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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 <sameo@linux.intel.com>
- Session API implementation
Priority: High
Complexity: C4
Owner: Daniel Wagner <daniel.wagner@bmw-carit.de>
Owner: Samuel Ortiz <sameo@linux.intel.com>
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: Henri Bragge <henri.bragge@ixonos.com>
The current service provisioning lacks a D-Bus interface for modifying
existing configurations.
- WiSPR support
Priority: Medium
Complexity: C4
Owner: Marcel Holtmann <marcel@holtmann.org>
Based on the portal detection parsing results, and provisioned
credentials, ConnMan should be able to initiate a WiSPR authentication.
- DNS caching
Priority: Low
Complexity: C4
A simple initial implementation would see ConnMan's dnsproxy
caching the DNS record based on their TTL.
- Power management
Priority: Medium
Complexity: C4
Owner: Samuel Ortiz <sameo@linux.intel.com>
Implement a simple device pm hook that ConnMan's core code would
use whenever it decides to put devices in power save mode. Although
the kernel runtime power management code should take care of that,
not all driver (especially WiFi ones) implement runtime PM hooks.
- IPv6 gateway handling
Priority: Medium
Complexity: C4
We should be able to switch between IPv6 only services and thus
change the default IPv6 gateway on the fly. For that we need to
improve the connection.c code to properly handle IPv6 gateways.
- IP ranges allocation and check
Priority: High
Complexity: C2
For both tethering and private networks, but also to detect invalid
static IP configurations, we need to have a core IP range layer
that manages all currently used IP blocks.
- Personal firewall
Priority: Low
Complexity: C8
Extend the iptables code and provide a D-Bus API for personal firewalling.
- PACRunner extensions
Priority: Low
Complexity: C4
Support more URI schemes, support multiple connections, tighter
security integration.
- Private networks
Priority: Medium
Complexity: C4
Owner: Guillaume Zajac <guillaume.zajac@linux.intel.com>
The private networks D-Bus API should provide applications with a
TUN interface linked to a reserved private IP range.
oFono DUN forwarding will use a private network for giving DUN
clients access to the default service connectivity.
WiFi
====
- Ad-Hoc support
Priority: Medium
Complexity: C2
Owner: Samuel Ortiz <sameo@linux.intel.com>
- Fast Connect
Priority: Low
Complexity: C4
Owner: Samuel Ortiz <sameo@linux.intel.com>
- EAP-AKA/SIM
Priority: Medium
Complexity: C2
Owner: Samuel Ortiz <sameo@linux.intel.com>
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 <henri.bragge@ixonos.com>
- EAP-GTC
Priority: Low
Complexity: C1
Owner: Henri Bragge <henri.bragge@ixonos.com>
- WiFi p2p
Priority: Medium
Complexity: C2
Bluetooth
=========
- DUN client
Priority: Low
Complexity: C4
Cellular
========
- IPv6 and IPv6v4 cellular data connection
Priority: Medium
Complexity: C2
Owner: Samuel Ortiz <sameo@linux.intel.com>
Support IPv6 and dual stack cellular data connections.
oFono already supports it and provide an extensive D-Bus API for it.
VPN
===
- l2tp support
Priority: Low
Complexity: C2
Owner: Mohamed Abbas <mohamed.abbas@intel.com>
- pptp support
Priority: Low
Complexity: C2
Owner: Mohamed Abbas <mohamed.abbas@intel.com>
- IPsec
Priority: Low
Complexity: C4
- Split tunnelling
Priority: Low
Complexity: C8
Dependencies: Core:Private networks
The current VPN support puts the VPN interface at the top of the
service list, giving VPNs the default route. When doing split
tunneling, the system routes packet to the VPN interface for
private IPs, while going through the default interface for the rest
of the traffic.
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