GridFTP: Protocol Extensions to FTP for the Grid

GridFTP: Protocol Extensions to FTP for the Gri

Operating System Response to Router Advertisement Packet in IPv6.

With growth of internet IPv4 address will run out soon. So the need of new IP protocol is indispensable. IPv6 with 128-bit address space is developed and maintain the support of IPv4 protocols with some upgrades such as BGP, OSPF and ICMP. ICMP protocol used for error reporting, neighbor discovering and other functions for diagnosis, ICMP version 6 has new types of packets to perform function similar to address resolution protocol ARP called Neighbor Discovery Protocol NDP. NDP is responsible for address auto configuration of nodes and neighbor discovery. It define new packets for the purposes of router solicitation, router advertisement and others discovery functions

Facilitating the creation of IoT applications through conditional observations in CoAP

With the advent of IPv6, the world is getting ready to incorporate smart objects to the current Internet to realize the idea of Internet of Things. The biggest challenge faced is the resource constraint of the smart objects to directly utilize the existing standard protocols and applications. A number of initiatives are currently witnessed to resolve this situation. One of such initiatives is the introduction of Constrained Application Protocol. This protocol is developed to fit in the resource-constrained smart object with the ability to easily translate to the prominent representational state transfer implementation, hypertext transfer protocol (and vice versa). The protocol has several optional extensions, one of them being, resource observation. With resource observation, a client may ask a server to be notified every state change of the resource. However, in many applications, all state changes are not significant enough for the clients. Therefore, the client will have to decide whether to use a value sent by a server or not. This results in wastage of the already constrained resources (bandwidth, processing power,aEuro broken vertical bar). In this paper, we introduced an alternative to the normal resource observation function, named Conditional Observation, where clients tell the servers the criteria for notification. We evaluated the power consumption and number of packets transmitted between clients and servers by using different network sizes and number of servers. In all cases, we found out that the existing observe option results in excessive number of packets (most of them unimportant for the client) and higher power consumption. We also made an extensive theoretical evaluation of the two approaches which give consistent result with the results we got from experimentation

Internet... the final frontier: an ethnographic account: exploring the cultural space of the Net from the inside

The research project The Internet as a space for interaction, which completed its mission in Autumn 1998, studied the constitutive features of network culture and network organisation. Special emphasis was given to the dynamic interplay of technical and social conventions regarding both the Net’s organisation as well as its change. The ethnographic perspective chosen studied the Internet from the inside. Research concentrated upon three fields of study: the hegemonial operating technology of net nodes (UNIX) the network’s basic transmission technology (the Internet Protocol IP) and a popular communication service (Usenet). The project’s final report includes the results of the three branches explored. Drawing upon the development in the three fields it is shown that changes that come about on the Net are neither anarchic nor arbitrary. Instead, the decentrally organised Internet is based upon technically and organisationally distributed forms of coordination within which individual preferences collectively attain the power of developing into definitive standards. --

Graphical Tool for IPv6 Packet Generation

Práce se zabývá vytvořením grafického rozhraní pro generování IPv6 paketů, pomocí kterého bude možné vytvářet korektní pakety s různými nastaveními. Je zde popsána architektura TCP/IP a následně IPv6 včetně jeho rozšiřujících hlaviček. Popsáno je také několik z dostupných nástrojů pro generování IPv6 paketů. Další část je věnována návrhu aplikace a její implementace pomocí jazyka Python a knihoven wxPython a Scapy.This thesis is targeted on creation of graphic interface for generating IPv6 packets which can be used for creation of correct packets with different options. It describes TCP/IP model of network and IPv6 including extension headers. In next part is presented some of existing tools for IPv6 packet generating. Last part includes user interface design and implementation using Python and wxPython and Scapy libraries.

Technical pre-study for the ExMS project

This report aims to give an overview of software and hardware platforms available now or in the near future for building a prototype of an ExMS application (for an overview of the ExMS project, see Appendix). The report also gives an overview of the different technologies for building third-party mobile client software applications that are in use today. The report is composed of three sections. The first section is a general discussion on mobile client software and the different technologies that can be used to develop third-party mobile client software. The next section continues with a specific discussion on ExMS and answers the following questions: What is the general architecture of the ExMS application? What alternatives exist for implementing the ExMS prototype? The final section of the report is a recommendation of hardware and software platform for building the ExMS prototype

An investigation into Off-Link IPv6 host enumeration search methods

This research investigated search methods for enumerating networked devices on off-link 64 bit Internet Protocol version 6 (IPv6) subnetworks. IPv6 host enumeration is an emerging research area involving strategies to enable detection of networked devices on IPv6 networks. Host enumeration is an integral component in vulnerability assessments (VAs), and can be used to strengthen the security profile of a system. Recently, host enumeration has been applied to Internet-wide VAs in an effort to detect devices that are vulnerable to specific threats. These host enumeration exercises rely on the fact that the existing Internet Protocol version 4 (IPv4) can be exhaustively enumerated in less than an hour. The same is not true for IPv6, which would take over 584,940 years to enumerate a single network. As such, research is required to determine appropriate host enumeration search methods for IPv6, given that the protocol is seeing increase global usage. For this study, a survey of Internet resources was conducted to gather information about the nature of IPv6 usage in real-world scenarios. The collected survey data revealed patterns in the usage of IPv6 that influenced search techniques. The research tested the efficacy of various searching algorithms against IPv6 datasets through the use of simulation. Multiple algorithms were devised to test different approaches to host enumeration against 64 bit IPv6 subnetworks. Of these, a novel adaptive heuristic search algorithm, a genetic algorithm and a stripe search algorithm were chosen to conduct off-link IPv6 host enumeration. The suitability of a linear algorithm, a Monte Carlo algorithm and a pattern heuristics algorithm were also tested for their suitability in searching off-link IPv6 networks. These algorithms were applied to two test IPv6 address datasets, one comprised of unique IPv6 data observed during the survey phase, and one comprised of unique IPv6 data generated using pseudorandom number generators. Searching against the two unique datasets was performed in order to determine appropriate strategies for off-link host enumeration under circumstances where networked devices were configured with addresses that represented real-word IPv6 addresses, and where device addresses were configured through some randomisation function. Whilst the outcomes of this research support that an exhaustive enumeration of an IPv6 network is infeasible, it has been demonstrated that devices on IPv6 networks can be enumerated. In particular, it was identified that the linear search technique and the variants tested in this study (pattern search and stripe search), remained the most consistent means of enumerating an IPv6 network. Machine learning methods were also successfully applied to the problem. It was determined that the novel adaptive heuristic search algorithm was an appropriate candidate for search operations. The adaptive heuristic search algorithm successfully enumerated over 24% of the available devices on the dataset that was crafted from surveyed IPv6 address data. Moreover, it was confirmed that stochastic address generation can reduce the effectiveness of enumeration strategies, as all of the algorithms failed to enumerate more than 1% of hosts against a pseudorandomly generated dataset. This research highlights a requirement for effective IPv6 host enumeration algorithms, and presents and validates appropriate methods. The methods presented in this thesis can help to influence the tools and utilities that are used to conduct host enumeration exercises