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|
#!/bin/bash
# Common function for test
# Expect should be installed for SSH Testing
# To execute `runqemu`, NOPASSWD needs to be set in /etc/sudoers for user
# For example, for user "builder", /etc/sudoers can be like following:
# #########
# #Members of the admin group may gain root privileges
# %builder ALL=(ALL) NOPASSWD: NOPASSWD: ALL
# #########
#
# Author: Jiajun Xu <jiajun.xu@intel.com>
#
# This file is licensed under the GNU General Public License,
# Version 2.
#
TYPE="ext3"
# The folder to hold all scripts running on targets
TOOLS="$COREBASE/scripts/qemuimage-tests/tools"
# The folder to hold all projects for toolchain testing
TOOLCHAIN_PROJECTS="$COREBASE/scripts/qemuimage-tests/toolchain_projects"
# Test Directory on target for testing
TARGET_TEST_DIR="/opt/test"
# Global variable for process id
PID=0
# Global variable for target ip address
TARGET_IPADDR=0
# Global variable for test project version during toolchain test
# Version of cvs is 1.12.13
# Version of iptables is 1.4.11
# Version of sudoku-savant is 1.3
PROJECT_PV=0
# Global variable for test project download URL during toolchain test
# URL of cvs is http://ftp.gnu.org/non-gnu/cvs/source/feature/1.12.13/cvs-1.12.13.tar.bz2
# URL of iptables is http://netfilter.org/projects/iptables/files/iptables-1.4.11.tar.bz2
# URL of sudoku-savant is http://downloads.sourceforge.net/project/sudoku-savant/sudoku-savant/sudoku-savant-1.3/sudoku-savant-1.3.tar.bz2
PROJECT_DOWNLOAD_URL=0
# SDK folder to hold toolchain tarball
TOOLCHAIN_DIR="${DEPLOY_DIR}/sdk"
# Toolchain test folder to hold extracted toolchain tarball
TOOLCHAIN_TEST="/opt"
# common function for information print
Test_Error()
{
echo -e "\tTest_Error: $*"
}
Test_Info()
{
echo -e "\tTest_Info: $*"
}
# function to update target ip address
# $1 is the process id of the process, which starts the qemu target
# $2 is the ip address of the target
Test_Update_IPSAVE()
{
local pid=$1
local ip_addr=$2
if [ "$TEST_SERIALIZE" -eq 1 ]; then
echo "$pid $ip_addr" > $TARGET_IPSAVE
fi
}
# function to copy files from host into target
# $1 is the ip address of target
# $2 is the files, which need to be copied into target
# $3 is the path on target, where files are copied into
Test_SCP()
{
local ip_addr=$1
local src=$2
local des=$3
local tmpfile=`mktemp`
local timeout=60
local ret=0
# We use expect to interactive with target by ssh
local exp_cmd=`cat << EOF
eval spawn scp -o UserKnownHostsFile=$tmpfile "$src" root@$ip_addr:"$des"
set timeout $time_out
expect {
"*assword:" { send "\r"; exp_continue}
"*(yes/no)?" { send "yes\r"; exp_continue }
eof { exit [ lindex [wait] 3 ] }
}
EOF`
expect -c "$exp_cmd"
ret=$?
rm -rf $tmpfile
return $ret
}
# function to run command in $ip_addr via ssh
Test_SSH()
{
local ip_addr=$1
shift
local command=$@
local tmpfile=`mktemp`
local timeout=60
local ret=0
local exp_cmd=`cat << EOF
eval spawn ssh -o UserKnownHostsFile=$tmpfile root@$ip_addr "$command"
set timeout $time_out
expect {
"*assword:" { send "\r"; exp_continue}
"*(yes/no)?" { send "yes\r"; exp_continue }
eof { exit [ lindex [wait] 3 ] }
}
EOF`
expect -c "$exp_cmd"
ret=$?
rm -rf $tmpfile
return $ret
}
# function to check if ssh is up in $ip_addr
Test_SSH_UP()
{
local ip_addr=$1
local timeout=$2
local interval=0
# If TEST_SERIALIZE is set, use existing running qemu for testing
if [ ${TEST_SERIALIZE} -eq 1 -a -e ${TARGET_IPSAVE} ]; then
timeout=50
fi
while [ ${interval} -lt ${timeout} ]
do
Test_SSH ${ip_addr} "hostname"
if [ $? -ne 0 ]; then
interval=`expr $interval + 10`
sleep 10
else
Test_Info "We can ssh on ${ip_addr} within ${interval} seconds"
return 0
fi
done
Test_Info "We can not ssh on ${ip_addr} in ${timeout} seconds"
return 1
}
# function to prepare target test environment
# $1 is the ip address of target system
# $2 is the files, which needs to be copied into target
Test_Target_Pre()
{
local ip_addr=$1
local testscript=$2
# Create a pre-defined folder for test scripts
Test_SSH $ip_addr "mkdir -p $TARGET_TEST_DIR"
if [ $? -eq 0 ]; then
# Copy test scripts into target
Test_SCP $ip_addr $testscript $TARGET_TEST_DIR && return 0
else
Test_Error "Fail to create $TARGET_TEST_DIR on target"
return 1
fi
return 1
}
# function to record test result in $TEST_RESULT/testresult.log
Test_Print_Result()
{
local PASS=0
local FAIL=0
local NORESULT=0
if [ $2 -eq 0 ]; then
PASS=1
elif [ $2 -eq 1 ]; then
FAIL=1
else
NORESULT=1
fi
# Format the output of the test result
echo -e "$1 $PASS $FAIL $NORESULT" | awk '{printf("\t"); for(i=1;i<=NF;i++) printf("%-15s",$i); printf("\n");}' >> $TEST_RESULT/testresult.log
}
# Test_Kill_Qemu to kill child pid with parent pid given
# $1 is qemu process id, which needs to be killed
Test_Kill_Qemu()
{
local ret=0
local ppid=0
local i=0
local index=0
local total=0
declare local pid
# Check if $1 pid exists and is a qemu process
ps -fp $PID | grep -iq "qemu"
# Find all children pid of the pid $1
if [ $? -eq 0 ]; then
# Check if there is any child pid of the pid $PID
ppid=$PID
ps -f --ppid $ppid
ret=$?
while [ $ret -eq 0 ]
do
# If yes, get the child pid and check if the child pid has other child pid
# Continue the while loop until there is no child pid found
pid[$i]=`ps -f --ppid $ppid | awk '{if ($2 != "PID") print $2}'`
ppid=${pid[$i]}
i=$((i+1))
ps -f --ppid $ppid
ret=$?
done
# When TEST_SERIALIZE is set, qemu process will not be
# killed until all the cases are finished
if [ ${TEST_SERIALIZE} -eq 1 -a -e ${TEST_STATUS} ]; then
index=`sed -n 2p ${TEST_STATUS} | awk '{print $3}'`
total=`sed -n 2p ${TEST_STATUS} | awk '{print $4}'`
if [ ${index} != ${total} ]; then
Test_Info "Do not kill the qemu process and use it for later testing"
Test_Update_IPSAVE $PID $TARGET_IPADDR
else
# If it is the last case, let's kill it
while [ $i -ne 0 ]
do
i=$((i-1))
kill ${pid[$i]}
sleep 2
done
# Kill the parent id
kill $PID
fi
else
# Kill these children pids from the last one
while [ $i -ne 0 ]
do
i=$((i-1))
kill ${pid[$i]}
sleep 2
done
# Kill the parent id
kill $PID
fi
fi
return
}
# function to check if there is any qemu process
Test_Check_Qemu_UP()
{
local count=`ps -eo command | cut -d " " -f 1 | grep -c "\(^qemu\|.*/qemu\)"`
if [ ${count} -lt 1 ]; then
Test_Info "There is no Qemu process"
return 1
else
Test_Info "There is at least one Qemu process running"
return 0
fi
}
# function to check if network is up
Test_Check_IP_UP()
{
ping -c1 $1
if [ $? -ne 0 ]; then
Test_Info "IP $1 is not up"
return 1
else
Test_Info "IP $1 is up"
return 0
fi
}
# function to find kernel/rootfs image
Test_Find_Image()
{
where=""
kernel=""
arch=""
target=""
extension=""
rootfs=""
while getopts "l:k:a:t:" Option
do
case $Option in
l) where="$OPTARG"
;;
k) kernel="$OPTARG"
extension="bin"
;;
a) arch="$OPTARG"
;;
t) target="$OPTARG"
extension="ext3"
;;
*) echo "invalid option: -$Option" && return 1
;;
esac
done
if [ ! -z $kernel ]; then
if [ -L ${where}/${kernel}-${arch}.${extension} ]; then
echo ${where}/${kernel}-${arch}.${extension}
return 0
else
for i in `dir ${where}`
do
# Exclude qemux86-64 when target is qemux86
echo $i | grep "${kernel}.*${arch}.*\.${extension}" | grep -qv "${kernel}.*${arch}-64.*\.${extension}"
if [ $? -eq 0 ]; then
echo ${where}/${i}
return 0
fi
done
return 1
fi
fi
if [ ! -z $target ]; then
if [ -L ${where}/${target}-${arch}.${extension} ]; then
rootfs=`readlink -f ${where}/${target}-${arch}.${extension}`
echo ${rootfs}
return 0
else
for i in `dir ${where}`
do
# Exclude qemux86-64 when target is qemux86
echo $i | grep "${target}-${arch}.*\.${extension}" | grep -qv "${target}-${arch}-64.*\.${extension}"
if [ $? -eq 0 ]; then
echo ${where}/${i}
return 0
fi
done
return 1
fi
fi
return 1
}
# function to parse IP address of target
# $1 is the pid of qemu startup process
Test_Fetch_Target_IP()
{
local opid=$1
local ppid=0
local ip_addr=0
local i=0
declare local pid
# Check if $1 pid exists and contains ipaddr of target
ps -fp $opid | grep -oq "192\.168\.7\.[0-9]*::"
# Find all children pid of the pid $1
# and check if they contain ipaddr of target
if [ $? -ne 0 ]; then
# Check if there is any child pid of the pid $1
ppid=$opid
ps -f --ppid $ppid > /dev/zero
ret=$?
while [ $ret -eq 0 ]
do
# If yes, get the child pid and check if the child pid has other child pid
# Continue the while loop until there is no child pid found
pid[$i]=`ps -f --ppid $ppid | awk '{if ($2 != "PID") print $2}'`
ppid=${pid[$i]}
i=$((i+1))
ps -f --ppid $ppid > /dev/zero
ret=$?
done
# Check these children pids, if they have ipaddr included in command line
while [ $i -ne 0 ]
do
i=$((i-1))
ps -fp ${pid[$i]} | grep -oq "192\.168\.7\.[0-9]*::"
if [ $? -eq 0 ]; then
ip_addr=`ps -fp ${pid[$i]} | grep -o "192\.168\.7\.[0-9]*::" | awk -F":" '{print $1}'`
fi
sleep 1
done
else
ip_addr=`ps -fp $opid | grep -o "192\.168\.7\.[0-9]*::" | awk -F":" '{print $1}'`
fi
echo $ip_addr
return
}
# function to check if qemu and its network
Test_Create_Qemu()
{
local timeout=$1
local ret=1
local up_time=0
which runqemu
if [ $? -eq 0 ]; then
RUNQEMU=`which runqemu`
else
Test_Error "Can not find runqemu in \$PATH, return fail"
return 1
fi
if [ "$QEMUARCH" = "qemux86" -o "$QEMUARCH" = "qemux86-64" ]; then
KERNEL=$(Test_Find_Image -l ${DEPLOY_DIR}/images -k bzImage -a ${QEMUARCH})
elif [ "$QEMUARCH" = "qemuarm" -o "$QEMUARCH" = "spitz" -o "$QEMUARCH" = "borzoi" -o "$QEMUARCH" = "akita" -o "$QEMUARCH" = "nokia800" -o "$QEMUARCH" = "qemuppc" ]; then
KERNEL=$(Test_Find_Image -l ${DEPLOY_DIR}/images -k zImage -a ${QEMUARCH})
elif [ "$QEMUARCH" = "qemumips" ]; then
KERNEL=$(Test_Find_Image -l ${DEPLOY_DIR}/images -k vmlinux -a ${QEMUARCH})
fi
# If there is no kernel image found, return failed directly
if [ $? -eq 1 ]; then
Test_Info "No kernel image file found under ${DEPLOY_DIR}/images for ${QEMUARCH}, pls. have a check"
return $ret
fi
ROOTFS_IMAGE=$(Test_Find_Image -l ${DEPLOY_DIR}/images -t ${QEMUTARGET} -a ${QEMUARCH})
# If there is no rootfs image found, return failed directly
if [ $? -eq 1 ]; then
Test_Info "No ${QEMUTARGET} rootfs image file found under ${DEPLOY_DIR}/images for ${QEMUARCH}, pls. have a check"
return $ret
fi
TEST_ROOTFS_IMAGE="${TEST_TMP}/${QEMUTARGET}-${QEMUARCH}-test.ext3"
CP=`which cp`
# When TEST_SERIALIZE is set, we use the existing image under tmp folder
if [ ${TEST_SERIALIZE} -eq 1 -a -e "$TARGET_IPSAVE" ]; then
# If TARGET_IPSAVE exists, check PID of the qemu process from it
PID=`awk '{print $1}' $TARGET_IPSAVE`
timeout=50
else
rm -rf $TEST_ROOTFS_IMAGE
echo "Copying rootfs $ROOTFS_IMAGE to $TEST_ROOTFS_IMAGE"
$CP $ROOTFS_IMAGE $TEST_ROOTFS_IMAGE
if [ $? -ne 0 ]; then
Test_Info "Image ${ROOTFS_IMAGE} copy to ${TEST_ROOTFS_IMAGE} failed, return fail"
return $ret
fi
export MACHINE=$QEMUARCH
# Create Qemu in localhost VNC Port 1
echo "Running xterm -display ${DISPLAY} -e 'OE_TMPDIR=${OE_TMPDIR} ${RUNQEMU} ${KERNEL} ${TEST_ROOTFS_IMAGE} && /bin/sleep 60' &"
xterm -display ${DISPLAY} -e "OE_TMPDIR=${OE_TMPDIR} ${RUNQEMU} ${KERNEL} ${TEST_ROOTFS_IMAGE} && /bin/sleep 60" &
# Get the pid of the xterm processor, which will be used in Test_Kill_Qemu
PID=$!
fi
while [ ${up_time} -lt 10 ]
do
Test_Check_Qemu_UP
if [ $? -ne 0 ]; then
Test_Info "Wait for qemu up..."
up_time=`expr $up_time + 5`
sleep 5
else
Test_Info "Begin to check if qemu network is up"
break
fi
done
# Parse IP address of target from the qemu command line
if [ ${up_time} -lt ${timeout} ]; then
sleep 5
TARGET_IPADDR=`Test_Fetch_Target_IP $PID`
# If IP address is 0, means there is no qemu process found
if [ ${TARGET_IPADDR} == "0" ]; then
Test_Info "There is no qemu process or qemu ip address found, return failed"
return $ret
fi
fi
while [ ${up_time} -lt ${timeout} ]
do
Test_Check_IP_UP ${TARGET_IPADDR}
if [ $? -eq 0 ]; then
Test_Info "Qemu Network is up, ping with ${TARGET_IPADDR} is OK within ${up_time} seconds"
ret=0
break
else
Test_Info "Wait for Qemu Network up"
up_time=`expr $up_time + 5`
sleep 5
fi
done
if [ $ret -eq 0 ]; then
Test_Info "Qemu and its network is up"
return $ret
else
Test_Info "Qemu or its network is not up in ${timeout} seconds"
Test_Update_IPSAVE $PID $TARGET_IPADDR
return $ret
fi
}
# Function to prepare test project for toolchain test
# $1 is the folder holding test project file
# $2 is the test project name
Test_Project_Prepare()
{
local toolchain_dir=$1
local ret=1
if [ ! -d ${toolchain_dir} ]; then
mkdir -p ${toolchain_dir}
ret=$?
if [ $ret -ne 0 ]; then
Test_Info "Create ${toolchain_dir} fail, return"
return $ret
fi
fi
ret=0
# Download test project tarball if it does not exist
if [ ! -f ${toolchain_dir}/${2}-${PROJECT_PV}.${suffix} ]; then
wget -c -t 5 $PROJECT_DOWNLOAD_URL -O ${toolchain_dir}/${2}-${PROJECT_PV}.${suffix}
ret=$?
fi
# Extract the test project into ${TEST_TMP}
if [ $ret -eq 0 ]; then
tar jxf ${toolchain_dir}/${2}-${PROJECT_PV}.${suffix} -C ${TEST_TMP}
ret=$?
if [ $ret -eq 0 ]; then
Test_Info "Extract ${2}-${PROJECT_PV}.${suffix} into ${TEST_TMP} successfully"
return $ret
else
Test_Info "Fail to extract ${2}-${PROJECT_PV}.${suffix} into ${TEST_TMP}"
return $ret
fi
else
Test_Info "Fail to download ${2}-${PROJECT_PV}.${suffix} from $PROJECT_DOWNLOAD_URL"
rm -rf ${toolchain_dir}/${2}-${PROJECT_PV}.${suffix}
return $ret
fi
}
# Function to prepare toolchain environment
# $1 is toolchain directory to hold toolchain tarball
# $2 is prefix name for toolchain tarball
Test_Toolchain_Prepare()
{
local toolchain_dir=$1
local sdk_name=$2
local ret=1
if [ ! -d ${toolchain_dir} ]; then
Test_Info "No directory ${toolchain_dir}, which holds toolchain tarballs"
return 1
fi
# Check if there is any toolchain tarball under $toolchain_dir with prefix $sdk_name
for i in `dir ${toolchain_dir}`
do
echo $i | grep "${sdk_name}-toolchain-gmae"
if [ $? -eq 0 ]; then
rm -rf ${TEST_TMP}/opt
tar jxf ${toolchain_dir}/${i} -C ${TEST_TMP}
ret=$?
break
fi
done
if [ $ret -eq 0 ]; then
Test_Info "Check if /opt is accessible for non-root user"
# Check if the non-root test user has write access of $TOOLCHAIN_TEST
if [ -d ${TOOLCHAIN_TEST} ]; then
touch ${TOOLCHAIN_TEST}
if [ $? -ne 0 ]; then
Test_Info "Has no right to modify folder $TOOLCHAIN_TEST, pls. chown it to test user"
return 2
fi
else
mkdir -p ${TOOLCHAIN_TEST}
if [ $? -ne 0 ]; then
Test_Info "Has no right to create folder $TOOLCHAIN_TEST, pls. create it and chown it to test user"
return 2
fi
fi
# If there is a toolchain folder under $TOOLCHAIN_TEST, let's remove it
if [ -d ${TOOLCHAIN_TEST}/poky ]; then
rm -rf ${TOOLCHAIN_TEST}/poky
fi
# Copy toolchain into $TOOLCHAIN_TEST
cp -r ${TEST_TMP}/opt/poky ${TOOLCHAIN_TEST}
ret=$?
if [ $ret -eq 0 ]; then
Test_Info "Successfully copy toolchain into $TOOLCHAIN_TEST"
return $ret
else
Test_Info "Meet error when copy toolchain into $TOOLCHAIN_TEST"
return $ret
fi
else
Test_Info "No tarball named ${sdk_name}-toolchain-gmae under ${toolchain_dir}"
return $ret
fi
}
# Function to execute command and exit if run out of time
# $1 is timeout value
# $2 is the command to be executed
Test_Time_Out()
{
local timeout=$1
shift
local command=$*
local date=0
local tmp=`mktemp`
local ret=1
local pid=0
local ppid=0
local i=0
declare local pid_l
# Run command in background
($command; echo $? > $tmp) &
pid=$!
while ps -e -o pid | grep -qw $pid; do
if [ $date -ge $timeout ]; then
Test_Info "$timeout Timeout when running command $command"
rm -rf $tmp
# Find all child processes of pid and kill them
ppid=$pid
ps -f --ppid $ppid
ret=$?
while [ $ret -eq 0 ]
do
# If yes, get the child pid and check if the child pid has other child pid
# Continue the while loop until there is no child pid found
pid_l[$i]=`ps -f --ppid $ppid | awk '{if ($2 != "PID") print $2}'`
ppid=${pid_l[$i]}
i=$((i+1))
ps -f --ppid $ppid
ret=$?
done
# Kill these children pids from the last one
while [ $i -ne 0 ]
do
i=$((i-1))
kill ${pid_l[$i]}
sleep 2
done
# Kill the parent id
kill $pid
return 1
fi
sleep 5
date=`expr $date + 5`
done
ret=`cat $tmp`
rm -rf $tmp
return $ret
}
# Function to test toolchain
# $1 is test project name
# $2 is the timeout value
Test_Toolchain()
{
local test_project=$1
local timeout=$2
local ret=1
local suffix="tar.bz2"
local env_setup=""
local pro_install="${TEST_TMP}/pro_install"
# Set value for PROJECT_PV and PROJECT_DOWNLOAD_URL accordingly
if [ $test_project == "cvs" ]; then
PROJECT_PV=1.12.13
PROJECT_DOWNLOAD_URL="http://ftp.gnu.org/non-gnu/cvs/source/feature/1.12.13/cvs-1.12.13.tar.bz2"
elif [ $test_project == "iptables" ]; then
PROJECT_PV=1.4.11
PROJECT_DOWNLOAD_URL="http://netfilter.org/projects/iptables/files/iptables-1.4.11.tar.bz2"
elif [ $test_project == "sudoku-savant" ]; then
PROJECT_PV=1.3
PROJECT_DOWNLOAD_URL="http://downloads.sourceforge.net/project/sudoku-savant/sudoku-savant/sudoku-savant-1.3/sudoku-savant-1.3.tar.bz2"
else
Test_Info "Unknown test project name $test_project"
return 1
fi
# Download test project and extract it
Test_Project_Prepare $TOOLCHAIN_PROJECTS $test_project
if [ $? -ne 0 ]; then
Test_Info "Prepare test project file failed"
return 1
fi
# Extract toolchain tarball into ${TEST_TMP}
Test_Toolchain_Prepare $TOOLCHAIN_DIR $SDK_NAME
ret=$?
if [ $ret -ne 0 ]; then
Test_Info "Prepare toolchain test environment failed"
return $ret
fi
if [ ! -d ${pro_install} ]; then
mkdir -p ${pro_install}
fi
# Begin to build test project in toolchain environment
env_setup=`find ${TOOLCHAIN_TEST}/poky -name "environment-setup*"`
source $env_setup
if [ $test_project == "cvs" -o $test_project == "iptables" ]; then
cd ${TEST_TMP}/${test_project}-${PROJECT_PV}
Test_Time_Out $timeout ./configure ${CONFIGURE_FLAGS} || { Test_Info "configure failed with $test_project"; return 1; }
Test_Time_Out $timeout make -j4 || { Test_Info "make failed with $test_project"; return 1; }
Test_Time_Out $timeout make install DESTDIR=${pro_install} || { Test_Info "make failed with $test_project"; return 1; }
cd -
ret=0
elif [ $test_project == "sudoku-savant" ]; then
cd ${TEST_TMP}/${test_project}-${PROJECT_PV}
Test_Time_Out $timeout ./configure ${CONFIGURE_FLAGS} || { Test_Info "configure failed with $test_project"; return 1; }
Test_Time_Out $timeout make -j4 || { Test_Info "make failed with $test_project"; return 1; }
cd -
ret=0
else
Test_Info "Unknown test project $test_project"
ret=1
fi
return $ret
}
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