The increasing heterogeneity and asymmetry in wireless network environments makes QoS guarantees in terms of delays and throughput a challenging task. In this paper, we study a novel scheduling algorithm for multipath transport called Delay Aware Packet Scheduling (DAPS) which aims to reduce the receiver's buffer blocking time considered as a main parameter to enhance the QoS in wireless environments. We develop an analytical model of maximum receiver's buffer blocking time and extend the DAPS algorithm considering implementation issues. Performance evaluations based on ns-2 simulations highlight the enhanced QoS that DAPS can provide. With reference to the classical multipath transport protocol CMT-SCTP, we observe a significant reductions of the receiver's buffer occupancy, down by 77%, and the application delay, down by 63%.
Email and chat still constitute the majority of electronic communication on the Internet. The standardisation and acceptance of protocols such as SMTP, IMAP, POP3, XMPP, and IRC has allowed to deploy servers for email and chat in a decentralised and interoperable fashion. These protocols can be secured by providing encryption with TLS-directly or via the STARTTLS extension. X.509 PKIs and ad hoc methods can be leveraged to authenticate communication peers. However, secure configuration is not straight-forward and many combinations of encryption and authentication mechanisms lead to insecure deployments and potentially compromise of data in transit. In this paper, we present the largest study to date that investigates the security of our email and chat infrastructures. We used active Internet-wide scans to determine the amount of secure service deployments, and employed passive monitoring to investigate to which degree user agents actually choose secure mechanisms for their communication. We addressed both client-to-server interactions as well as server-to-server forwarding. Apart from the authentication and encryption mechanisms that the investigated protocols offer on the transport layer, we also investigated the methods for client authentication in use on the application layer. Our findings shed light on an insofar unexplored area of the Internet. Our results, in a nutshell, are a mix of both positive and negative findings. While large providers offer good security for their users, most of our communication is poorly secured in transit, with weaknesses in the cryptographic setup and especially in the choice of authentication mechanisms. We present a list of actionable changes to improve the situation.
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