Priority: Low
Complexity: C8
-
-
-- DHCP lib server
-
- Priority: High
- Complexity: C4
- Owner: Martin Xu <martin.xu@intel.com>
-
-
-- On demand connection
-
- Priority: Medium
- Complexity: C4
Owner: Samuel Ortiz <sameo@linux.intel.com>
- With on demand connection applications get connectivity access
- simply by trying to reach the network. They don't need to
- specifically request for a service connection, but ConnMan
- establishes it on their behalf.
- This feature counter part is idle disconnect. ConnMan needs to be
- able to close the on demand established connections by monitoring
- the link activity. This requires kernel support with e.g. the
- netfilter IDLETIMER target.
-- Avahi-zeroconf
+- IPv4LL
Priority: Medium
Complexity: C4
+ Owner: Julien Massot <jmassot@aldebaran-robotics.com>
- The IPv4 Link Local part should be integrated into DHCP-lib.
-
-- OpenVPN
-
- Priority: Low
- Complexity: C2
+ 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
Complexity: C2
-- iptables wrapper
+- Agent callbacks
- Priority: High
- Complexity: C4
- Owner: Samuel Ortiz <sameo@linux.intel.com>
+ Priority: Medium
+ Complexity: C2
- ConnMan needs to be able to set iptables rules and tables for both
- tethering and on demand connection.
- The main idea is to define an internal API for talking to the
- netfilter socket in order to set our tables and rules. Being in
- sync with the actual iptables library might be problematic.
- A less elegant solution would be a process based one, that would
- simply call the iptables executable.
-- Tethering
+- Moving DNS proxy code to ConnMan core
Priority: Medium
- Complexity: C8
- Owner: Marcel Holtmann <marcel@holtmann.org>
- Dependencies: Core:iptables wrapper
- Dependencies: Core:DHCP lib server
-
- Bluetooth, USB and WiFi tethering.
- The tethering framework would typically allow sharing the 3G data
- link between WiFi, Bluetooth or USB clients.
- A bridge needs to be setup and all tethering connections are added
- to it. A DHCP server and a DNS proxy will be running on the bridge.
- Then IP forwarding and masquerading will be set between the default
- service and the bridge interface.
+ 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.
-- Agent callbacks
+- WiFi tethering
Priority: Medium
- Complexity: C2
+ Complexity: C4
+
+ WiFi tethering should be done through an extended wpa_supplicant
+ D-Bus API, as STA and AP modes are typically mutually exclusive.
-- pacrunner
+- Session API implementation
Priority: High
Complexity: C4
- Owner: Mohamed Abbas <mohamed.abbas@intel.com>
+ Owner: Daniel Wagner <daniel.wagner@bmw-carit.de>
+ Owner: Samuel Ortiz <sameo@linux.intel.com>
- pacrunner is a standalone daemon that downloads and interpret PAC
- files through a JavaScript interpreter. Once the interpretation is
- done, pacrunner is able to associate a proxy with an URL.
- pacrunner D-Bus interface exports a configuration API for passing
- it the PAC URLs. It also provide a FindProxyForURL() API for
- application to know which proxies to use.
- ConnMan will use pacrunner for both auto and manual proxy
- configurations. Then applications should talk to pacrunner (through
- libproxy for example) to find the right proxies.
- ConnMan will also use the FindProxyForURL() pacruner API for a more
- stable and accurate online detection code.
+ 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
-- Moving DNS proxy code to ConnMan core
+- Provisioning D-Bus API
Priority: Medium
Complexity: C2
+ Owner: Lucio Maciel <lucio.maciel@hp.com>
- 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.
+ 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 <marcel@holtmann.org>
+
+ Based on the portal detection parsing results, and provisioned
+ credentials, ConnMan should be able to initiate a WiSPR authentication.
WiFi
Priority: Medium
Complexity: C2
- Dependencies: Core:Avahi-zeroconf
+ Dependencies: Core:IPv4LL
+ Owner: Samuel Ortiz <sameo@linux.intel.com>
- Fast Connect
Priority: Low
Complexity: C4
- Dependencies: WiFi:libsupplicant
Owner: Samuel Ortiz <sameo@linux.intel.com>
Priority: Low
Complexity: C1
- Owner: Samuel Ortiz <sameo@linux.intel.com>
- EAP-GTC
Priority: Low
Complexity: C1
- Owner: Samuel Ortiz <sameo@linux.intel.com>
- WiFi p2p
- WiFi CRDA setting through 3G country
- Priority: Low
+ Priority: Medium
Complexity: C2
Owner: Samuel Ortiz <sameo@linux.intel.com>
projects / platform / upstream / connman.git / commitdiff