0659191630
Signed-off-by: Madalin Bucur <madalin.bucur@nxp.com> Signed-off-by: David S. Miller <davem@davemloft.net>
260 lines
9.4 KiB
Text
260 lines
9.4 KiB
Text
The QorIQ DPAA Ethernet Driver
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==============================
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Authors:
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Madalin Bucur <madalin.bucur@nxp.com>
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Camelia Groza <camelia.groza@nxp.com>
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Contents
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========
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- DPAA Ethernet Overview
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- DPAA Ethernet Supported SoCs
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- Configuring DPAA Ethernet in your kernel
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- DPAA Ethernet Frame Processing
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- DPAA Ethernet Features
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- DPAA IRQ Affinity and Receive Side Scaling
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- Debugging
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DPAA Ethernet Overview
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======================
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DPAA stands for Data Path Acceleration Architecture and it is a
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set of networking acceleration IPs that are available on several
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generations of SoCs, both on PowerPC and ARM64.
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The Freescale DPAA architecture consists of a series of hardware blocks
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that support Ethernet connectivity. The Ethernet driver depends upon the
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following drivers in the Linux kernel:
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- Peripheral Access Memory Unit (PAMU) (* needed only for PPC platforms)
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drivers/iommu/fsl_*
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- Frame Manager (FMan)
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drivers/net/ethernet/freescale/fman
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- Queue Manager (QMan), Buffer Manager (BMan)
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drivers/soc/fsl/qbman
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A simplified view of the dpaa_eth interfaces mapped to FMan MACs:
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dpaa_eth /eth0\ ... /ethN\
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driver | | | |
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------------- ---- ----------- ---- -------------
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-Ports / Tx Rx \ ... / Tx Rx \
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FMan | | | |
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-MACs | MAC0 | | MACN |
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/ dtsec0 \ ... / dtsecN \ (or tgec)
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/ \ / \(or memac)
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--------- -------------- --- -------------- ---------
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FMan, FMan Port, FMan SP, FMan MURAM drivers
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---------------------------------------------------------
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FMan HW blocks: MURAM, MACs, Ports, SP
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---------------------------------------------------------
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The dpaa_eth relation to the QMan, BMan and FMan:
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________________________________
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dpaa_eth / eth0 \
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driver / \
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--------- -^- -^- -^- --- ---------
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QMan driver / \ / \ / \ \ / | BMan |
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|Rx | |Rx | |Tx | |Tx | | driver |
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--------- |Dfl| |Err| |Cnf| |FQs| | |
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QMan HW |FQ | |FQ | |FQs| | | | |
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/ \ / \ / \ \ / | |
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--------- --- --- --- -v- ---------
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| FMan QMI | |
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| FMan HW FMan BMI | BMan HW |
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----------------------- --------
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where the acronyms used above (and in the code) are:
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DPAA = Data Path Acceleration Architecture
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FMan = DPAA Frame Manager
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QMan = DPAA Queue Manager
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BMan = DPAA Buffers Manager
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QMI = QMan interface in FMan
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BMI = BMan interface in FMan
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FMan SP = FMan Storage Profiles
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MURAM = Multi-user RAM in FMan
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FQ = QMan Frame Queue
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Rx Dfl FQ = default reception FQ
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Rx Err FQ = Rx error frames FQ
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Tx Cnf FQ = Tx confirmation FQs
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Tx FQs = transmission frame queues
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dtsec = datapath three speed Ethernet controller (10/100/1000 Mbps)
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tgec = ten gigabit Ethernet controller (10 Gbps)
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memac = multirate Ethernet MAC (10/100/1000/10000)
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DPAA Ethernet Supported SoCs
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============================
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The DPAA drivers enable the Ethernet controllers present on the following SoCs:
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# PPC
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P1023
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P2041
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P3041
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P4080
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P5020
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P5040
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T1023
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T1024
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T1040
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T1042
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T2080
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T4240
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B4860
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# ARM
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LS1043A
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LS1046A
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Configuring DPAA Ethernet in your kernel
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========================================
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To enable the DPAA Ethernet driver, the following Kconfig options are required:
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# common for arch/arm64 and arch/powerpc platforms
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CONFIG_FSL_DPAA=y
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CONFIG_FSL_FMAN=y
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CONFIG_FSL_DPAA_ETH=y
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CONFIG_FSL_XGMAC_MDIO=y
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# for arch/powerpc only
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CONFIG_FSL_PAMU=y
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# common options needed for the PHYs used on the RDBs
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CONFIG_VITESSE_PHY=y
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CONFIG_REALTEK_PHY=y
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CONFIG_AQUANTIA_PHY=y
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DPAA Ethernet Frame Processing
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==============================
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On Rx, buffers for the incoming frames are retrieved from one of the three
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existing buffers pools. The driver initializes and seeds these, each with
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buffers of different sizes: 1KB, 2KB and 4KB.
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On Tx, all transmitted frames are returned to the driver through Tx
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confirmation frame queues. The driver is then responsible for freeing the
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buffers. In order to do this properly, a backpointer is added to the buffer
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before transmission that points to the skb. When the buffer returns to the
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driver on a confirmation FQ, the skb can be correctly consumed.
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DPAA Ethernet Features
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======================
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Currently the DPAA Ethernet driver enables the basic features required for
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a Linux Ethernet driver. The support for advanced features will be added
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gradually.
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The driver has Rx and Tx checksum offloading for UDP and TCP. Currently the Rx
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checksum offload feature is enabled by default and cannot be controlled through
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ethtool. Also, rx-flow-hash and rx-hashing was added. The addition of RSS
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provides a big performance boost for the forwarding scenarios, allowing
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different traffic flows received by one interface to be processed by different
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CPUs in parallel.
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The driver has support for multiple prioritized Tx traffic classes. Priorities
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range from 0 (lowest) to 3 (highest). These are mapped to HW workqueues with
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strict priority levels. Each traffic class contains NR_CPU TX queues. By
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default, only one traffic class is enabled and the lowest priority Tx queues
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are used. Higher priority traffic classes can be enabled with the mqprio
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qdisc. For example, all four traffic classes are enabled on an interface with
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the following command. Furthermore, skb priority levels are mapped to traffic
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classes as follows:
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* priorities 0 to 3 - traffic class 0 (low priority)
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* priorities 4 to 7 - traffic class 1 (medium-low priority)
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* priorities 8 to 11 - traffic class 2 (medium-high priority)
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* priorities 12 to 15 - traffic class 3 (high priority)
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tc qdisc add dev <int> root handle 1: \
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mqprio num_tc 4 map 0 0 0 0 1 1 1 1 2 2 2 2 3 3 3 3 hw 1
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DPAA IRQ Affinity and Receive Side Scaling
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==========================================
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Traffic coming on the DPAA Rx queues or on the DPAA Tx confirmation
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queues is seen by the CPU as ingress traffic on a certain portal.
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The DPAA QMan portal interrupts are affined each to a certain CPU.
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The same portal interrupt services all the QMan portal consumers.
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By default the DPAA Ethernet driver enables RSS, making use of the
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DPAA FMan Parser and Keygen blocks to distribute traffic on 128
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hardware frame queues using a hash on IP v4/v6 source and destination
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and L4 source and destination ports, in present in the received frame.
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When RSS is disabled, all traffic received by a certain interface is
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received on the default Rx frame queue. The default DPAA Rx frame
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queues are configured to put the received traffic into a pool channel
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that allows any available CPU portal to dequeue the ingress traffic.
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The default frame queues have the HOLDACTIVE option set, ensuring that
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traffic bursts from a certain queue are serviced by the same CPU.
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This ensures a very low rate of frame reordering. A drawback of this
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is that only one CPU at a time can service the traffic received by a
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certain interface when RSS is not enabled.
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To implement RSS, the DPAA Ethernet driver allocates an extra set of
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128 Rx frame queues that are configured to dedicated channels, in a
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round-robin manner. The mapping of the frame queues to CPUs is now
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hardcoded, there is no indirection table to move traffic for a certain
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FQ (hash result) to another CPU. The ingress traffic arriving on one
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of these frame queues will arrive at the same portal and will always
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be processed by the same CPU. This ensures intra-flow order preservation
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and workload distribution for multiple traffic flows.
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RSS can be turned off for a certain interface using ethtool, i.e.
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# ethtool -N fm1-mac9 rx-flow-hash tcp4 ""
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To turn it back on, one needs to set rx-flow-hash for tcp4/6 or udp4/6:
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# ethtool -N fm1-mac9 rx-flow-hash udp4 sfdn
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There is no independent control for individual protocols, any command
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run for one of tcp4|udp4|ah4|esp4|sctp4|tcp6|udp6|ah6|esp6|sctp6 is
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going to control the rx-flow-hashing for all protocols on that interface.
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Besides using the FMan Keygen computed hash for spreading traffic on the
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128 Rx FQs, the DPAA Ethernet driver also sets the skb hash value when
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the NETIF_F_RXHASH feature is on (active by default). This can be turned
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on or off through ethtool, i.e.:
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# ethtool -K fm1-mac9 rx-hashing off
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# ethtool -k fm1-mac9 | grep hash
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receive-hashing: off
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# ethtool -K fm1-mac9 rx-hashing on
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Actual changes:
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receive-hashing: on
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# ethtool -k fm1-mac9 | grep hash
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receive-hashing: on
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Please note that Rx hashing depends upon the rx-flow-hashing being on
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for that interface - turning off rx-flow-hashing will also disable the
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rx-hashing (without ethtool reporting it as off as that depends on the
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NETIF_F_RXHASH feature flag).
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Debugging
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=========
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The following statistics are exported for each interface through ethtool:
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- interrupt count per CPU
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- Rx packets count per CPU
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- Tx packets count per CPU
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- Tx confirmed packets count per CPU
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- Tx S/G frames count per CPU
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- Tx error count per CPU
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- Rx error count per CPU
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- Rx error count per type
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- congestion related statistics:
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- congestion status
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- time spent in congestion
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- number of time the device entered congestion
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- dropped packets count per cause
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The driver also exports the following information in sysfs:
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- the FQ IDs for each FQ type
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/sys/devices/platform/dpaa-ethernet.0/net/<int>/fqids
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- the IDs of the buffer pools in use
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/sys/devices/platform/dpaa-ethernet.0/net/<int>/bpids
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