CollSugonHardwareByIpmi.java
23.9 KB
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package com.sitech.ismp.hardware;
import com.sitech.ismp.app.coll.RPCTarget;
import com.sitech.ismp.coll.CollBase;
import com.sitech.ismp.coll.basic.TblATO_KPIDETAIL;
import com.sitech.util.DES3;
import com.sitech.util.DateFormater;
import net.sf.json.JSONObject;
import org.apache.log4j.Logger;
import javax.xml.crypto.Data;
import java.util.*;
/**
* Created by Administrator on 2016/3/2.
*/
public class CollSugonHardwareByIpmi {
Logger log = Logger.getLogger("COLL");
public String sensorListCommand = "ipmitool -H #IP_ADDR# -U #USER_NAME# -P #PASSWORD# sensor list";
private boolean coll = false;
private final String PRE_UNIT_ID = "10-10-50";
private String DEVICE_ID = "";
RPCTarget rpctarget = new RPCTarget();
public Vector<TblATO_KPIDETAIL> collAllBaseInfo(HashMap params) throws Exception{
CollBase collBase = new CollBase();
init(params);
Vector<String> exeResults = new Vector<String>();
exeResults = rpctarget.getKPISet(sensorListCommand);
if(exeResults != null && exeResults.size() > 0){
if("MUTIL".equals(params.get("CONTROL_TYPE"))){
return collMutilControlModel(exeResults);
}else if("SINGLE".equals(params.get("CONTROL_TYPE"))){
return collSingleControlModel(exeResults);
}else{
return collCommonControleModel(exeResults);
}
}
//Vector<String> exeResults = new Vector();//rpctarget.getKPISet(sensorListCommand);
//exeResults.add("CM1 Temp | 22.000 | degrees C | ok | 1.000 | 3.000 | 5.000 | 55.000 | 58.000 | 61.000");
// 获取到结果后开始进行数据解析
return collBase.getKPISet();
}
/**
* 采用通用模式采集硬件信息,以二维表的形式展示
* @param exeResults
* @return
*/
private Vector<TblATO_KPIDETAIL> collCommonControleModel(Vector<String> exeResults){
log.info("Use common control model....");
CollBase collBase = new CollBase();
Date now = new Date();
for(String resultElement : exeResults){
String totalUnitId = PRE_UNIT_ID + "-10:" + DEVICE_ID ;
resultElement = resultElement.trim();
String splitRst[] = resultElement.split("\\|");
String key = splitRst[0].trim();
String value = splitRst[1].trim();
String unit = splitRst[2].trim();
String status = splitRst[3].trim();
String lowerCritical = splitRst[5].trim();// 最小临界值
String upperCritical = splitRst[9].trim();
collBase.addKPI(totalUnitId+"-"+parseKey(key),"CM-19-19-91-01",key,now,null);
collBase.addKPI(totalUnitId+"-"+parseKey(key),"CM-19-19-91-02",unit,now,null);
collBase.addKPI(totalUnitId+"-"+parseKey(key),"FM-19-19-91-01",value,now,null);
collBase.addKPI(totalUnitId+"-"+parseKey(key),"FM-19-19-91-02",status,now,null);
collBase.addKPI(totalUnitId+"-"+parseKey(key),"FM-19-19-91-03",lowerCritical,now,null);
collBase.addKPI(totalUnitId+"-"+parseKey(key),"FM-19-19-91-04",upperCritical,now,null);
if("na".equals(value) || "0x0".equals(value)){
continue;
}
// 生成几个重要的指标
/**
* 1、主板温度
* 2、CPU 温度
* 3、风扇转速
*/
if(key.toUpperCase().indexOf("PCH") != -1 && key.toUpperCase().indexOf("TEMP") != -1){
totalUnitId = PRE_UNIT_ID + "-23:" + DEVICE_ID ;
collBase.addKPI(totalUnitId+"-"+parseKey(key),"FM-19-19-21-03",value,now,null);
continue;
}
if(key.toUpperCase().indexOf("FAN") != -1){
totalUnitId = PRE_UNIT_ID + "-21:" + DEVICE_ID ;
collBase.addKPI(totalUnitId+"-"+parseKey(key),"CM-19-19-14-01",key,now,null);
collBase.addKPI(totalUnitId+"-"+parseKey(key),"FM-19-19-14-01",value,now,null);
continue;
}
if(key.toUpperCase().indexOf("CPU") != -1 && key.toUpperCase().indexOf("TEMP") != -1){
totalUnitId = PRE_UNIT_ID + "-20:" + DEVICE_ID ;
collBase.addKPI(totalUnitId+"-"+parseKey(key),"CM-19-19-11-02",key,now,null);
collBase.addKPI(totalUnitId+"-"+parseKey(key),"FM-19-19-11-02",value,now,null);
}
}
return collBase.getKPISet();
}
private String parseKey(String key){
return key.replaceAll("\\+","").replaceAll(" ","_").replaceAll("\\-","_").replaceAll("\\*","_");
}
private Vector<TblATO_KPIDETAIL> collCB80G20(Vector<String> exeResults){
CollBase collBase = new CollBase();
String totalUnitId = PRE_UNIT_ID + "-10:" + DEVICE_ID ;
boolean hasCPUModule = false;
for (String resultElement : exeResults){
resultElement = resultElement.trim().replaceAll("\\+", "");
String splitRst[] = resultElement.split("\\|");
String key = splitRst[0].trim();
String value = splitRst[1].trim();
String unit = splitRst[2].trim();
String keySpilts[] = null;
if(key.indexOf(" ") != -1){
keySpilts = key.split(" ");
}else{
keySpilts = key.split(" ");
}
resultElement = resultElement.toUpperCase();
if(resultElement.contains("CPU") || resultElement.contains("VCORE")){
totalUnitId = PRE_UNIT_ID + "-20:" + DEVICE_ID ;
if(!hasCPUModule){
collBase.addKPI(totalUnitId+"-CM1","CM-19-19-11-01","CM1");
hasCPUModule = true;
}
// CPU编号
collBase.addKPI(totalUnitId+"-CM1_"+keySpilts[0],"CM-19-19-11-02",keySpilts[0]);
if(resultElement.indexOf("TEMP")!=-1){// CPU温度
collBase.addKPI(totalUnitId+"-CM1_"+keySpilts[0],"FM-19-19-11-02",value);
continue;
}
if(resultElement.indexOf("VCORE") != -1){// CPU 电压
String vcore = keySpilts[0].replaceAll("VCORE","CPU");
collBase.addKPI(totalUnitId+"-CM1_"+keySpilts[0],"FM-19-19-11-04",vcore);
continue;
}
if(resultElement.indexOf("VDDQ") != -1){// CPU脉冲电压
//VDDQ_CPU0
String vddqArray[] = keySpilts[0].split("_");
collBase.addKPI(totalUnitId+"-CM1_"+vddqArray[1],"FM-19-19-11-04",value);
}
}else if(resultElement.contains("INLET") || resultElement.contains("OUTLET")){
totalUnitId = PRE_UNIT_ID + "-25:" + DEVICE_ID ;
}else if(resultElement.indexOf("FAN") != -1 && !"na".equals(value)){
totalUnitId = PRE_UNIT_ID + "-21:" + DEVICE_ID ;
collBase.addKPI(totalUnitId+"-"+key,"CM-19-19-14-01",key);
collBase.addKPI(totalUnitId+"-"+key,"FM-19-19-14-01",value);
}else if(resultElement.indexOf("BMC") != -1){// BMC 温度
totalUnitId = PRE_UNIT_ID + "-23:" + DEVICE_ID ;
collBase.addKPI(totalUnitId+"-total_PCH","FM-19-19-19-03",value);
}else if(resultElement.indexOf("PCH") != -1){// 主板温度
totalUnitId = PRE_UNIT_ID + "-23:" + DEVICE_ID ;
collBase.addKPI(totalUnitId+"-total_"+keySpilts[0],"FM-19-19-21-03",value);
}else if(resultElement.indexOf("VR") != -1){
totalUnitId = PRE_UNIT_ID + "-23:" + DEVICE_ID ;
collBase.addKPI(totalUnitId+"-total_"+keySpilts[0],"CM-19-19-25-01",resultElement);
collBase.addKPI(totalUnitId+"-total_"+keySpilts[0],"FM-19-19-25-01",value);
}else{
totalUnitId = PRE_UNIT_ID + "-23:" + DEVICE_ID ;
if (resultElement.indexOf("1.05V_SSB") != -1) {
collBase.addKPI(totalUnitId + "-total_PCH", "FM-19-19-19-04", value);// 主板1.1V电压
} else if(resultElement.indexOf("12V") != -1){
collBase.addKPI(totalUnitId + "-total_PCH", "FM-19-19-19-20", value);// 主板12V电压---新增
} else if (resultElement.indexOf("5V") != -1) {
collBase.addKPI(totalUnitId + "-total_5V", "FM-19-19-19-07", value);//主板5V电压
} else if (resultElement.indexOf("3.3V") != -1) {
collBase.addKPI(totalUnitId + "-total_PCH", "FM-19-19-19-08", value);// 主板3.3V电压
} else if (resultElement.indexOf("VBAT") != -1) {
collBase.addKPI(totalUnitId + "-total_VBAT", "FM-19-19-19-10", value);// 电池电压
}else if (resultElement.indexOf("5VSB") != -1) {
collBase.addKPI(totalUnitId + "-total_5VSB", "FM-19-19-19-12", value);// 待机5.5V电压
}else if (resultElement.indexOf("HDD") != -1) {
collBase.addKPI(totalUnitId + "-total_HDD", "FM-19-19-19-14", value);// 硬盘状态
}else if(resultElement.indexOf("BMC") != -1){// BMC 温度
totalUnitId = PRE_UNIT_ID + "-23:" + DEVICE_ID ;
collBase.addKPI(totalUnitId+"-total_PCH","FM-19-19-19-03",value);
}
}
}
return collBase.getKPISet();
}
private Vector<TblATO_KPIDETAIL> collSingleControlModel(Vector<String> exeResults){
CollBase collBase = new CollBase();
String totalUnitId = PRE_UNIT_ID + "-10:" + DEVICE_ID ;
log.info("Execute command ("+sensorListCommand+") result : ");
boolean hasCPUModule = false;
for(String resultElement : exeResults){
resultElement = resultElement.trim();
String splitRst[] = resultElement.split("\\|");
String key = splitRst[0].trim();
String value = splitRst[1].trim();
String unit = splitRst[2].trim();
String keySpilts[] = null;
if(key.indexOf(" ") != -1){
keySpilts = key.split(" ");
}else{
keySpilts = key.split(" ");
}
if(resultElement.indexOf("CPU") != -1){
totalUnitId = PRE_UNIT_ID + "-20:" + DEVICE_ID ;
if(!hasCPUModule){
collBase.addKPI(totalUnitId+"-CM1","CM-19-19-11-01","CM1");
hasCPUModule = true;
}
// CPU编号
collBase.addKPI(totalUnitId+"-CM1_"+keySpilts[0],"CM-19-19-11-02",keySpilts[0]);
if(resultElement.indexOf("Temp")!=-1){// CPU温度
collBase.addKPI(totalUnitId+"-CM1_"+keySpilts[0],"FM-19-19-11-02",value);
}
if(resultElement.toLowerCase().indexOf("vcore") != -1){// CPU 电压
collBase.addKPI(totalUnitId+"-CM1_"+keySpilts[0],"FM-19-19-11-04",value);
}
}
else if(resultElement.toLowerCase().indexOf("system") != -1){// 系统温度
totalUnitId = PRE_UNIT_ID + "-23:" + DEVICE_ID ;
collBase.addKPI(totalUnitId+"-total_"+keySpilts[0]+"_"+keySpilts[1],"FM-19-19-21-01",value);
}
else if(resultElement.toLowerCase().indexOf("peripheral") != -1){// 外围温度
totalUnitId = PRE_UNIT_ID + "-23:" + DEVICE_ID ;
collBase.addKPI(totalUnitId+"-total_"+keySpilts[0]+"_"+keySpilts[1],"FM-19-19-21-02",value);
}
else if(resultElement.toLowerCase().indexOf("pch") != -1){// 主板温度
totalUnitId = PRE_UNIT_ID + "-23:" + DEVICE_ID ;
collBase.addKPI(totalUnitId+"-total_"+keySpilts[0]+"_"+keySpilts[1],"FM-19-19-21-03",value);
}else if(resultElement.indexOf("FAN") != -1 && !"na".equals(value)){
totalUnitId = PRE_UNIT_ID + "-21:" + DEVICE_ID ;
collBase.addKPI(totalUnitId+"-"+key,"CM-19-19-14-01",key);
collBase.addKPI(totalUnitId+"-"+key,"FM-19-19-14-01",value);
}else if(resultElement.indexOf("VDIMM") != -1){
collBase.addKPI(totalUnitId+"-"+keySpilts[0]+"_"+keySpilts[1],"CM-19-19-22-01",keySpilts[1]);// 内存槽编号
collBase.addKPI(totalUnitId+"-"+keySpilts[0]+"_"+keySpilts[1],"FM-19-19-22-01",value);// 内存电压
}else {
totalUnitId = PRE_UNIT_ID + "-23:" + DEVICE_ID ;
if (resultElement.indexOf("1.1 V") != -1) {
collBase.addKPI(totalUnitId + "-total_PCH", "FM-19-19-19-04", value);// 主板1.1V电压
} else if (resultElement.indexOf("1.5 V") != -1) {
collBase.addKPI(totalUnitId + "-total_PCH", "FM-19-19-19-05", value);// 主板1.5V电压
} else if (resultElement.indexOf("3.3VSB") != -1) {
collBase.addKPI(totalUnitId + "-total_3_3VSB", "FM-19-19-19-11", value); // 待机3.3V电压
} else if (resultElement.indexOf("3.3V") != -1) {
collBase.addKPI(totalUnitId + "-total_PCH", "FM-19-19-19-08", value);// 主板3.3V电压
} else if (resultElement.indexOf("5VSB") != -1) {
collBase.addKPI(totalUnitId + "-total_5VSB", "FM-19-19-19-12", value);// 待机5.5V电压
} else if (resultElement.indexOf("5V") != -1) {
collBase.addKPI(totalUnitId + "-total_5V", "FM-19-19-19-07", value);//主板5V电压
} else if (resultElement.indexOf("VBAT") != -1) {
collBase.addKPI(totalUnitId + "-total_VBAT", "FM-19-19-19-10", value);// 电池电压
} else if (resultElement.indexOf("HDD Status") != -1) {
collBase.addKPI(totalUnitId + "-total_HDD", "FM-19-19-19-14", value);// 硬盘状态
}else if(resultElement.indexOf("BMC") != -1){// BMC 温度
totalUnitId = PRE_UNIT_ID + "-23:" + DEVICE_ID ;
collBase.addKPI(totalUnitId+"-total_PCH","FM-19-19-19-03",value);
}
}
}
return collBase.getKPISet();
}
/**
* 采集具备多控制模块的硬件设备
* @param exeResults
* @return
*/
private Vector<TblATO_KPIDETAIL> collMutilControlModel(Vector<String> exeResults){
CollBase collBase = new CollBase();
String totalUnitId = PRE_UNIT_ID + "-10:" + DEVICE_ID ;
log.info("Execute command ("+sensorListCommand+") result : ");
// 按控制模块进行划分
for(String resultElement : exeResults){
resultElement = resultElement.trim();
// 获取控制模块的温度
String splitRst[] = resultElement.split("\\|");
String key = splitRst[0].trim();
String value = splitRst[1].trim();
String unit = splitRst[2].trim();
if(resultElement.indexOf("CM")!= -1 && splitRst != null && splitRst.length > 0){
String keySpilts[] = null;
if(key.indexOf(" ") != -1){
keySpilts = key.split(" ");
}else{
keySpilts = key.split(" ");
}
totalUnitId = PRE_UNIT_ID + "-20:" + DEVICE_ID ;
log.info("==" + resultElement + ",key:" + key + ",split length:" + keySpilts.length);
if(keySpilts.length < 3){
collBase.addKPI(totalUnitId + "-" + keySpilts[0], "CM-19-19-11-01", keySpilts[0]);// 控制模块名称
// 生成控制模块的温度
if(keySpilts.length == 2 && keySpilts[1].trim() == "Temp"){
// 控制模块温度
collBase.addKPI(totalUnitId+"-"+keySpilts[0]+"_"+keySpilts[1],"FM-19-19-11-01",value);
continue;
}
}else
// 分析CPU信息,包含CPU温度,
if(resultElement.indexOf("CPU") != -1){
if(resultElement.indexOf("Temp")!=-1){// CPU温度
collBase.addKPI(totalUnitId+"-"+keySpilts[0]+"_"+keySpilts[1],"CM-19-19-11-02",keySpilts[0] + " " + keySpilts[1]);
collBase.addKPI(totalUnitId+"-"+keySpilts[0]+"_"+keySpilts[1],"FM-19-19-11-02",value);
}else
if(resultElement.indexOf("MEM") != -1){//VR 模块电压
collBase.addKPI(totalUnitId+"-"+keySpilts[0]+"_"+keySpilts[1],"FM-19-19-11-03",value);
}
else if(resultElement.indexOf("VCore") != -1){// CPU 电压
collBase.addKPI(totalUnitId+"-"+keySpilts[0]+"_"+keySpilts[1],"FM-19-19-11-04",value);
}
else if(resultElement.indexOf("VCCIO") != -1){// CCIO 电压
collBase.addKPI(totalUnitId+"-"+keySpilts[0]+"_"+keySpilts[1],"FM-19-19-11-05",value);
}
} else if(resultElement.indexOf("Outlet Temp") != -1){// 模块对应的出风口
collBase.addKPI(totalUnitId+"-"+keySpilts[0]+"_"+keySpilts[1]+"_"+keySpilts[2],"CM-19-19-12-01",keySpilts[2].replaceAll("Temp",""));
collBase.addKPI(totalUnitId+"-"+keySpilts[0]+"_"+keySpilts[1]+"_"+keySpilts[2],"FM-19-19-12-01",value);
}
}else if(resultElement.startsWith("PSU")){//分析电源单元
totalUnitId = PRE_UNIT_ID + "-22:" + DEVICE_ID ;
String unitKey = key.split("_")[0];
if(key.indexOf("_") == -1){
// PSU电源单元名称
collBase.addKPI(totalUnitId+"-"+unitKey,"CM-19-19-13-01",unitKey);
}else{
if(key.indexOf("VIn") != -1){//输入电压
collBase.addKPI(totalUnitId+"-"+unitKey,"FM-19-19-13-01",value);
}else if(key.indexOf("IIn")!=-1){// 输入电流
collBase.addKPI(totalUnitId+"-"+unitKey,"FM-19-19-13-02",value);
}else if(key.indexOf("Fan")!=-1){
// 可能存在多个风扇
collBase.addKPI(totalUnitId+"-"+key,"CM-19-19-14-01",key);
collBase.addKPI(totalUnitId+"-"+key,"FM-19-19-14-01",value);
}else if(key.indexOf("Temp")!=-1){
collBase.addKPI(totalUnitId+"-"+key,"CM-19-19-15-01",key);
collBase.addKPI(totalUnitId+"-"+key,"FM-19-19-15-01",value);
}else if(key.indexOf("Temp2")!=-1){
}else if(key.indexOf("VOut")!=-1){
collBase.addKPI(totalUnitId+"-"+unitKey,"FM-19-19-13-07",value);
}
}
}else if(resultElement.toUpperCase().startsWith("FAN")) {// 风扇信息
totalUnitId = PRE_UNIT_ID + "-21:" + DEVICE_ID ;
collBase.addKPI(totalUnitId+"-"+key,"CM-19-19-14-01",key);
collBase.addKPI(totalUnitId+"-"+key,"FM-19-19-14-01",value);//
}else if(resultElement.toUpperCase().startsWith("IOE")){// 输入输出电源温度
totalUnitId = PRE_UNIT_ID + "-14:" + DEVICE_ID ;
key = key.replaceAll("Temp","").trim();
collBase.addKPI(totalUnitId+"-"+key,"CM-19-19-16-01",key);
collBase.addKPI(totalUnitId+"-"+key,"FM-19-19-16-01",value);
}else{
totalUnitId = PRE_UNIT_ID + "-23:" + DEVICE_ID ;
// 主板温度
if(key.indexOf("PCH Temp") != -1){
/*collBase.addKPI(totalUnitId+"-PCH","CM-19-19-19-01",key);*/
collBase.addKPI(totalUnitId+"-total_PCH","FM-19-19-19-01",value);
continue;
}
if(key.indexOf("NIC") != -1){// 主板网卡温度
collBase.addKPI(totalUnitId+"-total_PCH","FM-19-19-19-02",value);
continue;
}
if(key.indexOf("BMC Temp") != -1){// BMC温度
collBase.addKPI(totalUnitId+"-total_PCH","FM-19-19-19-03",value);
continue;
}
if(key.indexOf("PCH 1.1V") != -1){//主板1.1V电压
collBase.addKPI(totalUnitId+"-total_PCH","FM-19-19-19-04",value);
continue;
}
if(key.indexOf("PCH 1.5V") != -1){//主板1.5V电压
collBase.addKPI(totalUnitId+"-total_PCH","FM-19-19-19-05",value);
continue;
}
if(key.indexOf("12V") != -1){// 整机12V电压
collBase.addKPI(totalUnitId+"-total_PCH","FM-19-19-19-06",value);
continue;
}
if(key.indexOf("5V") != -1){// 整机5V
collBase.addKPI(totalUnitId+"-total_PCH","FM-19-19-19-07",value);
continue;
}
if(key.indexOf("3.3V") != -1){//整机3.3V电压
collBase.addKPI(totalUnitId+"-total_PCH","FM-19-19-19-08",value);
continue;
}
if(key.indexOf("PCH Fan") != -1){//主板风扇
collBase.addKPI(totalUnitId+"-total_PCH","FM-19-19-19-09",value);
continue;
}
if(key.indexOf("VBAT") != -1){//电池电压
collBase.addKPI(totalUnitId+"-total_PCH","FM-19-19-19-10",value);
continue;
}
}
}
return collBase.getKPISet();
}
public void init(HashMap params){
try {
// 如果存在password,需要将password解码
String password = DES3.decrypt((String) params.get("PASSWORD"));
params.put("PASSWORD",password);
}catch (Exception ex){
log.error("CollSugonHardwareByIpmi format password has err!",ex);
}
this.DEVICE_ID = (String )params.get("DEVICE_ID");
if(params != null){
Set it = params.keySet();
for(Object key : it){
sensorListCommand = sensorListCommand.replaceAll("#"+key+"#",""+params.get(key));
}
}
if(sensorListCommand.indexOf("#") == -1){
coll = true;
}
log.info("Sensor list command is : " + sensorListCommand);
}
public static void main(String args[]) throws Exception{
if(args.length < 4){
System.out.println("Please input your params:*[IP_ADDR] *[USER_NAME] *[PASSWORD] *[DEVICE_ID] [CONTROL_TYPE:SINGLE|MUTIL]");
return ;
}
HashMap params = new HashMap();
params.put("IP_ADDR",args[0]);
params.put("USER_NAME",args[1]);
params.put("PASSWORD",DES3.encrypt(args[2]));
params.put("DEVICE_ID", args[3]);
params.put("CONTROL_TYPE", "SINGLE");
if(args.length > 4){
params.put("CONTROL_TYPE", args[4]);
}
System.out.println(JSONObject.fromObject(params));
CollSugonHardwareByIpmi collSugonHardwareByIpmi = new CollSugonHardwareByIpmi();
Vector<TblATO_KPIDETAIL> vector = collSugonHardwareByIpmi.collAllBaseInfo(params);
for(TblATO_KPIDETAIL kpidetail : vector) {
System.out.println("INSERT INTO ZVIEWMONITOR.TB_ATO_KPIDETAIL (\n" +
" KPI_ID, UNIT_ID, CLL_TIME, \n" +
" KPI_VALUE, EXT_INFO, DB_TIME, \n" +
" EXT_UNIT_ID, INTERVAL) \n" +
"VALUES ('"+kpidetail.KPI_ID+"','"+kpidetail.UNIT_ID+"',to_date('"+ DateFormater.datetimeToString(kpidetail.CLL_TIME)+"','yyyy-MM-dd HH24:mi:ss'),'"+
kpidetail.KPI_VALUE+"','"+kpidetail.EXT_INFO+"',sysdate,'10-50-10:"+
args[3]+"',90000);");
//System.out.println("unit_id:[" + kpidetail.UNIT_ID + "] kpi_id:[" + kpidetail.KPI_ID + "] kpi_value:[" + kpidetail.KPI_VALUE + "]");
}
}
}