# Registry.py 14/05/2016 D.J.Whale
#
# A simple registry of connected devices.
#
# NOTE: This is an initial, non persisted implementation only
from lifecycle import *
import time
try:
# Python 2
import Devices
import OpenThings
except ImportError:
# Python 3
from . import Devices
from . import OpenThings
from KVS import KVS
directory = {}
@unimplemented # no longer supported
def allkeys(d):
result = ""
for k in d:
if len(result) != 0:
result += ','
result += str(k)
return result
@unimplemented # no longer supported
def update(message):
"""Update the local directory with information about this device"""
now = time.time()
header = message["header"]
sensorId = header["sensorid"]
if not (sensorId in directory):
# new device discovered
desc = Devices.getDescription(header["mfrid"], header["productid"])
print("ADD device:%s %s" % (hex(sensorId), desc))
directory[sensorId] = {"header": message["header"]}
#trace(allkeys(directory))
directory[sensorId]["time"] = now
#TODO would be good to keep recs, but need to iterate through all and key by paramid,
#not as a list index, else merging will be hard.
@unimplemented # no longer supported
def size():
return len(directory)
@unimplemented # no longer supported
def get_sensorids():
return directory.keys()
@unimplemented # no longer supported
def get_info(sensor_id):
return directory[sensor_id]
#----- NEW DEVICE REGISTRY ----------------------------------------------------
# Done as a class, so we can have multiple registries if we want.
class DeviceRegistry(): # this is actions, so is this the 'RegistRAR'??
"""A persistent registry for device class instance configurations"""
DEFAULT_FILENAME = "registry.kvs"
def __init__(self, filename=None):
##print("***Opening DeviceRegistry")
self.store = KVS(filename)
def load_from(self, filename=None):
"""Start with a blank in memory registry, and load from the given filename"""
if filename == None: filename = DeviceRegistry.DEFAULT_FILENAME
# Create a new in memory store, effectively removing any existing in memory device class instances
#TODO: Not good if there are routes to those class instances?
self.store = KVS(filename) #TODO: later we might make it possible to load_from multiple files
self.store.load(filename, Devices.DeviceFactory.get_device_from_name)
def load_into(self, context):
"""auto-create variables in the provided context, for all persisted registry entries"""
if context == None:
raise ValueError("Must provide a context to hold new variables")
for name in self.store.keys():
c = self.get(name)
# This creates a variable inside the context of this name, points to class instance
setattr(context, name, c)
def add(self, device, name):
"""Add a device class instance to the registry, with a friendly name"""
self.store[name] = device
def get(self, name): # -> Device
"""Get the description for a device class from the store, and construct a class instance"""
c = self.store[name]
if c.can_receive():
if isinstance(c, Devices.MiHomeDevice):
##print("Adding rx route for receive enabled device %s" % c)
address = (c.manufacturer_id, c.product_id, c.device_id)
fsk_router.add(address, c)
return c
def rename(self, old_name, new_name):
"""Rename a device in the registry"""
c = self.store[old_name] # get the class instance
self.delete(old_name) # remove from memory and from any disk version
self.add(c, new_name) # Add the same class back, but with the new name
#Note: If rx routes are defined, they will still be correct,
# because they wire directly to the device class instance
def delete(self, name):
"""Delete the named class instance"""
del self.store[name]
def list(self):
"""List the registry in a vaguely printable format, mostly for debug"""
print("REGISTERED DEVICES:")
for k in self.store.keys():
print(" %s -> %s" % (k, self.store[k]))
def size(self):
"""How many entries are there in the registry?"""
return self.store.size()
def devices(self):
"""A generator/iterator that can be used to get a list of device instances"""
# first get a list of all devices, in case the registry changes while iterating
devices = self.store.keys()
# now 'generate' one per call
i = 0
while i < len(devices):
k = devices[i]
device = self.store[k]
yield device
i += 1
def names(self):
"""A generator/iterator that can be used to get a list of device names"""
# first get a list of all devices, in case the registry changes while iterating
devices = self.store.keys()
# now 'generate' one per call
i = 0
while i < len(devices):
k = devices[i]
yield k
i += 1
#TODO: Might move this to energenie.init() so that it is optional
#will make it possible to run all the test cases together also.
registry = DeviceRegistry()
import os
if os.path.isfile(DeviceRegistry.DEFAULT_FILENAME):
registry.load_from(DeviceRegistry.DEFAULT_FILENAME)
# This will create all class instance variables in the module that imports the registry.
# So, if there is an entry called "tv" in the registry, then the app module
# will get a variable called tv that is bound to the appropriate device instance.
# You can then just say tv.turn_on() regardless of the type of device it is, as long
# as it has switching capability.
#
# usage:
# import sys
# from Registry import registry
# registry.auto_create(sys.modules[__file__])
#----- DISCOVERY AND LEARNING -------------------------------------------------
#5. LEARN/DISCOVER: To be able to instigate and manage learn mode from within an app
#
# a. To send specific commands to green button devices so they can
# learn the pattern
# ? broadcast specific (house_code, index) repeatedly
# ? user assisted start/stop
# b. To sniff for any messages from MiHome devices and capture them
# for later analysis and turning into device objects
# ? either as a special receive-only learn mode
# ? or as part of normal receive operation through routing unknown device id's
# ? need a way to take a device id and consult active directory list,
# and route to the correct class instance - a router for incoming messages
# This means we need an incoming message 'router' with a message pump
# that the app can call - whenever it is in receive, does a peek and
# if there is a message, it knows what modulaton scheme is in use
# so can route the message with (modulation, payload)
# c. To process MiHome join requests, and send MiHome join acks
# ? this would be routed by address to the device class
# This also needs the message pump
#----- MESSAGE ROUTER ---------------------------------------------------------
# a handler that is called whenever a message is received.
# routes it to the correct handling device class instance
# or instigates the unknown handler
# consults a RAM copy of part of the registry
# from mfrid,productid,sensorid -> handler
# The RAM copy is a routing table
# it must be updated whenever a factory returns a device class instance.
# Note, if you have a device class instance that is not registered,
# this means it cannot receive messages unless you pass them to it yourself.
# That's fine?
# might be one for OOK devices, a different one for FSK devices
# as they have different keying rules. OOK receive will only probably
# occur from another raspberry pi, or from a hand controller or MiHome hub.
# But it is possible to OOK receive a payload, it only has a house address
# and 4 index bits in it and no data, but those are routeable.
class Router():
def __init__(self, name):
self.name = name # probably FSK or OOK
self.routes = {} # key(tuple of ids) -> value(device class instance)
self.unknown_cb = None
self.incoming_cb = None
def add(self, address, instance):
"""Add this device instance to the routing table"""
# When a message comes in for this address, it will be routed to its handle_message() method
# address might be a string, a number, a tuple, but probably always the same for any one router
self.routes[address] = instance
def list(self):
print("ROUTES:")
for address in self.routes:
print(" %s->%s" % (str(address), str(self.routes[address])))
def incoming_message(self, address, message):
if self.incoming_cb != None:
self.incoming_cb(address, message)
if address in self.routes:
ci = self.routes[address]
ci.incoming_message(message)
else: # unknown address
self.handle_unknown(address, message)
def when_incoming(self, callback):
self.incoming_cb = callback
def when_unknown(self, callback):
"""Register a callback for unknown messages"""
#NOTE: this is the main hook point for auto discovery and registration
self.unknown_cb = callback
def handle_unknown(self, address, message):
if self.unknown_cb != None:
self.unknown_cb(address, message)
else:
# Default action is just a debug message, and drop the message
print("Unknown address: %s" % str(address))
#---- DISCOVERY AGENT ---------------------------------------------------------
#
# Handles the discovery process when new devices appear and send reports.
class Discovery():
"""A Discovery agent that just reports any unknown devices"""
def __init__(self, registry, router):
self.registry = registry
self.router = router
router.when_unknown(self.unknown_device)
def unknown_device(self, address, message):
pass##print("message from unknown device:%s" % str(address))
# default action is to drop message
# override this method in sub classes if you want special processing
def reject_device(self, address, message):
pass##print("message rejected from:%s" % (str(address)))
# default action is to drop message
# override this method if you want special processing
def accept_device(self, address, message, forward=True):
##print("accept_device:%s" % str(address))
# At moment, intentionally assume everything is mfrid=Energenie
product_id = address[1]
device_id = address[2]
##print("**** wiring up registry and router for %s" % str(address))
ci = Devices.DeviceFactory.get_device_from_id(product_id, device_id)
self.registry.add(ci, "auto_%s_%s" % (str(hex(product_id)), str(hex(device_id))))
self.router.add(address, ci)
# Finally, forward the first message to the new device class instance
if forward:
##print("**** routing first message to class instance")
ci.incoming_message(message)
##self.registry.list()
##self.router.list()
return ci # The new device class instance that we created
class AutoDiscovery(Discovery):
"""A discovery agent that auto adds unknown devices"""
def __init__(self, registry, router):
Discovery.__init__(self, registry, router)
def unknown_device(self, address, message):
self.accept_device(address, message)
class ConfirmedDiscovery(Discovery):
"""A discovery agent that asks the app before accepting/rejecting"""
def __init__(self, registry, router, ask):
Discovery.__init__(self, registry, router)
self.ask_fn = ask
def unknown_device(self, address, message):
y = self.ask_fn(address, message)
if y:
self.accept_device(address, message)
else:
self.reject_device(address, message)
class JoinAutoDiscovery(Discovery):
"""A discovery agent that looks for join requests, and auto adds"""
def __init__(self, registry, router):
Discovery.__init__(self, registry, router)
def unknown_device(self, address, message):
##print("unknown device auto join %s" % str(address))
#TODO: need to make this work with correct meta methods
##if not OpenThings.PARAM_JOIN in message:
try:
j = message[OpenThings.PARAM_JOIN]
except KeyError:
j = None
if j == None: # not a join
self.unknown_device(address, message)
else: # it is a join
# but don't forward the join request as it will be malformed with no value
ci = self.accept_device(address, message, forward=False)
ci.join_ack() # Ask new class instance to send a join_ack back to physical device
class JoinConfirmedDiscovery(Discovery):
"""A discovery agent that looks for join requests, and auto adds"""
def __init__(self, registry, router, ask):
Discovery.__init__(self, registry, router)
self.ask_fn = ask
def unknown_device(self, address, message):
print("**** unknown device confirmed join %s" % str(address))
#TODO: need to make this work with correct meta methods
##if not OpenThings.PARAM_JOIN in message:
try:
j = message[OpenThings.PARAM_JOIN]
except KeyError:
j = None
if j == None: # not a join
self.unknown_device(address, message)
else: # it is a join
y = self.ask_fn(address, message)
if y:
# but don't forward the join request as it will be malformed with no value
ci = self.accept_device(address, message, forward=False)
ci.join_ack() # Ask new class instance to send a join_ack back to physical device
else:
self.reject_device(address, message)
# Might rename these, especially when we add in other protocols
# such as devices that are 868 wirefree doorbells etc.
#TODO: Might move this to energenie.init() so that it is optional
#will make it possible to run all the test cases together also.
#TODO: Name is not completely representative of function.
# This is the Energenie 433.92MHz with OpenThings
fsk_router = Router("fsk")
#OOK receive not yet written
#It will be used to be able to learn codes from Energenie legacy hand remotes
##ook_router = Router("ook")
#TODO: Improve this interface
# (temporary) helpful methods to switch between different discovery methods
# Note that the __init__ automaticall registers itself with router
def discovery_none():
fsk_router.when_unknown(None)
def discovery_auto():
d = AutoDiscovery(registry, fsk_router)
##print("Using auto discovery")
def discovery_ask(ask_fn):
d = ConfirmedDiscovery(registry, fsk_router, ask_fn)
##print("using confirmed discovery")
def discovery_autojoin():
d = JoinAutoDiscovery(registry, fsk_router)
##print("using auto join discovery")
def discovery_askjoin(ask_fn):
d = JoinConfirmedDiscovery(registry, fsk_router, ask_fn)
##print("using confirmed join discovery")
def ask(address, message):
MSG = "Do you want to register to device: %s? " % str(address)
try:
if message != None:
print(message)
y = raw_input(MSG)
except AttributeError:
y = input(MSG)
if y == "": return True
y = y.upper()
if y in ['Y', 'YES']: return True
return False
#TODO: Might move this to energenie.init() so that it is optional
#will make it possible to run all the test cases together also.
# Default discovery mode, unless changed by app
##discovery_none()
##discovery_auto()
##discovery_ask(ask)
discovery_autojoin()
##discovery_askjoin(ask)
# END
David Whale