windows-nt/Source/XPSP1/NT/net/layer2svc/wlpolicy/loopmgr.c

/*++

Copyright (c) 1999 Microsoft Corporation


Module Name:

    loopmgr.c

Abstract:

    This module contains all of the code to drive the
    Loop Manager of Wireless Policy .

Author:

    abhisheV    30-September-1999

Environment

    User Level: Win32

Revision History:


--*/


#include "precomp.h"


enum {
    //SERVICE_STOP_EVENT = 0,
    //INTERFACE_CHANGE_EVENT,
    //NEW_LOCAL_POLICY_EVENT,
    NEW_DS_POLICY_EVENT,
    FORCED_POLICY_RELOAD_EVENT,
    POLICY_ENGINE_STOP_EVENT,
    REAPPLY_POLICY_801X,
    WAIT_EVENT_COUNT
};


DWORD
ServiceStart(LPVOID lparam
    )
{
    DWORD dwError = 0;
    HANDLE hWaitForEvents[WAIT_EVENT_COUNT];
    BOOL bDoneWaiting = FALSE;
    DWORD dwWaitMilliseconds = 0;
    DWORD dwStatus = 0;
    time_t LastTimeOutTime = 0;

    /* Check for DS Policy Now */

    _WirelessDbg(TRC_TRACK, "Updating with DS Policy ");
    
    
    OnPolicyChanged(
                       gpWirelessPolicyState
                       );


    hWaitForEvents[NEW_DS_POLICY_EVENT] = ghNewDSPolicyEvent;
    hWaitForEvents[FORCED_POLICY_RELOAD_EVENT] = ghForcedPolicyReloadEvent;
    hWaitForEvents[POLICY_ENGINE_STOP_EVENT] = ghPolicyEngineStopEvent;
    hWaitForEvents[REAPPLY_POLICY_801X] = ghReApplyPolicy8021x;


    ComputeRelativePollingTime(
        LastTimeOutTime,
        TRUE,
        &dwWaitMilliseconds
        );


    time(&LastTimeOutTime);
    
    _WirelessDbg(TRC_TRACK, "Timeout period is %d ",dwWaitMilliseconds); 
    
    
    while (!bDoneWaiting) {

        gdwPolicyLoopStarted = 1;

        dwStatus = WaitForMultipleObjects(
                       WAIT_EVENT_COUNT,
                       hWaitForEvents,
                       FALSE,
                       dwWaitMilliseconds
                       );

        /*
        PADeleteInUsePolicies();
        */
        
        switch (dwStatus) {

       
        case POLICY_ENGINE_STOP_EVENT:

            dwError = ERROR_SUCCESS;
            bDoneWaiting = TRUE;
            _WirelessDbg(TRC_TRACK, "Policy Engine Stopping ");
            
            break;


        case REAPPLY_POLICY_801X:

            _WirelessDbg(TRC_TRACK, "ReApplying  the 8021X Policy  ");
            
            // Appropriate call for 8021x policy addition.
            if (gpWirelessPolicyState->dwCurrentState != POLL_STATE_INITIAL) {

                AddEapolPolicy(gpWirelessPolicyState->pWirelessPolicyData);
            }
	    ResetEvent(ghReApplyPolicy8021x);

            break;


        case NEW_DS_POLICY_EVENT:

            _WirelessDbg(TRC_TRACK, "Got a new DS policy event ");
            
            _WirelessDbg(TRC_NOTIF, "DBASE:Wireless Policy - Group Policy indication from WinLogon  ");
            
            
            ResetEvent(ghNewDSPolicyEvent);
            (VOID) OnPolicyChanged(
                       gpWirelessPolicyState
                       );
            break;

        case FORCED_POLICY_RELOAD_EVENT:

            ResetEvent(ghForcedPolicyReloadEvent);
            (VOID) OnPolicyChanged(
                       gpWirelessPolicyState

            );
            break;
 

        case WAIT_TIMEOUT:

            time(&LastTimeOutTime);
            _WirelessDbg(TRC_TRACK, "Timed out ");
            
            
            (VOID) OnPolicyPoll(
                       gpWirelessPolicyState
                       );
            break;

        case WAIT_FAILED:

            dwError = GetLastError();
            bDoneWaiting = TRUE;
            break;

        default:

            dwError = ERROR_INVALID_EVENT_COUNT;
            bDoneWaiting = TRUE;
            break;

        }

        ComputeRelativePollingTime(
            LastTimeOutTime,
            FALSE,
            &dwWaitMilliseconds
            );

    }


    return (dwError);
}


VOID
ComputeRelativePollingTime(
    time_t LastTimeOutTime,
    BOOL bInitialLoad,
    PDWORD pWaitMilliseconds
    )
{
    DWORD WaitMilliseconds = 0;
    DWORD DSReconnectMilliseconds = 0;
    time_t NextTimeOutTime = 0;
    time_t PresentTime = 0;
    long WaitSeconds = gDefaultPollingInterval;


    WaitMilliseconds = gCurrentPollingInterval * 1000;

    if (!WaitMilliseconds) {
        WaitMilliseconds = INFINITE;
    }

    DSReconnectMilliseconds = gdwDSConnectivityCheck*60*1000;

    if ((gpWirelessPolicyState->dwCurrentState != POLL_STATE_DS_DOWNLOADED) &&
        (gpWirelessPolicyState->dwCurrentState != POLL_STATE_LOCAL_DOWNLOADED)) {
        if (WaitMilliseconds > DSReconnectMilliseconds) {
            WaitMilliseconds = DSReconnectMilliseconds;
        }
    }

    if (!bInitialLoad && WaitMilliseconds != INFINITE) {

        //
        // LastTimeOutTime is the snapshot time value in the past when
        // we timed out waiting for multiple events.
        // Ideally, the time for the next time out, NextTimeOutTime, is
        // the time value in future which is sum of the last time when
        // we timed out + the current waiting time value.
        //

        NextTimeOutTime = LastTimeOutTime + (WaitMilliseconds/1000);

        //
        // However, the last time we may not have timed out waiting
        // for multiple events but rather came out because one of the
        // events other than WAIT_TIMEOUT happened.
        // However, on that event we may not have done a policy
        // poll to figure out whether there was a policy change or
        // not. If we again wait for WaitMilliseconds, then we are
        // un-knowingly making our net time for policy poll greater
        // than the alloted time interval value = WaitMilliseconds.
        // So, we need to adjust the WaitMilliseconds to such a value
        // that no matter what happens, we always do a policy poll
        // atmost every WaitMilliseconds time interval value.
        // The current time is PresentTime.
        //

        time(&PresentTime);

        WaitSeconds = (long) (NextTimeOutTime - PresentTime);

        if (WaitSeconds < 0) {
            WaitMilliseconds = 0;
        }
        else {
            WaitMilliseconds = WaitSeconds * 1000;
        }

    }

    *pWaitMilliseconds = WaitMilliseconds;
}
Add source files 2020-09-26 03:20:57 -05:00			`/*++`

			`Copyright (c) 1999 Microsoft Corporation`


			`Module Name:`

			`loopmgr.c`

			`Abstract:`

			`This module contains all of the code to drive the`
			`Loop Manager of Wireless Policy .`

			`Author:`

			`abhisheV 30-September-1999`

			`Environment`

			`User Level: Win32`

			`Revision History:`


			`--*/`


			`#include "precomp.h"`


			`enum {`
			`//SERVICE_STOP_EVENT = 0,`
			`//INTERFACE_CHANGE_EVENT,`
			`//NEW_LOCAL_POLICY_EVENT,`
			`NEW_DS_POLICY_EVENT,`
			`FORCED_POLICY_RELOAD_EVENT,`
			`POLICY_ENGINE_STOP_EVENT,`
			`REAPPLY_POLICY_801X,`
			`WAIT_EVENT_COUNT`
			`};`



			`DWORD`
			`ServiceStart(LPVOID lparam`
			`)`
			`{`
			`DWORD dwError = 0;`
			`HANDLE hWaitForEvents[WAIT_EVENT_COUNT];`
			`BOOL bDoneWaiting = FALSE;`
			`DWORD dwWaitMilliseconds = 0;`
			`DWORD dwStatus = 0;`
			`time_t LastTimeOutTime = 0;`

			`/* Check for DS Policy Now */`

			`_WirelessDbg(TRC_TRACK, "Updating with DS Policy ");`


			`OnPolicyChanged(`
			`gpWirelessPolicyState`
			`);`


			`hWaitForEvents[NEW_DS_POLICY_EVENT] = ghNewDSPolicyEvent;`
			`hWaitForEvents[FORCED_POLICY_RELOAD_EVENT] = ghForcedPolicyReloadEvent;`
			`hWaitForEvents[POLICY_ENGINE_STOP_EVENT] = ghPolicyEngineStopEvent;`
			`hWaitForEvents[REAPPLY_POLICY_801X] = ghReApplyPolicy8021x;`


			`ComputeRelativePollingTime(`
			`LastTimeOutTime,`
			`TRUE,`
			`&dwWaitMilliseconds`
			`);`


			`time(&LastTimeOutTime);`

			`_WirelessDbg(TRC_TRACK, "Timeout period is %d ",dwWaitMilliseconds);`


			`while (!bDoneWaiting) {`

			`gdwPolicyLoopStarted = 1;`

			`dwStatus = WaitForMultipleObjects(`
			`WAIT_EVENT_COUNT,`
			`hWaitForEvents,`
			`FALSE,`
			`dwWaitMilliseconds`
			`);`

			`/*`
			`PADeleteInUsePolicies();`
			`*/`

			`switch (dwStatus) {`


			`case POLICY_ENGINE_STOP_EVENT:`

			`dwError = ERROR_SUCCESS;`
			`bDoneWaiting = TRUE;`
			`_WirelessDbg(TRC_TRACK, "Policy Engine Stopping ");`

			`break;`


			`case REAPPLY_POLICY_801X:`

			`_WirelessDbg(TRC_TRACK, "ReApplying the 8021X Policy ");`

			`// Appropriate call for 8021x policy addition.`
			`if (gpWirelessPolicyState->dwCurrentState != POLL_STATE_INITIAL) {`

			`AddEapolPolicy(gpWirelessPolicyState->pWirelessPolicyData);`
			`}`
			`ResetEvent(ghReApplyPolicy8021x);`

			`break;`


			`case NEW_DS_POLICY_EVENT:`

			`_WirelessDbg(TRC_TRACK, "Got a new DS policy event ");`

			`_WirelessDbg(TRC_NOTIF, "DBASE:Wireless Policy - Group Policy indication from WinLogon ");`


			`ResetEvent(ghNewDSPolicyEvent);`
			`(VOID) OnPolicyChanged(`
			`gpWirelessPolicyState`
			`);`
			`break;`

			`case FORCED_POLICY_RELOAD_EVENT:`

			`ResetEvent(ghForcedPolicyReloadEvent);`
			`(VOID) OnPolicyChanged(`
			`gpWirelessPolicyState`

			`);`
			`break;`


			`case WAIT_TIMEOUT:`

			`time(&LastTimeOutTime);`
			`_WirelessDbg(TRC_TRACK, "Timed out ");`


			`(VOID) OnPolicyPoll(`
			`gpWirelessPolicyState`
			`);`
			`break;`

			`case WAIT_FAILED:`

			`dwError = GetLastError();`
			`bDoneWaiting = TRUE;`
			`break;`

			`default:`

			`dwError = ERROR_INVALID_EVENT_COUNT;`
			`bDoneWaiting = TRUE;`
			`break;`

			`}`

			`ComputeRelativePollingTime(`
			`LastTimeOutTime,`
			`FALSE,`
			`&dwWaitMilliseconds`
			`);`

			`}`



			`return (dwError);`
			`}`


			`VOID`
			`ComputeRelativePollingTime(`
			`time_t LastTimeOutTime,`
			`BOOL bInitialLoad,`
			`PDWORD pWaitMilliseconds`
			`)`
			`{`
			`DWORD WaitMilliseconds = 0;`
			`DWORD DSReconnectMilliseconds = 0;`
			`time_t NextTimeOutTime = 0;`
			`time_t PresentTime = 0;`
			`long WaitSeconds = gDefaultPollingInterval;`


			`WaitMilliseconds = gCurrentPollingInterval * 1000;`

			`if (!WaitMilliseconds) {`
			`WaitMilliseconds = INFINITE;`
			`}`

			`DSReconnectMilliseconds = gdwDSConnectivityCheck601000;`

			`if ((gpWirelessPolicyState->dwCurrentState != POLL_STATE_DS_DOWNLOADED) &&`
			`(gpWirelessPolicyState->dwCurrentState != POLL_STATE_LOCAL_DOWNLOADED)) {`
			`if (WaitMilliseconds > DSReconnectMilliseconds) {`
			`WaitMilliseconds = DSReconnectMilliseconds;`
			`}`
			`}`

			`if (!bInitialLoad && WaitMilliseconds != INFINITE) {`

			`//`
			`// LastTimeOutTime is the snapshot time value in the past when`
			`// we timed out waiting for multiple events.`
			`// Ideally, the time for the next time out, NextTimeOutTime, is`
			`// the time value in future which is sum of the last time when`
			`// we timed out + the current waiting time value.`
			`//`

			`NextTimeOutTime = LastTimeOutTime + (WaitMilliseconds/1000);`

			`//`
			`// However, the last time we may not have timed out waiting`
			`// for multiple events but rather came out because one of the`
			`// events other than WAIT_TIMEOUT happened.`
			`// However, on that event we may not have done a policy`
			`// poll to figure out whether there was a policy change or`
			`// not. If we again wait for WaitMilliseconds, then we are`
			`// un-knowingly making our net time for policy poll greater`
			`// than the alloted time interval value = WaitMilliseconds.`
			`// So, we need to adjust the WaitMilliseconds to such a value`
			`// that no matter what happens, we always do a policy poll`
			`// atmost every WaitMilliseconds time interval value.`
			`// The current time is PresentTime.`
			`//`

			`time(&PresentTime);`

			`WaitSeconds = (long) (NextTimeOutTime - PresentTime);`

			`if (WaitSeconds < 0) {`
			`WaitMilliseconds = 0;`
			`}`
			`else {`
			`WaitMilliseconds = WaitSeconds * 1000;`
			`}`

			`}`

			`*pWaitMilliseconds = WaitMilliseconds;`
			`}`