khanat-code-old/code/nel/src/net/admin.cpp

905 lines
25 KiB
C++

// NeL - MMORPG Framework <http://dev.ryzom.com/projects/nel/>
// Copyright (C) 2010 Winch Gate Property Limited
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU Affero General Public License as
// published by the Free Software Foundation, either version 3 of the
// License, or (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU Affero General Public License for more details.
//
// You should have received a copy of the GNU Affero General Public License
// along with this program. If not, see <http://www.gnu.org/licenses/>.
//
// Includes
//
#include "stdnet.h"
#include "nel/net/service.h"
#include "nel/net/admin.h"
#include "nel/net/varpath.h"
//
// Namspaces
//
using namespace std;
using namespace NLMISC;
using namespace NLNET;
namespace NLNET {
//
// Structures
//
struct CRequest
{
CRequest (uint32 id, TServiceId sid) : Id(id), NbWaiting(0), NbReceived(0), SId(sid)
{
nldebug ("ADMIN: ++ NbWaiting %d NbReceived %d", NbWaiting, NbReceived);
Time = CTime::getSecondsSince1970 ();
}
uint32 Id;
uint NbWaiting;
uint32 NbReceived;
TServiceId SId;
uint32 Time; // when the request was ask
TAdminViewResult Answers;
};
//
// Variables
//
TRemoteClientCallback RemoteClientCallback = 0;
vector<CAlarm> Alarms;
vector<CGraphUpdate> GraphUpdates;
// check alarms every 5 seconds
const uint32 AlarmCheckDelay = 5;
vector<CRequest> Requests;
uint32 RequestTimeout = 4; // in second
//
// Callbacks
//
static void cbInfo (CMessage &msgin, const std::string &/* serviceName */, TServiceId /* sid */)
{
nlinfo ("ADMIN: Updating admin information");
vector<string> alarms;
msgin.serialCont (alarms);
vector<string> graphupdate;
msgin.serialCont (graphupdate);
setInformation (alarms, graphupdate);
}
static void cbServGetView (CMessage &msgin, const std::string &/* serviceName */, TServiceId sid)
{
uint32 rid;
string rawvarpath;
msgin.serial (rid);
msgin.serial (rawvarpath);
Requests.push_back (CRequest(rid, sid));
TAdminViewResult answer;
// just send the view in async mode, don't retrieve the answer
serviceGetView (rid, rawvarpath, answer, true);
nlassert (answer.empty());
}
static void cbExecCommand (CMessage &msgin, const std::string &/* serviceName */, TServiceId sid)
{
// create a displayer to gather the output of the command
class CStringDisplayer: public IDisplayer
{
public:
void serial(NLMISC::IStream &stream)
{
stream.serial(_Data);
}
protected:
virtual void doDisplay( const CLog::TDisplayInfo& /* args */, const char *message)
{
_Data += message;
}
std::string _Data;
};
CStringDisplayer stringDisplayer;
IService::getInstance()->CommandLog.addDisplayer(&stringDisplayer);
// retreive the command from the input message and execute it
string command;
msgin.serial (command);
nlinfo ("ADMIN: Executing command from network : '%s'", command.c_str());
ICommand::execute (command, IService::getInstance()->CommandLog);
// unhook our displayer as it's work is now done
IService::getInstance()->CommandLog.removeDisplayer(&stringDisplayer);
// send a reply message to the originating service
CMessage msgout("EXEC_COMMAND_RESULT");
stringDisplayer.serial(msgout);
CUnifiedNetwork::getInstance()->send(sid, msgout);
}
// AES wants to know if i'm not dead, I have to answer faster as possible or i'll be killed
static void cbAdminPing (CMessage &/* msgin */, const std::string &/* serviceName */, TServiceId sid)
{
// Send back a pong to say to the AES that I'm alive
CMessage msgout("ADMIN_PONG");
CUnifiedNetwork::getInstance()->send(sid, msgout);
}
static void cbStopService (CMessage &/* msgin */, const std::string &serviceName, TServiceId sid)
{
nlinfo ("ADMIN: Receive a stop from service %s-%hu, need to quit", serviceName.c_str(), sid.get());
IService::getInstance()->exit (0xFFFF);
}
void cbAESConnection (const string &/* serviceName */, TServiceId /* sid */, void * /* arg */)
{
// established a connection to the AES, identify myself
//
// Sends the identification message with the name of the service and all commands available on this service
//
nlinfo("cbAESConnection: Identifying self as: AliasName='%s' LongName='%s' PId=%u",
IService::getInstance()->_AliasName.c_str(),
IService::getInstance()->_LongName.c_str(),
getpid ());
CMessage msgout ("SID");
uint32 pid = getpid ();
msgout.serial (IService::getInstance()->_AliasName, IService::getInstance()->_LongName, pid);
ICommand::serialCommands (msgout);
CUnifiedNetwork::getInstance()->send("AES", msgout);
if (IService::getInstance()->_Initialized)
{
CMessage msgout2 ("SR");
CUnifiedNetwork::getInstance()->send("AES", msgout2);
}
}
static void cbAESDisconnection (const std::string &serviceName, TServiceId sid, void * /* arg */)
{
nlinfo("Lost connection to the %s-%hu", serviceName.c_str(), sid.get());
}
static TUnifiedCallbackItem CallbackArray[] =
{
{ "INFO", cbInfo },
{ "GET_VIEW", cbServGetView },
{ "STOPS", cbStopService },
{ "EXEC_COMMAND", cbExecCommand },
{ "ADMIN_PING", cbAdminPing },
};
//
// Functions
//
void setRemoteClientCallback (TRemoteClientCallback cb)
{
RemoteClientCallback = cb;
}
//
// Request functions
//
static void addRequestWaitingNb (uint32 rid)
{
for (uint i = 0 ; i < Requests.size (); i++)
{
if (Requests[i].Id == rid)
{
Requests[i].NbWaiting++;
nldebug ("ADMIN: ++ i %d rid %d NbWaiting+ %d NbReceived %d", i, Requests[i].Id, Requests[i].NbWaiting, Requests[i].NbReceived);
// if we add a waiting, reset the timer
Requests[i].Time = CTime::getSecondsSince1970 ();
return;
}
}
nlwarning ("ADMIN: addRequestWaitingNb: can't find the rid %d", rid);
}
/*
static void subRequestWaitingNb (uint32 rid)
{
for (uint i = 0 ; i < Requests.size (); i++)
{
if (Requests[i].Id == rid)
{
Requests[i].NbWaiting--;
nldebug ("ADMIN: ++ i %d rid %d NbWaiting- %d NbReceived %d", i, Requests[i].Id, Requests[i].NbWaiting, Requests[i].NbReceived);
return;
}
}
nlwarning ("ADMIN: subRequestWaitingNb: can't find the rid %d", rid);
}
*/
void addRequestAnswer (uint32 rid, const TAdminViewVarNames& varNames, const TAdminViewValues& values)
{
if (!varNames.empty() && varNames[0] == "__log")
{ nlassert (varNames.size() == 1); }
else
{ nlassert (varNames.size() == values.size()); }
for (uint i = 0 ; i < Requests.size (); i++)
{
if (Requests[i].Id == rid)
{
Requests[i].Answers.push_back (SAdminViewRow(varNames, values));
Requests[i].NbReceived++;
nldebug ("ADMIN: ++ i %d rid %d NbWaiting %d NbReceived+ %d", i, Requests[i].Id, Requests[i].NbWaiting, Requests[i].NbReceived);
return;
}
}
// we received an unknown request, forget it
nlwarning ("ADMIN: Receive an answer for unknown request %d", rid);
}
/*
static bool emptyRequest (uint32 rid)
{
for (uint i = 0 ; i < Requests.size (); i++)
{
if (Requests[i].Id == rid && Requests[i].NbWaiting != 0)
{
return false;
}
}
return true;
}
*/
static void cleanRequest ()
{
uint32 currentTime = CTime::getSecondsSince1970 ();
for (uint i = 0 ; i < Requests.size ();)
{
// timeout
if (currentTime >= Requests[i].Time+RequestTimeout)
{
nlwarning ("ADMIN: **** i %d rid %d -> Requests[i].NbWaiting (%d) != Requests[i].NbReceived (%d)", i, Requests[i].Id, Requests[i].NbWaiting, Requests[i].NbReceived);
Requests[i].NbWaiting = Requests[i].NbReceived;
}
if (Requests[i].NbWaiting <= Requests[i].NbReceived)
{
// the request is over, send to the php
CMessage msgout("VIEW");
msgout.serial (Requests[i].Id);
for (uint j = 0; j < Requests[i].Answers.size (); j++)
{
msgout.serialCont (Requests[i].Answers[j].VarNames);
msgout.serialCont (Requests[i].Answers[j].Values);
}
if (Requests[i].SId.get() == 0)
{
nlinfo ("ADMIN: Receive an answer for the fake request %d with %d answers", Requests[i].Id, Requests[i].Answers.size ());
for (uint j = 0; j < Requests[i].Answers.size (); j++)
{
uint k;
for (k = 0; k < Requests[i].Answers[j].VarNames.size(); k++)
{
InfoLog->displayRaw ("%-10s", Requests[i].Answers[j].VarNames[k].c_str());
}
InfoLog->displayRawNL("");
for (k = 0; k < Requests[i].Answers[j].Values.size(); k++)
{
InfoLog->displayRaw ("%-10s", Requests[i].Answers[j].Values[k].c_str());
}
InfoLog->displayRawNL("");
InfoLog->displayRawNL("-------------------------");
}
}
else
{
nlinfo ("ADMIN: The request is over, send the result to AES");
CUnifiedNetwork::getInstance ()->send (Requests[i].SId, msgout);
}
// set to 0 to erase it
Requests[i].NbWaiting = 0;
nldebug ("ADMIN: ++ i %d rid %d NbWaiting0 %d NbReceived %d", i, Requests[i].Id, Requests[i].NbWaiting, Requests[i].NbReceived);
}
if (Requests[i].NbWaiting == 0)
{
Requests.erase (Requests.begin ()+i);
}
else
{
i++;
}
}
}
// all remote command start with rc or RC
bool isRemoteCommand(string &str)
{
if (str.size()<2) return false;
return tolower(str[0]) == 'r' && tolower(str[1]) == 'c';
}
// this callback is used to create a view for the admin system
void serviceGetView (uint32 rid, const string &rawvarpath, TAdminViewResult &answer, bool async)
{
string str;
CLog logDisplayVars;
CLightMemDisplayer mdDisplayVars;
logDisplayVars.addDisplayer (&mdDisplayVars);
mdDisplayVars.setParam (4096);
CVarPath varpath(rawvarpath);
if (varpath.empty())
return;
// special case for named command handler
if (CCommandRegistry::getInstance().isNamedCommandHandler(varpath.Destination[0].first))
{
varpath.Destination[0].first += "."+varpath.Destination[0].second;
varpath.Destination[0].second = "";
}
if (varpath.isFinal())
{
TAdminViewVarNames varNames;
TAdminViewValues values;
// add default row
varNames.push_back ("service");
values.push_back (IService::getInstance ()->getServiceUnifiedName());
for (uint j = 0; j < varpath.Destination.size (); j++)
{
string cmd = varpath.Destination[j].first;
// replace = with space to execute the command
string::size_type eqpos = cmd.find("=");
if (eqpos != string::npos)
{
cmd[eqpos] = ' ';
varNames.push_back(cmd.substr(0, eqpos));
}
else
varNames.push_back(cmd);
mdDisplayVars.clear ();
ICommand::execute(cmd, logDisplayVars, !ICommand::isCommand(cmd));
const std::deque<std::string> &strs = mdDisplayVars.lockStrings();
if (ICommand::isCommand(cmd))
{
// we want the log of the command
if (j == 0)
{
varNames.clear ();
varNames.push_back ("__log");
values.clear ();
}
values.push_back ("----- Result from "+IService::getInstance()->getServiceUnifiedName()+" of command '"+cmd+"'\n");
for (uint k = 0; k < strs.size(); k++)
{
values.push_back (strs[k]);
}
}
else
{
if (strs.size()>0)
{
str = strs[0].substr(0,strs[0].size()-1);
// replace all spaces into udnerscore because space is a reserved char
for (uint i = 0; i < str.size(); i++) if (str[i] == ' ') str[i] = '_';
}
else
{
str = "???";
}
values.push_back (str);
nlinfo ("ADMIN: Add to result view '%s' = '%s'", varpath.Destination[j].first.c_str(), str.c_str());
}
mdDisplayVars.unlockStrings();
}
if (!async)
answer.push_back (SAdminViewRow(varNames, values));
else
{
addRequestWaitingNb (rid);
addRequestAnswer (rid, varNames, values);
}
}
else
{
// there s an entity in the varpath, manage this case
TAdminViewVarNames *varNames=0;
TAdminViewValues *values=0;
// varpath.Destination contains the entity number
// subvarpath.Destination contains the command name
for (uint i = 0; i < varpath.Destination.size (); i++)
{
CVarPath subvarpath(varpath.Destination[i].second);
for (uint j = 0; j < subvarpath.Destination.size (); j++)
{
// set the variable name
string cmd = subvarpath.Destination[j].first;
if (isRemoteCommand(cmd))
{
if (async && RemoteClientCallback != 0)
{
// ok we have to send the request to another side, just send and wait
addRequestWaitingNb (rid);
RemoteClientCallback (rid, cmd, varpath.Destination[i].first);
}
}
else
{
// replace = with space to execute the command
string::size_type eqpos = cmd.find("=");
if (eqpos != string::npos)
{
cmd[eqpos] = ' ';
// add the entity
cmd.insert(eqpos, " "+varpath.Destination[i].first);
}
else
{
// add the entity
cmd += " "+varpath.Destination[i].first;
}
mdDisplayVars.clear ();
ICommand::execute(cmd, logDisplayVars, true);
const std::deque<std::string> &strs = mdDisplayVars.lockStrings();
for (uint k = 0; k < strs.size(); k++)
{
const string &str = strs[k];
string::size_type pos = str.find(" ");
if(pos == string::npos)
continue;
string entity = str.substr(0, pos);
string value = str.substr(pos+1, str.size()-pos-2);
for (uint u = 0; u < value.size(); u++) if (value[u] == ' ') value[u] = '_';
// look in the array if we already have something about this entity
if (!async)
{
uint y;
for (y = 0; y < answer.size(); y++)
{
if (answer[y].Values[1] == entity)
{
// ok we found it, just push_back new stuff
varNames = &(answer[y].VarNames);
values = &(answer[y].Values);
break;
}
}
if (y == answer.size ())
{
answer.push_back (SAdminViewRow());
varNames = &(answer[answer.size()-1].VarNames);
values = &(answer[answer.size()-1].Values);
// don't add service if we want an entity
// todo when we work on entity, we don't need service name and server so we should remove them and collapse all var for the same entity
varNames->push_back ("service");
string name = IService::getInstance ()->getServiceUnifiedName();
values->push_back (name);
// add default row
varNames->push_back ("entity");
values->push_back (entity);
}
varNames->push_back (cmd.substr(0, cmd.find(" ")));
values->push_back (value);
}
else
{
addRequestWaitingNb (rid);
TAdminViewVarNames varNames;
TAdminViewValues values;
varNames.push_back ("service");
string name = IService::getInstance ()->getServiceUnifiedName();
values.push_back (name);
// add default row
varNames.push_back ("entity");
values.push_back (entity);
varNames.push_back (cmd.substr(0, cmd.find(" ")));
values.push_back (value);
addRequestAnswer (rid, varNames, values);
}
nlinfo ("ADMIN: Add to result view for entity '%s', '%s' = '%s'", varpath.Destination[i].first.c_str(), subvarpath.Destination[j].first.c_str(), str.c_str());
}
mdDisplayVars.unlockStrings();
}
}
}
}
}
//
// Alarms functions
//
void sendAdminEmail (const char *format, ...)
{
char *text;
NLMISC_CONVERT_VARGS (text, format, 4096);
time_t t = time (&t);
string str;
str = asctime (localtime (&t));
str += " Server " + IService::getInstance()->getHostName();
str += " service " + IService::getInstance()->getServiceUnifiedName();
str += " : ";
str += text;
CMessage msgout("ADMIN_EMAIL");
msgout.serial (str);
if(IService::getInstance ()->getServiceShortName()=="AES")
CUnifiedNetwork::getInstance ()->send ("AS", msgout);
else
CUnifiedNetwork::getInstance ()->send ("AES", msgout);
nlinfo ("ADMIN: Forwarded email to AS with '%s'", str.c_str());
}
void initAdmin (bool dontUseAES)
{
if (!dontUseAES)
{
CUnifiedNetwork::getInstance()->setServiceUpCallback ("AES", cbAESConnection, NULL);
CUnifiedNetwork::getInstance()->setServiceDownCallback ("AES", cbAESDisconnection, NULL);
CUnifiedNetwork::getInstance()->addService ("AES", CInetAddress("localhost:49997"));
}
CUnifiedNetwork::getInstance()->addCallbackArray (CallbackArray, sizeof(CallbackArray)/sizeof(CallbackArray[0]));
}
void updateAdmin()
{
uint32 CurrentTime = CTime::getSecondsSince1970();
//
// check admin requests
//
cleanRequest ();
//
// Check graph updates
//
static uint32 lastGraphUpdateCheck = 0;
if (CurrentTime >= lastGraphUpdateCheck+1)
{
string str;
CLog logDisplayVars;
CLightMemDisplayer mdDisplayVars;
logDisplayVars.addDisplayer (&mdDisplayVars);
lastGraphUpdateCheck = CurrentTime;
CMessage msgout ("GRAPH_UPDATE");
bool empty = true;
for (uint j = 0; j < GraphUpdates.size(); j++)
{
if (CurrentTime >= GraphUpdates[j].LastUpdate + GraphUpdates[j].Update)
{
// have to send a new update for this var
ICommand::execute(GraphUpdates[j].Name, logDisplayVars, true, false);
const std::deque<std::string> &strs = mdDisplayVars.lockStrings();
sint32 val;
if (strs.size() != 1)
{
nlwarning ("ADMIN: The graph update command execution not return exactly 1 line but %d", strs.size());
for (uint i = 0; i < strs.size(); i++)
nlwarning ("ADMIN: line %d: '%s'", i, strs[i].c_str());
val = 0;
}
else
{
fromString(strs[0], val);
}
mdDisplayVars.unlockStrings ();
mdDisplayVars.clear ();
string name = IService::getInstance()->getServiceAliasName();
if (name.empty())
name = IService::getInstance()->getServiceShortName();
if(empty)
msgout.serial (CurrentTime);
msgout.serial (name);
msgout.serial (GraphUpdates[j].Name);
msgout.serial (val);
empty = false;
GraphUpdates[j].LastUpdate = CurrentTime;
}
}
if(!empty)
{
if(IService::getInstance ()->getServiceShortName()=="AES")
CUnifiedNetwork::getInstance ()->send ("AS", msgout);
else
CUnifiedNetwork::getInstance ()->send ("AES", msgout);
}
}
//
// Check alarms
//
static uint32 lastAlarmsCheck = 0;
if (CurrentTime >= lastAlarmsCheck+AlarmCheckDelay)
{
string str;
CLog logDisplayVars;
CLightMemDisplayer mdDisplayVars;
logDisplayVars.addDisplayer (&mdDisplayVars);
lastAlarmsCheck = CTime::getSecondsSince1970();
for (uint i = 0; i < Alarms.size(); )
{
mdDisplayVars.clear ();
ICommand::execute(Alarms[i].Name, logDisplayVars, true, false);
const std::deque<std::string> &strs = mdDisplayVars.lockStrings();
if (strs.size()>0)
{
str = strs[0].substr(0,strs[0].size()-1);
}
else
{
str = "???";
}
mdDisplayVars.unlockStrings();
if (str == "???")
{
// variable doesn't exist, remove it from alarms
nlwarning ("ADMIN: Alarm problem: variable '%s' returns ??? instead of a good value", Alarms[i].Name.c_str());
Alarms.erase (Alarms.begin()+i);
}
else
{
// compare the value
uint32 err = Alarms[i].Limit;
uint32 val = humanReadableToBytes(str);
if (Alarms[i].GT && val >= err)
{
if (!Alarms[i].Activated)
{
nlinfo ("ADMIN: VARIABLE TOO BIG '%s' %u >= %u", Alarms[i].Name.c_str(), val, err);
Alarms[i].Activated = true;
sendAdminEmail ("Alarm: Variable %s is %u that is greater or equal than the limit %u", Alarms[i].Name.c_str(), val, err);
}
}
else if (!Alarms[i].GT && val <= err)
{
if (!Alarms[i].Activated)
{
nlinfo ("ADMIN: VARIABLE TOO LOW '%s' %u <= %u", Alarms[i].Name.c_str(), val, err);
Alarms[i].Activated = true;
sendAdminEmail ("Alarm: Variable %s is %u that is lower or equal than the limit %u", Alarms[i].Name.c_str(), val, err);
}
}
else
{
if (Alarms[i].Activated)
{
nlinfo ("ADMIN: variable is ok '%s' %u %s %u", Alarms[i].Name.c_str(), val, (Alarms[i].GT?"<":">"), err);
Alarms[i].Activated = false;
}
}
i++;
}
}
}
}
void setInformation (const vector<string> &alarms, const vector<string> &graphupdate)
{
uint i;
sint tmp;
// add only commands that I understand
Alarms.clear ();
for (i = 0; i < alarms.size(); i+=3)
{
CVarPath shardvarpath (alarms[i]);
if(shardvarpath.Destination.size() == 0 || shardvarpath.Destination[0].second.empty())
continue;
CVarPath servervarpath (shardvarpath.Destination[0].second);
if(servervarpath.Destination.size() == 0 || servervarpath.Destination[0].second.empty())
continue;
CVarPath servicevarpath (servervarpath.Destination[0].second);
if(servicevarpath.Destination.size() == 0 || servicevarpath.Destination[0].second.empty())
continue;
string name = servicevarpath.Destination[0].second;
if (IService::getInstance()->getServiceUnifiedName().find(servicevarpath.Destination[0].first) != string::npos && ICommand::exists(name))
{
fromString(alarms[i+1], tmp);
nlinfo ("ADMIN: Adding alarm '%s' limit %d order %s (varpath '%s')", name.c_str(), tmp, alarms[i+2].c_str(), alarms[i].c_str());
Alarms.push_back(CAlarm(name, tmp, alarms[i+2]=="gt"));
}
else
{
if (IService::getInstance()->getServiceUnifiedName().find(servicevarpath.Destination[0].first) == string::npos)
{
nlinfo ("ADMIN: Skipping alarm '%s' limit %d order %s (varpath '%s') (not for my service, i'm '%s')", name.c_str(), fromString(alarms[i+1], tmp) ? tmp:tmp, alarms[i+2].c_str(), alarms[i].c_str(), IService::getInstance()->getServiceUnifiedName().c_str());
}
else
{
nlinfo ("ADMIN: Skipping alarm '%s' limit %d order %s (varpath '%s') (var not exist)", name.c_str(), fromString(alarms[i+1], tmp) ? tmp:tmp, alarms[i+2].c_str(), alarms[i].c_str());
}
}
}
// do the same with graph update
GraphUpdates.clear ();
for (i = 0; i < graphupdate.size(); i+=2)
{
CVarPath shardvarpath (graphupdate[i]);
if(shardvarpath.Destination.size() == 0 || shardvarpath.Destination[0].second.empty())
continue;
CVarPath servervarpath (shardvarpath.Destination[0].second);
if(servervarpath.Destination.size() == 0 || servervarpath.Destination[0].second.empty())
continue;
CVarPath servicevarpath (servervarpath.Destination[0].second);
if(servicevarpath.Destination.size() == 0 || servicevarpath.Destination[0].second.empty())
continue;
string VarName = servicevarpath.Destination[0].second;
string ServiceName = servicevarpath.Destination[0].first;
if (ICommand::exists(VarName) && (ServiceName == "*" || IService::getInstance()->getServiceShortName() == ServiceName))
{
fromString(graphupdate[i+1], tmp);
nlinfo ("ADMIN: Adding graphupdate '%s' update %d (varpath '%s')", VarName.c_str(), tmp, graphupdate[i].c_str());
GraphUpdates.push_back(CGraphUpdate(VarName, tmp));
}
else
{
if (IService::getInstance()->getServiceShortName() != ServiceName)
{
nlinfo ("ADMIN: Skipping graphupdate '%s' limit %d (varpath '%s') (not for my service, i'm '%s')", VarName.c_str(), fromString(graphupdate[i+1], tmp) ? tmp:tmp, graphupdate[i].c_str(), IService::getInstance()->getServiceUnifiedName().c_str());
}
else
{
nlinfo ("ADMIN: Skipping graphupdate '%s' limit %d (varpath '%s') (var not exist)", VarName.c_str(), fromString(graphupdate[i+1], tmp) ? tmp:tmp, graphupdate[i].c_str());
}
}
}
}
//
// Commands
//
NLMISC_CATEGORISED_COMMAND(nel, displayInformation, "displays all admin information", "")
{
nlunreferenced(rawCommandString);
nlunreferenced(args);
nlunreferenced(quiet);
nlunreferenced(human);
uint i;
log.displayNL("There're %d alarms:", Alarms.size());
for (i = 0; i < Alarms.size(); i++)
{
log.displayNL(" %d %s %d %s %s", i, Alarms[i].Name.c_str(), Alarms[i].Limit, (Alarms[i].GT?"gt":"lt"), (Alarms[i].Activated?"on":"off"));
}
log.displayNL("There're %d graphupdate:", GraphUpdates.size());
for (i = 0; i < GraphUpdates.size(); i++)
{
log.displayNL(" %d %s %d %d", i, GraphUpdates[i].Name.c_str(), GraphUpdates[i].Update, GraphUpdates[i].LastUpdate);
}
return true;
}
NLMISC_CATEGORISED_COMMAND(nel, getView, "send a view and receive an array as result", "<varpath>")
{
nlunreferenced(rawCommandString);
nlunreferenced(quiet);
nlunreferenced(human);
if(args.size() != 1) return false;
TAdminViewResult answer;
serviceGetView (0, args[0], answer);
log.displayNL("have %d answer", answer.size());
for (uint i = 0; i < answer.size(); i++)
{
log.displayNL(" have %d value", answer[i].VarNames.size());
nlassert (answer[i].VarNames.size() == answer[i].Values.size());
for (uint j = 0; j < answer[i].VarNames.size(); j++)
{
log.displayNL(" %s -> %s", answer[i].VarNames[j].c_str(), answer[i].Values[j].c_str());
}
}
return true;
}
} // NLNET