Cerebro: Difference between revisions

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[[image:Meshnetwork.png|right|250px|thumb|Layout information]]
[[image:Meshnetwork.png|right|250px|thumb|Layout information]]
[[image:Comparison1.png|right|250px|thumb|Scaling properties]]
[[image:Comparison1.png|right|250px|thumb|Scaling properties]]
[[image:65-arr-1.png|right|250px|thumb|Presence arrivals]]
[[image:65-cdf-1.png|right|250px|thumb|CDF of presence arrivals]]
[[Image:Bandwidth-presence-info-1.png|right|250px|thumb|Bandwidth usage on 65-node testbed]]


==What is Cerebro? <ref>http://cerebro.mit.edu</ref>==
==What is Cerebro?==
Cerebro is a scalable, light-weight platform that provides presence information, efficient file sharing and an easy collaboration mechanism for activities.
Cerebro <ref>http://cerebro.mit.edu</ref> is a scalable, light-weight platform that provides presence information, efficient file sharing and an easy collaboration mechanism for activities.




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* internet connection even '''without a valid IP address''' (*)
* internet connection even '''without a valid IP address''' (*)
* '''programming API''' based on dbus (see examples)
* '''programming API''' based on dbus (see examples)


==Experimental results==
Two experiments were carried out with [http://cerebro.mit.edu/index.php/Experimental_results 27 nodes] and [[Simple mesh test (Cerebro)|65 nodes]] respectively.


==Download==
http://lyme.media.mit.edu/cerebro/index.php/Download



==Presence Information==
==Presence Information==
Line 28: Line 40:




A mechanism for sharing files efficiently within the mesh network is offered. When enough file recipients are present as direct neighbors [http://cerebro.mit.edu/index.php/Experimental_results (1)], a file is simultaneously broadcasted to all of them instead of establishing sequential TCP sessions. The presence mechanism is consulted in conjunction with the set of receivers to decide whether it is worth using the broadcast mechanism or not. Experiments have shown that roughly when more than 15 recipients are direct neighbors, it is more efficient using the broadcast mechanism.
A mechanism for sharing files efficiently within the mesh network is offered. When enough file recipients are present as direct neighbors <ref>http://cerebro.mit.edu/index.php/Experimental_results</ref>, a file is simultaneously broadcasted to all of them instead of establishing sequential TCP sessions. The presence mechanism is consulted in conjunction with the set of receivers to decide whether it is worth using the broadcast mechanism or not. Experiments have shown that roughly when more than 15 recipients are direct neighbors, it is more efficient using the broadcast mechanism.




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==== register (method) ====
==== register (method) ====
Input : activity_type, dbus_name
Input : activity_id, activity_type

Output: A unique activity ID (aid)
Output: A unique activity ID (aid)

Description: Register a new activity instance in order to access the services and events offered by Cerebro. This method does not share with the activity with neighborhood.
Description: Share current activity or join an activity shared by someone else.


----
----
Line 50: Line 64:
==== unregister (method) ====
==== unregister (method) ====
Input: aid
Input: aid

Description: Unregister an activity instance (identified by "aid").
Description: Unregister an activity instance (identified by "aid").


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==== on_node_arrival (signal) ====
==== on_node_arrival (signal) ====
Output: Array of node IDs that joined the network
Output: Array of node IDs that joined the network

Description: Receive notification when a new node joins the netowrk, The activity may choose to act on this.
Description: Receive notification when a new node joins the netowrk, The activity may choose to act on this.


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==== on_node_departure (signal) ====
==== on_node_departure (signal) ====
Output: Array of node IDs that left the network
Output: Array of node IDs that left the network

Description: Receive notification when a new node leaves the netowrk. The activity may choose to act on this.
Description: Receive notification when a new node leaves the netowrk. The activity may choose to act on this.


Line 68: Line 85:
==== get_personal_info (method) ====
==== get_personal_info (method) ====
Output: A buddy dictionary containing current user information
Output: A buddy dictionary containing current user information

Description: Retrieves user personal information.
Description: Retrieves user personal information.


Line 74: Line 92:
==== set_personal_info (method) ====
==== set_personal_info (method) ====
Input: A buddy dictionary containing new user information
Input: A buddy dictionary containing new user information

Description: Updates user personal information.
Description: Updates user personal information.


Line 80: Line 99:
==== received_data (signal) ====
==== received_data (signal) ====
Output: data, buddy, src, port, aid
Output: data, buddy, src, port, aid

Description: A signal that gets emitted whenever "data" is received from "buddy" (who has the unique ID "src"), for activity instance "aid" which is of type "port" (eg Chat).
Description: A signal that gets emitted whenever "data" is received from "buddy" (who has the unique ID "src"), for activity instance "aid" which is of type "port" (eg Chat).


Line 86: Line 106:
==== push_data (method) ====
==== push_data (method) ====
Input: aid, data, port
Input: aid, data, port

Description: Sends "data" to all users participating in the shared activity identified by "aid" which is of type "port".
Description: Sends "data" to all users participating in the shared activity identified by "aid" which is of type "port".


Line 92: Line 113:
==== exec_command (method) ====
==== exec_command (method) ====
Input: A command string
Input: A command string

Description: Executes "command" on the local machine. This method is provided for debugging and may be removed.
Description: Executes "command" on the local machine. This method is provided for debugging and may be removed.


Line 98: Line 120:
==== list_shared_activities (method) ====
==== list_shared_activities (method) ====
Output: Returns a list of tuples, each containing 3 fields: nickname, aid, activity_type
Output: Returns a list of tuples, each containing 3 fields: nickname, aid, activity_type

Description: This method returns a list of all activities currently shared in the network and the nicknames of the users that are participating. The activity ID "aid" provides the unique identifier for each of the shared activities and "activity_type" provides the type of the activity.
Description: This method returns a list of all activities currently shared in the network and the nicknames of the users that are participating. The activity ID "aid" provides the unique identifier for each of the shared activities and "activity_type" provides the type of the activity.


Line 104: Line 127:
==== show_mst (method) ====
==== show_mst (method) ====
Output: A list of nicknames (or user ID, if we have not received profile information yet), the corresponding distance to each user, and the path (consisting of other nicknames) that needs to be followed to reach the remote nickname.
Output: A list of nicknames (or user ID, if we have not received profile information yet), the corresponding distance to each user, and the path (consisting of other nicknames) that needs to be followed to reach the remote nickname.

Description: Returns the minimum distances from the current node to all other nodes present in the network.
Description: Returns the minimum distances from the current node to all other nodes present in the network.


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==== show_network_tree (method) ====
==== show_network_tree (method) ====
Output: Same as "show_mst", but includes all possible paths known from the current node to the remote destination.
Output: Same as "show_mst", but includes all possible paths known from the current node to the remote destination.

Description: Returns all known paths from the current node to all other nodes present in the network.
Description: Returns all known paths from the current node to all other nodes present in the network.


==Example==
The following example demonstrates most of the available API. You can find this file in the Cerebro bundle.


Using this example, can have access to most of Cerebro's features. The example shows the following functionality:
# a simple chat application
# joining shared activities (joins by default a shared "Debugger" activity)
# a command-based interface with Cerebro. Commands are issued by escaping the command with a forward slash "/". The following commands are implemented:




{|
| '''Command''' || || '''Description'''
|-
| '''/listactivities''' or '''/la''' || || shows a list of all currently shared activities
|-
| '''/share''' || || share current activity
|-
| '''/join XXXXXXXXXX''' || || join activity with unique ID XXXXXXXXXX (unique IDs can be listed using '/la')
|-
| '''/leave''' || || leave all shared instancies of current activity
|-
| '''/tree''' || || shows all paths to all known destinations
|-
| '''/mst''' || || shows the minimun distances and path to all known destinations
|-
| '''/dn''' || || shows all direct (1-hop) neighbors
|-
| '''/sound''' || || plays a sound. Useful for pinpointing a machine ;-)
|-
| '''/run COMMAND''' || || run a command locally
|}



<pre>
# !/usr/bin/env python

# Applications that use D-Bus to export a method to create a dictionary
import dbus
import dbus.service
import dbus.glib
import dbus.mainloop.glib
import gobject, traceback, sys, time
from struct import pack, unpack

def bin2mac(bin, all=False):
if all:
m = bin # return all the bytes
d = ''
else:
m = bin[-3:] # get the last three bytes
d = ':'
return d.join("%02X" % ord(c) for c in m)

#ATYPE = '\x0a\x00'
ATYPE = 'FF'
SERVICE = 'org.olpc.cerebro'
OBJECT_PATH = '/org/olpc/cerebro/chat123'
INTERFACE = 'org.olpc.cerebro.chat123'

class Debugger(dbus.service.Object):

def __init__(self):

bus = dbus.SystemBus()
interface = bus.get_object('org.olpc.cerebro', '/org/olpc/cerebro')
interface.connect_to_signal("on_node_arrival", self.onNodeArrival)
interface.connect_to_signal("received_data", self.receive_chat_text)
self.register = interface.get_dbus_method('register', 'org.olpc.cerebro')
self.unregister = interface.get_dbus_method('unregister', 'org.olpc.cerebro')
self.push_data = interface.get_dbus_method("push_data", 'org.olpc.cerebro')
self.list_shared_activities = interface.get_dbus_method("list_shared_activities", 'org.olpc.cerebro')
self.show_network_tree = interface.get_dbus_method("show_network_tree", 'org.olpc.cerebro')
self.show_mst = interface.get_dbus_method("show_mst", 'org.olpc.cerebro')
self.send_command = interface.get_dbus_method("exec_command", 'org.olpc.cerebro')
self.get_personal_info = interface.get_dbus_method("get_personal_info", 'org.olpc.cerebro')
self.set_personal_info = interface.get_dbus_method("set_personal_info", 'org.olpc.cerebro')
self.buddyinfo = []
self.last = {}
def onNodeArrival(self, node_arr):
for n in node_arr:
s = "".join(chr(b) for b in n)
#s = "".join(ord(b) for b in n)
print "CHAT: Node entered:", bin2mac(s)
#print "sending to", bin2mac(s)
#self.send_chat_text('hello world')

def send_chat_text(self, data):
sequence = pack('q', 1000 * time.time()) # 8 bytes
print "chat: sending", data, len(self.aid)
data = sequence + data
self.push_data(self.aid, data, ATYPE)
def receive_chat_text(self, data, buddy, src, port, aid):
data = "".join(chr(b) for b in data)
#fhash = "".join(chr(b) for b in fhash)
src = "".join(chr(b) for b in src)
port = "".join(chr(b) for b in port)
if port != ATYPE or aid != self.aid:
return True
#buddy = bin2mac(src)
nick = ''.join(chr(x) for x in buddy['nick'])
sequence = data[:8]
text = data[8:]
sequence = unpack('q', sequence)[0]
if src not in self.last:
self.last[src] = 0
if sequence > self.last[src]:
self.last[src] = sequence
print "Chat:", nick,":", text
#else:
#print "Chat:", buddy,":", text, "(duplicate!)"
def on_stdin_cb(self, sck, condition):
line = sck.readline().strip()
if line != "" and line != "\n":
#print "SYS.STDIN:", line.strip()
if line[0] == "/":
command = line[1:]
if command == "listactivities" or command == "la":
lines = self.list_shared_activities(0)
for line in lines:
print "\t".join(str(item) for item in line)
if command == "tree":
for nick,path,dist,total_dist in self.show_network_tree():
_path = [str(p) for p in path]
print nick, _path, dist, total_dist
if command == "mst":
for nick,path,dist in self.show_mst():
_path = [str(p) for p in path]
print nick, _path, dist
if command == "sound":
self.send_command('aplay /usr/share/sounds/alsa/Noise.wav')
if command.startswith("nick"):
newnick = command[5:]
if newnick:
myBuddyInfo = self.get_personal_info()
myBuddyInfo['nick'] = newnick
self.set_personal_info(myBuddyInfo)
if command.startswith("join"):
aid = command[5:]
print "Will try to join activity ID:", aid
try:
self.aid = self.register(aid, ATYPE)
print "my aid is:", self.aid, len(self.aid), bin2mac(self.aid,1)
except dbus.DBusException:
traceback.print_exc()
sys.exit()
if command.startswith("share"):
print "Will share current activity"
try:
self.aid = self.register('', ATYPE)
print "my aid is:", self.aid, len(self.aid), bin2mac(self.aid,1)
except dbus.DBusException:
traceback.print_exc()
sys.exit()
else:
self.send_chat_text(line)
return True

if __name__ == '__main__':
dbus.mainloop.glib.DBusGMainLoop(set_as_default = True)
db = Debugger()
gobject.io_add_watch(sys.stdin, gobject.IO_IN, db.on_stdin_cb)
mainloop = gobject.MainLoop()
mainloop.run()
</pre>


[[Cerebro test plan]]
[[Cerebro test plan]]

== References ==

<references />


[[Category:Network]]
[[Category:Network]]

Latest revision as of 01:48, 10 April 2010

Layout information
Scaling properties
Presence arrivals
CDF of presence arrivals
Bandwidth usage on 65-node testbed

What is Cerebro?

Cerebro <ref>http://cerebro.mit.edu</ref> is a scalable, light-weight platform that provides presence information, efficient file sharing and an easy collaboration mechanism for activities.


Features

The following is a list of features that Cerebro offers. Some (marked with a *) are under development.

  • presence information (including distance and route) for all other users in the network
  • mesh network extended to regular 802.11b/g devices
  • extensible user profile including nickname, colors, keys, IP addreses, picture of arbitrary size, status message etc
  • file sharing using an efficient multicast mechanism
  • simple collaboration mechanism
  • connect to remote mesh networks over the internet (*)
  • interoperability with regular x86 machines (*)
  • internet connection even without a valid IP address (*)
  • programming API based on dbus (see examples)


Experimental results

Two experiments were carried out with 27 nodes and 65 nodes respectively.


Download

http://lyme.media.mit.edu/cerebro/index.php/Download


Presence Information

Presence information involves the set of users/XOs that are currently accessible over the mesh network. This information is decoupled from the user profile so as to increase the scaling properties of the presence mechanism. For example, it is possible that we know that there are 120 users in the network, but only have detailed profile information about only 100 users. Fore the rest, we have not received their profile information, yet!

A cache is used to store user profiles (so as to avoid having to retrieve all user profiles every time we join the network) and events are triggered whenever a user modifies her profile.

File sharing

Since we have a presence mechanism that provides network layout information, we can make better decisions on how to efficiently distribute files within the mesh network.


A mechanism for sharing files efficiently within the mesh network is offered. When enough file recipients are present as direct neighbors <ref>http://cerebro.mit.edu/index.php/Experimental_results</ref>, a file is simultaneously broadcasted to all of them instead of establishing sequential TCP sessions. The presence mechanism is consulted in conjunction with the set of receivers to decide whether it is worth using the broadcast mechanism or not. Experiments have shown that roughly when more than 15 recipients are direct neighbors, it is more efficient using the broadcast mechanism.


The file sharing mechanism is used by Cerebro itself to transport (potentially large) user profiles within the mesh network. Also, API calls allow activities to make use of this mechanism.

Collaboration

Since we have a means of sharing profiles and trigger events within the network, collaboration between activities is simply achieved by adding information in the user profile about what activities the user is currently sharing. Activity sharing information involves activity type and instance: Every activity is a of specific, "well-known" type and each instance being shared receives a unique identifier. This way it is possible to share new activities and join specific activities from across the network.

Again, API calls provide the primitives for sharing, joining and leaving activities.

Programming API

The API is currently under development. This means that slight changes may be done in the future to the arguments of the API interfaces and new interfaces will probably be added. Comments/suggestions/patches are most welcomed!

register (method)

Input : activity_id, activity_type

Output: A unique activity ID (aid)

Description: Share current activity or join an activity shared by someone else.


unregister (method)

Input: aid

Description: Unregister an activity instance (identified by "aid").


on_node_arrival (signal)

Output: Array of node IDs that joined the network

Description: Receive notification when a new node joins the netowrk, The activity may choose to act on this.


on_node_departure (signal)

Output: Array of node IDs that left the network

Description: Receive notification when a new node leaves the netowrk. The activity may choose to act on this.


get_personal_info (method)

Output: A buddy dictionary containing current user information

Description: Retrieves user personal information.


set_personal_info (method)

Input: A buddy dictionary containing new user information

Description: Updates user personal information.


received_data (signal)

Output: data, buddy, src, port, aid

Description: A signal that gets emitted whenever "data" is received from "buddy" (who has the unique ID "src"), for activity instance "aid" which is of type "port" (eg Chat).


push_data (method)

Input: aid, data, port

Description: Sends "data" to all users participating in the shared activity identified by "aid" which is of type "port".


exec_command (method)

Input: A command string

Description: Executes "command" on the local machine. This method is provided for debugging and may be removed.


list_shared_activities (method)

Output: Returns a list of tuples, each containing 3 fields: nickname, aid, activity_type

Description: This method returns a list of all activities currently shared in the network and the nicknames of the users that are participating. The activity ID "aid" provides the unique identifier for each of the shared activities and "activity_type" provides the type of the activity.


show_mst (method)

Output: A list of nicknames (or user ID, if we have not received profile information yet), the corresponding distance to each user, and the path (consisting of other nicknames) that needs to be followed to reach the remote nickname.

Description: Returns the minimum distances from the current node to all other nodes present in the network.


show_network_tree (method)

Output: Same as "show_mst", but includes all possible paths known from the current node to the remote destination.

Description: Returns all known paths from the current node to all other nodes present in the network.

Example

The following example demonstrates most of the available API. You can find this file in the Cerebro bundle.

Using this example, can have access to most of Cerebro's features. The example shows the following functionality:

  1. a simple chat application
  2. joining shared activities (joins by default a shared "Debugger" activity)
  3. a command-based interface with Cerebro. Commands are issued by escaping the command with a forward slash "/". The following commands are implemented:


Command Description
/listactivities or /la shows a list of all currently shared activities
/share share current activity
/join XXXXXXXXXX join activity with unique ID XXXXXXXXXX (unique IDs can be listed using '/la')
/leave leave all shared instancies of current activity
/tree shows all paths to all known destinations
/mst shows the minimun distances and path to all known destinations
/dn shows all direct (1-hop) neighbors
/sound plays a sound. Useful for pinpointing a machine ;-)
/run COMMAND run a command locally


# !/usr/bin/env python

# Applications that use D-Bus to export a method to create a dictionary
import dbus
import dbus.service
import dbus.glib
import dbus.mainloop.glib
import gobject, traceback, sys, time
from struct import pack, unpack

def bin2mac(bin, all=False):
	if all:
		m = bin      # return all the bytes
		d = ''
	else:
		m = bin[-3:] # get the last three bytes
		d = ':'
		
	return d.join("%02X" % ord(c) for c in m)

#ATYPE = '\x0a\x00'
ATYPE = 'FF'
SERVICE = 'org.olpc.cerebro'
OBJECT_PATH = '/org/olpc/cerebro/chat123'
INTERFACE = 'org.olpc.cerebro.chat123'

class Debugger(dbus.service.Object):

	def __init__(self):

		bus = dbus.SystemBus()
		interface = bus.get_object('org.olpc.cerebro', '/org/olpc/cerebro')
		interface.connect_to_signal("on_node_arrival", self.onNodeArrival)
		interface.connect_to_signal("received_data", self.receive_chat_text)
		
		self.register               = interface.get_dbus_method('register',               'org.olpc.cerebro')
		self.unregister             = interface.get_dbus_method('unregister',             'org.olpc.cerebro')
		self.push_data              = interface.get_dbus_method("push_data",              'org.olpc.cerebro')
		self.list_shared_activities = interface.get_dbus_method("list_shared_activities", 'org.olpc.cerebro')
		self.show_network_tree      = interface.get_dbus_method("show_network_tree",      'org.olpc.cerebro')
		self.show_mst               = interface.get_dbus_method("show_mst",               'org.olpc.cerebro')
		self.send_command           = interface.get_dbus_method("exec_command",           'org.olpc.cerebro')
		self.get_personal_info      = interface.get_dbus_method("get_personal_info",      'org.olpc.cerebro')
		self.set_personal_info      = interface.get_dbus_method("set_personal_info",      'org.olpc.cerebro')
		
		self.buddyinfo = []
		self.last = {}
		
	def onNodeArrival(self, node_arr):
		for n in node_arr:
			s = "".join(chr(b) for b in n)
			#s = "".join(ord(b) for b in n)
			print "CHAT: Node entered:", bin2mac(s)
			#print "sending to", bin2mac(s)
			#self.send_chat_text('hello world')

	def send_chat_text(self, data):
		sequence = pack('q', 1000 * time.time()) # 8 bytes
		print "chat: sending", data, len(self.aid)
		data = sequence + data
		self.push_data(self.aid, data, ATYPE)
		
	def receive_chat_text(self, data, buddy, src, port, aid):
		data  = "".join(chr(b) for b in data)
		#fhash = "".join(chr(b) for b in fhash)
		src   = "".join(chr(b) for b in src)
		port  = "".join(chr(b) for b in port)
		
		if port != ATYPE or aid != self.aid:
			return True
		
		#buddy = bin2mac(src)
		nick = ''.join(chr(x) for x in buddy['nick'])
		
		sequence = data[:8]
		text     = data[8:]
		sequence = unpack('q', sequence)[0]
		if src not in self.last:
			self.last[src] = 0
		if sequence > self.last[src]:
			self.last[src] = sequence
			print "Chat:", nick,":", text
		#else:
			#print "Chat:", buddy,":", text, "(duplicate!)"
			
			
	def on_stdin_cb(self, sck, condition):
		line = sck.readline().strip()
		if line != "" and line != "\n":
			#print "SYS.STDIN:", line.strip()
			if line[0] == "/":
				command = line[1:]
				if command == "listactivities" or command == "la":
					lines = self.list_shared_activities(0)
					for line in lines:
						print "\t".join(str(item) for item in line)
				if command == "tree":
					for nick,path,dist,total_dist in self.show_network_tree():
						_path = [str(p) for p in path]
						print nick, _path, dist, total_dist
				if command == "mst":
					for nick,path,dist in self.show_mst():
						_path = [str(p) for p in path]
						print nick, _path, dist
				if command == "sound":
					self.send_command('aplay /usr/share/sounds/alsa/Noise.wav')
				if command.startswith("nick"):
					newnick = command[5:]
					if newnick:
						myBuddyInfo = self.get_personal_info()
						myBuddyInfo['nick'] = newnick
						self.set_personal_info(myBuddyInfo)
				if command.startswith("join"):
					aid = command[5:]
					print "Will try to join activity ID:", aid
					try:
						self.aid = self.register(aid, ATYPE)
						print "my aid is:", self.aid, len(self.aid), bin2mac(self.aid,1)
					except dbus.DBusException:
						traceback.print_exc()
						sys.exit()
				if command.startswith("share"):
					print "Will share current activity"
					try:
						self.aid = self.register('', ATYPE)
						print "my aid is:", self.aid, len(self.aid), bin2mac(self.aid,1)
					except dbus.DBusException:
						traceback.print_exc()
						sys.exit()
					
			else:
				self.send_chat_text(line)
		return True
	

if __name__ == '__main__':
	dbus.mainloop.glib.DBusGMainLoop(set_as_default = True)
	
	db = Debugger()
	
	gobject.io_add_watch(sys.stdin, gobject.IO_IN, db.on_stdin_cb)
	
	mainloop = gobject.MainLoop()
	mainloop.run()

Cerebro test plan

References

<references />