#!/bin/bash
# SPDX-License-Identifier: GPL-2.0+
#
# Shell functions for the rest of the scripts.
#
# Copyright (C) IBM Corporation, 2013
#
# Authors: Paul E. McKenney <paulmck@linux.ibm.com>
# bootparam_hotplug_cpu bootparam-string
#
# Returns 1 if the specified boot-parameter string tells rcutorture to
# test CPU-hotplug operations.
bootparam_hotplug_cpu () {
echo "$1" | grep -q "rcutorture\.onoff_"
}
# checkarg --argname argtype $# arg mustmatch cannotmatch
#
# Checks the specified argument "arg" against the mustmatch and cannotmatch
# patterns.
checkarg () {
if test $3 -le 1
then
echo $1 needs argument $2 matching \"$5\"
usage
fi
if echo "$4" | grep -q -e "$5"
then
:
else
echo $1 $2 \"$4\" must match \"$5\"
usage
fi
if echo "$4" | grep -q -e "$6"
then
echo $1 $2 \"$4\" must not match \"$6\"
usage
fi
}
# configfrag_boot_params bootparam-string config-fragment-file
#
# Adds boot parameters from the .boot file, if any.
configfrag_boot_params () {
if test -r "$2.boot"
then
echo $1 `grep -v '^#' "$2.boot" | tr '\012' ' '`
else
echo $1
fi
}
# configfrag_boot_cpus bootparam-string config-fragment-file config-cpus
#
# Decreases number of CPUs based on any nr_cpus= boot parameters specified.
configfrag_boot_cpus () {
local bootargs="`configfrag_boot_params "$1" "$2"`"
local nr_cpus
if echo "${bootargs}" | grep -q 'nr_cpus=[0-9]'
then
nr_cpus="`echo "${bootargs}" | sed -e 's/^.*nr_cpus=\([0-9]*\).*$/\1/'`"
if test "$3" -gt "$nr_cpus"
then
echo $nr_cpus
else
echo $3
fi
else
echo $3
fi
}
# configfrag_boot_maxcpus bootparam-string config-fragment-file config-cpus
#
# Decreases number of CPUs based on any maxcpus= boot parameters specified.
# This allows tests where additional CPUs come online later during the
# test run. However, the torture parameters will be set based on the
# number of CPUs initially present, so the scripting should schedule
# test runs based on the maxcpus= boot parameter controlling the initial
# number of CPUs instead of on the ultimate number of CPUs.
configfrag_boot_maxcpus () {
local bootargs="`configfrag_boot_params "$1" "$2"`"
local maxcpus
if echo "${bootargs}" | grep -q 'maxcpus=[0-9]'
then
maxcpus="`echo "${bootargs}" | sed -e 's/^.*maxcpus=\([0-9]*\).*$/\1/'`"
if test "$3" -gt "$maxcpus"
then
echo $maxcpus
else
echo $3
fi
else
echo $3
fi
}
# configfrag_hotplug_cpu config-fragment-file
#
# Returns 1 if the config fragment specifies hotplug CPU.
configfrag_hotplug_cpu () {
if test ! -r "$1"
then
echo Unreadable config fragment "$1" 1>&2
exit -1
fi
grep -q '^CONFIG_HOTPLUG_CPU=y$' "$1"
}
# identify_boot_image qemu-cmd
#
# Returns the relative path to the kernel build image. This will be
# arch/<arch>/boot/bzImage or vmlinux if bzImage is not a target for the
# architecture, unless overridden with the TORTURE_BOOT_IMAGE environment
# variable.
identify_boot_image () {
if test -n "$TORTURE_BOOT_IMAGE"
then
echo $TORTURE_BOOT_IMAGE
else
case "$1" in
qemu-system-x86_64|qemu-system-i386)
echo arch/x86/boot/bzImage
;;
qemu-system-aarch64)
echo arch/arm64/boot/Image
;;
*)
echo vmlinux
;;
esac
fi
}
# identify_qemu builddir
#
# Returns our best guess as to which qemu command is appropriate for
# the kernel at hand. Override with the TORTURE_QEMU_CMD environment variable.
identify_qemu () {
local u="`file "$1"`"
if test -n "$TORTURE_QEMU_CMD"
then
echo $TORTURE_QEMU_CMD
elif echo $u | grep -q x86-64
then
echo qemu-system-x86_64
elif echo $u | grep -q "Intel 80386"
then
echo qemu-system-i386
elif echo $u | grep -q aarch64
then
echo qemu-system-aarch64
elif uname -a | grep -q ppc64
then
echo qemu-system-ppc64
else
echo Cannot figure out what qemu command to use! 1>&2
echo file $1 output: $u
# Usually this will be one of /usr/bin/qemu-system-*
# Use TORTURE_QEMU_CMD environment variable or appropriate
# argument to top-level script.
exit 1
fi
}
# identify_qemu_append qemu-cmd
#
# Output arguments for the qemu "-append" string based on CPU type
# and the TORTURE_QEMU_INTERACTIVE environment variable.
identify_qemu_append () {
local console=ttyS0
case "$1" in
qemu-system-x86_64|qemu-system-i386)
echo selinux=0 initcall_debug debug
;;
qemu-system-aarch64)
console=ttyAMA0
;;
esac
if test -n "$TORTURE_QEMU_INTERACTIVE"
then
echo root=/dev/sda
else
echo console=$console
fi
}
# identify_qemu_args qemu-cmd serial-file
#
# Output arguments for qemu arguments based on the TORTURE_QEMU_MAC
# and TORTURE_QEMU_INTERACTIVE environment variables.
identify_qemu_args () {
local KVM_CPU=""
case "$1" in
qemu-system-x86_64)
KVM_CPU=kvm64
;;
qemu-system-i386)
KVM_CPU=kvm32
;;
esac
case "$1" in
qemu-system-x86_64|qemu-system-i386)
echo -machine q35,accel=kvm
echo -cpu ${KVM_CPU}
;;
qemu-system-aarch64)
echo -machine virt,gic-version=host -cpu host
;;
qemu-system-ppc64)
echo -enable-kvm -M pseries -nodefaults
echo -device spapr-vscsi
if test -n "$TORTURE_QEMU_INTERACTIVE" -a -n "$TORTURE_QEMU_MAC"
then
echo -device spapr-vlan,netdev=net0,mac=$TORTURE_QEMU_MAC
echo -netdev bridge,br=br0,id=net0
elif test -n "$TORTURE_QEMU_INTERACTIVE"
then
echo -net nic -net user
fi
;;
esac
if test -n "$TORTURE_QEMU_INTERACTIVE"
then
echo -monitor stdio -serial pty -S
else
echo -serial file:$2
fi
}
# identify_qemu_vcpus
#
# Returns the number of virtual CPUs available to the aggregate of the
# guest OSes.
identify_qemu_vcpus () {
lscpu | grep '^CPU(s):' | sed -e 's/CPU(s)://'
}
# print_bug
#
# Prints "BUG: " in red followed by remaining arguments
print_bug () {
printf '\033[031mBUG: \033[m'
echo $*
}
# print_warning
#
# Prints "WARNING: " in yellow followed by remaining arguments
print_warning () {
printf '\033[033mWARNING: \033[m'
echo $*
}
# specify_qemu_cpus qemu-cmd qemu-args #cpus
#
# Appends a string containing "-smp XXX" to qemu-args, unless the incoming
# qemu-args already contains "-smp".
specify_qemu_cpus () {
local nt;
if echo $2 | grep -q -e -smp
then
echo $2
else
case "$1" in
qemu-system-x86_64|qemu-system-i386|qemu-system-aarch64)
echo $2 -smp $3
;;
qemu-system-ppc64)
nt="`lscpu | grep '^NUMA node0' | sed -e 's/^[^,]*,\([0-9]*\),.*$/\1/'`"
echo $2 -smp cores=`expr \( $3 + $nt - 1 \) / $nt`,threads=$nt
;;
esac
fi
}