370 lines
13 KiB
ReStructuredText
370 lines
13 KiB
ReStructuredText
.. SPDX-License-Identifier: GPL-2.0
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========
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HDMI CEC
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========
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Supported hardware in mainline
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==============================
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HDMI Transmitters:
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- Exynos4
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- Exynos5
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- STIH4xx HDMI CEC
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- V4L2 adv7511 (same HW, but a different driver from the drm adv7511)
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- stm32
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- Allwinner A10 (sun4i)
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- Raspberry Pi
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- dw-hdmi (Synopsis IP)
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- amlogic (meson ao-cec and ao-cec-g12a)
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- drm adv7511/adv7533
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- omap4
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- tegra
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- rk3288, rk3399
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- tda998x
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- DisplayPort CEC-Tunneling-over-AUX on i915, nouveau and amdgpu
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- ChromeOS EC CEC
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- CEC for SECO boards (UDOO x86).
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- Chrontel CH7322
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HDMI Receivers:
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- adv7604/11/12
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- adv7842
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- tc358743
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USB Dongles (see below for additional information on how to use these
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dongles):
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- Pulse-Eight: the pulse8-cec driver implements the following module option:
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``persistent_config``: by default this is off, but when set to 1 the driver
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will store the current settings to the device's internal eeprom and restore
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it the next time the device is connected to the USB port.
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- RainShadow Tech. Note: this driver does not support the persistent_config
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module option of the Pulse-Eight driver. The hardware supports it, but I
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have no plans to add this feature. But I accept patches :-)
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Miscellaneous:
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- vivid: emulates a CEC receiver and CEC transmitter.
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Can be used to test CEC applications without actual CEC hardware.
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- cec-gpio. If the CEC pin is hooked up to a GPIO pin then
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you can control the CEC line through this driver. This supports error
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injection as well.
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Utilities
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=========
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Utilities are available here: https://git.linuxtv.org/v4l-utils.git
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``utils/cec-ctl``: control a CEC device
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``utils/cec-compliance``: test compliance of a remote CEC device
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``utils/cec-follower``: emulate a CEC follower device
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Note that ``cec-ctl`` has support for the CEC Hospitality Profile as is
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used in some hotel displays. See http://www.htng.org.
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Note that the libcec library (https://github.com/Pulse-Eight/libcec) supports
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the linux CEC framework.
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If you want to get the CEC specification, then look at the References of
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the HDMI wikipedia page: https://en.wikipedia.org/wiki/HDMI. CEC is part
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of the HDMI specification. HDMI 1.3 is freely available (very similar to
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HDMI 1.4 w.r.t. CEC) and should be good enough for most things.
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DisplayPort to HDMI Adapters with working CEC
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=============================================
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Background: most adapters do not support the CEC Tunneling feature,
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and of those that do many did not actually connect the CEC pin.
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Unfortunately, this means that while a CEC device is created, it
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is actually all alone in the world and will never be able to see other
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CEC devices.
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This is a list of known working adapters that have CEC Tunneling AND
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that properly connected the CEC pin. If you find adapters that work
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but are not in this list, then drop me a note.
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To test: hook up your DP-to-HDMI adapter to a CEC capable device
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(typically a TV), then run::
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cec-ctl --playback # Configure the PC as a CEC Playback device
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cec-ctl -S # Show the CEC topology
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The ``cec-ctl -S`` command should show at least two CEC devices,
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ourselves and the CEC device you are connected to (i.e. typically the TV).
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General note: I have only seen this work with the Parade PS175, PS176 and
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PS186 chipsets and the MegaChips 2900. While MegaChips 28x0 claims CEC support,
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I have never seen it work.
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USB-C to HDMI
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-------------
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Samsung Multiport Adapter EE-PW700: https://www.samsung.com/ie/support/model/EE-PW700BBEGWW/
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Kramer ADC-U31C/HF: https://www.kramerav.com/product/ADC-U31C/HF
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Club3D CAC-2504: https://www.club-3d.com/en/detail/2449/usb_3.1_type_c_to_hdmi_2.0_uhd_4k_60hz_active_adapter/
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DisplayPort to HDMI
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-------------------
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Club3D CAC-1080: https://www.club-3d.com/en/detail/2442/displayport_1.4_to_hdmi_2.0b_hdr/
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CableCreation (SKU: CD0712): https://www.cablecreation.com/products/active-displayport-to-hdmi-adapter-4k-hdr
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HP DisplayPort to HDMI True 4k Adapter (P/N 2JA63AA): https://www.hp.com/us-en/shop/pdp/hp-displayport-to-hdmi-true-4k-adapter
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Mini-DisplayPort to HDMI
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------------------------
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Club3D CAC-1180: https://www.club-3d.com/en/detail/2443/mini_displayport_1.4_to_hdmi_2.0b_hdr/
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Note that passive adapters will never work, you need an active adapter.
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The Club3D adapters in this list are all MegaChips 2900 based. Other Club3D adapters
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are PS176 based and do NOT have the CEC pin hooked up, so only the three Club3D
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adapters above are known to work.
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I suspect that MegaChips 2900 based designs in general are likely to work
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whereas with the PS176 it is more hit-and-miss (mostly miss). The PS186 is
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likely to have the CEC pin hooked up, it looks like they changed the reference
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design for that chipset.
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USB CEC Dongles
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===============
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These dongles appear as ``/dev/ttyACMX`` devices and need the ``inputattach``
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utility to create the ``/dev/cecX`` devices. Support for the Pulse-Eight
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has been added to ``inputattach`` 1.6.0. Support for the Rainshadow Tech has
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been added to ``inputattach`` 1.6.1.
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You also need udev rules to automatically start systemd services::
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SUBSYSTEM=="tty", KERNEL=="ttyACM[0-9]*", ATTRS{idVendor}=="2548", ATTRS{idProduct}=="1002", ACTION=="add", TAG+="systemd", ENV{SYSTEMD_WANTS}+="pulse8-cec-inputattach@%k.service"
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SUBSYSTEM=="tty", KERNEL=="ttyACM[0-9]*", ATTRS{idVendor}=="2548", ATTRS{idProduct}=="1001", ACTION=="add", TAG+="systemd", ENV{SYSTEMD_WANTS}+="pulse8-cec-inputattach@%k.service"
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SUBSYSTEM=="tty", KERNEL=="ttyACM[0-9]*", ATTRS{idVendor}=="04d8", ATTRS{idProduct}=="ff59", ACTION=="add", TAG+="systemd", ENV{SYSTEMD_WANTS}+="rainshadow-cec-inputattach@%k.service"
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and these systemd services:
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For Pulse-Eight make /lib/systemd/system/pulse8-cec-inputattach@.service::
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[Unit]
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Description=inputattach for pulse8-cec device on %I
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[Service]
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Type=simple
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ExecStart=/usr/bin/inputattach --pulse8-cec /dev/%I
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For the RainShadow Tech make /lib/systemd/system/rainshadow-cec-inputattach@.service::
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[Unit]
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Description=inputattach for rainshadow-cec device on %I
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[Service]
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Type=simple
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ExecStart=/usr/bin/inputattach --rainshadow-cec /dev/%I
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For proper suspend/resume support create: /lib/systemd/system/restart-cec-inputattach.service::
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[Unit]
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Description=restart inputattach for cec devices
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After=suspend.target
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[Service]
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Type=forking
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ExecStart=/bin/bash -c 'for d in /dev/serial/by-id/usb-Pulse-Eight*; do /usr/bin/inputattach --daemon --pulse8-cec $d; done; for d in /dev/serial/by-id/usb-RainShadow_Tech*; do /usr/bin/inputattach --daemon --rainshadow-cec $d; done'
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[Install]
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WantedBy=suspend.target
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And run ``systemctl enable restart-cec-inputattach``.
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To automatically set the physical address of the CEC device whenever the
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EDID changes, you can use ``cec-ctl`` with the ``-E`` option::
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cec-ctl -E /sys/class/drm/card0-DP-1/edid
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This assumes the dongle is connected to the card0-DP-1 output (``xrandr`` will tell
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you which output is used) and it will poll for changes to the EDID and update
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the Physical Address whenever they occur.
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To automatically run this command you can use cron. Edit crontab with
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``crontab -e`` and add this line::
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@reboot /usr/local/bin/cec-ctl -E /sys/class/drm/card0-DP-1/edid
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This only works for display drivers that expose the EDID in ``/sys/class/drm``,
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such as the i915 driver.
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CEC Without HPD
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===============
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Some displays when in standby mode have no HDMI Hotplug Detect signal, but
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CEC is still enabled so connected devices can send an <Image View On> CEC
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message in order to wake up such displays. Unfortunately, not all CEC
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adapters can support this. An example is the Odroid-U3 SBC that has a
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level-shifter that is powered off when the HPD signal is low, thus
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blocking the CEC pin. Even though the SoC can use CEC without a HPD,
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the level-shifter will prevent this from functioning.
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There is a CEC capability flag to signal this: ``CEC_CAP_NEEDS_HPD``.
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If set, then the hardware cannot wake up displays with this behavior.
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Note for CEC application implementers: the <Image View On> message must
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be the first message you send, don't send any other messages before.
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Certain very bad but unfortunately not uncommon CEC implementations
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get very confused if they receive anything else but this message and
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they won't wake up.
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When writing a driver it can be tricky to test this. There are two
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ways to do this:
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1) Get a Pulse-Eight USB CEC dongle, connect an HDMI cable from your
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device to the Pulse-Eight, but do not connect the Pulse-Eight to
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the display.
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Now configure the Pulse-Eight dongle::
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cec-ctl -p0.0.0.0 --tv
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and start monitoring::
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sudo cec-ctl -M
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On the device you are testing run::
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cec-ctl --playback
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It should report a physical address of f.f.f.f. Now run this
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command::
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cec-ctl -t0 --image-view-on
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The Pulse-Eight should see the <Image View On> message. If not,
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then something (hardware and/or software) is preventing the CEC
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message from going out.
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To make sure you have the wiring correct just connect the
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Pulse-Eight to a CEC-enabled display and run the same command
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on your device: now there is a HPD, so you should see the command
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arriving at the Pulse-Eight.
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2) If you have another linux device supporting CEC without HPD, then
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you can just connect your device to that device. Yes, you can connect
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two HDMI outputs together. You won't have a HPD (which is what we
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want for this test), but the second device can monitor the CEC pin.
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Otherwise use the same commands as in 1.
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If CEC messages do not come through when there is no HPD, then you
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need to figure out why. Typically it is either a hardware restriction
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or the software powers off the CEC core when the HPD goes low. The
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first cannot be corrected of course, the second will likely required
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driver changes.
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Microcontrollers & CEC
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======================
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We have seen some CEC implementations in displays that use a microcontroller
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to sample the bus. This does not have to be a problem, but some implementations
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have timing issues. This is hard to discover unless you can hook up a low-level
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CEC debugger (see the next section).
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You will see cases where the CEC transmitter holds the CEC line high or low for
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a longer time than is allowed. For directed messages this is not a problem since
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if that happens the message will not be Acked and it will be retransmitted.
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For broadcast messages no such mechanism exists.
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It's not clear what to do about this. It is probably wise to transmit some
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broadcast messages twice to reduce the chance of them being lost. Specifically
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<Standby> and <Active Source> are candidates for that.
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Making a CEC debugger
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=====================
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By using a Raspberry Pi 2B/3/4 and some cheap components you can make
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your own low-level CEC debugger.
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Here is a picture of my setup:
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https://hverkuil.home.xs4all.nl/rpi3-cec.jpg
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It's a Raspberry Pi 3 together with a breadboard and some breadboard wires:
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http://www.dx.com/p/diy-40p-male-to-female-male-to-male-female-to-female-dupont-line-wire-3pcs-356089#.WYLOOXWGN7I
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Finally on of these HDMI female-female passthrough connectors (full soldering type 1):
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https://elabbay.myshopify.com/collections/camera/products/hdmi-af-af-v1a-hdmi-type-a-female-to-hdmi-type-a-female-pass-through-adapter-breakout-board?variant=45533926147
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We've tested this and it works up to 4kp30 (297 MHz). The quality is not high
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enough to pass-through 4kp60 (594 MHz).
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I also added an RTC and a breakout shield:
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https://www.amazon.com/Makerfire%C2%AE-Raspberry-Module-DS1307-Battery/dp/B00ZOXWHK4
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https://www.dx.com/p/raspberry-pi-gpio-expansion-board-breadboard-easy-multiplexing-board-one-to-three-with-screw-for-raspberry-pi-2-3-b-b-2729992.html#.YGRCG0MzZ7I
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These two are not needed but they make life a bit easier.
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If you want to monitor the HPD line as well, then you need one of these
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level shifters:
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https://www.adafruit.com/product/757
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(This is just where I got these components, there are many other places you
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can get similar things).
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The CEC pin of the HDMI connector needs to be connected to these pins:
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CE0/IO8 and CE1/IO7 (pull-up GPIOs). The (optional) HPD pin of the HDMI
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connector should be connected (via a level shifter to convert the 5V
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to 3.3V) to these pins: IO17 and IO27. The (optional) 5V pin of the HDMI
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connector should be connected (via a level shifter) to these pins: IO22
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and IO24. Monitoring the HPD an 5V lines is not necessary, but it is helpful.
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This kernel patch will hook up the cec-gpio driver correctly to
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e.g. ``arch/arm/boot/dts/bcm2837-rpi-3-b-plus.dts``::
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cec@7 {
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compatible = "cec-gpio";
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cec-gpios = <&gpio 7 (GPIO_ACTIVE_HIGH|GPIO_OPEN_DRAIN)>;
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hpd-gpios = <&gpio 17 GPIO_ACTIVE_HIGH>;
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v5-gpios = <&gpio 22 GPIO_ACTIVE_HIGH>;
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};
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cec@8 {
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compatible = "cec-gpio";
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cec-gpios = <&gpio 8 (GPIO_ACTIVE_HIGH|GPIO_OPEN_DRAIN)>;
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hpd-gpios = <&gpio 27 GPIO_ACTIVE_HIGH>;
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v5-gpios = <&gpio 24 GPIO_ACTIVE_HIGH>;
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};
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This dts change will enable two cec GPIO devices: I typically use one to
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send/receive CEC commands and the other to monitor. If you monitor using
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an unconfigured CEC adapter then it will use GPIO interrupts which makes
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monitoring very accurate.
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The documentation on how to use the error injection is here: :ref:`cec_pin_error_inj`.
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``cec-ctl --monitor-pin`` will do low-level CEC bus sniffing and analysis.
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You can also store the CEC traffic to file using ``--store-pin`` and analyze
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it later using ``--analyze-pin``.
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You can also use this as a full-fledged CEC device by configuring it
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using ``cec-ctl --tv -p0.0.0.0`` or ``cec-ctl --playback -p1.0.0.0``.
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