#!/bin/bash # Copyright 2017 Google Inc. All Rights Reserved. # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. # For a single-queue / no MSI-X virtionet device, sets the IRQ affinities to # processor 0. For this virtionet configuration, distributing IRQs to all # processors results in comparatively high cpu utilization and comparatively # low network bandwidth. # # For a multi-queue / MSI-X virtionet device, sets the IRQ affinities to the # per-IRQ affinity hint. The virtionet driver maps each virtionet TX (RX) queue # MSI-X interrupt to a unique single CPU if the number of TX (RX) queues equals # the number of online CPUs. The mapping of network MSI-X interrupt vector to # CPUs is stored in the virtionet MSI-X interrupt vector affinity hint. This # configuration allows network traffic to be spread across the CPUs, giving # each CPU a dedicated TX and RX network queue, while ensuring that all packets # from a single flow are delivered to the same CPU. function is_decimal_int() { [ "${1}" -eq "${1}" ] > /dev/null 2>&1 } function set_channels() { ethtool -L "${1}" combined "${2}" > /dev/null 2>&1 } echo "Running $(basename $0)." NET_DEVS=/sys/bus/virtio/drivers/virtio_net/virtio* # Loop through all the virtionet devices and enable multi-queue if [ -x "$(command -v ethtool)" ]; then for dev in $NET_DEVS; do ETH_DEVS=${dev}/net/* for eth_dev in $ETH_DEVS; do eth_dev=$(basename "$eth_dev") if ! errormsg=$(ethtool -l "$eth_dev" 2>&1); then echo "ethtool says that $eth_dev does not support virtionet multiqueue: $errormsg." continue fi num_max_channels=$(ethtool -l "$eth_dev" | grep -m 1 Combined | cut -f2) [ "${num_max_channels}" -eq "1" ] && continue if is_decimal_int "$num_max_channels" && \ set_channels "$eth_dev" "$num_max_channels"; then echo "Set channels for $eth_dev to $num_max_channels." else echo "Could not set channels for $eth_dev to $num_max_channels." fi done done else echo "ethtool not found: cannot configure virtionet multiqueue." fi for dev in $NET_DEVS do dev=$(basename "$dev") irq_dir=/proc/irq/* for irq in $irq_dir do smp_affinity="${irq}/smp_affinity_list" [ ! -f "${smp_affinity}" ] && continue # Classify this IRQ as virtionet intx, virtionet MSI-X, or non-virtionet # If the IRQ type is virtionet intx, a subdirectory with the same name as # the device will be present. If the IRQ type is virtionet MSI-X, then # a subdirectory of the form -.N will exist. # In this case, N is the input (output) queue number, and is specified as # a decimal integer ranging from 0 to K - 1 where K is the number of # input (output) queues in the virtionet device. virtionet_intx_dir="${irq}/${dev}" virtionet_msix_dir_regex=".*/${dev}-(input|output)\.([0-9]+)$" if [ -d "${virtionet_intx_dir}" ]; then # All virtionet intx IRQs are delivered to CPU 0 echo "Setting ${smp_affinity} to 01 for device ${dev}." echo "01" > "${smp_affinity}" continue fi # Not virtionet intx, probe for MSI-X virtionet_msix_found=0 for entry in ${irq}/${dev}*; do if [[ "$entry" =~ ${virtionet_msix_dir_regex} ]]; then virtionet_msix_found=1 queue_num=${BASH_REMATCH[2]} fi done affinity_hint="${irq}/affinity_hint" [ "$virtionet_msix_found" -eq 0 -o ! -f "${affinity_hint}" ] && continue # Set the IRQ CPU affinity to the virtionet-initialized affinity hint echo "Setting ${smp_affinity} to ${queue_num} for device ${dev}." echo "${queue_num}" > "${smp_affinity}" real_affinity=`cat ${smp_affinity}` echo "${smp_affinity}: real affinity ${real_affinity}" done done XPS=/sys/class/net/e*/queues/tx*/xps_cpus num_cpus=$(nproc) num_queues=0 for q in $XPS; do num_queues=$((num_queues + 1)) done # If we have more CPUs than queues, then stripe CPUs across tx affinity # as CPUNumber % queue_count. for q in $XPS; do queue_re=".*tx-([0-9]+).*$" if [[ "$q" =~ ${queue_re} ]]; then queue_num=${BASH_REMATCH[1]} fi xps=0 for cpu in `seq $queue_num $num_queues $((num_cpus - 1))`; do xps=$((xps | (1 << cpu))) done # Linux xps_cpus requires a hex number with commas every 32 bits. # It ignores all bits above # cpus, so unconditionally write a # 64 bit hex value, with a comma between dwords. xps_string=`printf "%08x,%08x" $((xps >> 32 & 0xffffffff)) $((xps & 0xffffffff))` echo ${xps_string} > $q printf "Queue %d XPS=%s for %s\n" $queue_num `cat $q` $q done | sort -n -k2