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The mlx5_core driver has implemented ptp clock driver functionality but lacked documentation about the PTP devices. This patch adds information about the Mellanox device family. Signed-off-by: Rahul Rameshbabu <rrameshbabu@nvidia.com> Acked-by: Richard Cochran <richardcochran@gmail.com> Signed-off-by: David S. Miller <davem@davemloft.net>
138 lines
5.7 KiB
ReStructuredText
138 lines
5.7 KiB
ReStructuredText
.. SPDX-License-Identifier: GPL-2.0
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===========================================
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PTP hardware clock infrastructure for Linux
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===========================================
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This patch set introduces support for IEEE 1588 PTP clocks in
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Linux. Together with the SO_TIMESTAMPING socket options, this
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presents a standardized method for developing PTP user space
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programs, synchronizing Linux with external clocks, and using the
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ancillary features of PTP hardware clocks.
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A new class driver exports a kernel interface for specific clock
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drivers and a user space interface. The infrastructure supports a
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complete set of PTP hardware clock functionality.
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+ Basic clock operations
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- Set time
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- Get time
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- Shift the clock by a given offset atomically
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- Adjust clock frequency
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+ Ancillary clock features
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- Time stamp external events
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- Period output signals configurable from user space
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- Low Pass Filter (LPF) access from user space
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- Synchronization of the Linux system time via the PPS subsystem
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PTP hardware clock kernel API
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=============================
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A PTP clock driver registers itself with the class driver. The
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class driver handles all of the dealings with user space. The
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author of a clock driver need only implement the details of
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programming the clock hardware. The clock driver notifies the class
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driver of asynchronous events (alarms and external time stamps) via
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a simple message passing interface.
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The class driver supports multiple PTP clock drivers. In normal use
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cases, only one PTP clock is needed. However, for testing and
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development, it can be useful to have more than one clock in a
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single system, in order to allow performance comparisons.
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PTP hardware clock user space API
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=================================
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The class driver also creates a character device for each
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registered clock. User space can use an open file descriptor from
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the character device as a POSIX clock id and may call
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clock_gettime, clock_settime, and clock_adjtime. These calls
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implement the basic clock operations.
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User space programs may control the clock using standardized
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ioctls. A program may query, enable, configure, and disable the
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ancillary clock features. User space can receive time stamped
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events via blocking read() and poll().
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Writing clock drivers
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=====================
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Clock drivers include include/linux/ptp_clock_kernel.h and register
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themselves by presenting a 'struct ptp_clock_info' to the
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registration method. Clock drivers must implement all of the
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functions in the interface. If a clock does not offer a particular
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ancillary feature, then the driver should just return -EOPNOTSUPP
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from those functions.
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Drivers must ensure that all of the methods in interface are
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reentrant. Since most hardware implementations treat the time value
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as a 64 bit integer accessed as two 32 bit registers, drivers
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should use spin_lock_irqsave/spin_unlock_irqrestore to protect
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against concurrent access. This locking cannot be accomplished in
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class driver, since the lock may also be needed by the clock
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driver's interrupt service routine.
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PTP hardware clock requirements for '.adjphase'
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-----------------------------------------------
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The 'struct ptp_clock_info' interface has a '.adjphase' function.
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This function has a set of requirements from the PHC in order to be
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implemented.
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* The PHC implements a servo algorithm internally that is used to
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correct the offset passed in the '.adjphase' call.
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* When other PTP adjustment functions are called, the PHC servo
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algorithm is disabled.
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**NOTE:** '.adjphase' is not a simple time adjustment functionality
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that 'jumps' the PHC clock time based on the provided offset. It
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should correct the offset provided using an internal algorithm.
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Supported hardware
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==================
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* Freescale eTSEC gianfar
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- 2 Time stamp external triggers, programmable polarity (opt. interrupt)
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- 2 Alarm registers (optional interrupt)
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- 3 Periodic signals (optional interrupt)
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* National DP83640
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- 6 GPIOs programmable as inputs or outputs
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- 6 GPIOs with dedicated functions (LED/JTAG/clock) can also be
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used as general inputs or outputs
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- GPIO inputs can time stamp external triggers
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- GPIO outputs can produce periodic signals
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- 1 interrupt pin
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* Intel IXP465
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- Auxiliary Slave/Master Mode Snapshot (optional interrupt)
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- Target Time (optional interrupt)
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* Renesas (IDT) ClockMatrix™
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- Up to 4 independent PHC channels
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- Integrated low pass filter (LPF), access via .adjPhase (compliant to ITU-T G.8273.2)
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- Programmable output periodic signals
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- Programmable inputs can time stamp external triggers
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- Driver and/or hardware configuration through firmware (idtcm.bin)
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- LPF settings (bandwidth, phase limiting, automatic holdover, physical layer assist (per ITU-T G.8273.2))
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- Programmable output PTP clocks, any frequency up to 1GHz (to other PHY/MAC time stampers, refclk to ASSPs/SoCs/FPGAs)
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- Lock to GNSS input, automatic switching between GNSS and user-space PHC control (optional)
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* NVIDIA Mellanox
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- GPIO
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- Certain variants of ConnectX-6 Dx and later products support one
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GPIO which can time stamp external triggers and one GPIO to produce
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periodic signals.
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- Certain variants of ConnectX-5 and older products support one GPIO,
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configured to either time stamp external triggers or produce
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periodic signals.
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- PHC instances
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- All ConnectX devices have a free-running counter
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- ConnectX-6 Dx and later devices have a UTC format counter
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