windows-nt/Source/XPSP1/NT/net/wlbs/nlbmgr/nlbsprov/mnlbuidata.cpp

263 lines
5.8 KiB
C++
Raw Normal View History

2020-09-26 03:20:57 -05:00
// Copyright (c) Microsoft. All rights reserved.
//
// This is unpublished source code of Microsoft.
// The copyright notice above does not evidence any
// actual or intended publication of such source code.
// OneLiner : Implementation of MNLBCluster
// DevUnit : wlbstest
// Author : Murtaza Hakim
// include files
#include "MNLBUIData.h"
#include "wlbsctrl.h"
// PortDataULB default constructor
//
PortDataULB::PortDataULB()
:
MNLBPortRuleLoadBalanced()
{
_isEqualLoadBalanced = false;
}
// PortDataULB constructor
//
PortDataULB::PortDataULB( long startPort,
long endPort,
Protocol trafficToHandle,
Affinity affinity )
:
MNLBPortRuleLoadBalanced( startPort,
endPort,
trafficToHandle,
false,
0,
affinity )
{
}
// PortDataELB default constructor
//
PortDataELB::PortDataELB()
:
MNLBPortRuleLoadBalanced()
{
}
// PortDataELB constructor
//
PortDataELB::PortDataELB( long startPort,
long endPort,
Protocol trafficToHandle,
Affinity affinity )
:
MNLBPortRuleLoadBalanced( startPort,
endPort,
trafficToHandle,
true,
0,
affinity )
{
}
bool
PortDataELB::operator==( const PortDataELB& objToCompare )
{
return MNLBPortRuleLoadBalanced::operator==( objToCompare );
}
bool
PortDataELB::operator!=( const PortDataELB& objToCompare )
{
return !operator==( objToCompare );
}
// PortDataF default constructor
//
PortDataF::PortDataF()
:
MNLBPortRuleFailover()
{
}
// PortDataF constructor
//
PortDataF::PortDataF( long startPort,
long endPort,
Protocol trafficToHandle )
:
MNLBPortRuleFailover( startPort,
endPort,
trafficToHandle,
0 )
{
}
// PortDataD default constructor
//
PortDataD::PortDataD()
:
MNLBPortRuleDisabled()
{
}
// PortDataD constructor
//
PortDataD::PortDataD( long startPort,
long endPort,
Protocol trafficToHandle )
:
MNLBPortRuleDisabled( startPort,
endPort,
trafficToHandle )
{
}
// equality
//
bool
PortDataD::operator==( const PortDataD& objToCompare )
{
return MNLBPortRuleDisabled::operator==( objToCompare );
}
// inequality
//
bool
PortDataD::operator!=( const PortDataD& objToCompare )
{
return !operator==( objToCompare );
}
// getAvailableHostIDS
//
set<int>
ClusterData::getAvailableHostIDS()
{
set<int> availableHostIDS;
// initially make all available.
for( int i = 1; i <= WLBS_MAX_HOSTS; ++i )
{
availableHostIDS.insert( i );
}
// remove host ids not available.
map<_bstr_t, HostData>::iterator top;
for( top = hosts.begin(); top != hosts.end(); ++top )
{
availableHostIDS.erase( (*top).second.hp.hID );
}
return availableHostIDS;
}
set<long>
PortDataF::getAvailablePriorities()
{
set<long> availablePriorities;
// initially make all available.
for( int i = 1; i <= WLBS_MAX_HOSTS; ++i )
{
availablePriorities.insert( i );
}
// remove priorities not available.
map<_bstr_t, long>::iterator top;
for( top = machineMapToPriority.begin();
top != machineMapToPriority.end();
++top )
{
availablePriorities.erase( (*top).second );
}
return availablePriorities;
}
void
ClusterData::dump()
{
map< _bstr_t, HostData>::iterator topHost;
for( topHost = hosts.begin();
topHost != hosts.end();
++topHost )
{
_bstr_t hostName = (*topHost).first;
HostProperties hp = (*topHost).second.hp;
_bstr_t connectionIP = (*topHost).second.connectionIP;
}
map< long, PortDataELB>::iterator topELB;
for( topELB = portELB.begin();
topELB != portELB.end();
++topELB )
{
long startport = (*topELB).first;
PortDataELB portDataELB = (*topELB).second;
}
map< long, PortDataD>::iterator topD;
for( topD = portD.begin();
topD != portD.end();
++topD )
{
long startport = (*topD).first;
PortDataD portDataD = (*topD).second;
}
map< long, PortDataULB>::iterator topULB;
for( topULB = portULB.begin();
topULB != portULB.end();
++topULB )
{
long startport = (*topULB).first;
PortDataULB portDataULB = (*topULB).second;
map< _bstr_t, long >::iterator topLW;
for( topLW = (*topULB).second.machineMapToLoadWeight.begin();
topLW != (*topULB).second.machineMapToLoadWeight.end();
++topLW )
{
_bstr_t machineName = (*topLW).first;
long loadWeight = (*topLW).second;
}
}
map< long, PortDataF>::iterator topF;
for( topF = portF.begin();
topF != portF.end();
++topF )
{
long startport = (*topF).first;
PortDataF portDataF = (*topF).second;
map< _bstr_t, long >::iterator topP;
for( topP = (*topF).second.machineMapToPriority.begin();
topP != (*topF).second.machineMapToPriority.end();
++topP )
{
_bstr_t machineName = (*topP).first;
long loadWeight = (*topP).second;
}
}
}