zephyr/samples/net/gptp
Peter A. Bigot 0626c8f1d3 samples: add board customization for native_posix_64
Sample applications for display functions do not work on native_posix_64
due to missing overrides.  Clone the native_posix_64 Kconfig override
for all samples that have a native_posix Kconfig override.

Signed-off-by: Peter A. Bigot <pab@pabigot.com>
2019-07-17 15:29:42 -07:00
..
boards samples: add board customization for native_posix_64 2019-07-17 15:29:42 -07:00
src samples: net: Convert to use generic logging macros 2018-12-07 12:00:04 +02:00
CMakeLists.txt license: cleanup: add SPDX Apache-2.0 license identifier 2019-04-07 08:45:22 -04:00
Kconfig Kconfig: Remove redundant $(ZEPHYR_BASE) from 'source's 2018-10-10 11:28:27 -05:00
README.rst samples: net: gptp: Fix compilation instructions 2019-05-23 22:13:11 +03:00
prj.conf cmake: Drop all in-tree usage 'set_conf_file' 2019-03-01 09:44:09 +01:00
sample.yaml tests: enable native_posix_64 testing 2019-07-16 10:41:11 -07:00

README.rst

.. _gptp-sample:

gPTP Sample Application
#######################

Overview
********

The gPTP sample application for Zephyr will enable gPTP support, registers
gPTP phase discontinuity callback, enable traffic class support (TX multi
queues) and setup VLANs (if enabled). The net-shell is also enabled so that
user can monitor gPTP functionality.

The source code for this sample application can be found at:
:zephyr_file:`samples/net/gptp`.

Requirements
************

For generic host connectivity, that can be used for debugging purposes, see
:ref:`networking_with_native_posix` for details.

Building and Running
********************

A good way to run this sample is to run this gPTP application inside
native_posix board as described in :ref:`networking_with_native_posix` or with
embedded device like NXP FRDM-K64F or Atmel SAM-E70 Xplained. Note that gPTP is
only supported for boards that have an Ethernet port and which has support for
collecting timestamps for sent and received Ethernet frames.

Follow these steps to build the gPTP sample application:

.. zephyr-app-commands::
   :zephyr-app: samples/net/gptp
   :board: <board to use>
   :goals: build
   :compact:

The net-shell command "**net gptp**" will print out general gPTP information.
For port 1, the command "**net gptp 1**" will print detailed information about
port 1 statistics etc. Note that executing the shell command could affect
the timing of the sent or received gPTP packets and the grandmaster might
mark the device as non AS capable and disable it.

Setting up Linux Host
=====================

If you need VLAN support in your network, then the
:zephyr_file:`samples/net/vlan/vlan-setup-linux.sh` provides a script that can be
executed on the Linux host. It creates two VLANs on the Linux host and creates
routes to Zephyr. If you are using native_posix board, then
the ``net-setup.sh`` will create VLAN setup automatically with this command:

.. code-block:: console

   ./net-setup.sh -c zeth-vlan.conf

The OpenAVNU repository at https://github.com/AVnu contains gPTP
daemon that can be run in Linux host and which can act as a grandmaster for
the IEEE 801.1AS network. Note that OpenAVNU will not work with
native_posix board as that board only supports software timestamping and
OpenAVNU only supports hardware timestamping. See instructions at the end
of this chapter how to run linuxptp daemon with native_posix board.

Get OpenAvnu/gPTP project sources

.. code-block:: console

    git clone git@github.com:AVnu/gptp.git

After downloading the source code, compile it like this in Linux:

.. code-block:: console

    mkdir build
    cd build
    cmake ..
    make
    cp ../gptp_cfg.ini .

Edit the :file:`gptp_cfg.ini` file and set the neighborPropDelayThresh to 10000
as the default value 800 is too low if you run the gPTP in FRDM-K64F.

Then execute the daemon with correct network interface and the configuration
file.

.. code-block:: console

    sudo ./gptp enp0s25 -F gptp_cfg.ini

Note that here the example network interface **enp0s25** is the name of the
network interface that is connected to your Zephyr device.

If everything is configured correctly, you should see following kind of
messages from gptp:

.. code-block:: console

    INFO     : GPTP [13:01:14:837] gPTP starting
    INFO     : GPTP [13:01:14:838] priority1 = 248
    INFO     : GPTP [13:01:14:838] announceReceiptTimeout: 3
    INFO     : GPTP [13:01:14:838] syncReceiptTimeout: 3
    INFO     : GPTP [13:01:14:838] LINKSPEED_100MB - PHY delay
			TX: 1044 | RX: 2133
    INFO     : GPTP [13:01:14:838] LINKSPEED_1G - PHY delay
			TX: 184 | RX: 382
    INFO     : GPTP [13:01:14:838] neighborPropDelayThresh: 10000
    INFO     : GPTP [13:01:14:838] syncReceiptThreshold: 8
    ERROR    : GPTP [13:01:14:838] Using clock device: /dev/ptp0
    STATUS   : GPTP [13:01:14:838] Starting PDelay
    STATUS   : GPTP [13:01:14:838] Link Speed: 1000000 kb/sec
    STATUS   : GPTP [13:01:14:871] AsCapable: Enabled
    STATUS   : GPTP [13:01:16:497] New Grandmaster "3C:97:0E:FF:FE:23:F2:32" (previous "00:00:00:00:00:00:00:00")
    STATUS   : GPTP [13:01:16:497] Switching to Master

If Zephyr syncs properly with gptp daemon, then this is printed:

.. code-block:: console

    STATUS   : GPTP [13:01:25:965] AsCapable: Enabled

By default gPTP in Zephyr will not print any gPTP debug messages to console.
One can enable debug prints by setting
:option:`CONFIG_NET_GPTP_LOG_LEVEL_DBG` in the config file.

For native_posix board, use ``linuxptp`` project as that supports
software timestamping.

Get linuxptp project sources

.. code-block:: console

    git clone git://git.code.sf.net/p/linuxptp/code

Compile the ``ptp4l`` daemon and start it like this:

.. code-block:: console

    sudo ./ptp4l -2 -f gPTP-zephyr.cfg -i zeth -m -q -l 6 -S

Use the ``default.cfg`` as a base, copy it to ``gPTP-zephyr.cfg``, and modify
it according to your needs.