[v3,5/5] guides/rawdevs: add description of ofs in ifpga doc
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Commit Message
OFS (Open FPGA Stack) specification is introduced briefly.
Signed-off-by: Wei Huang <wei.huang@intel.com>
---
doc/guides/rawdevs/ifpga.rst | 114 ++++++++++++++++++++++++++++++++++++++++++-
1 file changed, 113 insertions(+), 1 deletion(-)
Comments
Hi Wei,
> -----Original Message-----
> From: Huang, Wei <wei.huang@intel.com>
> Sent: Thursday, May 26, 2022 11:33
> To: dev@dpdk.org; thomas@monjalon.net; nipun.gupta@nxp.com;
> hemant.agrawal@nxp.com
> Cc: stable@dpdk.org; Xu, Rosen <rosen.xu@intel.com>; Zhang, Tianfei
> <tianfei.zhang@intel.com>; Zhang, Qi Z <qi.z.zhang@intel.com>; Huang, Wei
> <wei.huang@intel.com>
> Subject: [PATCH v3 5/5] guides/rawdevs: add description of ofs in ifpga doc
>
> OFS (Open FPGA Stack) specification is introduced briefly.
>
> Signed-off-by: Wei Huang <wei.huang@intel.com>
> ---
> doc/guides/rawdevs/ifpga.rst | 114
> ++++++++++++++++++++++++++++++++++++++++++-
> 1 file changed, 113 insertions(+), 1 deletion(-)
>
> diff --git a/doc/guides/rawdevs/ifpga.rst b/doc/guides/rawdevs/ifpga.rst
> index dbd0d6e..8809bfc 100644
> --- a/doc/guides/rawdevs/ifpga.rst
> +++ b/doc/guides/rawdevs/ifpga.rst
> @@ -1,5 +1,5 @@
> .. SPDX-License-Identifier: BSD-3-Clause
> - Copyright(c) 2018 Intel Corporation.
> + Copyright(c) 2018-2022 Intel Corporation.
>
> IFPGA Rawdev Driver
> ======================
> @@ -100,3 +100,115 @@ The following device parameters are supported:
>
> If null, the AFU Bit Stream has been PR in FPGA, if not forces PR and
> identifies AFU Bit Stream file.
> +
> +
> +Open FPGA Stack
> +=====================
> +
> +Open FPGA Stack (OFS) is a collection of RTL and open source software
> +providing interfaces to access the instantiated RTL easily in an FPGA.
> +OFS leverages the DFL for the implementation of the FPGA RTL design.
> +
> +OFS designs allow for the arrangement of software interfaces across
> +multiple PCIe endpoints. Some of these interfaces may be PFs defined in
> +the static region that connect to interfaces in an IP that is loaded via Partial
> Reconfiguration (PR).
> +And some of these interfaces may be VFs defined in the PR region that
> +can be reconfigured by the end-user. Furthermore, these PFs/VFs may use
> +DFLs such that features may be discovered and accessed in user space
> +(with the aid of a generic kernel driver like vfio-pci). The diagram
> +below depicts an example design with two PFs and two VFs. In this
> +example, it will export the management functions via PF0,
> +PF1 will bind with virtio-net driver presenting itself as a network
> +interface to the OS. The other functions, VF0 and VF1, leverage VFIO to
> +export the MMIO space to an application or assign to a VM.::
> +
> + +-----------------+ +--------------+ +-------------+ +------------+
> + | FPGA Management | | VirtIO | | User App | | Virtual |
> + | App | | App | | | | Machine |
> + +--------+--------+ +------+-------+ +------+------+ +-----+------+
> + | | | |
> + +--------+--------+ +------+-------+ +------+------+ |
> + | DFL Driver | |VirtIO driver | | VFIO | |
> + +--------+--------+ +------+-------+ +------+------+ |
> + | | | |
> + | | | |
> + +--------+--------+ +------+-------+ +------+------+ +----+------+
> + | PF0 | | PF1 | | PF0_VF0 | | PF0_VF1 |
> + +-----------------+ +--------------+ +-------------+ +-----------+
> +
> +As accelerators are specialized hardware, they are typically limited in
> +the number installed in a given system. Many use cases require them to
> +be shared across multiple software contexts or threads of software
> +execution, either through partitioning of individual dedicated
> +resources, or virtualization of shared resources. OFS provides several
> +models to share the AFU resources via PR mechanism and hardware-based
> virtualization schemes.
> +
> +1. Legacy model.
> + With legacy model FPGA cards like Intel PAC N3000 or N5000, there is
> + a notion that the boundary between the AFU and the shell is also the unit
> of
> + PR for those FPGA platforms. This model is only able to handle a
> + single context, because it only has one PR engine, and one PR region
> which
> + has an associated Port device.
> +2. Multiple VFs per PR slot.
> + In this model, available AFU resources may allow instantiation of many VFs
> + which have a dedicated PCIe function with their own dedicated MMIO
> space, or
> + partition a region of MMIO space on a single PCIe function. Intel PAC
> N6000
> + card has implemented this model.
> + In this model, the AFU/PR slot was not connected to port device. For DFL's
> view,
> + the Next_AFU pointer in FIU feature header of port device points to NULL
> in this
> + model, so in AFU driver perspective, there is no AFU MMIO region
> managed by
> + AFU driver. On the other hand, each VF can start with an AFU feature
> header without
> + being connected to a FIU Port feature header.
> +
> +In multiple VFs per PR slot model, the port device can still be
> +accessed using ioctls API which expose /dev/dfl-port.h device nodes,
> +like port reset, get port info, whose APIs were mentioned in AFU
> +section in this documentation. But it cannot access the AFU MMIO space
> +via AFU ioctl APIs like DFL_FPGA_PORT_DMA_MAP because there is no
> AFU
> +MMIO space managed in the AFU driver. Users can access the AFU resource
> +by creating VF devices via PCIe SRIOV interface, and then access the VF via
> VFIO driver or assign the VF to VM.
> +
> +In multiple VFs per PR slot model, the steps to enable VFs are
> +compatible with legacy mode which are mentioned in "FPGA virtualization
> +- PCIe SRIOV" section in this documentation.
> +
> +OFS provides the diversity for accessing the AFU resource to RTL developer.
> +An IP designer may choose to add more than one PF for interfacing with
> +IP on the FPGA and choose different model to access the AFU resource.
> +
> +There is one reference architecture design using the "Multiple VFs per PR
> slot"
> +model for OFS as illustrated below. In this reference design, it
> +exports the FPGA management functions via PF0. PF1 will bind with
> +virtio-net driver presenting itself as a network interface to the OS.
> +PF2 will bind to the vfio-pci driver allowing the user space software
> +to discover and interface with the specific workload like diagnostic
> +test. To access the AFU resource, it uses SR-IOV to partition workload
> interfaces across various VFs.::
> +
> + +----------------------+
> + | PF/VF mux/demux |
> + +--+--+-----+------+-+-+
> + | | | | |
> + +------------------------+ | | | |
> + PF0 | +---------+ +-+ | |
> + +---+---+ | +---+----+ | |
> + | DFH | | | DFH | | |
> + +-------+ +-----+----+ +--------+ | |
> + | FME | | VirtIO | | Test | | |
> + +---+---+ +----------+ +--------+ | |
> + | PF1 PF2 | |
> + | | |
> + | +----------+ |
> + | | ++
> + | | |
> + | | PF0_VF0 | PF0_VF1
> + | +-----------------+-----------+------------+
> + | | +-----+-----------+--------+ |
> + | | | | | | |
> + | | +------+ | +--+ -+ +--+---+ | |
> + | | | Port | | | DFH | | DFH | | |
> + +-----------+ +------+ | +-----+ +------+ | |
> + | | | DEV | | DEV | | |
> + | | +-----+ +------+ | |
> + | | PR Slot | |
> + | +--------------------------+ |
> + | Port Gasket |
> + +------------------------------------------+
> --
> 1.8.3.1
Reviewed-by Rosen Xu <rosen.xu@intel.com>
> -----Original Message-----
> From: Huang, Wei <wei.huang@intel.com>
> Sent: Thursday, May 26, 2022 11:33 AM
> To: dev@dpdk.org; thomas@monjalon.net; nipun.gupta@nxp.com;
> hemant.agrawal@nxp.com
> Cc: stable@dpdk.org; Xu, Rosen <rosen.xu@intel.com>; Zhang, Tianfei
> <tianfei.zhang@intel.com>; Zhang, Qi Z <qi.z.zhang@intel.com>; Huang, Wei
> <wei.huang@intel.com>
> Subject: [PATCH v3 5/5] guides/rawdevs: add description of ofs in ifpga doc
>
> OFS (Open FPGA Stack) specification is introduced briefly.
>
> Signed-off-by: Wei Huang <wei.huang@intel.com>
> ---
> doc/guides/rawdevs/ifpga.rst | 114
> ++++++++++++++++++++++++++++++++++++++++++-
> 1 file changed, 113 insertions(+), 1 deletion(-)
>
> diff --git a/doc/guides/rawdevs/ifpga.rst b/doc/guides/rawdevs/ifpga.rst index
> dbd0d6e..8809bfc 100644
> --- a/doc/guides/rawdevs/ifpga.rst
> +++ b/doc/guides/rawdevs/ifpga.rst
> @@ -1,5 +1,5 @@
> .. SPDX-License-Identifier: BSD-3-Clause
> - Copyright(c) 2018 Intel Corporation.
> + Copyright(c) 2018-2022 Intel Corporation.
>
> IFPGA Rawdev Driver
> ======================
> @@ -100,3 +100,115 @@ The following device parameters are supported:
>
> If null, the AFU Bit Stream has been PR in FPGA, if not forces PR and
> identifies AFU Bit Stream file.
> +
> +
> +Open FPGA Stack
> +=====================
> +
> +Open FPGA Stack (OFS) is a collection of RTL and open source software
> +providing interfaces to access the instantiated RTL easily in an FPGA.
> +OFS leverages the DFL for the implementation of the FPGA RTL design.
> +
> +OFS designs allow for the arrangement of software interfaces across
> +multiple PCIe endpoints. Some of these interfaces may be PFs defined in
> +the static region that connect to interfaces in an IP that is loaded via Partial
> Reconfiguration (PR).
> +And some of these interfaces may be VFs defined in the PR region that
> +can be reconfigured by the end-user. Furthermore, these PFs/VFs may use
> +DFLs such that features may be discovered and accessed in user space
> +(with the aid of a generic kernel driver like vfio-pci). The diagram
> +below depicts an example design with two PFs and two VFs. In this
> +example, it will export the management functions via PF0,
> +PF1 will bind with virtio-net driver presenting itself as a network
> +interface to the OS. The other functions, VF0 and VF1, leverage VFIO to
> +export the MMIO space to an application or assign to a VM.::
> +
> + +-----------------+ +--------------+ +-------------+ +------------+
> + | FPGA Management | | VirtIO | | User App | | Virtual |
> + | App | | App | | | | Machine |
> + +--------+--------+ +------+-------+ +------+------+ +-----+------+
> + | | | |
> + +--------+--------+ +------+-------+ +------+------+ |
> + | DFL Driver | |VirtIO driver | | VFIO | |
> + +--------+--------+ +------+-------+ +------+------+ |
> + | | | |
> + | | | |
> + +--------+--------+ +------+-------+ +------+------+ +----+------+
> + | PF0 | | PF1 | | PF0_VF0 | | PF0_VF1 |
> + +-----------------+ +--------------+ +-------------+ +-----------+
> +
This diagram those Applications are DPDK application?
> +As accelerators are specialized hardware, they are typically limited in
> +the number installed in a given system. Many use cases require them to
> +be shared across multiple software contexts or threads of software
> +execution, either through partitioning of individual dedicated
> +resources, or virtualization of shared resources. OFS provides several
> +models to share the AFU resources via PR mechanism and hardware-based
> virtualization schemes.
> +
> +1. Legacy model.
> + With legacy model FPGA cards like Intel PAC N3000 or N5000, there is
> + a notion that the boundary between the AFU and the shell is also the unit of
> + PR for those FPGA platforms. This model is only able to handle a
> + single context, because it only has one PR engine, and one PR region which
> + has an associated Port device.
> +2. Multiple VFs per PR slot.
> + In this model, available AFU resources may allow instantiation of many VFs
> + which have a dedicated PCIe function with their own dedicated MMIO space,
> or
> + partition a region of MMIO space on a single PCIe function. Intel PAC N6000
> + card has implemented this model.
> + In this model, the AFU/PR slot was not connected to port device. For DFL's
> view,
> + the Next_AFU pointer in FIU feature header of port device points to NULL in
> this
> + model, so in AFU driver perspective, there is no AFU MMIO region managed
> by
> + AFU driver. On the other hand, each VF can start with an AFU feature header
> without
> + being connected to a FIU Port feature header.
> +
> +In multiple VFs per PR slot model, the port device can still be
> +accessed using ioctls API which expose /dev/dfl-port.h device nodes,
> +like port reset, get port info, whose APIs were mentioned in AFU
> +section in this documentation. But it cannot access the AFU MMIO space
> +via AFU ioctl APIs like DFL_FPGA_PORT_DMA_MAP because there is no AFU
> +MMIO space managed in the AFU driver. Users can access the AFU resource
> +by creating VF devices via PCIe SRIOV interface, and then access the VF via
> VFIO driver or assign the VF to VM.
This section is not mentioned for DPDK?
> +
> +In multiple VFs per PR slot model, the steps to enable VFs are
> +compatible with legacy mode which are mentioned in "FPGA virtualization
> +- PCIe SRIOV" section in this documentation.
The same of above.
I think we can add a little description how to leverage the virtualization for DPDK usage for PAC card.
> +
> +OFS provides the diversity for accessing the AFU resource to RTL developer.
> +An IP designer may choose to add more than one PF for interfacing with
> +IP on the FPGA and choose different model to access the AFU resource.
> +
> +There is one reference architecture design using the "Multiple VFs per PR slot"
> +model for OFS as illustrated below. In this reference design, it
> +exports the FPGA management functions via PF0. PF1 will bind with
> +virtio-net driver presenting itself as a network interface to the OS.
> +PF2 will bind to the vfio-pci driver allowing the user space software
> +to discover and interface with the specific workload like diagnostic
> +test. To access the AFU resource, it uses SR-IOV to partition workload
> interfaces across various VFs.::
> +
> + +----------------------+
> + | PF/VF mux/demux |
> + +--+--+-----+------+-+-+
> + | | | | |
> + +------------------------+ | | | |
> + PF0 | +---------+ +-+ | |
> + +---+---+ | +---+----+ | |
> + | DFH | | | DFH | | |
> + +-------+ +-----+----+ +--------+ | |
> + | FME | | VirtIO | | Test | | |
> + +---+---+ +----------+ +--------+ | |
> + | PF1 PF2 | |
> + | | |
> + | +----------+ |
> + | | ++
> + | | |
> + | | PF0_VF0 | PF0_VF1
> + | +-----------------+-----------+------------+
> + | | +-----+-----------+--------+ |
> + | | | | | | |
> + | | +------+ | +--+ -+ +--+---+ | |
> + | | | Port | | | DFH | | DFH | | |
> + +-----------+ +------+ | +-----+ +------+ | |
> + | | | DEV | | DEV | | |
> + | | +-----+ +------+ | |
> + | | PR Slot | |
> + | +--------------------------+ |
> + | Port Gasket |
> + +------------------------------------------+
> --
> 1.8.3.1
@@ -1,5 +1,5 @@
.. SPDX-License-Identifier: BSD-3-Clause
- Copyright(c) 2018 Intel Corporation.
+ Copyright(c) 2018-2022 Intel Corporation.
IFPGA Rawdev Driver
======================
@@ -100,3 +100,115 @@ The following device parameters are supported:
If null, the AFU Bit Stream has been PR in FPGA, if not forces PR and
identifies AFU Bit Stream file.
+
+
+Open FPGA Stack
+=====================
+
+Open FPGA Stack (OFS) is a collection of RTL and open source software providing
+interfaces to access the instantiated RTL easily in an FPGA. OFS leverages the
+DFL for the implementation of the FPGA RTL design.
+
+OFS designs allow for the arrangement of software interfaces across multiple
+PCIe endpoints. Some of these interfaces may be PFs defined in the static region
+that connect to interfaces in an IP that is loaded via Partial Reconfiguration (PR).
+And some of these interfaces may be VFs defined in the PR region that can be
+reconfigured by the end-user. Furthermore, these PFs/VFs may use DFLs such that
+features may be discovered and accessed in user space (with the aid of a generic
+kernel driver like vfio-pci). The diagram below depicts an example design with two
+PFs and two VFs. In this example, it will export the management functions via PF0,
+PF1 will bind with virtio-net driver presenting itself as a network interface to
+the OS. The other functions, VF0 and VF1, leverage VFIO to export the MMIO space
+to an application or assign to a VM.::
+
+ +-----------------+ +--------------+ +-------------+ +------------+
+ | FPGA Management | | VirtIO | | User App | | Virtual |
+ | App | | App | | | | Machine |
+ +--------+--------+ +------+-------+ +------+------+ +-----+------+
+ | | | |
+ +--------+--------+ +------+-------+ +------+------+ |
+ | DFL Driver | |VirtIO driver | | VFIO | |
+ +--------+--------+ +------+-------+ +------+------+ |
+ | | | |
+ | | | |
+ +--------+--------+ +------+-------+ +------+------+ +----+------+
+ | PF0 | | PF1 | | PF0_VF0 | | PF0_VF1 |
+ +-----------------+ +--------------+ +-------------+ +-----------+
+
+As accelerators are specialized hardware, they are typically limited in the
+number installed in a given system. Many use cases require them to be shared
+across multiple software contexts or threads of software execution, either
+through partitioning of individual dedicated resources, or virtualization of
+shared resources. OFS provides several models to share the AFU resources via
+PR mechanism and hardware-based virtualization schemes.
+
+1. Legacy model.
+ With legacy model FPGA cards like Intel PAC N3000 or N5000, there is
+ a notion that the boundary between the AFU and the shell is also the unit of
+ PR for those FPGA platforms. This model is only able to handle a
+ single context, because it only has one PR engine, and one PR region which
+ has an associated Port device.
+2. Multiple VFs per PR slot.
+ In this model, available AFU resources may allow instantiation of many VFs
+ which have a dedicated PCIe function with their own dedicated MMIO space, or
+ partition a region of MMIO space on a single PCIe function. Intel PAC N6000
+ card has implemented this model.
+ In this model, the AFU/PR slot was not connected to port device. For DFL's view,
+ the Next_AFU pointer in FIU feature header of port device points to NULL in this
+ model, so in AFU driver perspective, there is no AFU MMIO region managed by
+ AFU driver. On the other hand, each VF can start with an AFU feature header without
+ being connected to a FIU Port feature header.
+
+In multiple VFs per PR slot model, the port device can still be accessed using
+ioctls API which expose /dev/dfl-port.h device nodes, like port reset, get
+port info, whose APIs were mentioned in AFU section in this documentation. But
+it cannot access the AFU MMIO space via AFU ioctl APIs like DFL_FPGA_PORT_DMA_MAP
+because there is no AFU MMIO space managed in the AFU driver. Users can access
+the AFU resource by creating VF devices via PCIe SRIOV interface, and then access
+the VF via VFIO driver or assign the VF to VM.
+
+In multiple VFs per PR slot model, the steps to enable VFs are compatible with
+legacy mode which are mentioned in "FPGA virtualization - PCIe SRIOV" section
+in this documentation.
+
+OFS provides the diversity for accessing the AFU resource to RTL developer.
+An IP designer may choose to add more than one PF for interfacing with IP
+on the FPGA and choose different model to access the AFU resource.
+
+There is one reference architecture design using the "Multiple VFs per PR slot"
+model for OFS as illustrated below. In this reference design, it exports the
+FPGA management functions via PF0. PF1 will bind with virtio-net driver
+presenting itself as a network interface to the OS. PF2 will bind to the
+vfio-pci driver allowing the user space software to discover and interface
+with the specific workload like diagnostic test. To access the AFU resource,
+it uses SR-IOV to partition workload interfaces across various VFs.::
+
+ +----------------------+
+ | PF/VF mux/demux |
+ +--+--+-----+------+-+-+
+ | | | | |
+ +------------------------+ | | | |
+ PF0 | +---------+ +-+ | |
+ +---+---+ | +---+----+ | |
+ | DFH | | | DFH | | |
+ +-------+ +-----+----+ +--------+ | |
+ | FME | | VirtIO | | Test | | |
+ +---+---+ +----------+ +--------+ | |
+ | PF1 PF2 | |
+ | | |
+ | +----------+ |
+ | | ++
+ | | |
+ | | PF0_VF0 | PF0_VF1
+ | +-----------------+-----------+------------+
+ | | +-----+-----------+--------+ |
+ | | | | | | |
+ | | +------+ | +--+ -+ +--+---+ | |
+ | | | Port | | | DFH | | DFH | | |
+ +-----------+ +------+ | +-----+ +------+ | |
+ | | | DEV | | DEV | | |
+ | | +-----+ +------+ | |
+ | | PR Slot | |
+ | +--------------------------+ |
+ | Port Gasket |
+ +------------------------------------------+