self.ipv4 = iface['ip']
self.bwlimit = iface['bwlimit']
self.hostname = iface['hostname']
+ self.primary = iface['is_primary']
"""
Just print out bwlimit right now
class Node:
- def __init__(self, network, node, bps = 1000 * 1000000):
+ def __init__(self, network, node):
self.network = network
self.id = node['node_id']
self.idtag = "n%s" % self.id
self.sliver = None
self.whitelist = node['slice_ids_whitelist']
- def get_ifaces(self):
- i = []
+ def get_primary_iface(self):
for id in self.iface_ids:
- i.append(self.network.lookupIface(id))
- # Only return the first interface
- break
- return i
+ iface = self.network.lookupIface(id)
+ if iface.primary:
+ return iface
+ return None
def get_site(self):
return self.network.lookupSite(self.site_id)
with xml.node(id = self.idtag):
with xml.hostname:
xml << self.hostname
- if self.network.type == "VINI":
- with xml.kbps:
- xml << str(int(self.bps/1000))
- for iface in self.get_ifaces():
+ iface = self.get_primary_iface()
+ if iface:
iface.toxml(xml)
if self.sliver:
self.sliver.toxml(xml)
self.network = network
self.id = slice['slice_id']
self.name = slice['name']
+ self.peer_id = slice['peer_id']
self.node_ids = set(slice['node_ids'])
self.slice_tag_ids = slice['slice_tag_ids']
"""
Use with tags that can have more than one instance
"""
- def get_tags(self, tagname, node = None):
+ def get_multi_tag(self, tagname, node = None):
tags = []
for i in self.slice_tag_ids:
- tag = self.network.lookupSliceTag(i)
- if tag.tagname == tagname:
- if not (node and node.id != tag.node_id):
- tags.append(tag)
+ try:
+ tag = self.network.lookupSliceTag(i)
+ if tag.tagname == tagname:
+ if not (node and node.id != tag.node_id):
+ tags.append(tag)
+ except InvalidRSpec, e:
+ # As they're not needed, we ignore some tag types from
+ # GetSliceTags call. See Slicetag.ignore_tags
+ pass
return tags
"""
Use with tags that have only one instance
"""
def get_tag(self, tagname, node = None):
- for i in self.slice_tag_ids:
- tag = self.network.lookupSliceTag(i)
- if tag.tagname == tagname:
- if (not node) or (node.id == tag.node_id):
- return tag
+ try:
+ for i in self.slice_tag_ids:
+ tag = self.network.lookupSliceTag(i)
+ if tag.tagname == tagname:
+ if (not node) or (node.id == tag.node_id):
+ return tag
+ except InvalidRSpec, e:
+ # As they're not needed, we ignore some tag types from
+ # GetSliceTags call. See Slicetag.ignore_tags
+ pass
return None
def get_nodes(self):
n = []
for id in self.node_ids:
- n.append(self.network.nodes[id])
+ if id in self.network.nodes:
+ n.append(self.network.nodes[id])
return n
-
+
# Add a new slice tag
- def add_tag(self, tagname, value, node = None):
- record = {'slice_tag_id':None, 'slice_id':self.id, 'tagname':tagname, 'value':value}
- if node:
- record['node_id'] = node.id
- else:
- record['node_id'] = None
- tag = Slicetag(record)
- self.network.slicetags[tag.id] = tag
+ def add_tag(self, tagname, value, node = None, role_id = 40):
+ tt = self.network.lookupTagType(tagname)
+ if not tt.permit_update(role_id):
+ raise InvalidRSpec("permission denied to modify '%s' tag" % tagname)
+ tag = Slicetag()
+ tag.initialize(tagname, value, node, self.network)
+ self.network.tags[tag.id] = tag
self.slice_tag_ids.append(tag.id)
- tag.changed = True
- tag.updated = True
return tag
# Update a slice tag if it exists, else add it
- def update_tag(self, tagname, value, node = None):
+ def update_tag(self, tagname, value, node = None, role_id = 40):
tag = self.get_tag(tagname, node)
- if tag and tag.value == value:
- value = "no change"
- elif tag:
- tag.value = value
- tag.changed = True
+ if tag:
+ if not tag.permit_update(role_id, value):
+ raise InvalidRSpec("permission denied to modify '%s' tag" % tagname)
+ tag.change(value)
else:
- tag = self.add_tag(tagname, value, node)
- tag.updated = True
+ tag = self.add_tag(tagname, value, node, role_id)
+ return tag
- def tags_to_xml(self, xml, node = None):
- tag = self.get_tag("cpu_pct", node)
- if tag:
- with xml.cpu_percent:
- xml << tag.value
- tags = self.get_tags("vsys", node)
+ def update_multi_tag(self, tagname, value, node = None, role_id = 40):
+ tags = self.get_multi_tag(tagname, node)
for tag in tags:
- with xml.vsys:
- xml << tag.value
+ if tag and tag.value == value:
+ break
+ else:
+ tag = self.add_tag(tagname, value, node, role_id)
+ return tag
+
+ def tags_to_xml(self, xml, node = None):
+ tagtypes = self.network.getTagTypes()
+ for tt in tagtypes:
+ if tt.in_rspec:
+ if tt.multi:
+ tags = self.get_multi_tag(tt.tagname, node)
+ for tag in tags:
+ if not tag.was_deleted(): ### Debugging
+ xml << (tag.tagname, tag.value)
+ else:
+ tag = self.get_tag(tt.tagname, node)
+ if tag:
+ if not tag.was_deleted(): ### Debugging
+ xml << (tag.tagname, tag.value)
def toxml(self, xml):
with xml.sliver_defaults:
class Slicetag:
newid = -1
- def __init__(self, tag):
+ filter_fields = ['slice_tag_id','slice_id','tagname','value','node_id','category','min_role_id']
+ ignore_tags = ['hmac','ssh_key']
+ def __init__(self, tag = None):
+ if not tag:
+ return
self.id = tag['slice_tag_id']
- if not self.id:
- # Make one up for the time being...
- self.id = Slicetag.newid
- Slicetag.newid -= 1
self.slice_id = tag['slice_id']
self.tagname = tag['tagname']
self.value = tag['value']
self.node_id = tag['node_id']
- self.updated = False
- self.changed = False
- self.deleted = False
-
+ self.category = tag['category']
+ self.min_role_id = tag['min_role_id']
+ self.status = None
+
+ # Create a new slicetag that will be written to the DB later
+ def initialize(self, tagname, value, node, network):
+ tt = network.lookupTagType(tagname)
+ self.id = Slicetag.newid
+ Slicetag.newid -=1
+ self.slice_id = network.slice.id
+ self.tagname = tagname
+ self.value = value
+ if node:
+ self.node_id = node.id
+ else:
+ self.node_id = None
+ self.category = tt.category
+ self.min_role_id = tt.min_role_id
+ self.status = "new"
+
+ def permit_update(self, role_id, value = None):
+ if value and self.value == value:
+ return True
+ if role_id > self.min_role_id:
+ return False
+ return True
+
+ def change(self, value):
+ if self.value != value:
+ self.value = value
+ self.status = "change"
+ else:
+ self.status = "updated"
+
# Mark a tag as deleted
def delete(self):
- self.deleted = True
- self.updated = True
+ self.status = "delete"
+
+ def was_added(self):
+ return (self.id < 0)
+
+ def was_changed(self):
+ return (self.status == "change")
+
+ def was_deleted(self):
+ return (self.status == "delete")
+
+ def was_updated(self):
+ return (self.status != None)
def write(self, api):
- if self.changed:
- if int(self.id) > 0:
- api.plshell.UpdateSliceTag(api.plauth, self.id, self.value)
- else:
- api.plshell.AddSliceTag(api.plauth, self.slice_id,
- self.tagname, self.value, self.node_id)
- elif self.deleted and int(self.id) > 0:
+ if self.was_added():
+ api.plshell.AddSliceTag(api.plauth, self.slice_id,
+ self.tagname, self.value, self.node_id)
+ elif self.was_changed():
+ api.plshell.UpdateSliceTag(api.plauth, self.id, self.value)
+ elif self.was_deleted():
api.plshell.DeleteSliceTag(api.plauth, self.id)
-"""
-A Network is a compound object consisting of:
-* a dictionary mapping site IDs to Site objects
-* a dictionary mapping node IDs to Node objects
-* a dictionary mapping interface IDs to Iface objects
-"""
+class TagType:
+ ignore_tags = ['hmac','ssh_key']
+ def __init__(self, tagtype):
+ self.id = tagtype['tag_type_id']
+ self.category = tagtype['category']
+ self.tagname = tagtype['tagname']
+ self.min_role_id = tagtype['min_role_id']
+ self.multi = False
+ self.in_rspec = False
+ if self.category == 'slice/rspec':
+ self.in_rspec = True
+ if self.tagname in ['codemux', 'ip_addresses', 'vsys']:
+ self.multi = True
+
+ def permit_update(self, role_id):
+ if role_id > self.min_role_id:
+ return False
+ return True
+
+
class Network:
- def __init__(self, api, type = "PlanetLab"):
+ """
+ A Network is a compound object consisting of:
+ * a dictionary mapping site IDs to Site objects
+ * a dictionary mapping node IDs to Node objects
+ * a dictionary mapping interface IDs to Iface objects
+ """
+ def __init__(self, api, type = "SFA"):
self.api = api
self.type = type
self.sites = self.get_sites(api)
self.nodes = self.get_nodes(api)
self.ifaces = self.get_ifaces(api)
self.tags = self.get_slice_tags(api)
+ self.tagtypes = self.get_tag_types(api)
self.slice = None
- """ Lookup site based on id or idtag value """
def lookupSite(self, id):
+ """ Lookup site based on id or idtag value """
val = None
if isinstance(id, basestring):
id = int(id.lstrip('s'))
try:
val = self.sites[id]
except:
- raise KeyError("site ID %s not found" % id)
+ raise InvalidRSpec("site ID %s not found" % id)
return val
def getSites(self):
sites.append(self.sites[s])
return sites
- """ Lookup node based on id or idtag value """
def lookupNode(self, id):
+ """ Lookup node based on id or idtag value """
val = None
if isinstance(id, basestring):
id = int(id.lstrip('n'))
try:
val = self.nodes[id]
except:
- raise KeyError("node ID %s not found" % id)
+ raise InvalidRSpec("node ID %s not found" % id)
return val
def getNodes(self):
nodes.append(self.nodes[n])
return nodes
- """ Lookup iface based on id or idtag value """
def lookupIface(self, id):
+ """ Lookup iface based on id or idtag value """
val = None
if isinstance(id, basestring):
id = int(id.lstrip('i'))
try:
val = self.ifaces[id]
except:
- raise KeyError("interface ID %s not found" % id)
+ raise InvalidRSpec("interface ID %s not found" % id)
return val
def getIfaces(self):
try:
val = self.tags[id]
except:
- raise KeyError("slicetag ID %s not found" % id)
+ raise InvalidRSpec("slicetag ID %s not found" % id)
return val
def getSliceTags(self):
tags.append(self.tags[t])
return tags
- """
- Annotate the objects in the Network with information from the RSpec
- """
- def addRSpec(self, xml):
- nodedict = {}
- for node in self.getNodes():
- nodedict[node.idtag] = node
-
- slicenodes = {}
-
- tree = etree.parse(StringIO(xml))
+ def lookupTagType(self, name):
+ val = None
+ try:
+ val = self.tagtypes[name]
+ except:
+ raise InvalidRSpec("tag %s not found" % name)
+ return val
+
+ def getTagTypes(self):
+ tags = []
+ for t in self.tagtypes:
+ tags.append(self.tagtypes[t])
+ return tags
+
+ def __process_attributes(self, element, node=None):
+ """
+ Process the elements under <sliver_defaults> or <sliver>
+ """
+ if element is None:
+ return
+
+ tagtypes = self.getTagTypes()
+ for tt in tagtypes:
+ if tt.in_rspec:
+ if tt.multi:
+ for e in element.iterfind("./" + tt.tagname):
+ self.slice.update_multi_tag(tt.tagname, e.text, node)
+ else:
+ e = element.find("./" + tt.tagname)
+ if e is not None:
+ self.slice.update_tag(tt.tagname, e.text, node)
+
+ def addRSpec(self, xml, schema=None):
+ """
+ Annotate the objects in the Network with information from the RSpec
+ """
+ try:
+ tree = etree.parse(StringIO(xml))
+ except etree.XMLSyntaxError:
+ message = str(sys.exc_info()[1])
+ raise InvalidRSpec(message)
- if self.schema:
+ # Filter out stuff that's not for us
+ rspec = tree.getroot()
+ for network in rspec.iterfind("./network"):
+ if network.get("name") != self.api.hrn:
+ rspec.remove(network)
+ for request in rspec.iterfind("./request"):
+ if request.get("name") != self.api.hrn:
+ rspec.remove(request)
+
+ if schema:
# Validate the incoming request against the RelaxNG schema
- relaxng_doc = etree.parse(self.schema)
+ relaxng_doc = etree.parse(schema)
relaxng = etree.RelaxNG(relaxng_doc)
if not relaxng(tree):
message = "%s (line %s)" % (error.message, error.line)
raise InvalidRSpec(message)
- rspec = tree.getroot()
+ self.rspec = rspec
+
+ defaults = rspec.find(".//sliver_defaults")
+ self.__process_attributes(defaults)
# Find slivers under node elements
for sliver in rspec.iterfind("./network/site/node/sliver"):
elem = sliver.getparent()
- node = nodedict[elem.get("id")]
- slicenodes[node.id] = node
- node.add_sliver()
+ try:
+ node = self.lookupNode(elem.get("id"))
+ except:
+ # Don't worry about nodes from other aggregates
+ pass
+ else:
+ node.add_sliver()
+ self.__process_attributes(sliver, node)
# Find slivers that specify nodeid
for sliver in rspec.iterfind("./request/sliver[@nodeid]"):
- node = nodedict[sliver.get("nodeid")]
- slicenodes[node.id] = node
- node.add_sliver()
+ try:
+ node = self.lookupNode(sliver.get("nodeid"))
+ except:
+ # Don't worry about nodes from other aggregates
+ pass
+ else:
+ node.add_sliver()
+ self.__process_attributes(sliver, node)
return
- """
- Annotate the objects in the Network with information from the slice
- """
def addSlice(self):
+ """
+ Annotate the objects in the Network with information from the slice
+ """
slice = self.slice
if not slice:
- raise Error("no slice associated with network")
+ raise InvalidRSpec("no slice associated with network")
for node in slice.get_nodes():
node.add_sliver()
- """
- Write any slice tags that have been added or modified back to the DB
- """
- def updateSliceTags(self, slice):
+ def updateSliceTags(self):
+ """
+ Write any slice tags that have been added or modified back to the DB
+ """
+ for tag in self.getSliceTags():
+ if tag.category == 'slice/rspec' and not tag.was_updated() and tag.permit_update(None, 40):
+ # The user wants to delete this tag
+ tag.delete()
+
# Update slice tags in database
for tag in self.getSliceTags():
- if tag.slice_id == slice.id:
- if tag.tagname == 'topo_rspec' and not tag.updated:
- tag.delete()
- tag.write(self.api)
+ if tag.slice_id == self.slice.id:
+ tag.write(self.api)
- """
- Produce XML directly from the topology specification.
- """
def toxml(self):
+ """
+ Produce XML directly from the topology specification.
+ """
xml = XMLBuilder(format = True, tab_step = " ")
with xml.RSpec(type=self.type):
- name = "Public_" + self.type
if self.slice:
- element = xml.network(name=name, slice=self.slice.hrn)
+ element = xml.network(name=self.api.hrn, slice=self.slice.hrn)
else:
- element = xml.network(name=name)
+ element = xml.network(name=self.api.hrn)
with element:
if self.slice:
header = '<?xml version="1.0"?>\n'
return header + str(xml)
- """
- Create a dictionary of site objects keyed by site ID
- """
def get_sites(self, api):
+ """
+ Create a dictionary of site objects keyed by site ID
+ """
tmp = []
- for site in api.plshell.GetSites(api.plauth):
+ for site in api.plshell.GetSites(api.plauth, {'peer_id': None}):
t = site['site_id'], Site(self, site)
tmp.append(t)
return dict(tmp)
- """
- Create a dictionary of node objects keyed by node ID
- """
def get_nodes(self, api):
+ """
+ Create a dictionary of node objects keyed by node ID
+ """
tmp = []
- for node in api.plshell.GetNodes(api.plauth):
+ for node in api.plshell.GetNodes(api.plauth, {'peer_id': None}):
t = node['node_id'], Node(self, node)
tmp.append(t)
return dict(tmp)
- """
- Create a dictionary of node objects keyed by node ID
- """
def get_ifaces(self, api):
+ """
+ Create a dictionary of node objects keyed by node ID
+ """
tmp = []
for iface in api.plshell.GetInterfaces(api.plauth):
t = iface['interface_id'], Iface(self, iface)
tmp.append(t)
return dict(tmp)
- """
- Create a dictionary of slicetag objects keyed by slice tag ID
- """
def get_slice_tags(self, api):
+ """
+ Create a dictionary of slicetag objects keyed by slice tag ID
+ """
tmp = []
- for tag in api.plshell.GetSliceTags(api.plauth):
+ for tag in api.plshell.GetSliceTags(api.plauth, {'~tagname':Slicetag.ignore_tags}, Slicetag.filter_fields):
t = tag['slice_tag_id'], Slicetag(tag)
tmp.append(t)
return dict(tmp)
- """
- Return a Slice object for a single slice
- """
+ def get_tag_types(self, api):
+ """
+ Create a list of tagtype obects keyed by tag name
+ """
+ tmp = []
+ for tag in api.plshell.GetTagTypes(api.plauth, {'~tagname':TagType.ignore_tags}):
+ t = tag['tagname'], TagType(tag)
+ tmp.append(t)
+ return dict(tmp)
+
def get_slice(self, api, hrn):
+ """
+ Return a Slice object for a single slice
+ """
slicename = hrn_to_pl_slicename(hrn)
slice = api.plshell.GetSlices(api.plauth, [slicename])
- if slice:
+ if len(slice):
self.slice = Slice(self, slicename, slice[0])
return self.slice
else: