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The FPGA subsystem supports reprogramming FPGAs dynamically under
Linux. Some of the core intentions of the FPGA subsystems are:
* The FPGA subsystem is vendor agnostic.
* The FPGA subsystem separates upper layers (userspace interfaces and
enumeration) from lower layers that know how to program a specific
* Code should not be shared between upper and lower layers. This
should go without saying. If that seems necessary, there's probably
framework functionality that can be added that will benefit
other users. Write the linux-fpga mailing list and maintainers and
seek out a solution that expands the framework for broad reuse.
* Generally, when adding code, think of the future. Plan for reuse.
The framework in the kernel is divided into:
FPGA Manager
If you are adding a new FPGA or a new method of programming an FPGA,
this is the subsystem for you. Low level FPGA manager drivers contain
the knowledge of how to program a specific device. This subsystem
includes the framework in fpga-mgr.c and the low level drivers that
are registered with it.
FPGA Bridge
FPGA Bridges prevent spurious signals from going out of an FPGA or a
region of an FPGA during programming. They are disabled before
programming begins and re-enabled afterwards. An FPGA bridge may be
actual hard hardware that gates a bus to a CPU or a soft ("freeze")
bridge in FPGA fabric that surrounds a partial reconfiguration region
of an FPGA. This subsystem includes fpga-bridge.c and the low level
drivers that are registered with it.
FPGA Region
If you are adding a new interface to the FPGA framework, add it on top
of an FPGA region to allow the most reuse of your interface.
The FPGA Region framework (fpga-region.c) associates managers and
bridges as reconfigurable regions. A region may refer to the whole
FPGA in full reconfiguration or to a partial reconfiguration region.
The Device Tree FPGA Region support (of-fpga-region.c) handles
reprogramming FPGAs when device tree overlays are applied.