9c740e0425
This refactors the way rootfs filenames are auto-detected when you run the runqemu script without an explicit rootfs filename argument. It allows the script to use rootfs files generated by hob, and when there are mutliple rootfs files to choose from, it will pick the most recently created one. Fixes [YOCTO #1437]. (From OE-Core rev: 094453f443ed592d814dfb4182a0a02f0a2552e4) Signed-off-by: Scott Garman <scott.a.garman@intel.com> Signed-off-by: Richard Purdie <richard.purdie@linuxfoundation.org>
13 KiB
Executable File
#!/bin/bash
Handle running OE images standalone with QEMU
Copyright (C) 2006-2011 Linux Foundation
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License version 2 as
published by the Free Software Foundation.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License along
with this program; if not, write to the Free Software Foundation, Inc.,
51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
usage() {
MYNAME=basename $0
echo ""
echo "Usage: you can run this script with any valid combination"
echo "of the following options (in any order):"
echo " QEMUARCH - the qemu machine architecture to use"
echo " KERNEL - the kernel image file to use"
echo " ROOTFS - the rootfs image file or nfsroot directory to use"
echo " MACHINE=xyz - the machine name (optional, autodetected from KERNEL filename if unspecified)"
echo " Simplified QEMU command-line options can be passed with:"
echo " nographic - disables video console"
echo " serial - enables a serial console on /dev/ttyS0"
echo " kvm - enables KVM when running qemux86/qemux86-64 (VT-capable CPU required)"
echo " qemuparams="xyz" - specify custom parameters to QEMU"
echo " bootparams="xyz" - specify custom kernel parameters during boot"
echo ""
echo "Examples:"
echo " $MYNAME qemuarm"
echo " $MYNAME qemux86-64 core-image-sato ext3"
echo " $MYNAME path/to/bzImage-qemux86.bin path/to/nfsrootdir/ serial"
echo " $MYNAME qemux86 qemuparams="-m 256""
echo " $MYNAME qemux86 bootparams="psplash=false""
exit 1
}
if [ "x$1" = "x" ]; then usage fi
MACHINE=${MACHINE:=""} KERNEL="" FSTYPE="" ROOTFS="" LAZY_ROOTFS="" SCRIPT_QEMU_OPT="" SCRIPT_QEMU_EXTRA_OPT="" SCRIPT_KERNEL_OPT=""
Determine whether the file is a kernel or QEMU image, and set the
appropriate variables
process_filename() { filename=$1
# Extract the filename extension
EXT=`echo $filename | awk -F . '{ print \$NF }'`
# A file ending in .bin is a kernel
if [ "x$EXT" = "xbin" ]; then
if [ -z "$KERNEL" ]; then
KERNEL=$filename
else
echo "Error: conflicting KERNEL args [$KERNEL] and [$filename]"
usage
fi
elif [[ "x$EXT" == "xext2" || "x$EXT" == "xext3" ||
"x$EXT" == "xjffs2" || "x$EXT" == "xbtrfs" ]]; then
# A file ending in a supportted fs type is a rootfs image
if [[ -z "$FSTYPE" || "$FSTYPE" == "$EXT" ]]; then
FSTYPE=$EXT
ROOTFS=$filename
else
echo "Error: conflicting FSTYPE types [$FSTYPE] and [$EXT]"
usage
fi
else
echo "Error: unknown file arg [$filename]"
usage
fi
}
Parse command line args without requiring specific ordering. It's a
bit more complex, but offers a great user experience.
KVM_ENABLED="no" i=1 while [ $i -le $# ]; do arg=${!i} case $arg in "qemux86" | "qemux86-64" | "qemuarm" | "qemumips" | "qemuppc") if [ -z "$MACHINE" ]; then MACHINE=$arg else echo "Error: conflicting MACHINE types [$MACHINE] and [$arg]" usage fi ;; "ext2" | "ext3" | "jffs2" | "nfs" | "btrfs") if -z "$FSTYPE" ; then FSTYPE=$arg else echo "Error: conflicting FSTYPE types [$FSTYPE] and [$arg]" usage fi ;; -image-) if [ -z "$ROOTFS" ]; then if [ -f "$arg" ]; then process_filename $arg elif [ -d "$arg" ]; then # Handle the case where the nfsroot dir has -image- # in the pathname echo "Assuming $arg is an nfs rootfs" FSTYPE=nfs ROOTFS=$arg else ROOTFS=$arg LAZY_ROOTFS="true" fi else echo "Error: conflicting ROOTFS args [$ROOTFS] and [$arg]" usage fi ;; "nographic") SCRIPT_QEMU_OPT="$SCRIPT_QEMU_OPT -nographic" ;; "serial") SCRIPT_QEMU_OPT="$SCRIPT_QEMU_OPT -serial stdio" SCRIPT_KERNEL_OPT="$SCRIPT_KERNEL_OPT console=ttyS0" ;; "qemuparams="*) SCRIPT_QEMU_EXTRA_OPT="${arg##qemuparams=}"
# Warn user if they try to specify serial or kvm options
# to use simplified options instead
serial_option=`expr "$SCRIPT_QEMU_EXTRA_OPT" : '.*\(-serial\)'`
kvm_option=`expr "$SCRIPT_QEMU_EXTRA_OPT" : '.*\(-enable-kvm\)'`
if [[ ! -z "$serial_option" || ! -z "$kvm_option" ]]; then
echo "Error: Please use simplified serial or kvm options instead"
usage
fi
;;
"bootparams="*)
SCRIPT_KERNEL_OPT="$SCRIPT_KERNEL_OPT ${arg##bootparams=}"
;;
"audio")
if [[ "x$MACHINE" == "xqemux86" || "x$MACHINE" == "xqemux86-64" ]]; then
echo "Enable audio on qemu. Pls. install snd_intel8x0 or snd_ens1370 driver in linux guest.";
QEMU_AUDIO_DRV="alsa"
SCRIPT_QEMU_OPT="$SCRIPT_QEMU_OPT -soundhw ac97,es1370"
fi
;;
"kvm")
KVM_ENABLED="yes"
KVM_CAPABLE=`grep 'vmx\|smx' /proc/cpuinfo`
;;
*)
# A directory name is an nfs rootfs
if [ -d "$arg" ]; then
echo "Assuming $arg is an nfs rootfs"
if [[ -z "$FSTYPE" || "$FSTYPE" == "nfs" ]]; then
FSTYPE=nfs
else
echo "Error: conflicting FSTYPE types [$arg] and nfs"
usage
fi
if [ -z "$ROOTFS" ]; then
ROOTFS=$arg
else
echo "Error: conflicting ROOTFS args [$ROOTFS] and [$arg]"
usage
fi
elif [ -f "$arg" ]; then
process_filename $arg
else
echo "Error: unable to classify arg [$arg]"
usage
fi
;;
esac
i=$((i + 1))
done
YOCTO_KVM_WIKI="https://wiki.yoctoproject.org/wiki/How_to_enable_KVM_for_Poky_qemu"
Detect KVM configuration
if ; then if -z "$KVM_CAPABLE" ; then echo "You are tring to enable KVM on cpu without VT support. Remove kvm from the command-line, or refer"; echo "$YOCTO_KVM_WIKI"; exit 1; fi if ; then echo "KVM only support x86 & x86-64. Remove kvm from the command-line"; exit 1; fi if [ ! -e /dev/kvm ]; then echo "Missing KVM device. Have you inserted kvm modules? Pls. refer"; echo "$YOCTO_KVM_WIKI"; exit 1; fi if 9<>/dev/kvm ; then SCRIPT_QEMU_OPT="$SCRIPT_QEMU_OPT -enable-kvm" else echo "You have no rights on /dev/kvm. Pls. change the owndership as described at"; echo "$YOCTO_KVM_WIKI"; exit 1; fi fi
Report errors for missing combinations of options
if -z "$MACHINE" && -z "$KERNEL" ; then echo "Error: you must specify at least a MACHINE or KERNEL argument" usage fi if ; then echo "Error: NFS booting without an explicit ROOTFS path is not yet supported" usage fi
if [ -z "$MACHINE" ]; then
MACHINE=basename $KERNEL | sed 's/.*-\(qemux86-64\|qemux86\|qemuarm\|qemumips\|qemuppc\).*/\1/'
if [ -z "$MACHINE" ]; then
echo "Error: Unable to set MACHINE from kernel filename [$KERNEL]"
usage
fi
echo "Set MACHINE to [$MACHINE] based on kernel [$KERNEL]"
fi
machine2=echo $MACHINE | tr 'a-z' 'A-Z' | sed 's/-/_/'
MACHINE is now set for all cases
Defaults used when these vars need to be inferred
QEMUX86_DEFAULT_KERNEL=bzImage-qemux86.bin QEMUX86_DEFAULT_FSTYPE=ext3
QEMUX86_64_DEFAULT_KERNEL=bzImage-qemux86-64.bin QEMUX86_64_DEFAULT_FSTYPE=ext3
QEMUARM_DEFAULT_KERNEL=zImage-qemuarm.bin QEMUARM_DEFAULT_FSTYPE=ext3
QEMUMIPS_DEFAULT_KERNEL=vmlinux-qemumips.bin QEMUMIPS_DEFAULT_FSTYPE=ext3
QEMUPPC_DEFAULT_KERNEL=zImage-qemuppc.bin QEMUPPC_DEFAULT_FSTYPE=ext3
AKITA_DEFAULT_KERNEL=zImage-akita.bin AKITA_DEFAULT_FSTYPE=jffs2
SPITZ_DEFAULT_KERNEL=zImage-spitz.bin SPITZ_DEFAULT_FSTYPE=ext3
setup_tmpdir() { if [ -z "$TMPDIR" ]; then # BUILDDIR unset, try and get TMPDIR from bitbake type -P bitbake &>/dev/null || { echo "In order for this script to dynamically infer paths"; echo "to kernels or filesystem images, you either need"; echo "bitbake in your PATH or to source oe-init-build-env"; echo "before running this script" >&2; exit 1; }
# We have bitbake in PATH, get TMPDIR from bitbake
TMPDIR=`bitbake -e | grep ^TMPDIR=\" | cut -d '=' -f2 | cut -d '"' -f2`
if [ -z "$TMPDIR" ]; then
echo "Error: this script needs to be run from your build directory,"
echo "or you need to explicitly set TMPDIR in your environment"
exit 1
fi
fi
}
setup_sysroot() {
# Toolchain installs set up $OECORE_NATIVE_SYSROOT in their
# environment script. If that variable isn't set, we're
# either in an in-tree build scenario or the environment
# script wasn't source'd.
if [ -z "$OECORE_NATIVE_SYSROOT" ]; then
setup_tmpdir
BUILD_ARCH=uname -m
BUILD_OS=uname | tr '[A-Z]' '[a-z]'
BUILD_SYS="$BUILD_ARCH-$BUILD_OS"
OECORE_NATIVE_SYSROOT=$TMPDIR/sysroots/$BUILD_SYS
fi
}
Locate a rootfs image to boot which matches our expected
machine and fstype.
findimage() { where=$1 machine=$2 extension=$3
# Sort rootfs candidates by modification time - the most
# recently created one is the one we most likely want to boot.
filenames=`ls -t $where/*core-image*$machine.$extension 2>/dev/null | xargs`
for name in $filenames; do
if [[ "$name" =~ core-image-sato-sdk ||
"$name" =~ core-image-sato ||
"$name" =~ core-image-lsb ||
"$name" =~ core-image-basic ||
"$name" =~ core-image-minimal ]]; then
ROOTFS=$name
return
fi
done
echo "Couldn't find a $machine rootfs image in $where."
exit 1
}
if -e "$ROOTFS" && -z "$FSTYPE" ; then
# Extract the filename extension
EXT=echo $ROOTFS | awk -F . '{ print \$NF }'
if [[ "x$EXT" == "xext2" || "x$EXT" == "xext3" ||
"x$EXT" == "xjffs2" || "x$EXT" == "xbtrfs" ]]; then
FSTYPE=$EXT
else
echo "Note: Unable to determine filesystem extension for $ROOTFS"
echo "We will use the default FSTYPE for $MACHINE"
# ...which is done further below...
fi
fi
if [ -z "$KERNEL" ]; then setup_tmpdir eval kernel_file=$${machine2}_DEFAULT_KERNEL KERNEL=$TMPDIR/deploy/images/$kernel_file
if [ -z "$KERNEL" ]; then
echo "Error: Unable to determine default kernel for MACHINE [$MACHINE]"
usage
fi
fi
KERNEL is now set for all cases
if [ -z "$FSTYPE" ]; then eval FSTYPE=$${machine2}_DEFAULT_FSTYPE
if [ -z "$FSTYPE" ]; then
echo "Error: Unable to determine default fstype for MACHINE [$MACHINE]"
usage
fi
fi
if [ "$FSTYPE" = "nfs" -a "$MACHINE" = "qemuppc" ]; then echo "Error: usermode NFS boot is not available for qemuppc." exit 1 fi
FSTYPE is now set for all cases
Handle cases where a ROOTFS type is given instead of a filename, e.g.
core-image-sato
if [ "$LAZY_ROOTFS" = "true" ]; then setup_tmpdir echo "Assuming $ROOTFS really means $TMPDIR/deploy/images/$ROOTFS-$MACHINE.$FSTYPE" ROOTFS=$TMPDIR/deploy/images/$ROOTFS-$MACHINE.$FSTYPE fi
if [ -z "$ROOTFS" ]; then setup_tmpdir T=$TMPDIR/deploy/images eval rootfs_list=$${machine2}_DEFAULT_ROOTFS findimage $T $MACHINE $FSTYPE
if [ -z "$ROOTFS" ]; then
echo "Error: Unable to determine default rootfs for MACHINE [$MACHINE]"
usage
fi
fi
ROOTFS is now set for all cases
echo "" echo "Continuing with the following parameters:" echo "KERNEL: [$KERNEL]" echo "ROOTFS: [$ROOTFS]" echo "FSTYPE: [$FSTYPE]"
setup_sysroot
OECORE_NATIVE_SYSROOT is now set for all cases
We can't run without a libGL.so
libgl='no'
test -e /usr/lib/libGL.so -a -e /usr/lib/libGLU.so && libgl='yes' test -e /usr/lib64/libGL.so -a -e /usr/lib64/libGLU.so && libgl='yes' test -e /usr/lib/-linux-gnu/libGL.so -a -e /usr/lib/-linux-gnu/libGLU.so && libgl='yes'
if [ "$libgl" != 'yes' ]; then echo "You need libGL.so and libGLU.so to exist in your library path to run the QEMU emulator. Ubuntu package names are: libgl1-mesa-dev and libglu1-mesa-dev." exit 1; fi
INTERNAL_SCRIPT=which runqemu-internal
. $INTERNAL_SCRIPT