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zephyr/samples/bluetooth
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Yonattan Louise dbada63eee Fix coding style issues. 
Some checkpatch issues were solved by scripts leaving other problems
such as alignment and indentation issues.  In order to comply with the
defined coding style the following fixes were made:

- Fixed the function declaration moving the parameters' comments above
  the function in accordance to the doxygen format.
- Fixed functions' opening and closing brackets. These brackets should
  not be indented.
- Fixed the 'if', 'for' and 'while' statements adding the brackets
  around the sentence.
- Fixed comments' alignment.
- Fixed indentation.

The work was done manually and submitted as one commit. I didn't
separate these changes in different commits because they were fixed all
at once. Basically, all errors were fixed in every file at once.

Change-Id: Icc94a10bfd2cff82007ce60df23b2ccd4c30268d
Signed-off-by: Yonattan Louise <yonattan.a.louise.mendoza@intel.com>
2016-02-05 20:13:59 -05:00
..
beacon Bluetooth: Enable HCI_CORE debug for samples 2016-02-05 20:13:57 -05:00
central Bluetooth: Add simple LE scan app 2016-02-05 20:13:58 -05:00
init Bluetooth: Enable HCI_CORE debug for samples 2016-02-05 20:13:57 -05:00
peripheral Bluetooth: Enable HCI_CORE debug for samples 2016-02-05 20:13:57 -05:00
shell Bluetooth: Add nanokernel configuration for shell app 2016-02-05 20:13:57 -05:00
test_bluetooth Fix coding style issues. 2016-02-05 20:13:59 -05:00
bt_regression.sh Bluetooth: Set default toolchain to gcc 2016-02-05 20:13:58 -05:00
README Bluetooth: Update README with recent changes 2016-02-05 20:13:57 -05:00

README 

Bluetooth subsystem

= Architecture =

All processing is done in fibers. Basic structure for packet processing
is bt_buf. Packets are queued to different queues and processed. Packet
allocation is done through a free packets queue which gets populated
during the initialization.

= Building =

Build host tools:

$ make -C host/src

Build samples

$ make -C samples/bluetooth/<app>

= Testing =

Host Bluetooth controler is connected to the second qemu serial line
through a UNIX socket (qemu option -serial unix:/tmp/bt-server-bredr).

On the host side BlueZ allows to "connect" Bluetooth controller through
a so-called user channel. Use the btproxy tool for that:

$ sudo tools/btproxy -u
Listening on /tmp/bt-server-bredr

Now qemu can connect serial line to the 'bt-server-bredr' UNIX socket
with following command:

For microkernel configuration run:

$ make microkernel.qemu

For nanokernel configuration run:

$ make nanokernel.qemu

Extra parameter to qemu might be added through QEMU_EXTRA_FLAGS.

There is smoke test application in nanokernel and microkernel test
directories which gets run in sanity check script:

$ scripts/sanity_chk/sanity_chk -T gcc [-B <BSP>]

For quick regression test use bt_regression, it only check Bluetooth test

$ samples/bluetooth/bt_regression.sh