# Copyright (c) 2014-2016 Barnstormer Softworks, Ltd.
# This Source Code Form is subject to the terms of the Mozilla Public
# License, v. 2.0. If a copy of the MPL was not distributed with this
# file, You can obtain one at http://mozilla.org/MPL/2.0/.
from __future__ import absolute_import
import re
import sys
import inspect
from lxml import etree as ET
from .. import namespaces as GNS
from .pg import Namespaces as PGNS
from .pg import Node
from .pg import Link
from .pg import Resource
from . import pg
from .. import urn
[docs]class OFController(object):
"""OpenFlow controller specification to be used on a PG VLAN.
Add to link objects using the Link.addChild() method.
.. note::
This will have no effect if a trivial link is created by the aggregate.
You need to make sure that a VLAN will be provisioned (typically by making sure
that at least two interfaces on the link are on different physical hosts)."""
def __init__ (self, host, port=6633):
self.host = host
self.port = port
def _write (self, element):
eof = ET.SubElement(element, "{%s}openflow_controller" % (PGNS.EMULAB))
eof.attrib["url"] = "tcp:%s:%d" % (self.host, self.port)
return eof
[docs]class XenVM(Node):
"""Xen-based Virtual Machine resource
Args:
client_id (str): Your name for this VM. This must be unique within a single `Request` object.
component_id (Optional[str]): The `component_id` of the site node you want to bind this VM to
exclusive (Optional[bool]): Request this VM on an isolated host used only by your sliver.
Attributes:
cores (int): Number of CPU cores
ram (int): Amount of memory in megabytes
disk (int): Amount of disk space in gigabytes
xen_ptype (str): Physical node type on which to instantiate the VM. Types are AM-specific.
"""
def __init__ (self, client_id, component_id = None, exclusive = False):
super(XenVM, self).__init__(client_id, "emulab-xen", component_id = component_id, exclusive = exclusive)
self.cores = None
self.ram = None
self.disk = None
self.xen_ptype = None
def _write (self, root):
nd = super(XenVM, self)._write(root)
st = nd.find("{%s}sliver_type" % (GNS.REQUEST.name))
if self.cores or self.ram or self.disk:
xen = ET.SubElement(st, "{%s}xen" % (PGNS.EMULAB.name))
if self.cores:
xen.attrib["cores"] = str(self.cores)
if self.ram:
xen.attrib["ram"] = str(self.ram)
if self.disk:
xen.attrib["disk"] = str(self.disk)
if self.xen_ptype is not None:
pt = ET.SubElement(st, "{%s}xen_ptype" % (PGNS.EMULAB.name))
pt.attrib["name"] = self.xen_ptype
return nd
pg.Request.EXTENSIONS.append(("XenVM", XenVM))
[docs]class AddressPool(Resource):
"""A pool of public dynamic IP addresses belonging to a slice."""
def __init__(self, name, count=1, type="any"):
super(AddressPool, self).__init__()
self.client_id = name
self.count = count
self.type = type
self.component_manager_id = None
@property
def name (self):
return self.client_id
def _write (self, root):
pl = ET.SubElement(root, "{%s}routable_pool" % (PGNS.EMULAB.name))
pl.attrib["client_id"] = self.client_id
if self.component_manager_id:
pl.attrib["component_manager_id"] = self.component_manager_id
pl.attrib["count"] = str(self.count)
pl.attrib["type"] = self.type
return pl
pg.Request.EXTENSIONS.append(("AddressPool", AddressPool))
[docs]class Blockstore(object):
def __init__ (self, name, mount = None):
"""Creates a BlockStore object with the given name (arbitrary) and mountpoint."""
self.name = name
self.mount = mount
self._size = None
self.where = "local" # local|remote
self.readonly = False
self.placement = "any" # any|sysvol|nonsysvol
self.dataset = None
self.rwclone = False # Only for remote blockstores.
@property
def size (self):
return self._size
@size.setter
def size (self, val):
match = re.match(r"^(\d+)GB$", val)
if match:
self._size = int(match.group(1))
else:
self._size = int(val)
def _write (self, element):
bse = ET.SubElement(element, "{%s}blockstore" % (PGNS.EMULAB))
bse.attrib["name"] = self.name
if self.mount:
bse.attrib["mountpoint"] = self.mount
bse.attrib["class"] = self.where
if self._size:
bse.attrib["size"] = "%dGB" % (self._size)
bse.attrib["placement"] = self.placement
if self.readonly:
bse.attrib["readonly"] = "true"
if self.rwclone:
bse.attrib["rwclone"] = "true"
if self.dataset:
if isinstance(self.dataset, (str, unicode)):
bse.attrib["dataset"] = self.dataset
elif isinstance(self.dataset, urn.Base):
bse.attrib["dataset"] = str(self.dataset)
return bse
pg.Node.EXTENSIONS.append(("Blockstore", Blockstore))
[docs]class RemoteBlockstore(pg.Node):
def __init__ (self, name, mount = None, ifacename = "if0"):
super(RemoteBlockstore, self).__init__(name, "emulab-blockstore")
bs = Blockstore(self.name, mount)
bs.where = "remote"
self._bs = bs
self._interface = self.addInterface(ifacename)
def _write (self, element):
return self._bs._write(super(RemoteBlockstore, self)._write(element));
@property
def interface (self):
return self._interface
@property
def size (self):
return self._bs.size
@size.setter
def size (self, val):
self._bs.size = val
@property
def mountpoint (self):
return self._bs.mount
@mountpoint.setter
def mountpoint (self, val):
self._bs.mount = val
@property
def readonly (self):
return self._bs.readonly
@readonly.setter
def readonly (self, val):
self._bs.readonly = val
@property
def rwclone (self):
return self._bs.rwclone
@rwclone.setter
def rwclone (self, val):
self._bs.rwclone = val
@property
def placement (self):
return self._bs.placement
@placement.setter
def placement (self, val):
self._bs.placement = val
@property
def dataset (self):
return self._bs.dataset
@dataset.setter
def dataset (self, val):
self._bs.dataset = val
pg.Request.EXTENSIONS.append(("RemoteBlockstore", RemoteBlockstore))
[docs]class Bridge(pg.Node):
[docs] class Pipe(object):
def __init__ (self):
self.bandwidth = 0
self.latency = 0
self.lossrate = 0.0
def __init__ (self, name, if0name = "if0", if1name = "if1"):
super(Bridge, self).__init__(name, "delay")
self.addNamespace(PGNS.DELAY)
self.iface0 = self.addInterface(if0name)
self.pipe0 = self.Pipe();
self.iface1 = self.addInterface(if1name)
self.pipe1 = self.Pipe();
def _write (self, root):
nd = super(Bridge, self)._write(root)
st = nd.find("{%s}sliver_type" % (GNS.REQUEST.name))
delay = ET.SubElement(st, "{%s}sliver_type_shaping" % (PGNS.DELAY.name))
pipe0 = ET.SubElement(delay, "{%s}pipe" % (PGNS.DELAY.name))
pipe0.attrib["source"] = self.iface0.name
pipe0.attrib["dest"] = self.iface1.name
pipe0.attrib["capacity"] = str(self.pipe0.bandwidth)
pipe0.attrib["latency"] = str(self.pipe0.latency)
pipe0.attrib["lossrate"] = str(self.pipe0.lossrate)
pipe1 = ET.SubElement(delay, "{%s}pipe" % (PGNS.DELAY.name))
pipe1.attrib["source"] = self.iface1.name
pipe1.attrib["dest"] = self.iface0.name
pipe1.attrib["capacity"] = str(self.pipe1.bandwidth)
pipe1.attrib["latency"] = str(self.pipe1.latency)
pipe1.attrib["lossrate"] = str(self.pipe1.lossrate)
return nd;
# pipe0 goes with iface0, and pipe1 goes with iface1
[docs] def getPipe (self, interface):
if self.iface0.name is interface:
return self.pipe0
else:
return self.pipe1
pg.Request.EXTENSIONS.append(("Bridge", Bridge))
[docs]class Firewall(object):
[docs] class Style(object):
OPEN = "open"
CLOSED = "closed"
BASIC = "basic"
[docs] class Direction(object):
INCOMING = "incoming"
OUTGOING = "outgoing"
def __init__ (self, style):
self.style = style
self.exceptions = []
[docs] def addException(self, port, direction, ip = None):
self.exceptions.append({"port" : port, "direction" : direction, "ip" : ip})
def _write (self, node):
fw = ET.SubElement(node, "{%s}firewall" % (PGNS.EMULAB))
fw.attrib["style"] = self.style
for excep in self.exceptions:
ex = ET.SubElement(fw, "exception")
ex.attrib["port"] = str(excep["port"])
ex.attrib["direction"] = excep["direction"]
if excep["ip"]:
ex.attrib["ip"] = excep["ip"]
return fw
XenVM.EXTENSIONS.append(("Firewall", Firewall))
[docs]class Tour(object):
TEXT = "text"
MARKDOWN = "markdown"
# One or more blank lines, followed by "Instructions:" on it's own line, then
# zero or more blank lines. Eats the blank lines.
SPLIT_REGEX = re.compile(r"\n+^\w*instructions\w*:?\w*$\n+",
re.IGNORECASE | re.MULTILINE)
[docs] class Step(object):
# Duplicated because of the awkwardness of accessing class variables in
# outer class
TEXT = "text"
MARKDOWN = "markdown"
def __init__(self, target, description,
steptype = None, description_type = MARKDOWN):
if hasattr(target,'client_id'):
self.id = target.client_id
else:
self.id = str(target)
if steptype:
self.type = steptype
elif isinstance(target, Node):
self.type = "node"
elif isinstance(target, Link):
self.type = "link"
else:
self.type = "node"
self.description = description
self.description_type = description_type
def _write (self, root):
stepel = ET.SubElement(root, "step")
stepel.attrib["point_type"] = self.type
stepel.attrib["point_id"] = self.id
desc = ET.SubElement(stepel, "description")
desc.text = self.description
desc.attrib["type"] = self.description_type
def __init__ (self):
self.description = None
# Type can markdown
self.description_type = Tour.TEXT
self.instructions = None
# Type can markdown
self.instructions_type = Tour.TEXT
self.steps = []
[docs] def addStep(self, step):
self.steps.append(step)
[docs] def Description(self, type, desc):
self.description_type = type
self.description = desc
[docs] def Instructions(self, type, inst):
self.instructions_type = type
self.instructions = inst
[docs] def useDocstring(self, module = None):
if module is None:
module = sys.modules["__main__"]
if not self.description and module.__doc__:
docstr = module.__doc__
docparts = Tour.SPLIT_REGEX.split(docstr,2)
self.Description(Tour.MARKDOWN,docparts[0])
if len(docparts) == 2 and not self.instructions:
self.Instructions(Tour.MARKDOWN,docparts[1])
return True
else:
return False
def _write (self, root):
#
# Please do it this way, until some of our JS code is fixed.
#
td = ET.SubElement(root, "rspec_tour",
nsmap={None : PGNS.TOUR.name})
if self.description:
desc = ET.SubElement(td, "description")
desc.text = self.description
desc.attrib["type"] = self.description_type
if self.instructions:
inst = ET.SubElement(td, "instructions")
inst.text = self.instructions
inst.attrib["type"] = self.instructions_type
if len(self.steps):
steps = ET.SubElement(td, "steps")
for step in self.steps:
step._write(steps)
return td
[docs]class ParameterData(object):
def __init__ (self, parameters):
self.parameters = parameters
def _write (self, root):
td = ET.SubElement(root, "data_set",
nsmap={None : PGNS.PARAMS.name})
for param in self.parameters:
that = self.parameters[param]
if 'hide' in that and that['hide'] is False:
desc = ET.SubElement(td, "data_item")
desc.attrib["name"] = that['prefix'] + param
if isinstance(that['value'], ET._Element):
desc.append(that['value'])
else:
desc.text = str(that['value'])
pg.Request.EXTENSIONS.append(("ParameterData", ParameterData))
[docs]class Site(object):
def __init__ (self, id):
self.id = id
def _write (self, node):
site = ET.SubElement(node, "{%s}site" % (PGNS.JACKS))
site.attrib["id"] = self.id
return site
pg.Node.EXTENSIONS.append(("Site", Site))
pg.Link.EXTENSIONS.append(("Site", Site))
[docs]class Desire(object):
def __init__ (self, name, weight):
self.name = name
self.weight = weight
def _write (self, node):
fd = ET.SubElement(node, "{%s}fd" % (PGNS.EMULAB))
fd.attrib["name"] = self.name
fd.attrib["weight"] = str(self.weight)
return fd
pg.Node.EXTENSIONS.append(("Desire", Desire))
[docs]class Password(Resource):
"""A declaration for a randomly generated password.
The portal will generate the password, encrypt it, and pass on the
encrypted value to the AM(s) and therefore the node(s)."""
def __init__(self, name=None):
super(Password, self).__init__()
self.name = name
def _write (self, root):
pl = ET.SubElement(root, "{%s}password" % (PGNS.EMULAB.name))
if self.name:
pl.attrib["name"] = self.name
return pl