forked from luck/tmp_suning_uos_patched
Documentation: net: octeontx2: Add RVU HW and drivers overview
Added high level overview of OcteonTx2 RVU HW and functionality of various drivers which will be upstreamed. Signed-off-by: Sunil Goutham <sgoutham@marvell.com> Signed-off-by: David S. Miller <davem@davemloft.net>
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@ -22,6 +22,7 @@ Contents:
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intel/iavf
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intel/ice
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google/gve
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marvell/octeontx2
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mellanox/mlx5
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netronome/nfp
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pensando/ionic
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159
Documentation/networking/device_drivers/marvell/octeontx2.rst
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159
Documentation/networking/device_drivers/marvell/octeontx2.rst
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.. SPDX-License-Identifier: (GPL-2.0-only OR BSD-2-Clause)
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====================================
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Marvell OcteonTx2 RVU Kernel Drivers
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====================================
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Copyright (c) 2020 Marvell International Ltd.
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Contents
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========
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- `Overview`_
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- `Drivers`_
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- `Basic packet flow`_
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Overview
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========
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Resource virtualization unit (RVU) on Marvell's OcteonTX2 SOC maps HW
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resources from the network, crypto and other functional blocks into
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PCI-compatible physical and virtual functions. Each functional block
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again has multiple local functions (LFs) for provisioning to PCI devices.
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RVU supports multiple PCIe SRIOV physical functions (PFs) and virtual
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functions (VFs). PF0 is called the administrative / admin function (AF)
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and has privileges to provision RVU functional block's LFs to each of the
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PF/VF.
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RVU managed networking functional blocks
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- Network pool or buffer allocator (NPA)
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- Network interface controller (NIX)
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- Network parser CAM (NPC)
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- Schedule/Synchronize/Order unit (SSO)
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- Loopback interface (LBK)
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RVU managed non-networking functional blocks
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- Crypto accelerator (CPT)
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- Scheduled timers unit (TIM)
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- Schedule/Synchronize/Order unit (SSO)
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Used for both networking and non networking usecases
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Resource provisioning examples
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- A PF/VF with NIX-LF & NPA-LF resources works as a pure network device
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- A PF/VF with CPT-LF resource works as a pure crypto offload device.
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RVU functional blocks are highly configurable as per software requirements.
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Firmware setups following stuff before kernel boots
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- Enables required number of RVU PFs based on number of physical links.
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- Number of VFs per PF are either static or configurable at compile time.
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Based on config, firmware assigns VFs to each of the PFs.
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- Also assigns MSIX vectors to each of PF and VFs.
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- These are not changed after kernel boot.
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Drivers
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=======
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Linux kernel will have multiple drivers registering to different PF and VFs
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of RVU. Wrt networking there will be 3 flavours of drivers.
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Admin Function driver
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---------------------
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As mentioned above RVU PF0 is called the admin function (AF), this driver
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supports resource provisioning and configuration of functional blocks.
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Doesn't handle any I/O. It sets up few basic stuff but most of the
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funcionality is achieved via configuration requests from PFs and VFs.
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PF/VFs communicates with AF via a shared memory region (mailbox). Upon
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receiving requests AF does resource provisioning and other HW configuration.
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AF is always attached to host kernel, but PFs and their VFs may be used by host
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kernel itself, or attached to VMs or to userspace applications like
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DPDK etc. So AF has to handle provisioning/configuration requests sent
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by any device from any domain.
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AF driver also interacts with underlying firmware to
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- Manage physical ethernet links ie CGX LMACs.
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- Retrieve information like speed, duplex, autoneg etc
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- Retrieve PHY EEPROM and stats.
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- Configure FEC, PAM modes
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- etc
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From pure networking side AF driver supports following functionality.
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- Map a physical link to a RVU PF to which a netdev is registered.
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- Attach NIX and NPA block LFs to RVU PF/VF which provide buffer pools, RQs, SQs
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for regular networking functionality.
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- Flow control (pause frames) enable/disable/config.
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- HW PTP timestamping related config.
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- NPC parser profile config, basically how to parse pkt and what info to extract.
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- NPC extract profile config, what to extract from the pkt to match data in MCAM entries.
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- Manage NPC MCAM entries, upon request can frame and install requested packet forwarding rules.
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- Defines receive side scaling (RSS) algorithms.
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- Defines segmentation offload algorithms (eg TSO)
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- VLAN stripping, capture and insertion config.
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- SSO and TIM blocks config which provide packet scheduling support.
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- Debugfs support, to check current resource provising, current status of
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NPA pools, NIX RQ, SQ and CQs, various stats etc which helps in debugging issues.
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- And many more.
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Physical Function driver
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------------------------
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This RVU PF handles IO, is mapped to a physical ethernet link and this
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driver registers a netdev. This supports SR-IOV. As said above this driver
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communicates with AF with a mailbox. To retrieve information from physical
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links this driver talks to AF and AF gets that info from firmware and responds
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back ie cannot talk to firmware directly.
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Supports ethtool for configuring links, RSS, queue count, queue size,
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flow control, ntuple filters, dump PHY EEPROM, config FEC etc.
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Virtual Function driver
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-----------------------
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There are two types VFs, VFs that share the physical link with their parent
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SR-IOV PF and the VFs which work in pairs using internal HW loopback channels (LBK).
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Type1:
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- These VFs and their parent PF share a physical link and used for outside communication.
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- VFs cannot communicate with AF directly, they send mbox message to PF and PF
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forwards that to AF. AF after processing, responds back to PF and PF forwards
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the reply to VF.
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- From functionality point of view there is no difference between PF and VF as same type
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HW resources are attached to both. But user would be able to configure few stuff only
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from PF as PF is treated as owner/admin of the link.
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Type2:
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- RVU PF0 ie admin function creates these VFs and maps them to loopback block's channels.
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- A set of two VFs (VF0 & VF1, VF2 & VF3 .. so on) works as a pair ie pkts sent out of
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VF0 will be received by VF1 and viceversa.
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- These VFs can be used by applications or virtual machines to communicate between them
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without sending traffic outside. There is no switch present in HW, hence the support
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for loopback VFs.
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- These communicate directly with AF (PF0) via mbox.
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Except for the IO channels or links used for packet reception and transmission there is
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no other difference between these VF types. AF driver takes care of IO channel mapping,
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hence same VF driver works for both types of devices.
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Basic packet flow
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=================
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Ingress
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-------
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1. CGX LMAC receives packet.
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2. Forwards the packet to the NIX block.
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3. Then submitted to NPC block for parsing and then MCAM lookup to get the destination RVU device.
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4. NIX LF attached to the destination RVU device allocates a buffer from RQ mapped buffer pool of NPA block LF.
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5. RQ may be selected by RSS or by configuring MCAM rule with a RQ number.
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6. Packet is DMA'ed and driver is notified.
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Egress
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------
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1. Driver prepares a send descriptor and submits to SQ for transmission.
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2. The SQ is already configured (by AF) to transmit on a specific link/channel.
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3. The SQ descriptor ring is maintained in buffers allocated from SQ mapped pool of NPA block LF.
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4. NIX block transmits the pkt on the designated channel.
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5. NPC MCAM entries can be installed to divert pkt onto a different channel.
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@ -10000,6 +10000,7 @@ M: Jerin Jacob <jerinj@marvell.com>
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L: netdev@vger.kernel.org
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S: Supported
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F: drivers/net/ethernet/marvell/octeontx2/af/
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F: Documentation/networking/device_drivers/marvell/octeontx2.rst
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MATROX FRAMEBUFFER DRIVER
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L: linux-fbdev@vger.kernel.org
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