use of com.yahoo.dba.perf.myperf.common.InstanceStates in project mysql_perf_analyzer by yahoo.
the class StatusController method handleRequestImpl.
@Override
protected ModelAndView handleRequestImpl(HttpServletRequest req, HttpServletResponse resp) throws Exception {
AppUser appUser = retrieveAppUser(req);
HashSet<String> filteredGroups = new HashSet<String>();
boolean useFilter = false;
if (appUser != null && appUser.isRestrictedUser()) {
useFilter = true;
Set<String> mydbs = this.frameworkContext.getDbInfoManager().getMyDatabases(appUser.getName(), appUser.isRestrictedUser()).getMyDbList();
if (mydbs != null) {
for (String s : mydbs) filteredGroups.add(s);
}
}
String dbgroup = req.getParameter("group");
if (dbgroup == null || dbgroup.trim().length() == 0)
dbgroup = "all";
String dbhost = req.getParameter("host");
java.util.Date now = new java.util.Date();
//the first scan yet to complete
long oneinterval = (this.frameworkContext.getMyperfConfig().getScannerIntervalSeconds() + 1) * 1000;
boolean withinOneScan = (now.getTime() - this.frameworkContext.getStartTime().getTime()) <= oneinterval;
long twointerval = (2 * this.frameworkContext.getMyperfConfig().getScannerIntervalSeconds() + 1) * 1000;
ResultList rList = new ResultList();
//if("all".equalsIgnoreCase(dbgroup))
if (//we should have id either as all or a dbgroup
dbhost == null || dbhost.isEmpty()) {
ColumnDescriptor desc = new ColumnDescriptor();
desc.addColumn("DBGROUP", false, 1);
desc.addColumn("HOST", false, 2);
desc.addColumn("QUERIES /SEC", true, 3);
desc.addColumn("SYS CPU%", true, 4);
desc.addColumn("USER CPU%", true, 5);
desc.addColumn("IOWAIT%", true, 6);
desc.addColumn("LOAD AVG", true, 7);
desc.addColumn("REPL LAG", true, 8);
desc.addColumn("FREE MEM (MB)", true, 9);
desc.addColumn("SLOW QUERY /MIN", true, 10);
desc.addColumn("THREADS RUNNING", true, 11);
desc.addColumn("THREADS", true, 12);
desc.addColumn("CONNECTIONS /SEC", true, 13);
desc.addColumn("ABORTED CC /SEC", true, 14);
desc.addColumn("DEADLOCKS", false, 15);
desc.addColumn("STATUS", false, 16);
desc.addColumn("LAST CHECK TIME", false, 17);
desc.addColumn("LAST ALERT", false, 18);
desc.addColumn("SCAN TIME", true, 19);
rList.setColumnDescriptor(desc);
java.text.SimpleDateFormat sdf = new java.text.SimpleDateFormat("yyyy-MM-dd HH:mm:ss");
sdf.setTimeZone(TimeZone.getTimeZone("UTC"));
java.text.DecimalFormat df = new java.text.DecimalFormat("#.###");
for (Map.Entry<String, DBGroupInfo> e : this.frameworkContext.getDbInfoManager().getClusters().entrySet()) {
for (DBInstanceInfo dbinfo : e.getValue().getInstances()) {
String dbgroupName = dbinfo.getDbGroupName();
String dbHostName = dbinfo.getHostName();
if (!"all".equals(dbgroup) && !dbgroup.equalsIgnoreCase(dbgroupName))
continue;
if (useFilter && !filteredGroups.contains(dbgroupName))
continue;
InstanceStates stateSnaps = this.frameworkContext.getInstanceStatesManager().getStates(dbinfo.getDbid());
if (stateSnaps == null)
continue;
//java.util.Date lastConnectTime = this.frameworkContext.getDbInfoManager().getLastAccessDate(dbgroupName, dbHostName);
java.util.Date lastConnectTime = stateSnaps.getLastAccessTime();
String dbstatus = "Green";
if (lastConnectTime == null && withinOneScan)
dbstatus = "Unknown";
else if (lastConnectTime == null)
dbstatus = "Red";
else if (now.getTime() - lastConnectTime.getTime() > twointerval)
dbstatus = "Red";
else if (now.getTime() - lastConnectTime.getTime() > oneinterval)
dbstatus = "Yellow";
ResultRow row = new ResultRow();
row.setColumnDescriptor(desc);
List<String> vals = new ArrayList<String>();
vals.add(dbgroupName);
vals.add(dbHostName);
StateSnapshot[] snaps = stateSnaps.copySnapshots();
boolean isSnapValid = snaps[0].getTimestamp() >= 0L && snaps[1].getTimestamp() > snaps[0].getTimestamp();
long interval = snaps[1].getTimestamp() - snaps[0].getTimestamp();
if (isSnapValid) {
//sys CPU
double syscpu = 0.0f;
double usercpu = 0.0f;
double iowaits = 0.0f;
double loadAvg = 0.0f;
int activeThreads = 0;
if (snaps[0].getQueries() >= 0L && snaps[1].getQueries() >= 0L) {
//double val = ((double)(snaps[1].getQueries() - snaps[0].getQueries())*1000)/(double)interval;
double val = diffAvgNoNegative(snaps[1].getQueries(), snaps[0].getQueries(), snaps[1].getTimestamp(), snaps[0].getTimestamp(), snaps[1].getUptime(), true, 1000);
vals.add(df.format(val));
} else {
vals.add("0.00");
}
if (snaps[0].getSyscputime() >= 0L && snaps[1].getSyscputime() >= 0L) {
if (snaps[0].getSyscputime() == snaps[1].getSyscputime()) {
syscpu = 0.0;
vals.add("0.00");
} else {
double val = ((double) (snaps[1].getSyscputime() - snaps[0].getSyscputime()) * 100) / (double) (snaps[1].getTotalcputime() - snaps[0].getTotalcputime());
vals.add(df.format(val));
syscpu = val;
}
} else {
vals.add("0.00");
}
if (snaps[0].getUsercputime() >= 0L && snaps[1].getUsercputime() >= 0L) {
if (snaps[0].getUsercputime() == snaps[1].getUsercputime()) {
usercpu = 0.0;
vals.add("0.00");
} else {
double val = ((double) (snaps[1].getUsercputime() - snaps[0].getUsercputime()) * 100) / (double) (snaps[1].getTotalcputime() - snaps[0].getTotalcputime());
vals.add(df.format(val));
usercpu = val;
}
} else {
vals.add("0.00");
}
if (snaps[0].getIotime() >= 0L && snaps[1].getIotime() >= 0L) {
if (snaps[0].getIotime() == snaps[1].getIotime()) {
iowaits = 0.0;
vals.add("0.00");
} else {
double val = ((double) (snaps[1].getIotime() - snaps[0].getIotime()) * 100) / (double) (snaps[1].getTotalcputime() - snaps[0].getTotalcputime());
vals.add(df.format(val));
iowaits = val;
}
} else {
vals.add("0.00");
}
if (snaps[1].getLoadAverage() >= 0.0f) {
vals.add(df.format(snaps[1].getLoadAverage()));
loadAvg = snaps[1].getLoadAverage();
} else
vals.add("0.00");
vals.add(String.valueOf(snaps[1].getReplLag()));
if (snaps[1].getAvailableMem() >= 0L) {
long val = snaps[1].getAvailableMem() / 1024;
vals.add(String.valueOf(val));
} else
vals.add("0.00");
if (snaps[0].getSlowQueryCount() >= 0L && snaps[1].getSlowQueryCount() >= 0L) {
double val = diffAvgNoNegative(snaps[1].getSlowQueryCount(), snaps[0].getSlowQueryCount(), snaps[1].getTimestamp(), snaps[0].getTimestamp(), snaps[1].getUptime(), true, 60000);
vals.add(df.format(val));
} else
vals.add("0.00");
vals.add(String.valueOf(snaps[1].getActiveThreads()));
activeThreads = snaps[1].getActiveThreads();
vals.add(String.valueOf(snaps[1].getThreads()));
if (snaps[0].getConnections() >= 0L && snaps[1].getConnections() >= 0L) {
//double val = ((double)(snaps[1].getConnections() - snaps[0].getConnections())*1000)/(double)interval;
double val = diffAvgNoNegative(snaps[1].getConnections(), snaps[0].getConnections(), snaps[1].getTimestamp(), snaps[0].getTimestamp(), snaps[1].getUptime(), true, 1000);
vals.add(df.format(val));
} else {
vals.add("0.00");
}
if (snaps[0].getAbortedConnectsClients() >= 0L && snaps[1].getAbortedConnectsClients() >= 0L) {
//double val = ((double)(snaps[1].getAbortedConnectsClients() - snaps[0].getAbortedConnectsClients())*1000)/(double)interval;
double val = diffAvgNoNegative(snaps[1].getAbortedConnectsClients(), snaps[0].getAbortedConnectsClients(), snaps[1].getTimestamp(), snaps[0].getTimestamp(), snaps[1].getUptime(), true, 1000);
vals.add(df.format(val));
} else {
vals.add("0.00");
}
if (snaps[0].getDeadlocks() >= 0L && snaps[1].getDeadlocks() >= 0L) {
double val = diffAvgNoNegative(snaps[1].getDeadlocks(), snaps[0].getDeadlocks(), snaps[1].getTimestamp(), snaps[0].getTimestamp(), snaps[1].getUptime(), false, 1);
vals.add((long) val + "(" + snaps[0].getDeadlocks() + ")");
} else {
vals.add(String.valueOf(snaps[1].getDeadlocks()));
}
//hardcoded threshold now
if (iowaits > this.frameworkContext.getAlertSettings().getAlertThreshold(dbinfo, "IO") || (syscpu + usercpu > this.frameworkContext.getAlertSettings().getAlertThreshold(dbinfo, "CPU")) || loadAvg > this.frameworkContext.getAlertSettings().getAlertThreshold(dbinfo, "LOADAVG") || activeThreads > this.frameworkContext.getAlertSettings().getAlertThreshold(dbinfo, "THREAD"))
if (!"Red".equals(dbstatus))
dbstatus = "Yellow";
} else {
vals.add("0.00");
vals.add("0.00");
vals.add("0.00");
vals.add("0.00");
if (snaps[1].getTimestamp() > 0L)
vals.add(String.valueOf(snaps[1].getReplLag()));
else
vals.add("0");
vals.add("0.00");
vals.add("0.00");
vals.add("0");
vals.add("0");
vals.add("0.00");
vals.add("0.00");
vals.add("0.00");
vals.add("0");
}
vals.add(dbstatus);
if (lastConnectTime != null)
vals.add(sdf.format(lastConnectTime));
else
vals.add("");
Date altDt = stateSnaps.getLastAlertTime();
if (altDt != null) {
String val = stateSnaps.getLastAlertValue();
if (val == null)
val = "";
//else if(val.indexOf('.')>0 && val.length()>=val.indexOf('.')+4)
// val = val.substring(0, val.indexOf('.')+4);
String end_dt = stateSnaps.getLastAlertEndTime() != null ? sdf.format(stateSnaps.getLastAlertEndTime()) : "";
vals.add(sdf.format(altDt) + "-" + end_dt + "/" + stateSnaps.getLastAlertType() + "/" + val);
} else
vals.add("");
vals.add(String.valueOf(stateSnaps.getLastScanTime()));
row.setColumns(vals);
rList.addRow(row);
}
}
} else {
Date d1 = null;
Date d2 = null;
Calendar c = Calendar.getInstance();
//7 days
c.add(Calendar.DATE, -7);
d1 = c.getTime();
d2 = new Date();
java.text.SimpleDateFormat sdf2 = new java.text.SimpleDateFormat("yyyyMMddHHmmss");
sdf2.setTimeZone(TimeZone.getTimeZone("UTC"));
String startDate = sdf2.format(d1);
String endDate = sdf2.format(d2);
try {
//TODO validate DB
rList = this.frameworkContext.getAutoScanner().getMetricDb().retrieveMetricsStatus("mysql_globalstatus".toUpperCase(), this.frameworkContext.getDbInfoManager().findDB(dbgroup, dbhost).getDbid(), Long.parseLong(startDate), Long.parseLong(endDate));
HashMap<String, Integer> connectCounter = new HashMap<String, Integer>(24 * 8);
HashMap<String, Integer> slowCounter = new HashMap<String, Integer>(24 * 8);
if (rList != null && rList.getRows().size() > 0) {
for (ResultRow row : rList.getRows()) {
String ts = row.getColumns().get(1);
String h = ts.substring(0, ts.length());
if (connectCounter.containsKey(h))
connectCounter.put(h, connectCounter.get(h) + 1);
else
connectCounter.put(h, 1);
try {
if (slowCounter.containsKey(h))
slowCounter.put(h, connectCounter.get(h) + Integer.parseInt(row.getColumns().get(3)));
else
slowCounter.put(h, Integer.parseInt(row.getColumns().get(3)));
} catch (Exception ex) {
}
}
}
} catch (Exception ex) {
//logger.log(Level.WARNING, "Failed to retrieve metrics data", ex);
}
}
ModelAndView mv = new ModelAndView(jsonView);
String msg = "OK";
mv.addObject("json_result", ResultListUtil.toJSONString(rList, null, 0, msg));
return mv;
}
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