries for starting, stopping, and managing sessions,
in addition to global options such as node types, comments, hooks, servers,
and options.
| Option | Description |
|----------|---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------|
| Sessions | Invokes the CORE Sessions dialog box containing a list of active CORE sessions in the daemon. Basic session information such as name, node count, start time, and a thumbnail are displayed. This dialog allows connecting to different sessions, shutting them down, or starting a new session. |
| Servers | Invokes the CORE emulation servers dialog for configuring. |
| Options | Presents per-session options, such as the IPv4 prefix to be used, if any, for a control network the ability to preserve the session directory; and an on/off switch for SDT3D support. |
| Hooks | Invokes the CORE Session Hooks window where scripts may be configured for a particular session state. The session states are defined in the [table](#session-states) below. The top of the window has a list of configured hooks, and buttons on the bottom left allow adding, editing, and removing hook scripts. The new or edit button will open a hook script editing window. A hook script is a shell script invoked on the host (not within a virtual node). |
#### Session States
| State | Description |
|---------------|--------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------|
| Definition | Used by the GUI to tell the backend to clear any state. |
| Configuration | When the user presses the *Start* button, node, link, and other configuration data is sent to the backend. This state is also reached when the user customizes a service. |
| Instantiation | After configuration data has been sent, just before the nodes are created. |
| Runtime | All nodes and networks have been built and are running. (This is the same state at which the previously-named *global experiment script* was run.) |
| Datacollect | The user has pressed the *Stop* button, but before services have been stopped and nodes have been shut down. This is a good time to collect log files and other data from the nodes. |
| Shutdown | All nodes and networks have been shut down and destroyed. |
### Help Menu
| Option | Description |
|--------------------------|---------------------------------------------------------------|
| CORE Github (www) | Link to the CORE GitHub page. |
| CORE Documentation (www) | Lnk to the CORE Documentation page. |
| About | Invokes the About dialog box for viewing version information. |
## Connecting with Physical Networks
CORE's emulated networks run in real time, so they can be connected to live
physical networks. The RJ45 tool and the Tunnel tool help with connecting to
the real world. These tools are available from the **Link-layer nodes** menu.
When connecting two or more CORE emulations together, MAC address collisions
should be avoided. CORE automatically assigns MAC addresses to interfaces when
the emulation is started, starting with **00:00:00:aa:00:00** and incrementing
the bottom byte. The starting byte should be changed on the second CORE machine
using the **Tools->MAC Addresses** option the menu.
### RJ45 Tool
The RJ45 node in CORE represents a physical interface on the real CORE machine.
Any real-world network device can be connected to the interface and communicate
with the CORE nodes in real time.
The main drawback is that one physical interface is required for each
connection. When the physical interface is assigned to CORE, it may not be used
for anything else. Another consideration is that the computer or network that
you are connecting to must be co-located with the CORE machine.
To place an RJ45 connection, click on the **Link-layer nodes** toolbar and select
the **RJ45 Tool** from the submenu. Click on the canvas near the node you want to
connect to. This could be a router, hub, switch, or WLAN, for example. Now
click on the *Link Tool* and draw a link between the RJ45 and the other node.
The RJ45 node will display "UNASSIGNED". Double-click the RJ45 node to assign a
physical interface. A list of available interfaces will be shown, and one may
be selected by double-clicking its name in the list, or an interface name may
be entered into the text box.
> **NOTE:** When you press the Start button to instantiate your topology, the
interface assigned to the RJ45 will be connected to the CORE topology. The
interface can no longer be used by the system.
Multiple RJ45 nodes can be used within CORE and assigned to the same physical
interface if 802.1x VLANs are used. This allows for more RJ45 nodes than
physical ports are available, but the (e.g. switching) hardware connected to
the physical port must support the VLAN tagging, and the available bandwidth
will be shared.
You need to create separate VLAN virtual devices on the Linux host,
and then assign these devices to RJ45 nodes inside of CORE. The VLANning is
actually performed outside of CORE, so when the CORE emulated node receives a
packet, the VLAN tag will already be removed.
Here are example commands for creating VLAN devices under Linux:
```shell
ip link add link eth0 name eth0.1 type vlan id 1
ip link add link eth0 name eth0.2 type vlan id 2
ip link add link eth0 name eth0.3 type vlan id 3
```
### Tunnel Tool
The tunnel tool builds GRE tunnels between CORE emulations or other hosts.
Tunneling can be helpful when the number of physical interfaces is limited or
when the peer is located on a different network. Also a physical interface does
not need to be dedicated to CORE as with the RJ45 tool.
The peer GRE tunnel endpoint may be another CORE machine or another
host that supports GRE tunneling. When placing a Tunnel node, initially
the node will display "UNASSIGNED". This text should be replaced with the IP
address of the tunnel peer. This is the IP address of the other CORE machine or
physical machine, not an IP address of another virtual node.
> **NOTE:** Be aware of possible MTU (Maximum Transmission Unit) issues with GRE devices. The *gretap* device
has an interface MTU of 1,458 bytes; when joined to a Linux bridge, the
bridge's MTU
becomes 1,458 bytes. The Linux bridge will not perform fragmentation for
large packets if other bridge ports have a higher MTU such as 1,500 bytes.
The GRE key is used to identify flows with GRE tunneling. This allows multiple
GRE tunnels to exist between that same pair of tunnel peers. A unique number
should be used when multiple tunnels are used with the same peer. When
configuring the peer side of the tunnel, ensure that the matching keys are
used.
Here are example commands for building the other end of a tunnel on a Linux
machine. In this example, a router in CORE has the virtual address
**10.0.0.1/24** and the CORE host machine has the (real) address
**198.51.100.34/24**. The Linux box
that will connect with the CORE machine is reachable over the (real) network
at **198.51.100.76/24**.
The emulated router is linked with the Tunnel Node. In the
Tunnel Node configuration dialog, the address **198.51.100.76** is entered, with
the key set to **1**. The gretap interface on the Linux box will be assigned
an address from the subnet of the virtual router node,
**10.0.0.2/24**.
```shell
# these commands are run on the tunnel peer
sudo ip link add gt0 type gretap remote 198.51.100.34 local 198.51.100.76 key 1
sudo ip addr add 10.0.0.2/24 dev gt0
sudo ip link set dev gt0 up
```
Now the virtual router should be able to ping the Linux machine:
```shell
# from the CORE router node
ping 10.0.0.2
```
And the Linux machine should be able to ping inside the CORE emulation:
```shell
# from the tunnel peer
ping 10.0.0.1
```
To debug this configuration, **tcpdump** can be run on the gretap devices, or
on the physical interfaces on the CORE or Linux machines. Make sure that a
firewall is not blocking the GRE traffic.
### Communicating with the Host Machine
The host machine that runs the CORE GUI and/or daemon is not necessarily
accessible from a node. Running an X11 application on a node, for example,
requires some channel of communication for the application to connect with
the X server for graphical display. There are several different ways to
connect from the node to the host and vice versa.
#### Control Network
The quickest way to connect with the host machine through the primary control
network.
With a control network, the host can launch an X11 application on a node.
To run an X11 application on the node, the **SSH** service can be enabled on
the node, and SSH with X11 forwarding can be used from the host to the node.
```shell
# SSH from host to node n5 to run an X11 app
ssh -X 172.16.0.5 xclock
```
Note that the **coresendmsg** utility can be used for a node to send
messages to the CORE daemon running on the host (if the **listenaddr = 0.0.0.0**
is set in the **/etc/core/core.conf** file) to interact with the running
emulation. For example, a node may move itself or other nodes, or change
its icon based on some node state.
#### Other Methods
There are still other ways to connect a host with a node. The RJ45 Tool
can be used in conjunction with a dummy interface to access a node:
```shell
sudo modprobe dummy numdummies=1
```
A **dummy0** interface should appear on the host. Use the RJ45 tool assigned
to **dummy0**, and link this to a node in your scenario. After starting the
session, configure an address on the host.
```shell
sudo ip link show type bridge
# determine bridge name from the above command
# assign an IP address on the same network as the linked node
sudo ip addr add 10.0.1.2/24 dev b.48304.34658
```
In the example shown above, the host will have the address **10.0.1.2** and
the node linked to the RJ45 may have the address **10.0.1.1**.
## Building Sample Networks
### Wired Networks
Wired networks are created using the **Link Tool** to draw a link between two
nodes. This automatically draws a red line representing an Ethernet link and
creates new interfaces on network-layer nodes.
Double-click on the link to invoke the **link configuration** dialog box. Here
you can change the Bandwidth, Delay, Loss, and Duplicate
rate parameters for that link. You can also modify the color and width of the
link, affecting its display.
Link-layer nodes are provided for modeling wired networks. These do not create
a separate network stack when instantiated, but are implemented using Linux bridging.
These are the hub, switch, and wireless LAN nodes. The hub copies each packet from
the incoming link to every connected link, while the switch behaves more like an
Ethernet switch and keeps track of the Ethernet address of the connected peer,
forwarding unicast traffic only to the appropriate ports.
The wireless LAN (WLAN) is covered in the next section.
### Wireless Networks
The wireless LAN node allows you to build wireless networks where moving nodes
around affects the connectivity between them. Connection between a pair of nodes is stronger
when the nodes are closer while connection is weaker when the nodes are further away.
The wireless LAN, or WLAN, node appears as a small cloud. The WLAN offers
several levels of wireless emulation fidelity, depending on your modeling needs.
The WLAN tool can be extended with plug-ins for different levels of wireless
fidelity. The basic on/off range is the default setting available on all
platforms. Other plug-ins offer higher fidelity at the expense of greater
complexity and CPU usage. The availability of certain plug-ins varies depending
on platform. See the table below for a brief overview of wireless model types.
| Model | Type | Supported Platform(s) | Fidelity | Description |
|-------|---------|-----------------------|----------|-------------------------------------------------------------------------------|
| Basic | on/off | Linux | Low | Ethernet bridging with nftables |
| EMANE | Plug-in | Linux | High | TAP device connected to EMANE emulator with pluggable MAC and PHY radio types |
To quickly build a wireless network, you can first place several router nodes
onto the canvas. If you have the
Quagga MDR software installed, it is
recommended that you use the **mdr** node type for reduced routing overhead. Next
choose the **WLAN** from the **Link-layer nodes** submenu. First set the
desired WLAN parameters by double-clicking the cloud icon. Then you can link
all selected right-clicking on the WLAN and choosing **Link to Selected**.
Linking a router to the WLAN causes a small antenna to appear, but no red link
line is drawn. Routers can have multiple wireless links and both wireless and
wired links (however, you will need to manually configure route
redistribution.) The mdr node type will generate a routing configuration that
enables OSPFv3 with MANET extensions. This is a Boeing-developed extension to
Quagga's OSPFv3 that reduces flooding overhead and optimizes the flooding
procedure for mobile ad-hoc (MANET) networks.
The default configuration of the WLAN is set to use the basic range model. Having this model
selected causes **core-daemon** to calculate the distance between nodes based
on screen pixels. A numeric range in screen pixels is set for the wireless
network using the **Range** slider. When two wireless nodes are within range of
each other, a green line is drawn between them and they are linked. Two
wireless nodes that are farther than the range pixels apart are not linked.
During Execute mode, users may move wireless nodes around by clicking and
dragging them, and wireless links will be dynamically made or broken.
The **EMANE Nodes** leverage available EMANE models to use for wireless networking.
See the [EMANE](emane.md) chapter for details on using EMANE.
### Mobility Scripting
CORE has a few ways to script mobility.
| Option | Description |
|--------------|---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------|
| ns-2 script | The script specifies either absolute positions or waypoints with a velocity. Locations are given with Cartesian coordinates. |
| CORE API | An external entity can move nodes by sending CORE API Node messages with updated X,Y coordinates; the **coresendmsg** utility allows a shell script to generate these messages. |
| EMANE events | See [EMANE](emane.md) for details on using EMANE scripts to move nodes around. Location information is typically given as latitude, longitude, and altitude. |
For the first method, you can create a mobility script using a text
editor, or using a tool such as [BonnMotion](http://net.cs.uni-bonn.de/wg/cs/applications/bonnmotion/), and associate the script with one of the wireless
using the WLAN configuration dialog box. Click the *ns-2 mobility script...*
button, and set the *mobility script file* field in the resulting *ns2script*
configuration dialog.
Here is an example for creating a BonnMotion script for 10 nodes:
```shell
bm -f sample RandomWaypoint -n 10 -d 60 -x 1000 -y 750
bm NSFile -f sample
# use the resulting 'sample.ns_movements' file in CORE
```
When the Execute mode is started and one of the WLAN nodes has a mobility
script, a mobility script window will appear. This window contains controls for
starting, stopping, and resetting the running time for the mobility script. The
**loop** checkbox causes the script to play continuously. The **resolution** text
box contains the number of milliseconds between each timer event; lower values
cause the mobility to appear smoother but consumes greater CPU time.
The format of an ns-2 mobility script looks like:
```shell
# nodes: 3, max time: 35.000000, max x: 600.00, max y: 600.00
$node_(2) set X_ 144.0
$node_(2) set Y_ 240.0
$node_(2) set Z_ 0.00
$ns_ at 1.00 "$node_(2) setdest 130.0 280.0 15.0"
```
The first three lines set an initial position for node 2. The last line in the
above example causes node 2 to move towards the destination **(130, 280)** at
speed **15**. All units are screen coordinates, with speed in units per second.
The total script time is learned after all nodes have reached their waypoints.
Initially, the time slider in the mobility script dialog will not be
accurate.
Examples mobility scripts (and their associated topology files) can be found
in the **configs/** directory.
## Alerts
The alerts button is located in the bottom right-hand corner
of the status bar in the CORE GUI. This will change colors to indicate one or
more problems with the running emulation. Clicking on the alerts button will invoke the
alerts dialog.
The alerts dialog contains a list of alerts received from
the CORE daemon. An alert has a time, severity level, optional node number,
and source. When the alerts button is red, this indicates one or more fatal
exceptions. An alert with a fatal severity level indicates that one or more
of the basic pieces of emulation could not be created, such as failure to
create a bridge or namespace, or the failure to launch EMANE processes for an
EMANE-based network.
Clicking on an alert displays details for that
exceptio. The exception source is a text string
to help trace where the exception occurred; "service:UserDefined" for example,
would appear for a failed validation command with the UserDefined service.
A button is available at the bottom of the dialog for clearing the exception
list.
## Customizing your Topology's Look
Several annotation tools are provided for changing the way your topology is
presented. Captions may be added with the Text tool. Ovals and rectangles may
be drawn in the background, helpful for visually grouping nodes together.
During live demonstrations the marker tool may be helpful for drawing temporary
annotations on the canvas that may be quickly erased. A size and color palette
appears at the bottom of the toolbar when the marker tool is selected. Markings
are only temporary and are not saved in the topology file.
The basic node icons can be replaced with a custom image of your choice. Icons
appear best when they use the GIF or PNG format with a transparent background.
To change a node's icon, double-click the node to invoke its configuration
dialog and click on the button to the right of the node name that shows the
node's current icon.
A background image for the canvas may be set using the *Wallpaper...* option
from the *Canvas* menu. The image may be centered, tiled, or scaled to fit the
canvas size. An existing terrain, map, or network diagram could be used as a
background, for example, with CORE nodes drawn on top.

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@ -63,13 +63,6 @@ toolbar, or choose *Node types...* from the *Session* menu. Note that
any new services selected are not applied to existing nodes if the nodes have
been customized.
The node types are saved in a **~/.core/nodes.conf** file, not with the
**.imn** file. Keep this in mind when changing the default services for
existing node types; it may be better to simply create a new node type. It is
recommended that you do not change the default built-in node types. The
**nodes.conf** file can be copied between CORE machines to save your custom
types.
## Customizing a Service
A service can be fully customized for a particular node. From the node's
@ -151,11 +144,11 @@ ideas for a service before adding a new service type.
defines one or more classes to be imported. You can create multiple Python
files that will be imported.
2. Put these files in a directory such as /home/username/.core/myservices
Note that the last component of this directory name **myservices** should not
be named something like **services** which conflicts with an existing module.
2. Put these files in a directory such as `/home/<user>/.coregui/custom_services`
Note that the last component of this directory name **custom_services** should not
be named the same as any python module, due to naming conflicts.
3. Add a **custom_services_dir = /home/username/.core/myservices** entry to the
3. Add a **custom_services_dir = `/home/<user>/.coregui/custom_services`** entry to the
/etc/core/core.conf file.
**NOTE:**
@ -165,7 +158,7 @@ ideas for a service before adding a new service type.
or **services**.
4. Restart the CORE daemon (core-daemon). Any import errors (Python syntax)
should be displayed in the /var/log/core-daemon.log log file (or on screen).
should be displayed in the daemon output.
5. Start using your custom service on your nodes. You can create a new node
type that uses your service, or change the default services for an existing

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