NDN-JS is the first native version of the NDN protocol written in JavaScript. It implements the NDN-TLV wire format and is also wire format compatible with PARC's CCNx.
The project by the UCLA NDN team - for more information on NDN, see http://named-data.net/ http://ndn.ucla.edu/
See the file INSTALL for build and install instructions.
This program is free software: you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version.
This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public License along with this program. If not, see http://www.gnu.org/licenses/. A copy of the GNU Lesser General Public License is in the file COPYING.
This is a young project, with minimal documentation that we are slowly enhancing. Please submit any bugs or issues to the NDN-JS issue tracker: http://redmine.named-data.net/projects/ndn-js/issues
The primary goal of NDN-JS is to provide a pure Javascript implementation of the NDN API that enables developers to create browser-based or Node.js-based applications using Named Data Networking. The approach requires no native code or signed Java applets, and thus can be delivered over the current web to modern browsers with no hassle for the end user.
Additional goals for the project:
- Websockets transport for the browser (rather than TCP or UDP, which are not directly supported in the browser).
- Relatively lightweight and compact, to enable efficient use on the web.
- Implement the NDN-TLV wire format and be wire format compatible with the PARC's CCNx implementation of NDN.
The library currently requires a remote NDN forwarder, and has been tested with ndnd, from the's NDNx package: http://ndnx.org/ , ndnd-tlv from the package https://github.com/named-data/ndnd-tlv and with NFD from the package https://github.com/named-data/NFD .
Currently, the library has two APIs for developers:
1. The Javascript API for asynchronous Interest/Data exchange which follows the
NDN Common Client Libraries API: http://named-data.net/doc/ndn-ccl-api/ . This
API can be used from the browser or Node.js.
The browser uses WebSockets for transport and currently requires a
proxy for communication with a remote NDN forwarder. The Node.js API can use
the Node.js native support for TCP or Unix sockets.
2. A Firefox plug-in, which implements an "ndn:/" url scheme
following NDNx repository conventions for file retrieval.
By default, both parts of the library connect automatically to a set of proxies and hubs that are part of the NDN research project's testbed. http://named-data.net/ndn-testbed/ There are currently no restrictions on non-commercial, research-oriented data exchange on this testbed. (Contact [email protected] for more details.) The developer can also specify a local or remote NDN forwarder as well, as an argument to the Face constructor.
See files in js/ and examples in tests/, examples/
NDN-JS currently supports expressing Interests (and receiving data) and publishing Data (that answers Interests). This includes encoding and decoding data packets as well as signing and verifying them using RSA keys.
** NDN connectivity ** The only way (for now) to get connectivity to other NDN nodes is via and NDN forwarder. For the Javascript API in the browser, a Websockets proxy that can communicate the target NDN forwarder is currently required. NFD supports its own Websockets proxy. For other forwarders, code for such a proxy (using Node.js) is in the wsproxy directory. The Websocket currently listens on port 9696 and passes messages to the NDN forwarder on the same host. The Node.js API can use the Node.js native support for TCP (remote or local) or Unix sockets (to the local NDN forwarder).
** Including the scripts in a web page ** To use NDN-JS in a web page, one of two scripts must be included using a script tag:
ndn.js is a combined library (and ndn-js.min.js is a compressed version of the combined library). See INSTALL for instructions on how to build these files.
Or they can be downloaded from the build
directory:
- https://github.com/named-data/ndn-js/raw/master/build/ndn.js
- https://github.com/named-data/ndn-js/raw/master/build/ndn.min.js
** Examples **
*** ndn-ping
You can check out examples/ndnping/ndn-ping.html
to see an example how to implement ndn-ping in NDN.js
*** Example to retrieve content ***
A simple example of the current API to express an Interest and receive data:
var face = new Face(); // connect to a default hub/proxy
function onData(interest, data) { console.log("Received " + data.getName().toUri()); }
face.expressInterest(new Name("/ndn/edu/ucla/remap/ndn-js-test/hello.txt"), onData);
** Example to publish content **
// Note that publishing content requires knowledge of a // routable prefix for your upstream NDN forwarder. We are working // on a way to either obtain that prefix or use the /local // convention.
For now, see examples/browser/test-publish-async.html
See files in ndn-protocol/
NDN-JS includes a Firefox extension for the ndn protocol built using the Javascript library. It currently obtains NDN connectivity through the NDN testbed, but you can click Set on the NDN Toolbar to change the connected hub.
To install, either download https://github.com/named-data/ndn-js/raw/master/ndn-protocol.xpi
or use ndn-protocol.xpi in the distribution. In Firefox, open Tools > Add-ons. In the "gear" or "wrench" menu, click Install Add-on From File and open ndn-protocol.xpi. (In Firefox for Android, type file: in the address bar and click the downloaded ndn-protocol.xpi.) Restart Firefox.
Firefox uses the protocol extension to load any URI starting with ndn. See this test page for examples: ndn:/ndn/edu/ucla/remap/demo/ndn-js-test/NDN-Protocol-Examples.html?ndn.ChildSelector=1
When the page is loaded, Firefox updates the address bar with the full matched name from the retrieved content object including the version, but without the implicit digest or segment number (see below).
- Interest selectors in the ndn protocol:
You can add interest selectors. For example, this uses 1 to select the "rightmost" child (latest version): ndn:/ndn/edu/ucla/remap/ndn-js-test/howdy.txt?my=query&ndn.ChildSelector=1&key=value#ref
The browser loads the latest version and changes the address to: ndn:/ndn/edu/ucla/remap/ndn-js-test/howdy.txt/%FD%052%A1%EA_%89?my=query&key=value#ref
The child selector was used and removed. Note that the other non-ndn query and ref "?key=value#ref" are still present, in case they are needed by the web application.
The following selector keys are supported: ndn.MinSuffixComponent= non-negative int ndn.MaxSuffixComponents= non-negative int ndn.ChildSelector= non-negative int ndn.AnswerOriginKind= non-negative int ndn.Scope= non-negative int ndn.InterestLifetime= non-negative int (milliseconds) ndn.PublisherPublicKeyDigest= % escaped value ndn.Nonce= % escaped value ndn.Exclude= comma-separated list of % escaped values or * for ANY
- Multiple segments in the ndn protocol
A URI for content with multiple segments is handled as follows. If the URI has a segment number, just retrieve that segment and return the content to the browser.
Otherwise look at the name in the returned ContentObject. If the returned name has no segment number, just return the content to the browser. If the name has a segment number which isn't 0, store it and express an interest for segment 0. Also express an interest for the highest segment to try to determine the FinalBlockID early. Fetch multiple segments in order and return each content to the browser (in order) as the arrive until we get the segment for FinalBlockID.