numam-spdk/scripts/setup.sh

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#!/usr/bin/env bash
set -e
os=$(uname -s)
if [[ $os != Linux && $os != FreeBSD ]]; then
echo "Not supported platform ($os), aborting"
exit 1
fi
rootdir=$(readlink -f $(dirname $0))/..
source "$rootdir/scripts/common.sh"
function usage() {
if [[ $os == Linux ]]; then
options="[config|reset|status|cleanup|help]"
else
options="[config|reset|help]"
fi
[[ -n $2 ]] && (
echo "$2"
echo ""
)
echo "Helper script for allocating hugepages and binding NVMe, I/OAT, VMD and Virtio devices"
echo "to a generic VFIO kernel driver. If VFIO is not available on the system, this script"
echo "will fall back to UIO. NVMe and Virtio devices with active mountpoints will be ignored."
echo "All hugepage operations use default hugepage size on the system (hugepagesz)."
echo "Usage: $(basename $1) $options"
echo
echo "$options - as following:"
echo "config Default mode. Allocate hugepages and bind PCI devices."
if [[ $os == Linux ]]; then
echo "cleanup Remove any orphaned files that can be left in the system after SPDK application exit"
fi
echo "reset Rebind PCI devices back to their original drivers."
echo " Also cleanup any leftover spdk files/resources."
echo " Hugepage memory size will remain unchanged."
if [[ $os == Linux ]]; then
echo "status Print status of all SPDK-compatible devices on the system."
fi
echo "help Print this help message."
echo
echo "The following environment variables can be specified."
echo "HUGEMEM Size of hugepage memory to allocate (in MB). 2048 by default."
echo " For NUMA systems, the hugepages will be distributed on node0 by"
echo " default."
echo "HUGE_EVEN_ALLOC If set to 'yes', hugepages will be evenly distributed across all"
echo " system's NUMA nodes (effectively ignoring anything set in HUGENODE)."
echo " Uses kernel's default for hugepages size."
echo "NRHUGE Number of hugepages to allocate. This variable overwrites HUGEMEM."
echo "HUGENODE Specific NUMA node to allocate hugepages on. Multiple nodes can be"
echo " separated with comas. By default, NRHUGE will be applied on each node."
echo " Hugepages can be defined per node with e.g.:"
echo " HUGENODE='nodes_hp[0]=2048,nodes_hp[1]=512,2' - this will allocate"
echo " 2048 pages for node0, 512 for node1 and default NRHUGE for node2."
echo "HUGEPGSZ Size of the hugepages to use in kB. If not set, kernel's default"
echo " setting is used."
echo "CLEAR_HUGE If set to 'yes', the attempt to remove hugepages from all nodes will"
echo " be made prior to allocation".
echo "PCI_ALLOWED"
echo "PCI_BLOCKED Whitespace separated list of PCI devices (NVMe, I/OAT, VMD, Virtio)."
echo " Each device must be specified as a full PCI address."
echo " E.g. PCI_ALLOWED=\"0000:01:00.0 0000:02:00.0\""
echo " To block all PCI devices use a non-valid address."
echo " E.g. PCI_BLOCKED=\"none\""
echo " If PCI_ALLOWED and PCI_BLOCKED are empty or unset, all PCI devices"
echo " will be bound."
echo " Each device in PCI_BLOCKED will be ignored (driver won't be changed)."
echo " PCI_BLOCKED has precedence over PCI_ALLOWED."
echo "TARGET_USER User that will own hugepage mountpoint directory and vfio groups."
echo " By default the current user will be used."
echo "DRIVER_OVERRIDE Disable automatic vfio-pci/uio_pci_generic selection and forcefully"
echo " bind devices to the given driver."
echo " E.g. DRIVER_OVERRIDE=uio_pci_generic or DRIVER_OVERRIDE=/home/public/dpdk/build/kmod/igb_uio.ko"
echo "PCI_BLOCK_SYNC_ON_RESET"
echo " If set in the environment, the attempt to wait for block devices associated"
echo " with given PCI device will be made upon reset"
exit 0
}
# In monolithic kernels the lsmod won't work. So
# back that with a /sys/modules. We also check
# /sys/bus/pci/drivers/ as neither lsmod nor /sys/modules might
# contain needed info (like in Fedora-like OS).
function check_for_driver() {
if lsmod | grep -q ${1//-/_}; then
return 1
fi
if [[ -d /sys/module/${1} || -d \
/sys/module/${1//-/_} || -d \
/sys/bus/pci/drivers/${1} || -d \
/sys/bus/pci/drivers/${1//-/_} ]]; then
return 2
fi
return 0
}
function check_for_driver_freebsd() {
# Check if dpdk drivers (nic_uio, contigmem) are in the kernel's module path.
local search_paths path driver
IFS=";" read -ra search_paths < <(kldconfig -rU)
for driver in contigmem.ko nic_uio.ko; do
for path in "${search_paths[@]}"; do
[[ -f $path/$driver ]] && continue 2
done
return 1
done
return 0
}
function pci_dev_echo() {
local bdf="$1"
shift
echo "$bdf (${pci_ids_vendor["$bdf"]#0x} ${pci_ids_device["$bdf"]#0x}): $*"
}
function linux_bind_driver() {
bdf="$1"
driver_name="$2"
old_driver_name=${drivers_d["$bdf"]:-no driver}
ven_dev_id="${pci_ids_vendor["$bdf"]#0x} ${pci_ids_device["$bdf"]#0x}"
if [[ $driver_name == "$old_driver_name" ]]; then
pci_dev_echo "$bdf" "Already using the $old_driver_name driver"
return 0
fi
if [[ $old_driver_name != "no driver" ]]; then
echo "$ven_dev_id" > "/sys/bus/pci/devices/$bdf/driver/remove_id" 2> /dev/null || true
echo "$bdf" > "/sys/bus/pci/devices/$bdf/driver/unbind"
fi
pci_dev_echo "$bdf" "$old_driver_name -> $driver_name"
echo "$ven_dev_id" > "/sys/bus/pci/drivers/$driver_name/new_id" 2> /dev/null || true
echo "$bdf" > "/sys/bus/pci/drivers/$driver_name/bind" 2> /dev/null || true
if [[ $driver_name == uio_pci_generic ]] && ! check_for_driver igb_uio; then
# Check if the uio_pci_generic driver is broken as it might be in
# some 4.18.x kernels (see centos8 for instance) - if our device
# didn't get a proper uio entry, fallback to igb_uio
if [[ ! -e /sys/bus/pci/devices/$bdf/uio ]]; then
pci_dev_echo "$bdf" "uio_pci_generic potentially broken, moving to igb_uio"
drivers_d["$bdf"]="no driver"
# This call will override $driver_name for remaining devices as well
linux_bind_driver "$bdf" igb_uio
fi
fi
iommu_group=$(basename $(readlink -f /sys/bus/pci/devices/$bdf/iommu_group))
if [ -e "/dev/vfio/$iommu_group" ]; then
if [ -n "$TARGET_USER" ]; then
chown "$TARGET_USER" "/dev/vfio/$iommu_group"
fi
fi
}
function linux_unbind_driver() {
local bdf="$1"
local ven_dev_id
ven_dev_id="${pci_ids_vendor["$bdf"]#0x} ${pci_ids_device["$bdf"]#0x}"
local old_driver_name=${drivers_d["$bdf"]:-no driver}
if [[ -e /sys/bus/pci/drivers/$old_driver_name ]]; then
echo "$ven_dev_id" > "/sys/bus/pci/drivers/$old_driver_name/remove_id" 2> /dev/null || true
echo "$bdf" > "/sys/bus/pci/drivers/$old_driver_name/unbind"
fi
pci_dev_echo "$bdf" "$old_driver_name -> no driver"
}
function linux_hugetlbfs_mounts() {
mount | grep ' type hugetlbfs ' | awk '{ print $3 }'
}
function get_block_dev_from_bdf() {
local bdf=$1
local block
for block in /sys/block/*; do
if [[ $(readlink -f "$block/device") == *"/$bdf/"* ]]; then
echo "${block##*/}"
fi
done
}
function get_mounted_part_dev_from_bdf_block() {
local bdf=$1
local blocks block dev mount
hash lsblk || return 1
blocks=($(get_block_dev_from_bdf "$bdf"))
for block in "${blocks[@]}"; do
while read -r dev mount; do
if [[ -e $mount ]]; then
echo "$block:$dev"
fi
done < <(lsblk -l -n -o NAME,MOUNTPOINT "/dev/$block")
done
}
function collect_devices() {
# NVMe, IOAT, IDXD, VIRTIO, VMD
local ids dev_type dev_id bdf bdfs in_use driver
ids+="PCI_DEVICE_ID_INTEL_IOAT"
ids+="|PCI_DEVICE_ID_INTEL_IDXD"
ids+="|PCI_DEVICE_ID_VIRTIO"
ids+="|PCI_DEVICE_ID_INTEL_VMD"
ids+="|SPDK_PCI_CLASS_NVME"
local -gA nvme_d ioat_d idxd_d virtio_d vmd_d all_devices_d drivers_d
while read -r _ dev_type dev_id; do
bdfs=(${pci_bus_cache["0x8086:$dev_id"]})
[[ $dev_type == *NVME* ]] && bdfs=(${pci_bus_cache["$dev_id"]})
[[ $dev_type == *VIRT* ]] && bdfs=(${pci_bus_cache["0x1af4:$dev_id"]})
[[ $dev_type =~ (NVME|IOAT|IDXD|VIRTIO|VMD) ]] && dev_type=${BASH_REMATCH[1],,}
for bdf in "${bdfs[@]}"; do
in_use=0
if [[ $1 != status ]]; then
if ! pci_can_use "$bdf"; then
pci_dev_echo "$bdf" "Skipping denied controller at $bdf"
in_use=1
fi
if [[ $dev_type == nvme || $dev_type == virtio ]]; then
if ! verify_bdf_mounts "$bdf"; then
in_use=1
fi
fi
if [[ $dev_type == vmd ]]; then
if [[ $PCI_ALLOWED != *"$bdf"* ]]; then
pci_dev_echo "$bdf" "Skipping not allowed VMD controller at $bdf"
in_use=1
fi
fi
fi
eval "${dev_type}_d[$bdf]=$in_use"
all_devices_d["$bdf"]=$in_use
if [[ -e /sys/bus/pci/devices/$bdf/driver ]]; then
driver=$(readlink -f "/sys/bus/pci/devices/$bdf/driver")
drivers_d["$bdf"]=${driver##*/}
fi
done
done < <(grep -E "$ids" "$rootdir/include/spdk/pci_ids.h")
}
function collect_driver() {
local bdf=$1
local drivers driver
[[ -e /sys/bus/pci/devices/$bdf/modalias ]] || return 1
if drivers=($(modprobe -R "$(< "/sys/bus/pci/devices/$bdf/modalias")")); then
# Pick first entry in case multiple aliases are bound to a driver.
driver=$(readlink -f "/sys/module/${drivers[0]}/drivers/pci:"*)
driver=${driver##*/}
else
[[ -n ${nvme_d["$bdf"]} ]] && driver=nvme
[[ -n ${ioat_d["$bdf"]} ]] && driver=ioatdma
[[ -n ${idxd_d["$bdf"]} ]] && driver=idxd
[[ -n ${virtio_d["$bdf"]} ]] && driver=virtio-pci
[[ -n ${vmd_d["$bdf"]} ]] && driver=vmd
fi 2> /dev/null
echo "$driver"
}
function verify_bdf_mounts() {
local bdf=$1
local blknames
blknames=($(get_mounted_part_dev_from_bdf_block "$bdf")) || return 1
if ((${#blknames[@]} > 0)); then
local IFS=","
pci_dev_echo "$bdf" "Active mountpoints on ${blknames[*]}, so not binding PCI dev"
return 1
fi
}
function configure_linux_pci() {
local driver_path=""
driver_name=""
igb_uio_fallback=""
if [[ -r "$rootdir/dpdk/build-tmp/kernel/linux/igb_uio/igb_uio.ko" ]]; then
# igb_uio is a common driver to override with and it depends on uio.
modprobe uio || true
if ! check_for_driver igb_uio || insmod "$rootdir/dpdk/build-tmp/kernel/linux/igb_uio/igb_uio.ko"; then
igb_uio_fallback="$rootdir/dpdk/build-tmp/kernel/linux/igb_uio/igb_uio.ko"
fi
fi
if [[ -n "${DRIVER_OVERRIDE}" ]]; then
driver_path="$DRIVER_OVERRIDE"
driver_name="${DRIVER_OVERRIDE##*/}"
# modprobe and the sysfs don't use the .ko suffix.
driver_name=${driver_name%.ko}
# path = name -> there is no path
if [[ "$driver_path" = "$driver_name" ]]; then
driver_path=""
fi
elif [[ -n "$(ls /sys/kernel/iommu_groups)" || (-e \
/sys/module/vfio/parameters/enable_unsafe_noiommu_mode && \
"$(cat /sys/module/vfio/parameters/enable_unsafe_noiommu_mode)" == "Y") ]]; then
driver_name=vfio-pci
# Just in case, attempt to load VFIO_IOMMU_TYPE1 module into the kernel - this
# should be done automatically by modprobe since this particular module should
# be a part of vfio-pci dependencies, however, on some distros, it seems that
# it's not the case. See #1689.
if modinfo vfio_iommu_type1 > /dev/null; then
modprobe vfio_iommu_type1
fi
elif ! check_for_driver uio_pci_generic || modinfo uio_pci_generic > /dev/null 2>&1; then
driver_name=uio_pci_generic
elif [[ -e $igb_uio_fallback ]]; then
driver_path="$igb_uio_fallback"
driver_name="igb_uio"
echo "WARNING: uio_pci_generic not detected - using $driver_name"
else
echo "No valid drivers found [vfio-pci, uio_pci_generic, igb_uio]. Please enable one of the kernel modules."
return 1
fi
# modprobe assumes the directory of the module. If the user passes in a path, we should use insmod
if [[ -n "$driver_path" ]]; then
insmod $driver_path || true
else
modprobe $driver_name
fi
for bdf in "${!all_devices_d[@]}"; do
if ((all_devices_d["$bdf"] == 0)); then
if [[ -n ${nvme_d["$bdf"]} ]]; then
# Some nvme controllers may take significant amount of time while being
# unbound from the driver. Put that task into background to speed up the
# whole process. Currently this is done only for the devices bound to the
# nvme driver as other, i.e., ioatdma's, trigger a kernel BUG when being
# unbound in parallel. See https://bugzilla.kernel.org/show_bug.cgi?id=209041.
linux_bind_driver "$bdf" "$driver_name" &
else
linux_bind_driver "$bdf" "$driver_name"
fi
fi
done
wait
echo "1" > "/sys/bus/pci/rescan"
}
function cleanup_linux() {
shopt -s extglob nullglob
dirs_to_clean=""
dirs_to_clean="$(echo {/var/run,/tmp}/dpdk/spdk{,_pid}+([0-9])) "
if [[ -d $XDG_RUNTIME_DIR && $XDG_RUNTIME_DIR != *" "* ]]; then
dirs_to_clean+="$(readlink -e assert_not_empty $XDG_RUNTIME_DIR/dpdk/spdk{,_pid}+([0-9]) || true) "
fi
files_to_clean=""
for dir in $dirs_to_clean; do
files_to_clean+="$(echo $dir/*) "
done
shopt -u extglob nullglob
files_to_clean+="$(ls -1 /dev/shm/* \
| grep -E '(spdk_tgt|iscsi|vhost|nvmf|rocksdb|bdevio|bdevperf|vhost_fuzz|nvme_fuzz)_trace|spdk_iscsi_conns' || true) "
files_to_clean="$(readlink -e assert_not_empty $files_to_clean || true)"
if [[ -z "$files_to_clean" ]]; then
echo "Clean"
return 0
fi
shopt -s extglob
for fd_dir in $(echo /proc/+([0-9])); do
opened_files+="$(readlink -e assert_not_empty $fd_dir/fd/* || true)"
done
shopt -u extglob
if [[ -z "$opened_files" ]]; then
echo "Can't get list of opened files!"
exit 1
fi
echo 'Cleaning'
for f in $files_to_clean; do
if ! echo "$opened_files" | grep -E -q "^$f\$"; then
echo "Removing: $f"
rm $f
else
echo "Still open: $f"
fi
done
for dir in $dirs_to_clean; do
if ! echo "$opened_files" | grep -E -q "^$dir\$"; then
echo "Removing: $dir"
rmdir $dir
else
echo "Still open: $dir"
fi
done
echo "Clean"
unset dirs_to_clean files_to_clean opened_files
}
check_hugepages_alloc() {
local hp_int=$1
local allocated_hugepages
echo $((NRHUGE < 0 ? 0 : NRHUGE)) > "$hp_int"
allocated_hugepages=$(< "$hp_int")
if ((allocated_hugepages < NRHUGE)); then
cat <<- ERROR
## ERROR: requested $NRHUGE hugepages but $allocated_hugepages could be allocated ${2:+on node$2}.
## Memory might be heavily fragmented. Please try flushing the system cache, or reboot the machine.
ERROR
return 1
fi
}
clear_hugepages() { echo 0 > /proc/sys/vm/nr_hugepages; }
configure_linux_hugepages() {
local node system_nodes
local nodes_to_use nodes_hp
if [[ $CLEAR_HUGE == yes ]]; then
clear_hugepages
fi
if [[ $HUGE_EVEN_ALLOC == yes ]]; then
clear_hugepages
check_hugepages_alloc /proc/sys/vm/nr_hugepages
return 0
fi
for node in /sys/devices/system/node/node*; do
[[ -e $node ]] || continue
nodes[${node##*node}]=$node/hugepages/hugepages-${HUGEPGSZ}kB/nr_hugepages
done
IFS="," read -ra nodes_to_use <<< "$HUGENODE"
if ((${#nodes_to_use[@]} == 0)); then
nodes_to_use[0]=0
fi
# Align indexes with node ids
for node in "${!nodes_to_use[@]}"; do
if [[ ${nodes_to_use[node]} =~ ^nodes_hp\[[0-9]+\]= ]]; then
eval "${nodes_to_use[node]}"
elif [[ ${nodes_to_use[node]} =~ ^[0-9]+$ ]]; then
nodes_hp[nodes_to_use[node]]=$NRHUGE
fi
done
for node in "${!nodes_hp[@]}"; do
if [[ -z ${nodes[node]} ]]; then
echo "Node $node doesn't exist, ignoring" >&2
continue
fi
NRHUGE=${nodes_hp[node]:-$NRHUGE} check_hugepages_alloc "${nodes[node]}" "$node"
done
}
function configure_linux() {
configure_linux_pci
hugetlbfs_mounts=$(linux_hugetlbfs_mounts)
if [ -z "$hugetlbfs_mounts" ]; then
hugetlbfs_mounts=/mnt/huge
echo "Mounting hugetlbfs at $hugetlbfs_mounts"
mkdir -p "$hugetlbfs_mounts"
mount -t hugetlbfs nodev "$hugetlbfs_mounts"
fi
configure_linux_hugepages
if [ "$driver_name" = "vfio-pci" ]; then
if [ -n "$TARGET_USER" ]; then
for mount in $hugetlbfs_mounts; do
chown "$TARGET_USER" "$mount"
chmod g+w "$mount"
done
MEMLOCK_AMNT=$(su "$TARGET_USER" -c "ulimit -l")
if [[ $MEMLOCK_AMNT != "unlimited" ]]; then
MEMLOCK_MB=$((MEMLOCK_AMNT / 1024))
cat <<- MEMLOCK
"$TARGET_USER" user memlock limit: $MEMLOCK_MB MB
This is the maximum amount of memory you will be
able to use with DPDK and VFIO if run as user "$TARGET_USER".
To change this, please adjust limits.conf memlock limit for user "$TARGET_USER".
MEMLOCK
if ((MEMLOCK_AMNT < 65536)); then
echo ""
echo "## WARNING: memlock limit is less than 64MB"
echo -n "## DPDK with VFIO may not be able to initialize "
echo "if run as user \"$TARGET_USER\"."
fi
fi
fi
fi
if [ ! -e /dev/cpu/0/msr ]; then
# Some distros build msr as a module. Make sure it's loaded to ensure
# DPDK can easily figure out the TSC rate rather than relying on 100ms
# sleeps.
modprobe msr || true
fi
}
function reset_linux_pci() {
# virtio
# TODO: check if virtio-pci is loaded first and just unbind if it is not loaded
# Requires some more investigation - for example, some kernels do not seem to have
# virtio-pci but just virtio_scsi instead. Also need to make sure we get the
# underscore vs. dash right in the virtio_scsi name.
modprobe virtio-pci || true
for bdf in "${!all_devices_d[@]}"; do
((all_devices_d["$bdf"] == 0)) || continue
driver=$(collect_driver "$bdf")
if ! check_for_driver "$driver"; then
linux_bind_driver "$bdf" "$driver"
else
linux_unbind_driver "$bdf"
fi
done
echo "1" > "/sys/bus/pci/rescan"
}
function reset_linux() {
reset_linux_pci
for mount in $(linux_hugetlbfs_mounts); do
for hp in "$mount"/spdk*map_*; do
flock -n "$hp" true && rm -f "$hp"
done
done
rm -f /run/.spdk*
}
function status_linux() {
echo "Hugepages" >&2
printf "%-6s %10s %8s / %6s\n" "node" "hugesize" "free" "total" >&2
numa_nodes=0
shopt -s nullglob
for path in /sys/devices/system/node/node*/hugepages/hugepages-*/; do
numa_nodes=$((numa_nodes + 1))
free_pages=$(cat $path/free_hugepages)
all_pages=$(cat $path/nr_hugepages)
[[ $path =~ (node[0-9]+)/hugepages/hugepages-([0-9]+kB) ]]
node=${BASH_REMATCH[1]}
huge_size=${BASH_REMATCH[2]}
printf "%-6s %10s %8s / %6s\n" $node $huge_size $free_pages $all_pages
done
shopt -u nullglob
# fall back to system-wide hugepages
if [ "$numa_nodes" = "0" ]; then
free_pages=$(grep HugePages_Free /proc/meminfo | awk '{ print $2 }')
all_pages=$(grep HugePages_Total /proc/meminfo | awk '{ print $2 }')
node="-"
huge_size="$HUGEPGSZ"
printf "%-6s %10s %8s / %6s\n" $node $huge_size $free_pages $all_pages
fi
printf '\n%-8s %-15s %-6s %-6s %-7s %-16s %-10s %s\n' \
"Type" "BDF" "Vendor" "Device" "NUMA" "Driver" "Device" "Block devices" >&2
sorted_bdfs=($(printf '%s\n' "${!all_devices_d[@]}" | sort))
for bdf in "${sorted_bdfs[@]}"; do
driver=${drivers_d["$bdf"]}
if [ "$numa_nodes" = "0" ]; then
node="-"
else
node=$(cat /sys/bus/pci/devices/$bdf/numa_node)
if ((node == -1)); then
node=unknown
fi
fi
if [ "$driver" = "nvme" ] && [ -d /sys/bus/pci/devices/$bdf/nvme ]; then
name=$(ls /sys/bus/pci/devices/$bdf/nvme)
else
name="-"
fi
if [[ -n ${nvme_d["$bdf"]} || -n ${virtio_d["$bdf"]} ]]; then
blknames=($(get_block_dev_from_bdf "$bdf"))
else
blknames=("-")
fi
desc=""
desc=${desc:-${nvme_d["$bdf"]:+NVMe}}
desc=${desc:-${ioat_d["$bdf"]:+I/OAT}}
desc=${desc:-${idxd_d["$bdf"]:+IDXD}}
desc=${desc:-${virtio_d["$bdf"]:+virtio}}
desc=${desc:-${vmd_d["$bdf"]:+VMD}}
printf '%-8s %-15s %-6s %-6s %-7s %-16s %-10s %s\n' \
"$desc" "$bdf" "${pci_ids_vendor["$bdf"]#0x}" "${pci_ids_device["$bdf"]#0x}" \
"$node" "${driver:--}" "${name:-}" "${blknames[*]:--}"
done
}
function status_freebsd() {
local pci
status_print() (
local dev driver
echo -e "BDF\t\tVendor\tDevice\tDriver"
for pci; do
driver=$(pciconf -l "pci$pci")
driver=${driver%@*}
printf '%s\t%s\t%s\t%s\n' \
"$pci" \
"${pci_ids_vendor["$pci"]}" \
"${pci_ids_device["$pci"]}" \
"$driver"
done | sort -k1,1
)
local contigmem=present
local contigmem_buffer_size
local contigmem_num_buffers
if ! kldstat -q -m contigmem; then
contigmem="not present"
fi
if ! contigmem_buffer_size=$(kenv hw.contigmem.buffer_size 2> /dev/null); then
contigmem_buffer_size="not set"
fi
if ! contigmem_num_buffers=$(kenv hw.contigmem.num_buffers 2> /dev/null); then
contigmem_num_buffers="not set"
fi
cat <<- BSD_INFO
Contigmem ($contigmem)
Buffer Size: $contigmem_buffer_size
Num Buffers: $contigmem_num_buffers
NVMe devices
$(status_print "${!nvme_d[@]}")
I/IOAT DMA
$(status_print "${!ioat_d[@]}")
IDXD DMA
$(status_print "${!idxd_d[@]}")
VMD
$(status_print "${!vmd_d[@]}")
BSD_INFO
}
function configure_freebsd_pci() {
local BDFS
BDFS+=("${!nvme_d[@]}")
BDFS+=("${!ioat_d[@]}")
BDFS+=("${!idxd_d[@]}")
BDFS+=("${!vmd_d[@]}")
# Drop the domain part from all the addresses
BDFS=("${BDFS[@]#*:}")
local IFS=","
kldunload nic_uio.ko || true
kenv hw.nic_uio.bdfs="${BDFS[*]}"
kldload nic_uio.ko
}
function configure_freebsd() {
if ! check_for_driver_freebsd; then
echo "DPDK drivers (contigmem and/or nic_uio) are missing, aborting" >&2
return 1
fi
configure_freebsd_pci
# If contigmem is already loaded but the HUGEMEM specified doesn't match the
# previous value, unload contigmem so that we can reload with the new value.
if kldstat -q -m contigmem; then
# contigmem may be loaded, but the kernel environment doesn't have to
# be necessarily set at this point. If it isn't, kenv will fail to
# pick up the hw. options. Handle it.
if ! contigmem_num_buffers=$(kenv hw.contigmem.num_buffers); then
contigmem_num_buffers=-1
fi 2> /dev/null
if ((contigmem_num_buffers != HUGEMEM / 256)); then
kldunload contigmem.ko
fi
fi
if ! kldstat -q -m contigmem; then
kenv hw.contigmem.num_buffers=$((HUGEMEM / 256))
kenv hw.contigmem.buffer_size=$((256 * 1024 * 1024))
kldload contigmem.ko
fi
}
function reset_freebsd() {
kldunload contigmem.ko || true
kldunload nic_uio.ko || true
}
CMD=reset cache_pci_bus
mode=$1
if [ -z "$mode" ]; then
mode="config"
fi
: ${HUGEMEM:=2048}
: ${PCI_ALLOWED:=""}
: ${PCI_BLOCKED:=""}
if [ -n "$NVME_ALLOWED" ]; then
PCI_ALLOWED="$PCI_ALLOWED $NVME_ALLOWED"
fi
if [ -n "$SKIP_PCI" ]; then
PCI_ALLOWED="none"
fi
if [ -z "$TARGET_USER" ]; then
TARGET_USER="$SUDO_USER"
if [ -z "$TARGET_USER" ]; then
TARGET_USER=$(logname 2> /dev/null) || true
fi
fi
collect_devices "$mode"
if [[ $mode == reset && $PCI_BLOCK_SYNC_ON_RESET == yes ]]; then
# Note that this will wait only for the first block device attached to
# a given storage controller. For nvme this may miss some of the devs
# in case multiple namespaces are being in place.
# FIXME: Wait for nvme controller(s) to be in live state and determine
# number of configured namespaces, build list of potential block devs
# and pass them to sync_dev_uevents. Is it worth the effort?
bdfs_to_wait_for=()
for bdf in "${!all_devices_d[@]}"; do
((all_devices_d["$bdf"] == 0)) || continue
if [[ -n ${nvme_d["$bdf"]} || -n ${virtio_d["$bdf"]} ]]; then
[[ $(collect_driver "$bdf") != "${drivers_d["$bdf"]}" ]] || continue
bdfs_to_wait_for+=("$bdf")
fi
done
if ((${#bdfs_to_wait_for[@]} > 0)); then
echo "Waiting for block devices as requested"
export UEVENT_TIMEOUT=5 DEVPATH_LOOKUP=yes DEVPATH_SUBSYSTEM=pci
"$rootdir/scripts/sync_dev_uevents.sh" \
block/disk \
"${bdfs_to_wait_for[@]}" &
sync_pid=$!
fi
fi
if [[ $os == Linux ]]; then
if [[ -n $HUGEPGSZ && ! -e /sys/kernel/mm/hugepages/hugepages-${HUGEPGSZ}kB ]]; then
echo "${HUGEPGSZ}kB is not supported by the running kernel, ingoring" >&2
unset -v HUGEPGSZ
fi
HUGEPGSZ=${HUGEPGSZ:-$(grep Hugepagesize /proc/meminfo | cut -d : -f 2 | tr -dc '0-9')}
HUGEPGSZ_MB=$((HUGEPGSZ / 1024))
: ${NRHUGE=$(((HUGEMEM + HUGEPGSZ_MB - 1) / HUGEPGSZ_MB))}
if [ "$mode" == "config" ]; then
configure_linux
elif [ "$mode" == "cleanup" ]; then
cleanup_linux
elif [ "$mode" == "reset" ]; then
reset_linux
elif [ "$mode" == "status" ]; then
status_linux
elif [ "$mode" == "help" ]; then
usage $0
else
usage $0 "Invalid argument '$mode'"
fi
else
if [ "$mode" == "config" ]; then
configure_freebsd
elif [ "$mode" == "reset" ]; then
reset_freebsd
elif [ "$mode" == "cleanup" ]; then
echo "setup.sh cleanup function not yet supported on $os"
elif [ "$mode" == "status" ]; then
status_freebsd
elif [ "$mode" == "help" ]; then
usage $0
else
usage $0 "Invalid argument '$mode'"
fi
fi
if [[ -e /proc/$sync_pid/status ]]; then
wait "$sync_pid"
fi