cda1fba15c
Implement and document new pin attributes for providing Embedded SYNC capabilities to the DPLL subsystem users through a netlink pin-get do/dump messages. Allow the user to set Embedded SYNC frequency with pin-set do netlink message. Reviewed-by: Aleksandr Loktionov <aleksandr.loktionov@intel.com> Signed-off-by: Arkadiusz Kubalewski <arkadiusz.kubalewski@intel.com> Reviewed-by: Jiri Pirko <jiri@nvidia.com> Link: https://patch.msgid.link/20240822222513.255179-2-arkadiusz.kubalewski@intel.com Signed-off-by: Jakub Kicinski <kuba@kernel.org>
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573 lines
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ReStructuredText
.. SPDX-License-Identifier: GPL-2.0
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===============================
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The Linux kernel dpll subsystem
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===============================
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DPLL
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====
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PLL - Phase Locked Loop is an electronic circuit which syntonizes clock
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signal of a device with an external clock signal. Effectively enabling
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device to run on the same clock signal beat as provided on a PLL input.
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DPLL - Digital Phase Locked Loop is an integrated circuit which in
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addition to plain PLL behavior incorporates a digital phase detector
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and may have digital divider in the loop. As a result, the frequency on
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DPLL's input and output may be configurable.
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Subsystem
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=========
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The main purpose of dpll subsystem is to provide general interface
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to configure devices that use any kind of Digital PLL and could use
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different sources of input signal to synchronize to, as well as
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different types of outputs.
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The main interface is NETLINK_GENERIC based protocol with an event
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monitoring multicast group defined.
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Device object
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=============
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Single dpll device object means single Digital PLL circuit and bunch of
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connected pins.
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It reports the supported modes of operation and current status to the
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user in response to the `do` request of netlink command
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``DPLL_CMD_DEVICE_GET`` and list of dplls registered in the subsystem
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with `dump` netlink request of the same command.
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Changing the configuration of dpll device is done with `do` request of
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netlink ``DPLL_CMD_DEVICE_SET`` command.
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A device handle is ``DPLL_A_ID``, it shall be provided to get or set
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configuration of particular device in the system. It can be obtained
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with a ``DPLL_CMD_DEVICE_GET`` `dump` request or
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a ``DPLL_CMD_DEVICE_ID_GET`` `do` request, where the one must provide
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attributes that result in single device match.
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Pin object
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==========
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A pin is amorphic object which represents either input or output, it
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could be internal component of the device, as well as externally
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connected.
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The number of pins per dpll vary, but usually multiple pins shall be
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provided for a single dpll device.
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Pin's properties, capabilities and status is provided to the user in
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response to `do` request of netlink ``DPLL_CMD_PIN_GET`` command.
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It is also possible to list all the pins that were registered in the
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system with `dump` request of ``DPLL_CMD_PIN_GET`` command.
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Configuration of a pin can be changed by `do` request of netlink
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``DPLL_CMD_PIN_SET`` command.
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Pin handle is a ``DPLL_A_PIN_ID``, it shall be provided to get or set
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configuration of particular pin in the system. It can be obtained with
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``DPLL_CMD_PIN_GET`` `dump` request or ``DPLL_CMD_PIN_ID_GET`` `do`
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request, where user provides attributes that result in single pin match.
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Pin selection
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=============
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In general, selected pin (the one which signal is driving the dpll
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device) can be obtained from ``DPLL_A_PIN_STATE`` attribute, and only
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one pin shall be in ``DPLL_PIN_STATE_CONNECTED`` state for any dpll
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device.
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Pin selection can be done either manually or automatically, depending
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on hardware capabilities and active dpll device work mode
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(``DPLL_A_MODE`` attribute). The consequence is that there are
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differences for each mode in terms of available pin states, as well as
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for the states the user can request for a dpll device.
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In manual mode (``DPLL_MODE_MANUAL``) the user can request or receive
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one of following pin states:
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- ``DPLL_PIN_STATE_CONNECTED`` - the pin is used to drive dpll device
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- ``DPLL_PIN_STATE_DISCONNECTED`` - the pin is not used to drive dpll
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device
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In automatic mode (``DPLL_MODE_AUTOMATIC``) the user can request or
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receive one of following pin states:
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- ``DPLL_PIN_STATE_SELECTABLE`` - the pin shall be considered as valid
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input for automatic selection algorithm
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- ``DPLL_PIN_STATE_DISCONNECTED`` - the pin shall be not considered as
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a valid input for automatic selection algorithm
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In automatic mode (``DPLL_MODE_AUTOMATIC``) the user can only receive
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pin state ``DPLL_PIN_STATE_CONNECTED`` once automatic selection
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algorithm locks a dpll device with one of the inputs.
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Shared pins
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===========
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A single pin object can be attached to multiple dpll devices.
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Then there are two groups of configuration knobs:
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1) Set on a pin - the configuration affects all dpll devices pin is
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registered to (i.e., ``DPLL_A_PIN_FREQUENCY``),
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2) Set on a pin-dpll tuple - the configuration affects only selected
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dpll device (i.e., ``DPLL_A_PIN_PRIO``, ``DPLL_A_PIN_STATE``,
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``DPLL_A_PIN_DIRECTION``).
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MUX-type pins
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=============
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A pin can be MUX-type, it aggregates child pins and serves as a pin
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multiplexer. One or more pins are registered with MUX-type instead of
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being directly registered to a dpll device.
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Pins registered with a MUX-type pin provide user with additional nested
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attribute ``DPLL_A_PIN_PARENT_PIN`` for each parent they were registered
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with.
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If a pin was registered with multiple parent pins, they behave like a
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multiple output multiplexer. In this case output of a
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``DPLL_CMD_PIN_GET`` would contain multiple pin-parent nested
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attributes with current state related to each parent, like::
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'pin': [{{
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'clock-id': 282574471561216,
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'module-name': 'ice',
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'capabilities': 4,
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'id': 13,
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'parent-pin': [
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{'parent-id': 2, 'state': 'connected'},
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{'parent-id': 3, 'state': 'disconnected'}
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],
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'type': 'synce-eth-port'
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}}]
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Only one child pin can provide its signal to the parent MUX-type pin at
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a time, the selection is done by requesting change of a child pin state
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on desired parent, with the use of ``DPLL_A_PIN_PARENT`` nested
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attribute. Example of netlink `set state on parent pin` message format:
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========================== =============================================
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``DPLL_A_PIN_ID`` child pin id
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``DPLL_A_PIN_PARENT_PIN`` nested attribute for requesting configuration
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related to parent pin
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``DPLL_A_PIN_PARENT_ID`` parent pin id
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``DPLL_A_PIN_STATE`` requested pin state on parent
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========================== =============================================
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Pin priority
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============
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Some devices might offer a capability of automatic pin selection mode
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(enum value ``DPLL_MODE_AUTOMATIC`` of ``DPLL_A_MODE`` attribute).
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Usually, automatic selection is performed on the hardware level, which
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means only pins directly connected to the dpll can be used for automatic
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input pin selection.
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In automatic selection mode, the user cannot manually select a input
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pin for the device, instead the user shall provide all directly
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connected pins with a priority ``DPLL_A_PIN_PRIO``, the device would
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pick a highest priority valid signal and use it to control the DPLL
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device. Example of netlink `set priority on parent pin` message format:
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============================ =============================================
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``DPLL_A_PIN_ID`` configured pin id
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``DPLL_A_PIN_PARENT_DEVICE`` nested attribute for requesting configuration
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related to parent dpll device
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``DPLL_A_PIN_PARENT_ID`` parent dpll device id
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``DPLL_A_PIN_PRIO`` requested pin prio on parent dpll
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============================ =============================================
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Child pin of MUX-type pin is not capable of automatic input pin selection,
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in order to configure active input of a MUX-type pin, the user needs to
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request desired pin state of the child pin on the parent pin,
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as described in the ``MUX-type pins`` chapter.
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Phase offset measurement and adjustment
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========================================
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Device may provide ability to measure a phase difference between signals
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on a pin and its parent dpll device. If pin-dpll phase offset measurement
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is supported, it shall be provided with ``DPLL_A_PIN_PHASE_OFFSET``
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attribute for each parent dpll device.
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Device may also provide ability to adjust a signal phase on a pin.
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If pin phase adjustment is supported, minimal and maximal values that pin
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handle shall be provide to the user on ``DPLL_CMD_PIN_GET`` respond
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with ``DPLL_A_PIN_PHASE_ADJUST_MIN`` and ``DPLL_A_PIN_PHASE_ADJUST_MAX``
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attributes. Configured phase adjust value is provided with
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``DPLL_A_PIN_PHASE_ADJUST`` attribute of a pin, and value change can be
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requested with the same attribute with ``DPLL_CMD_PIN_SET`` command.
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=============================== ======================================
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``DPLL_A_PIN_ID`` configured pin id
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``DPLL_A_PIN_PHASE_ADJUST_MIN`` attr minimum value of phase adjustment
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``DPLL_A_PIN_PHASE_ADJUST_MAX`` attr maximum value of phase adjustment
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``DPLL_A_PIN_PHASE_ADJUST`` attr configured value of phase
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adjustment on parent dpll device
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``DPLL_A_PIN_PARENT_DEVICE`` nested attribute for requesting
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configuration on given parent dpll
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device
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``DPLL_A_PIN_PARENT_ID`` parent dpll device id
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``DPLL_A_PIN_PHASE_OFFSET`` attr measured phase difference
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between a pin and parent dpll device
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=============================== ======================================
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All phase related values are provided in pico seconds, which represents
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time difference between signals phase. The negative value means that
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phase of signal on pin is earlier in time than dpll's signal. Positive
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value means that phase of signal on pin is later in time than signal of
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a dpll.
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Phase adjust (also min and max) values are integers, but measured phase
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offset values are fractional with 3-digit decimal places and shell be
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divided with ``DPLL_PIN_PHASE_OFFSET_DIVIDER`` to get integer part and
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modulo divided to get fractional part.
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Embedded SYNC
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=============
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Device may provide ability to use Embedded SYNC feature. It allows
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to embed additional SYNC signal into the base frequency of a pin - a one
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special pulse of base frequency signal every time SYNC signal pulse
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happens. The user can configure the frequency of Embedded SYNC.
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The Embedded SYNC capability is always related to a given base frequency
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and HW capabilities. The user is provided a range of Embedded SYNC
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frequencies supported, depending on current base frequency configured for
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the pin.
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========================================= =================================
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``DPLL_A_PIN_ESYNC_FREQUENCY`` current Embedded SYNC frequency
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``DPLL_A_PIN_ESYNC_FREQUENCY_SUPPORTED`` nest available Embedded SYNC
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frequency ranges
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``DPLL_A_PIN_FREQUENCY_MIN`` attr minimum value of frequency
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``DPLL_A_PIN_FREQUENCY_MAX`` attr maximum value of frequency
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``DPLL_A_PIN_ESYNC_PULSE`` pulse type of Embedded SYNC
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========================================= =================================
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Configuration commands group
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============================
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Configuration commands are used to get information about registered
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dpll devices (and pins), as well as set configuration of device or pins.
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As dpll devices must be abstracted and reflect real hardware,
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there is no way to add new dpll device via netlink from user space and
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each device should be registered by its driver.
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All netlink commands require ``GENL_ADMIN_PERM``. This is to prevent
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any spamming/DoS from unauthorized userspace applications.
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List of netlink commands with possible attributes
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=================================================
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Constants identifying command types for dpll device uses a
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``DPLL_CMD_`` prefix and suffix according to command purpose.
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The dpll device related attributes use a ``DPLL_A_`` prefix and
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suffix according to attribute purpose.
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==================================== =================================
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``DPLL_CMD_DEVICE_ID_GET`` command to get device ID
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``DPLL_A_MODULE_NAME`` attr module name of registerer
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``DPLL_A_CLOCK_ID`` attr Unique Clock Identifier
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(EUI-64), as defined by the
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IEEE 1588 standard
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``DPLL_A_TYPE`` attr type of dpll device
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==================================== =================================
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==================================== =================================
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``DPLL_CMD_DEVICE_GET`` command to get device info or
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dump list of available devices
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``DPLL_A_ID`` attr unique dpll device ID
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``DPLL_A_MODULE_NAME`` attr module name of registerer
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``DPLL_A_CLOCK_ID`` attr Unique Clock Identifier
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(EUI-64), as defined by the
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IEEE 1588 standard
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``DPLL_A_MODE`` attr selection mode
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``DPLL_A_MODE_SUPPORTED`` attr available selection modes
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``DPLL_A_LOCK_STATUS`` attr dpll device lock status
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``DPLL_A_TEMP`` attr device temperature info
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``DPLL_A_TYPE`` attr type of dpll device
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==================================== =================================
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==================================== =================================
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``DPLL_CMD_DEVICE_SET`` command to set dpll device config
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``DPLL_A_ID`` attr internal dpll device index
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``DPLL_A_MODE`` attr selection mode to configure
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==================================== =================================
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Constants identifying command types for pins uses a
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``DPLL_CMD_PIN_`` prefix and suffix according to command purpose.
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The pin related attributes use a ``DPLL_A_PIN_`` prefix and suffix
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according to attribute purpose.
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==================================== =================================
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``DPLL_CMD_PIN_ID_GET`` command to get pin ID
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``DPLL_A_PIN_MODULE_NAME`` attr module name of registerer
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``DPLL_A_PIN_CLOCK_ID`` attr Unique Clock Identifier
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(EUI-64), as defined by the
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IEEE 1588 standard
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``DPLL_A_PIN_BOARD_LABEL`` attr pin board label provided
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by registerer
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``DPLL_A_PIN_PANEL_LABEL`` attr pin panel label provided
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by registerer
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``DPLL_A_PIN_PACKAGE_LABEL`` attr pin package label provided
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by registerer
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``DPLL_A_PIN_TYPE`` attr type of a pin
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==================================== =================================
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==================================== ==================================
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``DPLL_CMD_PIN_GET`` command to get pin info or dump
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list of available pins
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``DPLL_A_PIN_ID`` attr unique a pin ID
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``DPLL_A_PIN_MODULE_NAME`` attr module name of registerer
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``DPLL_A_PIN_CLOCK_ID`` attr Unique Clock Identifier
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(EUI-64), as defined by the
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IEEE 1588 standard
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``DPLL_A_PIN_BOARD_LABEL`` attr pin board label provided
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by registerer
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``DPLL_A_PIN_PANEL_LABEL`` attr pin panel label provided
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by registerer
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``DPLL_A_PIN_PACKAGE_LABEL`` attr pin package label provided
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by registerer
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``DPLL_A_PIN_TYPE`` attr type of a pin
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``DPLL_A_PIN_FREQUENCY`` attr current frequency of a pin
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``DPLL_A_PIN_FREQUENCY_SUPPORTED`` nested attr provides supported
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frequencies
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``DPLL_A_PIN_ANY_FREQUENCY_MIN`` attr minimum value of frequency
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``DPLL_A_PIN_ANY_FREQUENCY_MAX`` attr maximum value of frequency
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``DPLL_A_PIN_PHASE_ADJUST_MIN`` attr minimum value of phase
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adjustment
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``DPLL_A_PIN_PHASE_ADJUST_MAX`` attr maximum value of phase
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adjustment
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``DPLL_A_PIN_PHASE_ADJUST`` attr configured value of phase
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adjustment on parent device
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``DPLL_A_PIN_PARENT_DEVICE`` nested attr for each parent device
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the pin is connected with
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``DPLL_A_PIN_PARENT_ID`` attr parent dpll device id
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``DPLL_A_PIN_PRIO`` attr priority of pin on the
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dpll device
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``DPLL_A_PIN_STATE`` attr state of pin on the parent
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dpll device
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``DPLL_A_PIN_DIRECTION`` attr direction of a pin on the
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parent dpll device
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``DPLL_A_PIN_PHASE_OFFSET`` attr measured phase difference
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between a pin and parent dpll
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``DPLL_A_PIN_PARENT_PIN`` nested attr for each parent pin
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the pin is connected with
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``DPLL_A_PIN_PARENT_ID`` attr parent pin id
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``DPLL_A_PIN_STATE`` attr state of pin on the parent
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pin
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``DPLL_A_PIN_CAPABILITIES`` attr bitmask of pin capabilities
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==================================== ==================================
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==================================== =================================
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``DPLL_CMD_PIN_SET`` command to set pins configuration
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``DPLL_A_PIN_ID`` attr unique a pin ID
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``DPLL_A_PIN_FREQUENCY`` attr requested frequency of a pin
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``DPLL_A_PIN_PHASE_ADJUST`` attr requested value of phase
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adjustment on parent device
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``DPLL_A_PIN_PARENT_DEVICE`` nested attr for each parent dpll
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device configuration request
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``DPLL_A_PIN_PARENT_ID`` attr parent dpll device id
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``DPLL_A_PIN_DIRECTION`` attr requested direction of a pin
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``DPLL_A_PIN_PRIO`` attr requested priority of pin on
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the dpll device
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``DPLL_A_PIN_STATE`` attr requested state of pin on
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the dpll device
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``DPLL_A_PIN_PARENT_PIN`` nested attr for each parent pin
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configuration request
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``DPLL_A_PIN_PARENT_ID`` attr parent pin id
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``DPLL_A_PIN_STATE`` attr requested state of pin on
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parent pin
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==================================== =================================
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Netlink dump requests
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=====================
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The ``DPLL_CMD_DEVICE_GET`` and ``DPLL_CMD_PIN_GET`` commands are
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capable of dump type netlink requests, in which case the response is in
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the same format as for their ``do`` request, but every device or pin
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registered in the system is returned.
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SET commands format
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===================
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``DPLL_CMD_DEVICE_SET`` - to target a dpll device, the user provides
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``DPLL_A_ID``, which is unique identifier of dpll device in the system,
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as well as parameter being configured (``DPLL_A_MODE``).
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``DPLL_CMD_PIN_SET`` - to target a pin user must provide a
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``DPLL_A_PIN_ID``, which is unique identifier of a pin in the system.
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Also configured pin parameters must be added.
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If ``DPLL_A_PIN_FREQUENCY`` is configured, this affects all the dpll
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devices that are connected with the pin, that is why frequency attribute
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shall not be enclosed in ``DPLL_A_PIN_PARENT_DEVICE``.
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Other attributes: ``DPLL_A_PIN_PRIO``, ``DPLL_A_PIN_STATE`` or
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``DPLL_A_PIN_DIRECTION`` must be enclosed in
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``DPLL_A_PIN_PARENT_DEVICE`` as their configuration relates to only one
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of parent dplls, targeted by ``DPLL_A_PIN_PARENT_ID`` attribute which is
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also required inside that nest.
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For MUX-type pins the ``DPLL_A_PIN_STATE`` attribute is configured in
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similar way, by enclosing required state in ``DPLL_A_PIN_PARENT_PIN``
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nested attribute and targeted parent pin id in ``DPLL_A_PIN_PARENT_ID``.
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In general, it is possible to configure multiple parameters at once, but
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internally each parameter change will be invoked separately, where order
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of configuration is not guaranteed by any means.
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Configuration pre-defined enums
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===============================
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.. kernel-doc:: include/uapi/linux/dpll.h
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Notifications
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=============
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dpll device can provide notifications regarding status changes of the
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device, i.e. lock status changes, input/output changes or other alarms.
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There is one multicast group that is used to notify user-space apps via
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netlink socket: ``DPLL_MCGRP_MONITOR``
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Notifications messages:
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============================== =====================================
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``DPLL_CMD_DEVICE_CREATE_NTF`` dpll device was created
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``DPLL_CMD_DEVICE_DELETE_NTF`` dpll device was deleted
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``DPLL_CMD_DEVICE_CHANGE_NTF`` dpll device has changed
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``DPLL_CMD_PIN_CREATE_NTF`` dpll pin was created
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``DPLL_CMD_PIN_DELETE_NTF`` dpll pin was deleted
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``DPLL_CMD_PIN_CHANGE_NTF`` dpll pin has changed
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============================== =====================================
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Events format is the same as for the corresponding get command.
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Format of ``DPLL_CMD_DEVICE_`` events is the same as response of
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``DPLL_CMD_DEVICE_GET``.
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Format of ``DPLL_CMD_PIN_`` events is same as response of
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``DPLL_CMD_PIN_GET``.
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Device driver implementation
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============================
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Device is allocated by dpll_device_get() call. Second call with the
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same arguments will not create new object but provides pointer to
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previously created device for given arguments, it also increases
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refcount of that object.
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Device is deallocated by dpll_device_put() call, which first
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decreases the refcount, once refcount is cleared the object is
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destroyed.
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Device should implement set of operations and register device via
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dpll_device_register() at which point it becomes available to the
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users. Multiple driver instances can obtain reference to it with
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dpll_device_get(), as well as register dpll device with their own
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ops and priv.
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The pins are allocated separately with dpll_pin_get(), it works
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similarly to dpll_device_get(). Function first creates object and then
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for each call with the same arguments only the object refcount
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increases. Also dpll_pin_put() works similarly to dpll_device_put().
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A pin can be registered with parent dpll device or parent pin, depending
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on hardware needs. Each registration requires registerer to provide set
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of pin callbacks, and private data pointer for calling them:
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- dpll_pin_register() - register pin with a dpll device,
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- dpll_pin_on_pin_register() - register pin with another MUX type pin.
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Notifications of adding or removing dpll devices are created within
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subsystem itself.
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Notifications about registering/deregistering pins are also invoked by
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the subsystem.
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Notifications about status changes either of dpll device or a pin are
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invoked in two ways:
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- after successful change was requested on dpll subsystem, the subsystem
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calls corresponding notification,
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- requested by device driver with dpll_device_change_ntf() or
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dpll_pin_change_ntf() when driver informs about the status change.
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The device driver using dpll interface is not required to implement all
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the callback operation. Nevertheless, there are few required to be
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implemented.
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Required dpll device level callback operations:
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- ``.mode_get``,
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- ``.lock_status_get``.
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Required pin level callback operations:
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- ``.state_on_dpll_get`` (pins registered with dpll device),
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- ``.state_on_pin_get`` (pins registered with parent pin),
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- ``.direction_get``.
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Every other operation handler is checked for existence and
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``-EOPNOTSUPP`` is returned in case of absence of specific handler.
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The simplest implementation is in the OCP TimeCard driver. The ops
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structures are defined like this:
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.. code-block:: c
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static const struct dpll_device_ops dpll_ops = {
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.lock_status_get = ptp_ocp_dpll_lock_status_get,
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.mode_get = ptp_ocp_dpll_mode_get,
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.mode_supported = ptp_ocp_dpll_mode_supported,
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};
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static const struct dpll_pin_ops dpll_pins_ops = {
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.frequency_get = ptp_ocp_dpll_frequency_get,
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.frequency_set = ptp_ocp_dpll_frequency_set,
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.direction_get = ptp_ocp_dpll_direction_get,
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.direction_set = ptp_ocp_dpll_direction_set,
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.state_on_dpll_get = ptp_ocp_dpll_state_get,
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};
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The registration part is then looks like this part:
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.. code-block:: c
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clkid = pci_get_dsn(pdev);
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bp->dpll = dpll_device_get(clkid, 0, THIS_MODULE);
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if (IS_ERR(bp->dpll)) {
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err = PTR_ERR(bp->dpll);
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dev_err(&pdev->dev, "dpll_device_alloc failed\n");
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goto out;
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}
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err = dpll_device_register(bp->dpll, DPLL_TYPE_PPS, &dpll_ops, bp);
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if (err)
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goto out;
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for (i = 0; i < OCP_SMA_NUM; i++) {
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bp->sma[i].dpll_pin = dpll_pin_get(clkid, i, THIS_MODULE, &bp->sma[i].dpll_prop);
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if (IS_ERR(bp->sma[i].dpll_pin)) {
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err = PTR_ERR(bp->dpll);
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goto out_dpll;
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}
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err = dpll_pin_register(bp->dpll, bp->sma[i].dpll_pin, &dpll_pins_ops,
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&bp->sma[i]);
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if (err) {
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dpll_pin_put(bp->sma[i].dpll_pin);
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goto out_dpll;
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}
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}
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In the error path we have to rewind every allocation in the reverse order:
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.. code-block:: c
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while (i) {
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--i;
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dpll_pin_unregister(bp->dpll, bp->sma[i].dpll_pin, &dpll_pins_ops, &bp->sma[i]);
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dpll_pin_put(bp->sma[i].dpll_pin);
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}
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dpll_device_put(bp->dpll);
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More complex example can be found in Intel's ICE driver or nVidia's mlx5 driver.
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SyncE enablement
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================
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For SyncE enablement it is required to allow control over dpll device
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for a software application which monitors and configures the inputs of
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dpll device in response to current state of a dpll device and its
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inputs.
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In such scenario, dpll device input signal shall be also configurable
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to drive dpll with signal recovered from the PHY netdevice.
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This is done by exposing a pin to the netdevice - attaching pin to the
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netdevice itself with
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``dpll_netdev_pin_set(struct net_device *dev, struct dpll_pin *dpll_pin)``.
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Exposed pin id handle ``DPLL_A_PIN_ID`` is then identifiable by the user
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as it is attached to rtnetlink respond to get ``RTM_NEWLINK`` command in
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nested attribute ``IFLA_DPLL_PIN``.
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