| 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'. |
| |
| The general rule of thumb is that a complexity 1 task should take 1-2 weeks |
| for a person very familiar with BlueZ codebase. Higher complexity tasks |
| require more time and have higher uncertainty. |
| |
| Higher complexity tasks should be refined into several lower complexity tasks |
| once the task is better understood. |
| |
| General |
| ======= |
| |
| - UUID handling: Use the new functions created for UUID handling in all parts |
| of BlueZ code. Currently, the new bt_uuid_* functions are being used by |
| GATT-related code only. |
| |
| Priority: high |
| Complexity: C4 |
| |
| - Update PBAP client/server implementation to 1.2 and create necessary APIs for |
| new features it introduces. |
| |
| Priority: Medium |
| Complexity: C4 |
| |
| - Create GOEP unit tests based on its test specification: |
| |
| https://www.bluetooth.org/docman/handlers/DownloadDoc.ashx?doc_id=230559 |
| |
| Priority: Medium |
| Complexity: C2 |
| |
| - Function in src/adapter.c to convert old storage files to new ini-file format |
| should be removed 6-8 months after first BlueZ 5 release. |
| |
| Priority: Low |
| Complexity: C1 |
| |
| - Remove usage of symlinks for drivers, such as profiles/input/suspend.c and |
| profiles/sap/sap.c. Instead, select drivers at runtime by using config |
| options or probing for running D-Bus services (using e.g. |
| g_dbus_add_service_watch()). Idea first mentioned on |
| http://thread.gmane.org/gmane.linux.bluez.kernel/30175/focus=30190. |
| |
| - Reuse connection handling code of src/profile.c also for built-in profiles |
| so plugins would only need to register their btd_profile and the core takes |
| care of the rest including listen to the right channel and manages the sdp |
| record. Once btd_profile manages the connection it can also notify about |
| their state, this probably remove the need of having callbacks to |
| .connect/.disconnect since their state can be tracked, it also enables any |
| plugin to track any profile state change which can be useful for e.g. |
| a connection policy plugin in case one is needed. |
| |
| Priority: Low |
| Complexity: C2 |
| |
| - Add queueing support for src/agent.c, currently if there is any request |
| pending the code fail with error EBUSY which is very inconvenient. |
| |
| Priority: Low |
| Complexity: C2 |
| |
| Low Energy |
| ========== |
| |
| - Connection modes. Adapter interface needs to be changed to manage |
| connection modes and adapter type. See Volume 3, Part C, section 9.3. |
| 1. Mode management: Peripheral / Central |
| |
| Priority: Medium |
| Complexity: C2 |
| |
| - Advertising data. The D-Bus interface needs to be updated to enable setting |
| scan response data, and to read the advertising and scan response data which |
| has been broadcast from other LE devices. |
| |
| Priority: Medium |
| Complexity: C2 |
| |
| - Static random address setup and storage. Once this address is written |
| in a given remote, the address can not be changed anymore. |
| |
| Priority: Low |
| Complexity: C1 |
| |
| - Device Name Characteristic is a GAP characteristic for Low Energy. This |
| characteristic shall be integrated/used in the discovery procedure. The |
| idea is to report the value of this characteristic using DeviceFound signals. |
| Discussion with the community is needed before to start this task. Other GAP |
| characteristics for LE needs to follow a similar approach. It is not clear |
| if all GAP characteristics can be exposed using properties instead of a primary |
| service characteristics. |
| See Volume 3, Part C, section 12.1 for more information. |
| |
| Priority: Low |
| Complexity: C2 |
| |
| ATT/GATT (new shared stack) |
| =========================== |
| |
| - Add complete GATT test coverage in unit/test-gatt following the GATT test |
| spec. This could use shared/gatt-client and shared/gatt-server at the same |
| time to test both against eachother. We should definitely have tests for |
| gatt-server and gatt-client simultaneously on one side of the connection. |
| |
| Priority: High |
| Complexity: C4 |
| |
| - Write an example using client D-Bus API using C. |
| |
| Priority: High |
| Complexity: C2 |
| |
| - Write an example using client D-Bus API using python. |
| |
| Priority: High |
| Complexity: C2 |
| |
| - Define packed structs for ATT protocol PDUs in shared/att-types to improve |
| readability. We should probably do this once there are extensive unit tests |
| for gatt-client/gatt-server so that we don't accidentally break working code. |
| |
| Priority: Medium |
| Complexity: C2 |
| |
| - Use struct iovec to pass around byte buffers that will be sent over the wire, |
| instead of passing uint8_t and size_t parameters everywhere. |
| |
| Priority: Medium |
| Complexity: C1 |
| |
| - Move all daemon plugins and profiles that are GATT based to use |
| shared/gatt-client instead of attrib/*. This is a complicated task that |
| potentially needs a new plugin/profile probing interface and a lot of |
| rewriting that can cause regressions in existing functionality. |
| |
| Priority: Medium |
| Complexity: C4 |
| |
| - Introduce a way for shared/gatt-server to check security permissions on the |
| current connection through bt_att. |
| |
| Priority: Medium |
| Complexity: C2 |
| |
| - Implement other low-priority ATT protocol operations for shared/gatt-server: |
| |
| Read Multiple Request |
| |
| Priority: Low |
| Complexity: C1 |
| |
| - Send out indications from the "Service Changed" characteristic upon |
| reconnection if a bonded device is not connected when the local database is |
| modified. |
| |
| Priority: High |
| Complexity: C2 |
| |
| - Unify the GATT server and client D-Bus implementations into a single module. |
| While these don't share a lot of code, keeping them all in src/gatt-dbus seems |
| to make more sense from an organizational perspective. |
| |
| Priority: Low |
| Complexity: C1 |
| |
| - Isolate all GATT code inside the daemon into its own module and perform |
| interaction with other modules (e.g. src/device.c) via callbacks. This |
| includes client/server management, tracking incoming/outgoing connections for |
| ATT, and callbacks to perform profile probing. |
| |
| Priority: Low |
| Complexity: C4 |
| |
| - Support included services in the GATT D-Bus client API. |
| |
| Priority: Medium |
| Complexity: C1 |
| |
| Management Interface |
| ==================== |