29. IPN3KE Poll Mode Driver
The ipn3ke PMD (librte_net_ipn3ke) provides poll mode driver support for Intel® FPGA PAC(Programmable Acceleration Card) N3000 based on the Intel Ethernet Controller X710/XXV710 and Intel Arria 10 FPGA.
In this card, FPGA is an acceleration bridge between network interface and the Intel Ethernet Controller. Although both FPGA and Ethernet Controllers are connected to CPU with PCIe Gen3x16 Switch, all the packet RX/TX is handled by Intel Ethernet Controller. So from application point of view the data path is still the legacy Intel Ethernet Controller X710/XXV710 PMD. Besides this, users can enable more acceleration features by FPGA IP.
29.1. Prerequisites
Identifying your adapter using Intel Support and get the latest NVM/FW images.
Follow the DPDK Getting Started Guide for Linux to setup the basic DPDK environment.
To get better performance on Intel platforms, please follow the “How to get best performance with NICs on Intel platforms” section of the Getting Started Guide for Linux.
29.2. Pre-Installation Configuration
29.2.1. Runtime Config Options
AFU name
AFU name identifies which AFU is used by IPN3KE. The AFU name format is “Port|BDF”, Each FPGA can be divided into four blocks at most. “Port” identifies which FPGA block the AFU bitstream belongs to, but currently only 0 IPN3KE support. “BDF” means FPGA PCIe BDF. For example:
--vdev 'ipn3ke_cfg0,afu=0|b3:00.0'
FPGA Acceleration list
For IPN3KE FPGA can provide different bitstream, different bitstream includes different Acceleration, so users need to identify which Acceleration is used. Current IPN3KE can support TM and Flow Acceleration, for example:
--vdev 'ipn3ke_cfg0,afu=0|b3:00.0,fpga_acc={tm|flow}'
I40e PF name list
Users need to bind FPGA LineSidePort to FVL PF. So I40e PF name list should be involved in startup command. For example:
--vdev 'ipn3ke_cfg0,afu=0|b3:00.0,fpga_acc={tm|flow},i40e_pf={0000:b1:00.0|0000:b1:00.1|0000:b1:00.2|0000:b1:00.3|0000:b5:00.0|0000:b5:00.1|0000:b5:00.2|0000:b5:00.3}'
29.3. Driver compilation and testing
Refer to the document compiling and testing a PMD for a NIC for details.
29.4. Sample Application Notes
29.4.1. Packet TX/RX with FPGA Pass-through image
FPGA Pass-through bitstream is original FPGA Image.
To start testpmd
, and add I40e PF to FPGA network port:
./<build_dir>/app/dpdk-testpmd -l 0-15 -n 4 --vdev 'ifpga_rawdev_cfg0,ifpga=b3:00.0,port=0' --vdev 'ipn3ke_cfg0,afu=0|b3:00.0,i40e_pf={0000:b1:00.0|0000:b1:00.1|0000:b1:00.2|0000:b1:00.3|0000:b5:00.0|0000:b5:00.1|0000:b5:00.2|0000:b5:00.3}' -- -i --no-numa --port-topology=loop
29.4.2. HQoS and flow acceleration
HQoS and flow acceleration bitstream is used to offloading HQoS and flow classifier.
To start testpmd
, and add I40e PF to FPGA network port, enable FPGA HQoS and Flow Acceleration:
./<build_dir>/app/dpdk-testpmd -l 0-15 -n 4 --vdev 'ifpga_rawdev_cfg0,ifpga=b3:00.0,port=0' --vdev 'ipn3ke_cfg0,afu=0|b3:00.0,fpga_acc={tm|flow},i40e_pf={0000:b1:00.0|0000:b1:00.1|0000:b1:00.2|0000:b1:00.3|0000:b5:00.0|0000:b5:00.1|0000:b5:00.2|0000:b5:00.3}' -- -i --no-numa --forward-mode=macswap
29.5. Limitations or Known issues
29.5.1. 19.05 limitation
Ipn3ke code released in 19.05 is for evaluation only.