Background ========== - Priority scale: High, Medium and Low - Complexity scale: C1, C2, C4 and C8. The complexity scale is exponential, with complexity 1 being the lowest complexity. Complexity is a function of both task 'complexity' and task 'scope'. Core ==== - connman_element removal Priority: Low Complexity: C8 Owner: Samuel Ortiz - IPv4LL Priority: Medium Complexity: C4 Owner: Julien Massot The IPv4 Link Local support should be integrated into DHCP-lib. IPv4LL should be started when DHCP failed, and then DHCP should be scheduled for periodic trials. Also, there should be no default route going through an IPv4LL interface. - VPNc Priority: Low Complexity: C2 - Agent callbacks Priority: Medium Complexity: C2 Owner: Patrik Flykt Implement Agent API according to doc/agent-api.txt - Moving DNS proxy code to ConnMan core Priority: Medium Complexity: C2 Supporting DNS proxy or resolv.conf direct editing seems more than plenty as far as resolving is concerned. So the idea is to move the dnsproxy plugin code to ConnMan core and have an additional command line option in case one would like to stick with the current resolver.c code for editing resolv.conf. - WiFi tethering Priority: Medium Complexity: C4 WiFi tethering should be done through an extended wpa_supplicant D-Bus API, as STA and AP modes are typically mutually exclusive. - Session API implementation Priority: High Complexity: C4 Owner: Daniel Wagner Owner: Samuel Ortiz The session API should provide a connection abstraction in order to prioritize applications network accesses, prevent or allow network and bearer roaming, or provide applications with a way to request for periodic network connections. On-demand connections will be implemented through this API as well. See http://www.mail-archive.com/connman@connman.net/msg01653.html - Provisioning D-Bus API Priority: Medium Complexity: C2 Owner: Lucio Maciel The current service provisioning lacks inotify support for adding new provision files on the fly, and a D-Bus interface for modifying existing ones. - WiSPR support Priority: Medium Complexity: C4 Owner: Marcel Holtmann Based on the portal detection parsing results, and provisioned credentials, ConnMan should be able to initiate a WiSPR authentication. - IPv6 enhancements Priority: High Complexity: C8 Owner: Jukka Rissanen Support IPv6 only networks so that system can go online even if there is no IPv4 address. Also support more than one IPv6 address in one device so that the addresses are reported correctly via dbus interface. The autoconf IPv6 addresses need also some tweaking so that system will go online properly. WiFi ==== - WPS Priority: Low Complexity: C2 Dependencies: Core:Agent callbacks Owner: Tomasz Bursztyka Support in gsupplicant and connman core (network/service). - Ad-Hoc support Priority: Medium Complexity: C2 Dependencies: Core:IPv4LL Owner: Samuel Ortiz - Fast Connect Priority: Low Complexity: C4 Owner: Samuel Ortiz - EAP-AKA/SIM Priority: Medium Complexity: C2 Owner: Samuel Ortiz This EAP is needed for SIM card based network authentication. ConnMan here plays a minor role: Once wpa_supplicant is set up for starting and EAP-AKA/SIM authentication, it will talk to a SIM card through its pcsc-lite API. - EAP-FAST Priority: Low Complexity: C1 Owner: Henri Bragge - EAP-GTC Priority: Low Complexity: C1 Owner: Henri Bragge - WiFi p2p Priority: Medium Complexity: C2 - WiFi CRDA setting through 3G country Priority: Medium Complexity: C2 Owner: Samuel Ortiz Setting the 802.11 country based on the 3G MNC/MCC. Bluetooth ========= - DUN client Priority: Low Complexity: C4 - DUN server Priority: Low Complexity: C4