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Transcript
The NaradaBroker: A Flexible
Messaging Infrastructure
Rahim Lakhoo (Raz)
DSG Seminar
12th April 2004
Outline
• Introduction
• Underlying Technologies
– Java Messaging Service (JMS)
• Overview of the NaradaBroker
• Brokers Capabilities
• Brokers Current Usages
• Live Demo (screenshots)
• Summary
• Conclusions
• Future Work
2
Introduction
• NaradaBrokering was developed by Community Grids Lab at
Indiana University
• Distributed messaging infrastructure
– Message orientated Middleware (MoM)
– Notification framework
• Originally designed to provide uniformed multicasting
for supporting real-time collaboration via the
publish/subscribe architecture
• NaradaBrokering is defined as a network of cooperating
brokers
3
JMS
• Unified messaging infrastructure from Sun
Microsystems
• Support for messages containing Java objects
• Provides guaranteed message delivery:
– Once-and-only-once delivery semantics
– Client acknowledge mode or transacted
sessions can be used to ensure transmission
• Used to provide Message Orientated Middleware
• JMS domains can be classified as either:
– Point-to-Point
– Publish/Subscribe
• Includes common API – email
4
JMS – Point-to-Point (PTP)
• Point-to-Point messaging:
– Concept of FIFO message queues
– Messages are addressed to a specific queue
– Clients extract messages from the queue
5
JMS – Publish/Subscribe
• A Topic is a JMS-managed object, which manages the
message flow from publisher to subscriber
• Publish/Subscribe messaging:
– Messages are addressed to a topic with a content hierarchy
– Generally topics are anonymous and dynamic
– Can provide the ability for software multicast via topics
6
JMS Topics
• Topics can be published as
– Tag pair value
• Make=Ford, Model=Focus, Colour=*
– “/” separated string
• /UoP/dsg/chat
– Integer
• 10
• JMS also handles topic sessions
• JMS does not specify how to organise topics
• Messages can be missed due to latencies when a subscriber
subscribes to a topic
7
JMS Message
• Header:
– Contains ID
– Used for routing messages
• Properties:
– Optional Header field
– Extra Descriptions for the payload
• Body:
–
–
–
–
–
Stream message – Java primitive types
Map message – Tag value pairs
Text message – String type
Object message – Java object
Bytes message
8
What JMS does not do
•
•
•
•
•
•
•
•
Load balancing
Fault tolerance
Error notification
Administration
Security
Wire protocol
Message repository
Language for creating message definitions
9
NaradaBroker
• NaradaBrokering is a collection of cooperating brokers
• Implementation of JMS (1.0.2b compliant)
• Event based messaging:
– Events are time stamped messages
• Asynchronous communications
• Capable of supporting:
– Grid services
– Web Services
– P2P
– Audio/Video conferencing (Java Media Framework)
• Publish/Subscribe architecture with XML based Topics
10
NaradaBroker continued
• Supports multiple protocols:
–
–
–
–
–
–
–
•
•
•
•
TCP/IP (blocking & non-blocking)
UDP
Multicast
SSL
HTTP
RTP
HHMS (PDA’s, mobile phones)
Provides an interface to a reliable storage
Compress/decompress messages (zlib)
Capable of fragmenting large files (>1GB)
Supports JXTA interactions
11
NaradaBroker continued
• Cluster based architecture:
– Attempts to map the virtual network to the physical
network via cluster groups
– Lowers the strain on the network infrastructure
– Each broker is assigned a logical address e.g.
[1.1.1.1]
• Can bypass firewalls and work across NAT’s
or proxies:
– Contains a transport probe that scans ports that
are usable/open
12
NB Topology
• Brokers are arranged hierarchically in
clusters:
– Cluster
– Super-Cluster
– Super Super-Cluster
• Brokers each hold Broker Network Maps
(BNM):
– Used to calculates the cost for traversals
across connections
13
NaradaBrokering
14
Broker Locators
• Broker Locators are used by clients to find Brokers
to connect to
• The Broker Locator propagates the Brokers
information to the client:
– Hostname/IP
– Listening port
– Transport protocol
• Client uses this information to transparently
connect to the Broker
• Clients may have connections to multiple Brokers
• This provides load balancing
15
Broker Locators
16
Profiles
• Profiles at a node signify an interest in
events which match certain templates
• Includes a constraint that events need to
satisfy before being routed
• Every profile has a unique ID
• Each profile has a matching destination
• This is generally considered as a
subscription
• Subscriptions are in a hierarchy which can
potentially overload a super super-cluster
controller - solution is to add more controllers
17
Organisation & Routing
• Client subscriptions stored in a hierarchy within the
system:
– Broker maintains client subscriptions
– Cluster controller maintains broker subscriptions
• Events received are matched (matching engine)
against stored profiles and destinations are
computed:
– Cluster controller manages broker destinations
– Broker manages client destinations
• Each broker has a set of destinations, it computes
the best destination based on broker hops
18
Organisation & Routing
19
Event messaging
20
NB Matching Engines
• Possibility for multiple matching engines at
each node, depending on what needs to be
supported
• Different types of constraints can be used on
subscriptions/profiles for matching:
– String based Topics separated by “/”
– Integer topics
– Tag = value pairs
– XPath queries
– String based coupled with SQL like queries
– Regular expressions
21
Types of Matching Engines
• String based:
– Separated by “/” e.g. /UoP/dsg/chat
– Subscriptions to a topic does not include all sub-topics
• String based coupled with SQL like queries:
– First matches the string based topic
– Second matches with SQL92 like query against the events
properties
– Reduces amount of times SQL matches are calculated
• Tag = value pairs:
– “,” separated <tag value> pairs
– Also allows for * type wildcard
• Integer based
22
Types of Matching Engines
• XPath based queries:
– XPath query language searches, locates and
identifies parts of an XML document
– Searches for XML advertisements across the
Broker network
• Regular Expressions:
– For text based content
23
Narada Transport Framework
Negotiated with info
exchanged over
Administrative Link
Optimal Transport
Broker
node
Administrative Link (HTTP)
Broker
node
Monitoring
Service
Alternate Link
(Application and
Content Dependent)
Transport
Interfaces
Transport Interfaces
Transport
Handler
Sp
ec
ific
to
Link
Factory
a
tra
ns
po
rt
Links
Link
Factory
Link
rs
nito
o
Performance
M
Link
Data
Data accumulated by
Monitoring Service
24
NB transport framework
• User Channels:
– Applications interface with the broker
– Supports the publish/subscribe architecture
• Links:
– Implements a data protocol
– Different underlying transport protocol
– Administration link negotiates best available
communications protocol
25
Performance Monitoring
• Performance monitoring:
– Monitors links originating from a node
– Displays a set of metrics:
• Average delays
• Round trip latency
• Jitter
• Loss rates
• Throughput
–The metrics are returned to a performance aggregator
• The metrics are available either via the built in application or
through the integrated web server
• The performance data gathered is an XML document
26
Performance Aggregator
Broker
Node
Broker
Node
Monitoring
Service
Link
Data
Link
Data
Aggregates info
from nodes in a
certain domain
Control Message
Exchange
Performance Aggregation
Service
27
Security Framework
28
Security Framework
• KMC – Key Management Centre:
–
–
–
–
–
Includes Authorization module
Manages keys associated with entities and topics
Ensures secure communications with entities via SSL
Entities register their public key with the KMC
Multi-KMC also being investigated
• Comprises of two basic parts:
– Authentication for all Publishers and Subscribers
– Secured Publishing and Receiving
• ACL’s are associated to topics published
• Similar to X.509 certificate chaining, KMC hierarchy
designed to verify signatures
29
Security Framework
• Supports different cryptographic algorithms with
various different key sizes:
– DES/3DES
– AES
– RSA
– RC2
• Designed to support:
– JMS messages
– JXTA messages
– Audio/video conferencing
• KMC only a prototype and thus currently is a
centralised implementation instead of distributed
30
JXTA
• JXTA stands for Juxtapose, meaning side-by-side
• JXTA is a Peer-to-Peer protocol specification which defines a
standard for the behavior JXTA peers
• Six protocols define the JXTA platform:
– Peer Resolver Protocol (PRP) allows peers to send search
queries
– Peer Discovery Protocol (PDP) allows peers to discover
advertisements
– Peer Information Protocol (PIP) allows peers to poll the status
of another peer
– Pipe Binding Protocol (PBP) allows peers to bind a pipe to a
peer
– Endpoint Router Protocol (ERP) allows peers to request
routing information
– Rendezvous Protocol (RVP), here peers subscribe to a
propagation service
31
NB-JXTA
• JXTA is included with the NaradaBroker
• JXTA peers do not communicate with
NaradaBrokers direct
• NaradaBroker provides a JXTA proxy
• This process is transparent to JXTA peers
• NaradaBroker adds its own header to JXTA
messages
32
NB-JXTA
33
NB Web Services
• WS-Eventing:
– Allows Web Services to subscribe to or accept
subscriptions for event notification messages
• WS-ReliableMessaging:
– Allows messages to be delivered reliably in the
presence of software component, system or
network failures
• SOAP:
– Support for SOAP messages will be provided in
version 1.0 of the NaradaBroker
34
NB Web Services
35
NB GridFTP
• Provides support for GridFTP transfers
• Data from client stored in a local temporary
file
• Data in temporary file is then read and sent
over the NaradaBrokering system to the
endpoint
• Temporary stores provide support for failures
• Seems to be a prototype implementation
36
NB GridFTP
37
Screenshots Broker
Connection made to
another broker
Node Address
Request
Distance
calculation with
hops
Command used to access
Broker
Operations
available
Link ID
New logical
address
38
Screenshot JMS Chat
Link registration
Initial Chat application
connection
Publishing
Topic
Subscribin
g Topic
Conversations between 3
clients across 3 brokers
39
Screenshots Video
Receiver
Transmitter
Subscription to
topic
40
Summary
• JMS used for unified messaging and topics
• NaradaBroker supports multiple protocols
• Cluster based topology
• Only has partial capabilities for bypassing firewalls
• Only has a prototype security framework
• Capable of video conferencing
• Supports JXTA clients
• Prototype support for GridFTP
• Emerging Web Service support
• NaradaBroker is still pre version 1.0
41
Conclusions
• Parts of the NaradaBroker has been hard coded for
the Windows OS, which hampers its portability
• The Broker has the potential for bridging services
• Firewalls still cause issues for the broker
• Some stability issues are caused when links are
abruptly terminated
• Will the integration of Grid Services still be feasible
considering GT4 is based on Web Services?
• Version 1.0 is to be released soon, hopefully this
will be more refined
42
Future work
• Further investigation of the services provided
by the NaradaBroker
• Investigate the feasibility of GridP2P with the
NaradaBroker
• Collaborate with other universities to
establish a UK testbed
• Evaluate the NaradaBroker across a WideArea-Network (WAN)
43
Acknowledgements
•University of Portsmouth
•Members of the DSG
•Community Grids Lab
44
Links
• JMS - http://java.sun.com/products/jms/
• JXTA - http://www.jxta.org/
• NaradaBrokering –
http://www.naradabrokering.org/
• JMF - http://java.sun.com/products/javamedia/jmf/index.jsp
• GridFTP http://www.globus.org/datagrid/gridftp.html
45