CN107797905A - 远程redhat客户端下自动生成本地BMC压测脚本的方法 - Google Patents
远程redhat客户端下自动生成本地BMC压测脚本的方法 Download PDFInfo
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- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F11/00—Error detection; Error correction; Monitoring
- G06F11/30—Monitoring
- G06F11/34—Recording or statistical evaluation of computer activity, e.g. of down time, of input/output operation ; Recording or statistical evaluation of user activity, e.g. usability assessment
- G06F11/3409—Recording or statistical evaluation of computer activity, e.g. of down time, of input/output operation ; Recording or statistical evaluation of user activity, e.g. usability assessment for performance assessment
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F11/00—Error detection; Error correction; Monitoring
- G06F11/30—Monitoring
- G06F11/34—Recording or statistical evaluation of computer activity, e.g. of down time, of input/output operation ; Recording or statistical evaluation of user activity, e.g. usability assessment
- G06F11/3409—Recording or statistical evaluation of computer activity, e.g. of down time, of input/output operation ; Recording or statistical evaluation of user activity, e.g. usability assessment for performance assessment
- G06F11/3414—Workload generation, e.g. scripts, playback
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Abstract
本发明公开了远程redhat客户端下自动生成本地BMC压测脚本的方法,属于BMC测试技术领域,该方法在使用远程redhat客户端下自动生成本地redhat系统下BMC sensor压测脚本,使用远程ipmitool sdr elist获取所有sensor,将其自动导入到本地redhat系统下的BMC压测脚本中,实现自动编辑;进行BMC压测前首先安装ipmitool工具,使用ipmitool工具读取sdr elist自动生成在本地redhat系统下的压测脚本。本发明可以自动生成在本地redhat系统下的压测脚本,可以减少编辑压力测试脚本时间,降低测试成本,提高测试的准确度。
Description
技术领域
本发明涉及BMC测试技术领域,具体涉及远程redhat客户端下自动生成本地BMC压测脚本的方法。
背景技术
验证24小时本地redhat系统下的sensor读取压力测试是BMC压力测试不可缺少的一项测试,对于不同项目服务器的BMC sensor名称和数量都有所不同,那么在编辑redhat本地系统下sensor压力测试的脚本时就需要大量的时间和精力,若将编辑脚本由自动编辑代替人工编辑将会大大减少编辑时间,降低边际成本,如何实现自动生成本地redhat系统下的压测脚本成为亟待解决的问题。
发明内容
本发明的技术任务是提供远程redhat客户端下自动生成本地BMC压测脚本的方法,使用ipmitool工具读取的sdr elist可以自动生成在本地redhat系统下的压测脚本,以实现减少编辑时间,降低测试成本。
本发明解决其技术问题所采用的技术方案是:
远程redhat客户端下自动生成本地BMC压测脚本的方法,该方法在使用远程redhat客户端下自动生成本地redhat系统下BMC sensor压测脚本,使用远程ipmitool sdr elist获取所有sensor,将其自动导入到本地redhat系统下的BMC 压测脚本中,实现自动编辑;
进行BMC压测前首先安装ipmitool工具,使用ipmitool工具读取sdr elist自动生成在本地redhat系统下的压测脚本。
进一步的,所述ipmitool sdr elist命令列举全部温度、电压和硬件状态传感器的名称和读值,通过远程截取需要的传感器名称和读值生成本地redhat系统下的压测脚本,检查BMC在本地长时间运行的情况下是否正常。
进一步的,该方法操作步骤如下:
1)、在redhat客户端下安装ipmitool工具;
2)、确保redhat客户端的网络与项目BMC IP可以ping通;
3)、将sensor_reading_KCS_linux.sh脚本copy到redhat客户端桌面;
4)、给予可执行权限 chmod 777 sensor_reading_KCS_linux.sh;
5)、在redhat客户端下执行以下程序:
./ sensor_reading_KCS_linux.sh +BMC_IP+User+Password;
6)、执行后提示“Please wait 20 seconds……”,20秒后生产以该项目ProductName为首的sh文件,该sh文件包含所有sensor,将此sh文件copy到server 本地的redhat下,即可进行本地BMC sensor压测。
所述的程序./ sensor_reading_KCS_linux.sh +BMC_IP+User+Password为./sensor_reading_KCS_linux.sh 100.3.8.114 admin IEI2#1oW。
sensor_reading_KCS_linux.sh脚本内容为:
#!/bin/bash
#set -x
PN=`ipmitool -Ilanplus -H$1 -U$2 -P$3 fru |grep -i "Product Name"|awk '{print $4}'`
echo "Please wait 20 seconds......"
count=`ipmitool -Ilanplus -H$1 -U$2 -P$3 sdr elist |wc -l`
#echo $count
function linux_KCS (){
echo "#!/bin/bash" >> "$PN"_sensor_reading_of_linux_KCS.sh
echo "echo "Sensor reading stress start: date"" >> "$PN"_sensor_reading_of_linux_KCS.sh
echo "for ((a=1;a<=1000;a++))" >> "$PN"_sensor_reading_of_linux_KCS.sh
echo "do" >> "$PN"_sensor_reading_of_linux_KCS.sh
echo "echo $a times stress is running: %date% %time% >>./$PN/time.log " >> "$PN"_sensor_reading_of_linux_KCS.sh
echo "echo "=======================================" >>./$PN/fru .log " >> "$PN"_sensor_reading_of_linux_KCS.sh
echo "ipmitool fru print >>./$PN/fru .log " >> "$PN"_sensor_reading_of_linux_KCS.sh
echo "echo "=======================================" >>./$PN/chassis_status .log " >> "$PN"_sensor_reading_of_linux_KCS.sh
echo "ipmitool chassis status >>./$PN/chassis_status .log " >> "$PN"_sensor_reading_of_linux_KCS.sh
echo "echo "=======================================" >>./$PN/lan_print_1.log " >> "$PN"_sensor_reading_of_linux_KCS.sh
echo "ipmitool lan print 1 >>./$PN/lan_print_1 .log " >> "$PN"_sensor_reading_of_linux_KCS.sh
echo "echo "=======================================" >>./$PN/lan_print_8.log " >> "$PN"_sensor_reading_of_linux_KCS.sh
echo "ipmitool lan print 1 >>./$PN/lan_print_8 .log " >> "$PN"_sensor_reading_of_linux_KCS.sh
echo "echo "=======================================" >>./$PN/mc_info .log" >> "$PN"_sensor_reading_of_linux_KCS.sh
echo "ipmitool mc info >>./$PN/mc_info .log " >> "$PN"_sensor_reading_of_linux_KCS.sh
echo "echo "=======================================" >>./$PN/sel_elist.log " >> "$PN"_sensor_reading_of_linux_KCS.sh
echo "ipmitool sel elist >>./$PN/sel_elist .log " >> "$PN"_sensor_reading_of_linux_KCS.sh
echo "sleep 3" >>"$PN"_sensor_reading_of_linux_KCS.sh
echo "done " >>"$PN"_sensor_reading_of_linux_KCS.sh
}
linux_KCS
for (( i=1;i<=$count;i++ ));
do
sensor=`ipmitool -Ilanplus -H $1 -U $2 -P $3 sdr elist |awk '{print $1}'|sed -n ''$i'p'`
sed -i '4a ipmitool sdr elist |grep -i "'$sensor'" >>./'$PN'/"'$sensor'".log ' "$PN"_sensor_reading_of_linux_KCS.sh
done
进一步的,所述ipmitool工具为任意版本的ipmitool工具。
进一步的,所述sh文件为Vancouver_sensor_reading_of_linux_KCS.sh,具体内容如下:
#!/bin/bash
echo Sensor reading stress start: date
for ((a=1;a<=1000;a++))
do
ipmitool sdr elist |grep -i "PSU1_Power" >>./Vancouver/"PSU1_Power".log
ipmitool sdr elist |grep -i "PSU0_Power" >>./Vancouver/"PSU0_Power".log
ipmitool sdr elist |grep -i "FAN_Power" >>./Vancouver/"FAN_Power".log
ipmitool sdr elist |grep -i "MEM_Power" >>./Vancouver/"MEM_Power".log
ipmitool sdr elist |grep -i "CPU_Power" >>./Vancouver/"CPU_Power".log
ipmitool sdr elist |grep -i "Total_Power" >>./Vancouver/"Total_Power".log
ipmitool sdr elist |grep -i "FAN4_1" >>./Vancouver/"FAN4_1".log
ipmitool sdr elist |grep -i "FAN4_0" >>./Vancouver/"FAN4_0".log
ipmitool sdr elist |grep -i "FAN3_1" >>./Vancouver/"FAN3_1".log
ipmitool sdr elist |grep -i "FAN3_0" >>./Vancouver/"FAN3_0".log
ipmitool sdr elist |grep -i "FAN2_1" >>./Vancouver/"FAN2_1".log
ipmitool sdr elist |grep -i "FAN2_0" >>./Vancouver/"FAN2_0".log
ipmitool sdr elist |grep -i "FAN1_1" >>./Vancouver/"FAN1_1".log
ipmitool sdr elist |grep -i "FAN1_0" >>./Vancouver/"FAN1_0".log
ipmitool sdr elist |grep -i "FAN0_1" >>./Vancouver/"FAN0_1".log
ipmitool sdr elist |grep -i "FAN0_0" >>./Vancouver/"FAN0_0".log
ipmitool sdr elist |grep -i "PCH_VNN" >>./Vancouver/"PCH_VNN".log
ipmitool sdr elist |grep -i "PCH_1.05V" >>./Vancouver/"PCH_1.05V".log
ipmitool sdr elist |grep -i "CPU1_VCCIO" >>./Vancouver/"CPU1_VCCIO".log
ipmitool sdr elist |grep -i "CPU0_VCCIO" >>./Vancouver/"CPU0_VCCIO".log
ipmitool sdr elist |grep -i "CPU1_VDDQ_CH345" >>./Vancouver/"CPU1_VDDQ_CH345".log
ipmitool sdr elist |grep -i "CPU1_VDDQ_CH012" >>./Vancouver/"CPU1_VDDQ_CH012".log
ipmitool sdr elist |grep -i "CPU0_VDDQ_CH345" >>./Vancouver/"CPU0_VDDQ_CH345".log
ipmitool sdr elist |grep -i "CPU0_VDDQ_CH012" >>./Vancouver/"CPU0_VDDQ_CH012".log
ipmitool sdr elist |grep -i "CPU1_VCORE" >>./Vancouver/"CPU1_VCORE".log
ipmitool sdr elist |grep -i "CPU0_VCORE" >>./Vancouver/"CPU0_VCORE".log
ipmitool sdr elist |grep -i "SYS_12V" >>./Vancouver/"SYS_12V".log
ipmitool sdr elist |grep -i "SYS_5V" >>./Vancouver/"SYS_5V".log
ipmitool sdr elist |grep -i "SYS_3.3V" >>./Vancouver/"SYS_3.3V".log
ipmitool sdr elist |grep -i "BMC_Boot_up" >>./Vancouver/"BMC_Boot_up".log
ipmitool sdr elist |grep -i "GPU7_Temp" >>./Vancouver/"GPU7_Temp".log
ipmitool sdr elist |grep -i "GPU6_Temp" >>./Vancouver/"GPU6_Temp".log
ipmitool sdr elist |grep -i "GPU5_Temp" >>./Vancouver/"GPU5_Temp".log
ipmitool sdr elist |grep -i "GPU4_Temp" >>./Vancouver/"GPU4_Temp".log
ipmitool sdr elist |grep -i "GPU3_Temp" >>./Vancouver/"GPU3_Temp".log
ipmitool sdr elist |grep -i "GPU2_Temp" >>./Vancouver/"GPU2_Temp".log
ipmitool sdr elist |grep -i "GPU1_Temp" >>./Vancouver/"GPU1_Temp".log
ipmitool sdr elist |grep -i "GPU0_Temp" >>./Vancouver/"GPU0_Temp".log
ipmitool sdr elist |grep -i "PCH_Temp" >>./Vancouver/"PCH_Temp".log
ipmitool sdr elist |grep -i "CPU1_Temp" >>./Vancouver/"CPU1_Temp".log
ipmitool sdr elist |grep -i "CPU0_Temp" >>./Vancouver/"CPU0_Temp".log
ipmitool sdr elist |grep -i "Outlet_Temp" >>./Vancouver/"Outlet_Temp".log
ipmitool sdr elist |grep -i "Inlet_Temp" >>./Vancouver/"Inlet_Temp".log
echo times stress is running: %date% %time% >>./Vancouver/time.log
echo ======================================= >>./Vancouver/fru .log
ipmitool fru print >>./Vancouver/fru .log
echo ======================================= >>./Vancouver/chassis_status.log
ipmitool chassis status >>./Vancouver/chassis_status .log
echo ======================================= >>./Vancouver/lan_print_1.log
ipmitool lan print 1 >>./Vancouver/lan_print_1 .log
echo ======================================= >>./Vancouver/lan_print_8.log
ipmitool lan print 1 >>./Vancouver/lan_print_8 .log
echo ======================================= >>./Vancouver/mc_info .log
ipmitool mc info >>./Vancouver/mc_info .log
echo ======================================= >>./Vancouver/sel_elist .log
ipmitool sel elist >>./Vancouver/sel_elist .log
sleep 3
done。
本发明的远程redhat客户端下自动生成本地BMC压测脚本的方法与现有技术相比,具有以下有益效果:
使用ipmitool工具读取的sdr elist可以自动生成在本地redhat系统下的压测脚本,以达到减少编辑压力测试脚本时间,降低测试成本,提高测试准确度的目的。实现自动编辑,可省去一部分人力,降低人为编辑错的风险,提高了测试工作效率,改进后编辑过程更加方便,编辑手段更加简洁,即使不知道BMC sensor名称和数量,依然可以进行测试,且编辑无误。
具体实施方式
下面结合具体实施例对本发明作进一步说明。
远程redhat客户端下自动生成本地BMC压测脚本的方法,该方法在使用远程redhat客户端下自动生成本地redhat系统下BMC sensor压测脚本进行BMC压测前首先安装ipmitool工具,使用ipmitool工具读取sdr elist自动生成在本地redhat系统下的压测脚本。
其中, ipmitool sdr elist命令可以列举全部温度、电压和硬件状态等传感器的名称和读值,通过远程截取需要的传感器名称和状态等读值生成本地redhat系统下的压测脚本,来检查BMC在本地长时间运行的情况下是否正常。
该方法操作步骤如下:
1)、在redhat客户端下安装ipmitool工具,所述ipmitool工具为任意版本的ipmitool工具;
2)、确保redhat客户端的网络与项目BMC IP可以ping通;
3)、将sensor_reading_KCS_linux.sh脚本copy到redhat客户端桌面;
4)、给予可执行权限 chmod 777 sensor_reading_KCS_linux.sh;
5)、在redhat客户端下执行
./ sensor_reading_KCS_linux.sh +BMC_IP+User+Password,例如./ sensor_reading_KCS_linux.sh 100.3.8.114 admin IEI2#1oW;
以下是sensor_reading_KCS_linux.sh脚本内容
#!/bin/bash
#set -x
PN=`ipmitool -Ilanplus -H$1 -U$2 -P$3 fru |grep -i "Product Name"|awk '{print $4}'`
echo "Please wait 20 seconds......"
count=`ipmitool -Ilanplus -H$1 -U$2 -P$3 sdr elist |wc -l`
#echo $count
function linux_KCS (){
echo "#!/bin/bash" >> "$PN"_sensor_reading_of_linux_KCS.sh
echo "echo "Sensor reading stress start: date"" >> "$PN"_sensor_reading_of_linux_KCS.sh
echo "for ((a=1;a<=1000;a++))" >> "$PN"_sensor_reading_of_linux_KCS.sh
echo "do" >> "$PN"_sensor_reading_of_linux_KCS.sh
echo "echo $a times stress is running: %date% %time% >>./$PN/time.log " >> "$PN"_sensor_reading_of_linux_KCS.sh
echo "echo "=======================================" >>./$PN/fru .log " >> "$PN"_sensor_reading_of_linux_KCS.sh
echo "ipmitool fru print >>./$PN/fru .log " >> "$PN"_sensor_reading_of_linux_KCS.sh
echo "echo "=======================================" >>./$PN/chassis_status .log " >> "$PN"_sensor_reading_of_linux_KCS.sh
echo "ipmitool chassis status >>./$PN/chassis_status .log " >> "$PN"_sensor_reading_of_linux_KCS.sh
echo "echo "=======================================" >>./$PN/lan_print_1.log " >> "$PN"_sensor_reading_of_linux_KCS.sh
echo "ipmitool lan print 1 >>./$PN/lan_print_1 .log " >> "$PN"_sensor_reading_of_linux_KCS.sh
echo "echo "=======================================" >>./$PN/lan_print_8.log " >> "$PN"_sensor_reading_of_linux_KCS.sh
echo "ipmitool lan print 1 >>./$PN/lan_print_8 .log " >> "$PN"_sensor_reading_of_linux_KCS.sh
echo "echo "=======================================" >>./$PN/mc_info .log" >> "$PN"_sensor_reading_of_linux_KCS.sh
echo "ipmitool mc info >>./$PN/mc_info .log " >> "$PN"_sensor_reading_of_linux_KCS.sh
echo "echo "=======================================" >>./$PN/sel_elist.log " >> "$PN"_sensor_reading_of_linux_KCS.sh
echo "ipmitool sel elist >>./$PN/sel_elist .log " >> "$PN"_sensor_reading_of_linux_KCS.sh
echo "sleep 3" >>"$PN"_sensor_reading_of_linux_KCS.sh
echo "done " >>"$PN"_sensor_reading_of_linux_KCS.sh
}
linux_KCS
for (( i=1;i<=$count;i++ ));
do
sensor=`ipmitool -Ilanplus -H $1 -U $2 -P $3 sdr elist |awk '{print $1}'|sed -n ''$i'p'`
sed -i '4a ipmitool sdr elist |grep -i "'$sensor'" >>./'$PN'/"'$sensor'".log ' "$PN"_sensor_reading_of_linux_KCS.sh
done
6)、执行后提示“Please wait 20 seconds……”,20秒后生产以该项目ProductName为首的sh文件,该sh文件包含所有sensor,将此sh文件copy到server 本地的redhat下,即可进行本地BMC sensor压测,例如生成Vancouver_sensor_reading_of_linux_KCS.sh,具体内容如下:
#!/bin/bash
echo Sensor reading stress start: date
for ((a=1;a<=1000;a++))
do
ipmitool sdr elist |grep -i "PSU1_Power" >>./Vancouver/"PSU1_Power".log
ipmitool sdr elist |grep -i "PSU0_Power" >>./Vancouver/"PSU0_Power".log
ipmitool sdr elist |grep -i "FAN_Power" >>./Vancouver/"FAN_Power".log
ipmitool sdr elist |grep -i "MEM_Power" >>./Vancouver/"MEM_Power".log
ipmitool sdr elist |grep -i "CPU_Power" >>./Vancouver/"CPU_Power".log
ipmitool sdr elist |grep -i "Total_Power" >>./Vancouver/"Total_Power".log
ipmitool sdr elist |grep -i "FAN4_1" >>./Vancouver/"FAN4_1".log
ipmitool sdr elist |grep -i "FAN4_0" >>./Vancouver/"FAN4_0".log
ipmitool sdr elist |grep -i "FAN3_1" >>./Vancouver/"FAN3_1".log
ipmitool sdr elist |grep -i "FAN3_0" >>./Vancouver/"FAN3_0".log
ipmitool sdr elist |grep -i "FAN2_1" >>./Vancouver/"FAN2_1".log
ipmitool sdr elist |grep -i "FAN2_0" >>./Vancouver/"FAN2_0".log
ipmitool sdr elist |grep -i "FAN1_1" >>./Vancouver/"FAN1_1".log
ipmitool sdr elist |grep -i "FAN1_0" >>./Vancouver/"FAN1_0".log
ipmitool sdr elist |grep -i "FAN0_1" >>./Vancouver/"FAN0_1".log
ipmitool sdr elist |grep -i "FAN0_0" >>./Vancouver/"FAN0_0".log
ipmitool sdr elist |grep -i "PCH_VNN" >>./Vancouver/"PCH_VNN".log
ipmitool sdr elist |grep -i "PCH_1.05V" >>./Vancouver/"PCH_1.05V".log
ipmitool sdr elist |grep -i "CPU1_VCCIO" >>./Vancouver/"CPU1_VCCIO".log
ipmitool sdr elist |grep -i "CPU0_VCCIO" >>./Vancouver/"CPU0_VCCIO".log
ipmitool sdr elist |grep -i "CPU1_VDDQ_CH345" >>./Vancouver/"CPU1_VDDQ_CH345".log
ipmitool sdr elist |grep -i "CPU1_VDDQ_CH012" >>./Vancouver/"CPU1_VDDQ_CH012".log
ipmitool sdr elist |grep -i "CPU0_VDDQ_CH345" >>./Vancouver/"CPU0_VDDQ_CH345".log
ipmitool sdr elist |grep -i "CPU0_VDDQ_CH012" >>./Vancouver/"CPU0_VDDQ_CH012".log
ipmitool sdr elist |grep -i "CPU1_VCORE" >>./Vancouver/"CPU1_VCORE".log
ipmitool sdr elist |grep -i "CPU0_VCORE" >>./Vancouver/"CPU0_VCORE".log
ipmitool sdr elist |grep -i "SYS_12V" >>./Vancouver/"SYS_12V".log
ipmitool sdr elist |grep -i "SYS_5V" >>./Vancouver/"SYS_5V".log
ipmitool sdr elist |grep -i "SYS_3.3V" >>./Vancouver/"SYS_3.3V".log
ipmitool sdr elist |grep -i "BMC_Boot_up" >>./Vancouver/"BMC_Boot_up".log
ipmitool sdr elist |grep -i "GPU7_Temp" >>./Vancouver/"GPU7_Temp".log
ipmitool sdr elist |grep -i "GPU6_Temp" >>./Vancouver/"GPU6_Temp".log
ipmitool sdr elist |grep -i "GPU5_Temp" >>./Vancouver/"GPU5_Temp".log
ipmitool sdr elist |grep -i "GPU4_Temp" >>./Vancouver/"GPU4_Temp".log
ipmitool sdr elist |grep -i "GPU3_Temp" >>./Vancouver/"GPU3_Temp".log
ipmitool sdr elist |grep -i "GPU2_Temp" >>./Vancouver/"GPU2_Temp".log
ipmitool sdr elist |grep -i "GPU1_Temp" >>./Vancouver/"GPU1_Temp".log
ipmitool sdr elist |grep -i "GPU0_Temp" >>./Vancouver/"GPU0_Temp".log
ipmitool sdr elist |grep -i "PCH_Temp" >>./Vancouver/"PCH_Temp".log
ipmitool sdr elist |grep -i "CPU1_Temp" >>./Vancouver/"CPU1_Temp".log
ipmitool sdr elist |grep -i "CPU0_Temp" >>./Vancouver/"CPU0_Temp".log
ipmitool sdr elist |grep -i "Outlet_Temp" >>./Vancouver/"Outlet_Temp".log
ipmitool sdr elist |grep -i "Inlet_Temp" >>./Vancouver/"Inlet_Temp".log
echo times stress is running: %date% %time% >>./Vancouver/time.log
echo ======================================= >>./Vancouver/fru .log
ipmitool fru print >>./Vancouver/fru .log
echo ======================================= >>./Vancouver/chassis_status.log
ipmitool chassis status >>./Vancouver/chassis_status .log
echo ======================================= >>./Vancouver/lan_print_1.log
ipmitool lan print 1 >>./Vancouver/lan_print_1 .log
echo ======================================= >>./Vancouver/lan_print_8.log
ipmitool lan print 1 >>./Vancouver/lan_print_8 .log
echo ======================================= >>./Vancouver/mc_info .log
ipmitool mc info >>./Vancouver/mc_info .log
echo ======================================= >>./Vancouver/sel_elist .log
ipmitool sel elist >>./Vancouver/sel_elist .log
sleep 3
done。
通过上面具体实施方式,所述技术领域的技术人员可容易的实现本发明。但是应当理解,本发明并不限于上述的具体实施方式。在公开的实施方式的基础上,所述技术领域的技术人员可任意组合不同的技术特征,从而实现不同的技术方案。
Claims (6)
1.远程redhat客户端下自动生成本地BMC压测脚本的方法,其特征在于该方法在使用远程redhat客户端下自动生成本地redhat系统下BMC sensor压测脚本,使用远程ipmitoolsdr elist获取所有sensor,将其自动导入到本地redhat系统下的BMC 压测脚本中,实现自动编辑;
进行BMC压测前首先安装ipmitool工具,使用ipmitool工具读取sdr elist自动生成在本地redhat系统下的压测脚本。
2.根据权利要求1所述的远程redhat客户端下自动生成本地BMC压测脚本的方法,其特征在于所述ipmitool sdr elist命令列举全部温度、电压和硬件状态传感器的名称和读值,通过远程截取需要的传感器名称和读值生成本地redhat系统下的压测脚本,检查BMC在本地长时间运行的情况下是否正常。
3.根据权利要求1所述的远程redhat客户端下自动生成本地BMC压测脚本的方法,其特征在于该方法操作步骤如下:
1)、在redhat客户端下安装ipmitool工具;
2)、确保redhat客户端的网络与项目BMC IP可以ping通;
3)、将sensor_reading_KCS_linux.sh脚本copy到redhat客户端桌面;
4)、给予可执行权限 chmod 777 sensor_reading_KCS_linux.sh;
5)、在redhat客户端下执行以下程序:
./ sensor_reading_KCS_linux.sh +BMC_IP+User+Password;
6)、执行后提示“Please wait 20 seconds……”,20秒后生产以该项目ProductName为首的sh文件,该sh文件包含所有sensor,将此sh文件copy到server 本地的redhat下,即可进行本地BMC sensor压测。
4.根据权利要求3所述的远程redhat客户端下自动生成本地BMC压测脚本的方法,其特征在于所述的程序./ sensor_reading_KCS_linux.sh +BMC_IP+User+Password为./sensor_reading_KCS_linux.sh 100.3.8.114 admin IEI2#1oW。
5.根据权利要求3所述的远程redhat客户端下自动生成本地BMC压测脚本的方法,其特征在于所述ipmitool工具为任意版本的ipmitool工具。
6.根据权利要求3所述的远程redhat客户端下自动生成本地BMC压测脚本的方法,其特征在于所述sh文件为Vancouver_sensor_reading_of_linux_KCS.sh。
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