CollWindowsWithSNMP.java
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package com.sitech.ismp.coll.centercoll;
import com.sitech.ismp.coll.CollBase;
import com.sitech.ismp.coll.basic.TblATO_KPIDETAIL;
import com.sitech.ismp.coll.centercoll.windows.*;
import com.sitech.util.DES3;
import com.sitech.util.Formater;
import com.sitech.util.Ping;
import org.apache.commons.lang.StringUtils;
import org.apache.log4j.Logger;
import org.snmp4j.CommunityTarget;
import org.snmp4j.PDU;
import org.snmp4j.Snmp;
import org.snmp4j.event.ResponseEvent;
import org.snmp4j.smi.*;
import java.io.IOException;
import java.util.*;
public class CollWindowsWithSNMP {
private Logger logger = Logger.getLogger("COLL");
private String PRE_UNITID = "10-10-23";
private String HOST_IP = "";
private int PORT = 161;
private String COMMUNITY = "public";
private String HOST_NAME = "";
private String NEAT_HOST_NAME = "";
private Snmp mSnmp = null;
private CommunityTarget mCommunityTarget = null;
private boolean isConnection = false;
public CollWindowsWithSNMP(String ip, int port, String community, String host_name) {
this.HOST_IP = ip;
this.PORT = port;
this.COMMUNITY = community;
this.HOST_NAME = host_name;
this.NEAT_HOST_NAME = Formater.neatenunitid(this.HOST_NAME);
}
public CollWindowsWithSNMP(HashMap params) {
this.HOST_IP = (String) params.get("IP");
this.PORT = Integer.parseInt((String) params.get("PORT"));
this.COMMUNITY = (String) params.get("COMMUNITY");
this.HOST_NAME = (String) params.get("HOST_NAME");
this.NEAT_HOST_NAME = Formater.neatenunitid(this.HOST_NAME);
}
public void init() {
try {
String addr = "udp:" + this.HOST_IP + "/" + String.valueOf(this.PORT);
OctetString community = new OctetString(this.COMMUNITY);
Address address = GenericAddress.parse(addr);
mCommunityTarget = new CommunityTarget(address, community);
org.snmp4j.TransportMapping vTransport = new org.snmp4j.transport.DefaultUdpTransportMapping();
mSnmp = new org.snmp4j.Snmp(vTransport);
vTransport.listen();
mCommunityTarget.setCommunity(community);
mCommunityTarget.setAddress(new UdpAddress(java.net.InetAddress.getByName(this.HOST_IP), this.PORT));
mCommunityTarget.setRetries(2);
mCommunityTarget.setTimeout(5000);
mCommunityTarget.setVersion(org.snmp4j.mp.SnmpConstants.version2c);
isConnection = true;
} catch (Exception e) {
logger.error("UnknownHostError", e);
this.release();
isConnection = false;
}
}
public void release() {
try {
if (mSnmp != null) {
mSnmp.close();
}
} catch (IOException e) {
mSnmp = null;
}
}
/**
* 主机状态的检测是通过连接反馈回来的状态来确定的
*
* @return
*/
public Vector<TblATO_KPIDETAIL> getStates() {
Vector<TblATO_KPIDETAIL> kpiVector = new Vector<TblATO_KPIDETAIL>();
// 保存采集结果,并返回值
CollBase collResult = new CollBase();
// 主机状态
String UNIT_ID = this.PRE_UNITID + "-10:" + this.NEAT_HOST_NAME + "-state";
boolean isReacheable = false;
try {
isReacheable = Ping.ping1(HOST_IP);
System.out.println("--a:" + isReacheable);
if (!isReacheable) {
isReacheable = isConnection;
System.out.println("--b:" + isReacheable);
}
} catch (Exception e) {
logger.error("Exception while ping " + HOST_IP, e);
}
System.out.println("--c:" + isReacheable);
if (isReacheable) {
// kpiVector.add(createKPI(UNIT_ID, "FM-00-01-001-01", "UP"));
// collResult.addKPI(UNIT_ID, "FM-00-01-001-01", "UP");
} else {
// kpiVector.add(createKPI(UNIT_ID, "FM-00-01-001-01", "DOWN"));
// collResult.addKPI(UNIT_ID, "FM-00-01-001-01", "DOWN");
}
return collResult.getKPISet();
}
private String getSystemDesc(){
return this.getKPIInfo(".1.3.6.1.2.1.1.1.0");
}
public Vector getConfig() {
// 保存采集结果,并返回值
CollBase collResult = new CollBase();
Vector kpiVector = new Vector();
String UNIT_ID = this.PRE_UNITID + "-10:" + this.NEAT_HOST_NAME + "-total";
// 主机启动时长
String systemUptime = this.getKPIInfo(".1.3.6.1.2.1.25.1.1.0");
// kpiVector.add(createKPI(UNIT_ID, "CM-00-01-001-22", systemUptime));
collResult.addKPI(UNIT_ID, "CM-00-01-001-22", systemUptime);
// 主机 IP
// kpiVector.add(createKPI(UNIT_ID, "CM-00-01-001-02", HOST_IP));
collResult.addKPI(UNIT_ID, "CM-00-01-001-02", HOST_IP);
// 操作系统版本
String systemDesc = this.getKPIInfo(".1.3.6.1.2.1.1.1.0");
if (systemDesc != null) {
// kpiVector.add(createKPI(UNIT_ID, "CM-00-01-001-08", systemDesc));
collResult.addKPI(UNIT_ID, "CM-00-01-001-08", systemDesc);
}
// 操作系统
// kpiVector.add(createKPI(UNIT_ID, "CM-00-01-001-010", "Windows"));
collResult.addKPI(UNIT_ID, "CM-00-01-001-03", "Windows");
// 主机名
String hostname = this.getKPIInfo(".1.3.6.1.2.1.1.5.0");
// kpiVector.add(createKPI(UNIT_ID, "CM-00-01-001-01", hostname));
collResult.addKPI(UNIT_ID, "CM-00-01-001-01", hostname);
// 主机
IpAddrEntryWalker ipew = new IpAddrEntryWalker();
ipew.walker(this.HOST_IP, this.PORT, this.COMMUNITY);
Vector ipVector = ipew.getEntry();
if (ipVector != null && ipVector.size() > 0) {
StringBuffer ipsb = new StringBuffer();
for (int i = 0; i < ipVector.size(); i++) {
IpAddrEntry ipentry = (IpAddrEntry) ipVector.get(i);
String ip = ipentry.getIpAddr();
ipsb.append(ip);
if (i < ipVector.size() - 1) {
ipsb.append(",");
}
}
// ip
// kpiVector.add(createKPI(UNIT_ID, "CM-00-01-001-11", ipsb.toString()));
collResult.addKPI(UNIT_ID, "CM-00-01-001-11", ipsb.toString());
}
return collResult.getKPISet();
}
/**
* 1.3.6.1.2.1.25.2.1.4 [ObjectIdentifier] //硬盘 1.3.6.1.2.1.25.2.1.7
* [ObjectIdentifier] //光盘 1.3.6.1.2.1.25.2.1.3 [ObjectIdentifier] //虚拟内存
* 1.3.6.1.2.1.25.2.1.2 [ObjectIdentifier] //物理内存
*
* @return
*/
public Vector getMemory() {
// 保存采集结果,并返回值
CollBase collResult = new CollBase();
// 获取存储信息
StorageEntryWalker sw = new StorageEntryWalker();
sw.walker(this.HOST_IP, this.PORT, this.COMMUNITY);
Vector storageVector = sw.getEntry();
logger.error("the windows vector size is : " + storageVector.size());
if (storageVector != null) {
for (int i = 0; i < storageVector.size(); i++) {
StorageEntry row = (StorageEntry) storageVector.get(i);
String sType = row.getStorageType();
// 判断是否是内存
// logger.error("Coll Windows Memory Begin!The Time is :" + new Date());
System.out.println("Coll Windows Memory Begin!The Time is :" + new Date());
if (sType != null && (sType.trim().equals("1.3.6.1.2.1.25.2.1.2") || sType.trim().equals("1.3.6.1.2.1.25.2.1.3"))) {
long unit_size = 0;
String sunit = row.getStorageAllocationUnits().trim();
// System.out.println("the units is : " + sunit);
try {
unit_size = Long.parseLong(sunit);
} catch (Exception e) {
e.printStackTrace();
unit_size = 0;
}
long totalSize = 0;
String sSize = row.getStorageSize().trim();
try {
totalSize = Long.parseLong(sSize) * unit_size;
} catch (Exception e) {
e.printStackTrace();
totalSize = 0;
}
long used = 0;
String sUsed = row.getStorageUsed().trim();
try {
used = Long.parseLong(sUsed) * unit_size;
} catch (Exception e) {
e.printStackTrace();
used = 0;
}
String UNIT_ID = PRE_UNITID + "-10" + ":" + NEAT_HOST_NAME + "-total";
// CM-00-01-001-07 memorySize M
if (totalSize != 0) {
if (sType.trim().equals("1.3.6.1.2.1.25.2.1.3")) {
// kpiVector.add(createKPI(UNIT_ID, "CM-00-01-001-21", String.valueOf(totalSize / (1024 * 1024))));
collResult.addKPI(UNIT_ID, "CM-00-01-001-21", String.valueOf(totalSize / (1024 * 1024)));
} else {
// kpiVector.add(createKPI(UNIT_ID, "CM-00-01-001-07", String.valueOf(totalSize / (1024 * 1024))));
collResult.addKPI(UNIT_ID, "CM-00-01-001-07", String.valueOf(totalSize / (1024 * 1024)));
}
} else {
if (sType.trim().equals("1.3.6.1.2.1.25.2.1.3")) {
collResult.addKPI(UNIT_ID, "CM-00-01-001-21", "0");
// kpiVector.add(createKPI(UNIT_ID, "CM-00-01-001-21", "0"));
} else {
collResult.addKPI(UNIT_ID, "CM-00-01-001-07", "0");
// kpiVector.add(createKPI(UNIT_ID, "CM-00-01-001-07", "0"));
}
}
// PM-00-01-002-01 memory use rate
if (used != 0 && totalSize != 0) {
UNIT_ID = PRE_UNITID + "-12" + ":" + NEAT_HOST_NAME + "-memory";
// 如果是虚拟内存
if (sType.trim().equals("1.3.6.1.2.1.25.2.1.3")) {
collResult.addKPI(UNIT_ID, "PM-00-01-002-09", String.valueOf((int) (used * 100 / totalSize)));
// kpiVector.add(createKPI(UNIT_ID, "PM-00-01-002-09", String.valueOf((int) (used * 100 / totalSize))));
} else {
collResult.addKPI(UNIT_ID, "PM-00-01-002-01", String.valueOf((int) (used * 100 / totalSize)));
// kpiVector.add(createKPI(UNIT_ID, "PM-00-01-002-01", String.valueOf((int) (used * 100 / totalSize))));
}
} else {
UNIT_ID = PRE_UNITID + "-12" + ":" + NEAT_HOST_NAME + "-memory";
if (sType.trim().equals("1.3.6.1.2.1.25.2.1.3")) {
collResult.addKPI(UNIT_ID, "PM-00-01-002-09", "0");
// kpiVector.add(createKPI(UNIT_ID, "PM-00-01-002-09", "0"));
} else {
collResult.addKPI(UNIT_ID, "PM-00-01-002-01", "0");
// kpiVector.add(createKPI(UNIT_ID, "PM-00-01-002-01", "0"));
}
}
}
}
} else {
String UNIT_ID = PRE_UNITID + "-10" + ":" + NEAT_HOST_NAME + "-total";
collResult.addKPI(UNIT_ID, "CM-00-01-001-21", "0");
// kpiVector.add(createKPI(UNIT_ID, "CM-00-01-001-21", "0"));
UNIT_ID = PRE_UNITID + "-12" + ":" + NEAT_HOST_NAME + "-memory";
collResult.addKPI(UNIT_ID, "PM-00-01-002-09", "0");
// kpiVector.add(createKPI(UNIT_ID, "PM-00-01-002-09", "0"));
}
return collResult.getKPISet();
}
public Vector getCPU() {
Vector kpiVector = new Vector();
// 保存采集结果,并返回值
CollBase collResult = new CollBase();
ProcessorWalker pw = new ProcessorWalker();
pw.walker(this.HOST_IP, this.PORT, this.COMMUNITY);
Vector procVector = pw.getEntry();
if (procVector != null && procVector.size() > 0) {
long proc_count = 0;
long use_rate = 0;
for (int i = 0; i < procVector.size(); i++) {
ProcessorEntry pe = (ProcessorEntry) procVector.get(i);
String load = pe.getProcessorLoad();
long l_load = 0;
boolean has_change_to_long = true;
try {
l_load = Long.valueOf(load).longValue();
} catch (Exception e) {
l_load = 0;
has_change_to_long = false;
}
if (has_change_to_long) {
proc_count += 1;
use_rate += l_load;
}
}
if (proc_count > 0) {
// CPU使用率
String UNIT_ID = this.PRE_UNITID + "-11:" + NEAT_HOST_NAME + "-cpu";
// kpiVector.add(createKPI(UNIT_ID, "PM-00-01-001-05", String.valueOf(use_rate / proc_count)));
collResult.addKPI(UNIT_ID, "PM-00-01-001-05", String.valueOf(use_rate / proc_count));
}
}
return collResult.getKPISet();
}
public Vector getDisk() {
Vector kpiVector = new Vector();
return kpiVector;
}
public Vector getFileSystem() {
String UNIT_ID = null;
Vector kpiVector = new Vector();
// 保存采集结果,并返回值
CollBase collResult = new CollBase();
// 获取存储信息
StorageEntryWalker sw = new StorageEntryWalker();
sw.walker(this.HOST_IP, this.PORT, this.COMMUNITY);
Vector storageVector = sw.getEntry();
long total_disk_size = 0;
long total_disk_used = 0;
if (storageVector != null) {
for (int i = 0; i < storageVector.size(); i++) {
StorageEntry row = (StorageEntry) storageVector.get(i);
String sType = row.getStorageType();
// 判断是否是硬盘
if (sType != null && sType.trim().equals("1.3.6.1.2.1.25.2.1.4")) {
String sindex = row.getStorageIndex();
String sDescr = "--";
String sDescr_temp = row.getStorageDescr();
if (sDescr_temp != null && (!(sDescr_temp.equals(""))) && (!(sDescr_temp.equalsIgnoreCase("null")))) {
sDescr = sDescr_temp;
}
long unit_size = 0;
String sunit = row.getStorageAllocationUnits().trim();
try {
unit_size = Long.parseLong(sunit);
} catch (Exception e) {
logger.error("unit_size is [" + sunit + "]", e);
unit_size = 0;
}
long size = 0;
String sSize = row.getStorageSize().trim();
try {
size = Long.parseLong(sSize) * unit_size;
} catch (Exception e) {
logger.error("size is [" + sSize + "]", e);
size = 0;
}
long used = 0;
String sUsed = row.getStorageUsed().trim();
try {
used = Long.parseLong(sUsed) * unit_size;
} catch (Exception e) {
logger.error("used is [" + sUsed + "]", e);
used = 0;
}
String sname = row.getStorageDescr();
if (sname != null && sname.length() >= 2) {
sname = sname.substring(0, 2);
}
UNIT_ID = PRE_UNITID + "-14" + ":" + NEAT_HOST_NAME + "-" + sname;
// 文件系统名称 CM-00-01-001-16
collResult.addKPI(UNIT_ID, "CM-00-01-001-16", row.getStorageDescr());
// 文件系统使用率 PM-00-01-004-03
if (size != 0) {
collResult.addKPI(UNIT_ID, "PM-00-01-004-03", String.valueOf(used * 100 / size));
} else {
collResult.addKPI(UNIT_ID, "PM-00-01-004-03", "0");
}
// 文件系统可用空间 PM-00-01-004-04
collResult.addKPI(UNIT_ID, "PM-00-01-004-04", String.valueOf((size - used) / (1024 * 1024)));
total_disk_size += size / (1024 * 1024);
total_disk_used += used / (1024 * 1024);
}
}
}
UNIT_ID = PRE_UNITID + "-10" + ":" + NEAT_HOST_NAME + "-total";
if (total_disk_size != 0) {
// 文件系统总的使用比率 PM-00-01-004-01
collResult.addKPI(UNIT_ID, "PM-00-01-004-01", String.valueOf((int) (total_disk_used * 100 / total_disk_size)));
}
// 文件系统的总空间 CM-00-01-001-17
collResult.addKPI(UNIT_ID, "CM-00-01-001-17", String.valueOf(total_disk_size));
return collResult.getKPISet();
}
public Vector getProcessNum() {
Vector kpiVector = new Vector();
/*
* RunEntryWalker runw = new RunEntryWalker();
* runw.walker(this.HOST_IP,this.PORT,this.COMMUNITY);
*/
return kpiVector;
}
public Vector getSpecProcess() {
Vector kpiVector = new Vector();
return kpiVector;
}
public boolean getSNMPState() {
String value = getKPIInfo(".1.3.6.1.2.1.1.5.0");
if (value == null) {
isConnection = false;
}else{
isConnection = true;
}
return isConnection;
}
/**
* 生成TblATO_KPIDETAIL
*
* @param KBP_ID
* @param KPI_ID
* @param KPI_VALUE
* @return
*/
private TblATO_KPIDETAIL createKPI(String KBP_ID, String KPI_ID,
String KPI_VALUE) {
TblATO_KPIDETAIL tblato_kpidetail = new TblATO_KPIDETAIL();
tblato_kpidetail.UNIT_ID = KBP_ID;
tblato_kpidetail.KPI_ID = KPI_ID;
tblato_kpidetail.KPI_VALUE = KPI_VALUE;
tblato_kpidetail.CLL_TIME = new Date();
return tblato_kpidetail;
}
/**
* 得到单个oid对应值
*
* @param oid
* @return
*/
public String getKPIInfo(String oid) {
String result = null;
this.init();
PDU pdu = new PDU();
VariableBinding var = new VariableBinding(new OID(oid), new org.snmp4j.smi.OctetString());
pdu.add(var);
pdu.setType(PDU.GET);
try {
ResponseEvent res = mSnmp.send(pdu, mCommunityTarget);
PDU result_pdu = res.getResponse();
if (result_pdu != null) {
VariableBinding vb = result_pdu.get(0);
result = vb.getVariable().toString();
}
} catch (IOException e) {
e.printStackTrace();
}
this.release();
return result;
}
public Vector collSpecProcess(HashMap params) {
// 保存采集结果,并返回值
CollBase collResult = new CollBase();
try {
logger.info("coll windows process begin!" + ",time:" + new Date());
String process_name = (String) params.get("PROCESS_NAME");
String process_desc = (String) params.get("PROCESS_DESC");
String max_c = (String) params.get("MAX_COUNT");
String min_c = (String) params.get("MIN_COUNT");
int max_count = 0;
int min_count = 0;
if (max_c != null && !max_c.equals("") && !max_c.equals("null")) {
max_count = new Integer(max_c).intValue();
} else {
max_count = -1;
}
if (min_c != null && !min_c.equals("") && !min_c.equals("null")) {
min_count = new Integer(min_c).intValue();
} else {
min_count = 0;
}
String pro_PRE_UNITID = this.PRE_UNITID + "-15";
String UNIT_ID = pro_PRE_UNITID + ":" + NEAT_HOST_NAME + "-" + Formater.neatenunitid(process_name);
// 进程名称 CM-00-01-005-07
collResult.addKPI(UNIT_ID, "CM-00-01-005-07", process_name);
// 进程描述 CM-00-01-005-08
collResult.addKPI(UNIT_ID, "CM-00-01-005-08", process_desc);
RunEntryWalker runWalker = new RunEntryWalker();
runWalker.walker(this.HOST_IP, this.PORT, this.COMMUNITY);
Vector runVector = runWalker.getEntry();
logger.info("runVector value : " + runVector.size() + ",time:" + new Date());
if (runVector != null && runVector.size() > 0) {
int process_num = 0;
String status = "";
for (int i = 0; i < runVector.size(); i++) {
RunEntry rune = (RunEntry) runVector.get(i);
String runname = rune.getRunname();
if (runname != null && runname.indexOf(process_name) != -1) {
// 进程存在,个数加1
process_num += 1;
status = rune.getRunStatus();
}
}
if (max_count == -1) {
if (process_num >= min_count) {
collResult.addKPI(UNIT_ID, "FM-00-01-005-06", "natural");
} else {
collResult.addKPI(UNIT_ID, "FM-00-01-005-06", "abnormal");
}
} else {
if (process_num >= min_count && process_num < max_count) {
collResult.addKPI(UNIT_ID, "FM-00-01-005-06", "natural");
} else {
collResult.addKPI(UNIT_ID, "FM-00-01-005-06", "abnormal");
}
}
// 关键进程状态 FM-00-01-001-05
if (status != null && !status.equals("")) {
collResult.addKPI(UNIT_ID, "FM-00-01-001-05", parseProcessStatus(status));
} else {
collResult.addKPI(UNIT_ID, "FM-00-01-001-05", "DOWN");
}
// 进程个数 PM-00-01-005-12
collResult.addKPI(UNIT_ID, "PM-00-01-005-12", "" + process_num);
} else {
// 没有采集到进程数据 不存在该进程
collResult.addKPI(UNIT_ID, "FM-00-01-005-06", "abnormal");
// 关键进程状态 FM-00-01-001-05
collResult.addKPI(UNIT_ID, "FM-00-01-001-05", "DOWN");
// 进程个数 PM-00-01-005-12
collResult.addKPI(UNIT_ID, "PM-00-01-005-12", "0");
}
} catch (Exception e) {
e.printStackTrace();
}
return collResult.getKPISet();
}
/**
* 新关键进程采集
* @param params
* @return Vector
*/
public Vector collSpecProcessList(HashMap params) {
// 保存采集结果,并返回值
CollBase collResult = new CollBase();
String process_names = (String) params.get("PROCESS_NAME");
String[] process_nameList = StringUtils.isEmpty(process_names) ? new String[]{} : process_names.split(",");
List<String> tempProcessNameList = new ArrayList<String>();
for(String process_name : process_nameList){
tempProcessNameList.add(process_name);
// 保存采集结果,并返回值
try {
logger.info("coll windows process begin!" + ",time:" + new Date());
String pro_PRE_UNITID = this.PRE_UNITID + "-15";
String UNIT_ID = pro_PRE_UNITID + ":" + NEAT_HOST_NAME + "-" + Formater.neatenunitid(process_name);
RunEntryWalker runWalker = new RunEntryWalker();
runWalker.walker(this.HOST_IP, this.PORT, this.COMMUNITY);
Vector runVector = runWalker.getEntry();
logger.info("runVector value : " + runVector.size() + ",time:" + new Date());
if (runVector != null && runVector.size() > 0) {
for (int i = 0; i < runVector.size(); i++) {
RunEntry rune = (RunEntry) runVector.get(i);
String runname = rune.getRunname();
String runindex = rune.getRunIndex();
if (runname != null && runname.indexOf(process_name) != -1) {
String TEMP_UNIT_ID =UNIT_ID+ "_" + runindex;
// 关键进程状态 FM-00-01-001-05
String status = rune.getRunStatus();
if (status != null && !status.equals("")) {
collResult.addKPI(TEMP_UNIT_ID, "FM-00-01-001-05", parseProcessStatus(status));
} else {
collResult.addKPI(TEMP_UNIT_ID, "FM-00-01-001-05", "DOWN");
}
// 进程名称 CM-00-01-005-07
collResult.addKPI(TEMP_UNIT_ID, "CM-00-01-005-07", process_name);
tempProcessNameList.remove(process_name);
}
}
}
} catch (Exception e) {
e.printStackTrace();
}
}
// 没有采集到进程数据 不存在该进程
for(String tempProcessName:tempProcessNameList){
String pro_PRE_UNITID = this.PRE_UNITID + "-15";
String UNIT_ID = pro_PRE_UNITID + ":" + NEAT_HOST_NAME + "-" + Formater.neatenunitid(tempProcessName);
collResult.addKPI(UNIT_ID, "FM-00-01-005-05", "ABNORMAL");
collResult.addKPI(UNIT_ID, "CM-00-01-005-07", tempProcessName);
}
return collResult.getKPISet();
}
private String parseProcessStatus(String status) {
String proStatus = "";
if (status.equals("1")) {
proStatus = "Running";
} else if (status.equals("2")) {
proStatus = "Runnable";
} else if (status.equals("3")) {
proStatus = "NotRunnable";
} else if (status.equals("4")) {
proStatus = "Invalid";
}
return proStatus;
}
private void setResult(String unitID, String kpiID, String value) {
try {
TblATO_KPIDETAIL record;
record = new TblATO_KPIDETAIL();
record.setCLL_TIME(new java.util.Date()); // 采集所消耗的时间
record.setKPI_ID(kpiID); // kpi编号
record.setKPI_VALUE(value); // 具体采集得到的值信息
record.setUNIT_ID(unitID); // unit
record.setCLL_TIME(new Date()); // 日期
// result.add(record);
System.out.println("add record=" + record.KPI_VALUE);
} catch (Exception e) {
logger.error(e);
}
}
public static void main(String[] args) {
CollWindowsWithSNMP windows = new CollWindowsWithSNMP(args[0], Integer.parseInt(args[1]), DES3.encrypt(args[2]), args[3]);
Vector sysVec = windows.getFileSystem();
}
public Vector<TblATO_KPIDETAIL> coll(HashMap params) {
// 保存采集结果,并返回值
CollBase collResult = new CollBase();
collResult.addKPISet(this.getConfig());
// collResult.addKPISet(this.getStates());
collResult.addKPISet(this.getMemory());
collResult.addKPISet(this.getFileSystem());
collResult.addKPISet(this.getCPU());
return collResult.getKPISet();
}
}