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The hardware timestamp engine documentation is driver API material, and really belongs in the driver-API book; move it there. Cc: Thierry Reding <treding@nvidia.com> Acked-by: Dipen Patel <dipenp@nvidia.com> Signed-off-by: Jonathan Corbet <corbet@lwn.net>
80 lines
3.0 KiB
ReStructuredText
80 lines
3.0 KiB
ReStructuredText
.. SPDX-License-Identifier: GPL-2.0+
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============================================
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The Linux Hardware Timestamping Engine (HTE)
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============================================
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:Author: Dipen Patel
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Introduction
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------------
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Certain devices have built in hardware timestamping engines which can
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monitor sets of system signals, lines, buses etc... in realtime for state
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change; upon detecting the change they can automatically store the timestamp at
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the moment of occurrence. Such functionality may help achieve better accuracy
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in obtaining timestamps than using software counterparts i.e. ktime and
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friends.
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This document describes the API that can be used by hardware timestamping
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engine provider and consumer drivers that want to use the hardware timestamping
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engine (HTE) framework. Both consumers and providers must include
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``#include <linux/hte.h>``.
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The HTE framework APIs for the providers
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----------------------------------------
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.. kernel-doc:: drivers/hte/hte.c
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:functions: devm_hte_register_chip hte_push_ts_ns
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The HTE framework APIs for the consumers
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----------------------------------------
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.. kernel-doc:: drivers/hte/hte.c
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:functions: hte_init_line_attr hte_ts_get hte_ts_put devm_hte_request_ts_ns hte_request_ts_ns hte_enable_ts hte_disable_ts of_hte_req_count hte_get_clk_src_info
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The HTE framework public structures
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-----------------------------------
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.. kernel-doc:: include/linux/hte.h
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More on the HTE timestamp data
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------------------------------
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The ``struct hte_ts_data`` is used to pass timestamp details between the
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consumers and the providers. It expresses timestamp data in nanoseconds in
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u64. An example of the typical timestamp data life cycle, for the GPIO line is
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as follows::
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- Monitors GPIO line change.
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- Detects the state change on GPIO line.
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- Converts timestamps in nanoseconds.
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- Stores GPIO raw level in raw_level variable if the provider has that
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hardware capability.
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- Pushes this hte_ts_data object to HTE subsystem.
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- HTE subsystem increments seq counter and invokes consumer provided callback.
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Based on callback return value, the HTE core invokes secondary callback in
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the thread context.
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HTE subsystem debugfs attributes
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--------------------------------
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HTE subsystem creates debugfs attributes at ``/sys/kernel/debug/hte/``.
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It also creates line/signal-related debugfs attributes at
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``/sys/kernel/debug/hte/<provider>/<label or line id>/``. Note that these
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attributes are read-only.
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`ts_requested`
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The total number of entities requested from the given provider,
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where entity is specified by the provider and could represent
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lines, GPIO, chip signals, buses etc...
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The attribute will be available at
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``/sys/kernel/debug/hte/<provider>/``.
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`total_ts`
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The total number of entities supported by the provider.
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The attribute will be available at
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``/sys/kernel/debug/hte/<provider>/``.
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`dropped_timestamps`
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The dropped timestamps for a given line.
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The attribute will be available at
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``/sys/kernel/debug/hte/<provider>/<label or line id>/``.
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