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windows-server-2003/ds/netapi/svcdlls/upssvc/apcsmart/apcdrvr.cxx

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/* Copyright 1999 American Power Conversion, All Rights Reserverd
*
* Description:
* The ApcMiniDriver class provides an interface that is
* compatible with the MiniDriver interface for the Windows2000
* UPS service.
* The ApcMiniDriver makes use of a modified
* PowerChute plus UPS service. This modified service has had
* all of the networking, data logging, and flex manager code
* removed. All that is left is the modeling and monitoring of
* the connected UPS system. It is assumed that a "smart"
* signalling UPS is connected.
* The ApcMiniDriver class is also responsible for filling in
* the advanced registry settings, battery replacement condition,
* serial #, firmware rev, etc...
*
* Revision History:
* mholly 14Apr1999 Created
* mholly 16Apr1999 Convert data from UPS into wide characters
* if UNICODE is defined
* mholly 19Apr1999 remove registry updates of utility line state
* mholly 20Apr1999 no longer updating model/vendor in registry
* mholly 26Apr1999 convert RUN_TIME_REMAINING to minutes before
* updating the registry - also only update the
* runtime in the onRuntimeTimer method
* mholly 12May1999 no longer taking aCommPort parameter in UPSInit
*
*/
#include "cdefine.h"
#include <windows.h>
#include <tchar.h>
#include <stdio.h>
#include <stdlib.h>
#include "apcdrvr.h"
#include "apcups.h"
#include "ntsrvap.h"
#include "event.h"
#include "timerman.h"
#include "codes.h"
#include "tokenstr.h"
extern "C"{
#include "upsreg.h"
}
// Separator used for the shutdown delay allowed values
#define SHUTDOWN_DELAY_SEPARATOR ","
#define LOW_BATT_DURATION_SEPARATOR ","
#define SECONDS_TO_MINUTES 60
/**
* ApcMiniDriver
*
* Description:
* Constructor - initializes all data members
*
* Parameters:
* None
*
* Returns:
* N/A
*
*/
ApcMiniDriver::ApcMiniDriver()
: theState(UPS_ONLINE),
theStateChangedEvent(NULL),
theReplaceBatteryState(UPS_BATTERYSTATUS_UNKNOWN),
theUpsApp(NULL),
theRunTimeTimer(0),
theOnBatteryRuntime(-1),
theBatteryCapacity(-1)
{
}
/**
* ~ApcMiniDriver
*
* Description:
* Destructor - does nothing, must call
* UPSStop prior to destructor
*
* Parameters:
* None
*
* Returns:
* N/A
*
*/
ApcMiniDriver::~ApcMiniDriver()
{
}
/**
* UPSInit
*
* Description:
* Must be the first method called on the object
* Failing to call UPSInit will result in an object
* in an unstable state
*
* Parameters:
* aCommPort: not used
*
* Returns:
* UPS_INITOK: initalized successfully
* UPS_INITUNKNOWNERROR: initialization failed
*
*/
DWORD ApcMiniDriver::UPSInit()
{
DWORD init_err = UPS_INITOK;
theStateChangedEvent = CreateEvent(NULL, FALSE, FALSE, NULL);
if (!theStateChangedEvent) {
init_err = UPS_INITUNKNOWNERROR;
}
if ((UPS_INITOK == init_err) &&
(ErrNO_ERROR != initalizeUpsApplication())) {
init_err = UPS_INITUNKNOWNERROR;
}
if (UPS_INITOK != init_err) {
UPSStop();
}
return init_err;
}
/**
* UPSStop
*
* Description:
* must be called to cleanup the object, after
* this call completes the only valid method
* call is UPSInit() or the destructor
*
* Parameters:
* None
*
* Returns:
* None
*
*/
void ApcMiniDriver::UPSStop()
{
UPSCancelWait();
cleanupUpsApplication();
if (theStateChangedEvent) {
CloseHandle(theStateChangedEvent);
theStateChangedEvent = NULL;
}
}
/**
* UPSWaitForStateChange
*
* Description:
* Blocks until the state of the UPS differs
* from the value passed in via aState or
* anInterval milliseconds has expired. If
* anInterval has a value of INFINITE this
* function will never timeout
*
* Parameters:
* aState: defines the state to wait for a change from,
* possible values:
* UPS_ONLINE
* UPS_ONBATTERY
* UPS_LOWBATTERY
* UPS_NOCOMM
*
* anInterval: timeout in milliseconds, or INFINITE for
* no timeout interval
*
* Returns:
* None
*
*/
void ApcMiniDriver::UPSWaitForStateChange(DWORD aLastState, DWORD anInterval)
{
if (aLastState == theState) {
//
// wait for a state change from the UPS
//
if (theStateChangedEvent) {
WaitForSingleObject(theStateChangedEvent, anInterval);
}
}
}
/**
* UPSGetState
*
* Description:
* returns the current state of the UPS
*
* Parameters:
* None
*
* Returns:
* possible values:
* UPS_ONLINE
* UPS_ONBATTERY
* UPS_LOWBATTERY
* UPS_NOCOMM
*
*/
DWORD ApcMiniDriver::UPSGetState()
{
return theState;
}
/**
* UPSCancelWait
*
* Description:
* interrupts pending calls to UPSWaitForStateChange
* without regard to timout or state change
*
* Parameters:
* None
*
* Returns:
* None
*
*/
void ApcMiniDriver::UPSCancelWait()
{
if (theStateChangedEvent) {
SetEvent(theStateChangedEvent);
}
}
/**
* UPSTurnOff
*
* Description:
* Attempts to turn off the outlets on the UPS
* after the specified delay. This method querries the
* UPS for the allowed shutdown delays and sets the
* delay to one of the following:
* 1. aTurnOffDelay if it exactly matches one of the allowed values
* 2. the next highest value after aTurnOffDelay, if one exists
* 3. the highest allowed value, if aTurnOffDelay is larger than all of
* the allowed values.
* If no allowed values are returned, the Shutdown Delay will not be set.
* Next the UPS is instructed to sleep until power is restored.
*
* Parameters:
* aTurnOffDelay: the minimum amount of time to wait before
* turning off the outlets on the UPS
*
* Returns:
* None
*
*/
void ApcMiniDriver::UPSTurnOff(DWORD aTurnOffDelay)
{
if (theUpsApp) {
char allowed_values[512];
// Retrieve the allowed shutdown delays from the UPS
theUpsApp->Get(ALLOWED_SHUTDOWN_DELAYS, allowed_values);
TokenString token_str(allowed_values, SHUTDOWN_DELAY_SEPARATOR);
PCHAR tok = token_str.GetCurrentToken();
// Set the shutdown delay if there are allowed values
if (tok) {
// Initialize counters
long requested_value = (long) aTurnOffDelay;
long max = atol(tok);
long last_closest = 0;
// Cycle through the allowed values looking for a suitable value
while (tok) {
long value = atol(tok);
// Check to see if this value is closest to the requested
if ( ((value >= requested_value) && (value < last_closest))
|| (last_closest < requested_value)) {
last_closest = value;
}
// Check to see if this value is the max value
if (value > max) {
max = value;
}
// Get the next value
tok = token_str.GetCurrentToken();
}
long shutdown_delay = last_closest;
if (last_closest < requested_value) {
// The requested value is larger than all of the values, use the max
shutdown_delay = max;
}
// Set the shutdown delay
char shutdown_delay_str[4];
sprintf(shutdown_delay_str, "%3.3u", shutdown_delay);
theUpsApp->Set(SHUTDOWN_DELAY, shutdown_delay_str);
}
// Signal the UPS to sleep
theUpsApp->UPSTurnOff();
}
}
/**
* Update
*
* Description:
* Update is called when theUpsApp has
* generated an Event for which this object
* has registered.
* Events are defined by a set of integer
* 'codes' defined in the file 'codes.h'
*
* Parameters:
* anEvent: a pointer to an Event object that
* defines the generated event
*
* Returns:
* ErrNO_ERROR
*
*/
INT ApcMiniDriver::Update(PEvent anEvent)
{
INT err = ErrNO_ERROR;
if (!anEvent) {
return err;
}
switch (anEvent->GetCode()) {
case UTILITY_LINE_CONDITION:
{
err = onUtilityLineCondition(anEvent);
}
break;
case BATTERY_REPLACEMENT_CONDITION:
{
err = onBatteryReplacementCondition(anEvent);
}
break;
case BATTERY_CONDITION:
{
err = onBatteryCondition(anEvent);
}
break;
case COMMUNICATION_STATE:
{
err = onCommunicationState(anEvent);
}
break;
case TIMER_PULSE:
{
err = onTimerPulse(anEvent);
}
break;
default:
{
err = UpdateObj::Update(anEvent);
}
break;
}
return err;
}
/**
* onUtilityLineCondition
*
* Description:
* Determines the current state of the power
* and reports any changes to the registry and
* to any threads pending on UPSWaitForStateChange
*
* Parameters:
* anEvent: pointer to an Event object that
* relates to a UTILITY_LINE_CONDITION event
*
* Returns:
* ErrNO_ERROR
*
*/
INT ApcMiniDriver::onUtilityLineCondition(PEvent anEvent)
{
DWORD state = atoi(anEvent->GetValue());
DWORD old_state = theState;
if (LINE_BAD == state) {
theState = UPS_ONBATTERY;
}
else {
theState = UPS_ONLINE;
}
if (old_state != theState) {
UPSCancelWait();
}
return ErrNO_ERROR;
}
/**
* onBatteryReplacementCondition
*
* Description:
* Determines the current replacement state of the
* battery and reports any changes to the registry
*
* Parameters:
* anEvent: pointer to an Event object that
* relates to a BATTERY_REPLACEMENT_CONDITION event
*
* Returns:
* ErrNO_ERROR
*
*/
INT ApcMiniDriver::onBatteryReplacementCondition(PEvent anEvent)
{
DWORD state = atoi(anEvent->GetValue());
DWORD old_state = theReplaceBatteryState;
if (BATTERY_NEEDS_REPLACING == state) {
theReplaceBatteryState = UPS_BATTERYSTATUS_REPLACE;
}
else {
theReplaceBatteryState = UPS_BATTERYSTATUS_GOOD;
}
if (old_state != theReplaceBatteryState) {
InitUPSStatusBlock();
SetUPSStatusBatteryStatus(theReplaceBatteryState);
SaveUPSStatusBlock(FALSE);
}
return ErrNO_ERROR;
}
/**
* onBatteryCondition
*
* Description:
* Determines the current charge-state of the battery
* and reports any changes to the registry and
* to any threads pending on UPSWaitForStateChange
*
* Parameters:
* anEvent: pointer to an Event object that
* relates to a BATTERY_CONDITION event
*
* Returns:
* ErrNO_ERROR
*
*/
INT ApcMiniDriver::onBatteryCondition(PEvent anEvent)
{
DWORD old_state = theState;
DWORD state = atoi(anEvent->GetValue());
//
// get the current line condition
// we only goto low battery if we
// are also on battery
//
char value[256];
theUpsApp->Get(UTILITY_LINE_CONDITION, value);
DWORD line_state = atoi(value);
if ((BATTERY_BAD == state) || (LOW_BATTERY == state)) {
if (LINE_BAD == line_state) {
theState = UPS_LOWBATTERY;
}
else {
theState = UPS_ONLINE;
}
}
else {
if (LINE_BAD == line_state) {
theState = UPS_ONBATTERY;
}
else {
theState = UPS_ONLINE;
}
}
if (old_state != theState) {
UPSCancelWait();
}
return ErrNO_ERROR;
}
/**
* onCommunicationState
*
* Description:
* Determines the communication state to the UPS
* If theState goes to UPS_NOCOMM we report the change
* to threads pending on UPSWaitForStateChange
* If the state is leaving UPS_NOCOMM, we
* reinitialize the registry with advanced data
* and then 'fake' power and battery condition
* events
*
* Parameters:
* anEvent: pointer to an Event object that
* relates to a COMMUNICATION_STATE event
*
* Returns:
* ErrNO_ERROR
*
*/
INT ApcMiniDriver::onCommunicationState(PEvent anEvent)
{
DWORD state = atoi(anEvent->GetValue());
if ((COMMUNICATION_LOST == state) ||
(COMMUNICATION_LOST_ON_BATTERY == state)) {
if (UPS_NOCOMM != theState) {
theState = UPS_NOCOMM;
UPSCancelWait();
}
}
else {
if (UPS_NOCOMM == theState) {
//
// need to re-initialize the UPS data, since
// when you lose comm, the user might plug in
// a new UPS system
//
initalizeAdvancedUpsData();
// Set the low battery warning threshold
setLowBatteryDuration();
//
// here we just ask the service what it thinks
// the current line/battery conditions are, and
// 'fake' an event to ourselves. This allows
// all line/battery state changes to be handled
// consistently in the same methods
//
char value[256];
theUpsApp->Get(UTILITY_LINE_CONDITION, value);
Event ulc_evt(UTILITY_LINE_CONDITION, value);
onUtilityLineCondition(&ulc_evt);
theUpsApp->Get(BATTERY_CONDITION, value);
Event batt_evt(BATTERY_CONDITION, value);
onBatteryCondition(&batt_evt);
}
}
return ErrNO_ERROR;
}
/**
* onTimerPulse
*
* Description:
* Retrieves the on-battery runtime and battery
* capacity from the UPS and updates the registry
* with the values if they differ from the last
* time this method was called
*
* Parameters:
* anEvent: pointer to an Event object that
* relates to a TIMER_PULSE event
*
* Returns:
* ErrNO_ERROR
*
*/
INT ApcMiniDriver::onTimerPulse(PEvent anEvent)
{
DWORD old_run_time = theOnBatteryRuntime;
DWORD old_batt_cap = theBatteryCapacity;
//
// get the current on-battery runtime
//
CHAR data[100];
if (theUpsApp->Get(RUN_TIME_REMAINING,data) == ErrNO_ERROR) {
//
// we get the RUN_TIME_REMAINING back in seconds
// the UPS applet expects the value to be in
// minutes -
theOnBatteryRuntime = atol(data) / 60;
}
//
// get the current battery capacity
//
if (theUpsApp->Get(BATTERY_CAPACITY,data) == ErrNO_ERROR) {
// we get the battery capacity back as a percentage
// the UPS applet expects only a whole number.
theBatteryCapacity = (long) atof(data);
}
if ((old_run_time != theOnBatteryRuntime) || (old_batt_cap != theBatteryCapacity)){
// One or more values changed, update the registry
InitUPSStatusBlock();
if (old_run_time != theOnBatteryRuntime) {
// Update run time remaining
SetUPSStatusRuntime(theOnBatteryRuntime);
}
if (old_batt_cap != theBatteryCapacity) {
SetUPSStatusBatteryCapacity(theBatteryCapacity);
}
SaveUPSStatusBlock(FALSE);
}
//
// must create another timer to update the
// value again
//
theRunTimeTimer =
_theTimerManager->SetTheTimer((ULONG)5,
anEvent,
this);
return ErrNO_ERROR;
}
/**
* initalizeAdvancedUpsData
*
* Description:
* Retrieves the advanced data from theUpsApp
* and forces an update to the registry with
* the fresh data
*
* Parameters:
* None
*
* Returns:
* ErrNO_ERROR
*
*/
INT ApcMiniDriver::initalizeAdvancedUpsData()
{
// Initialize all static registry data
InitUPSStatusBlock();
CHAR data[100];
TCHAR w_data[200];
theUpsApp->Get(CURRENT_FIRMWARE_REV,data);
#ifdef UNICODE
MultiByteToWideChar(CP_ACP, MB_PRECOMPOSED, data, -1,
w_data, (sizeof(w_data)/sizeof(TCHAR)));
#else
strcpy(w_data, data);
#endif
SetUPSStatusFirmRev(w_data);
theUpsApp->Get(UPS_SERIAL_NUMBER,data);
#ifdef UNICODE
MultiByteToWideChar(CP_ACP, MB_PRECOMPOSED, data, -1,
w_data, (sizeof(w_data)/sizeof(TCHAR)));
#else
strcpy(w_data, data);
#endif
SetUPSStatusSerialNum(w_data);
// Default utility power and battery status to GOOD
SetUPSStatusBatteryStatus(UPS_BATTERYSTATUS_GOOD);
SetUPSStatusBatteryCapacity(0);
SaveUPSStatusBlock(TRUE);
//
// dummy up a BATTERY_REPLACEMENT_CONDITION event,
// just to make sure we initialize the registry with
// valid data, since this is an event we will not
// be notified unless the state changes
//
theUpsApp->Get(BATTERY_REPLACEMENT_CONDITION, data);
Event replace_batt(BATTERY_REPLACEMENT_CONDITION, data);
onBatteryReplacementCondition(&replace_batt);
return ErrNO_ERROR;
}
/**
* initalizeUpsApplication
*
* Description:
* inits theUpsApp member with a new NTServerApplication
* object.
* Registers for the events that can be received
* in the Update method
* Initalizes the advanced UPS data in the registry,
* and starts the repeating event that triggers updates
* to get on-battery runtime data
*
* Parameters:
* None
*
* Returns:
* ErrNO_ERROR: init succeeded
* ErrMEMORY: theUpsApp could not be created
*
*/
INT ApcMiniDriver::initalizeUpsApplication()
{
INT err = ErrNO_ERROR;
//
// assume that the UPS is not on battery
// this matches the assumption made by
// the NTServerApplication class
//
theState = UPS_ONLINE;
theUpsApp = new NTServerApplication();
if (!theUpsApp) {
err = ErrMEMORY;
}
else {
theUpsApp->RegisterEvent(UTILITY_LINE_CONDITION, this);
theUpsApp->RegisterEvent(BATTERY_CONDITION, this);
theUpsApp->RegisterEvent(BATTERY_REPLACEMENT_CONDITION, this);
theUpsApp->RegisterEvent(COMMUNICATION_STATE, this);
err = theUpsApp->Start();
}
if (ErrNO_ERROR == err) {
initalizeAdvancedUpsData();
// Start the polling of UPS run time
if (!theRunTimeTimer) {
Event retry_event(TIMER_PULSE, TIMER_PULSE);
onTimerPulse(&retry_event);
}
}
return err;
}
/**
* cleanupUpsApplication
*
* Description:
* cleans up and destructs theUpsApp object. Sets
* member variables to the default values
*
*
* Parameters:
* None
*
* Returns:
* None
*
*/
void ApcMiniDriver::cleanupUpsApplication()
{
theState = UPS_ONLINE;
if (theUpsApp) {
theUpsApp->Quit();
delete theUpsApp;
theUpsApp = NULL;
}
theRunTimeTimer = 0;
theOnBatteryRuntime = -1;
}
/**
* setLowBatteryDuration
*
* Description:
* Sets the low battery duration to a value compatable with the
* UPSTurnOffWait registry key. This method querries the
* UPS for the allowed low battery durations and sets the
* duration to one of the following:
* 1. The value of UPSTurnOffWait if it exactly matches one of
* the allowed values
* 2. the next highest value after UPSTurnOffWait, if one exists
* 3. the highest allowed value, if UPSTurnOffWait is larger than
* all of the allowed values.
* If the UPSTurnOffWait is not set or no allowed values are returned,
* the low battery duration will not be set.
*
* Parameters:
* None
*
* Returns:
* None
*
*/
void ApcMiniDriver::setLowBatteryDuration() {
DWORD turn_off_wait;
InitUPSConfigBlock();
if ((GetUPSConfigTurnOffWait(&turn_off_wait) == ERROR_SUCCESS) && (theUpsApp)) {
char allowed_values[512];
// Retrieve the allowed low battery durations from the UPS
theUpsApp->Get(ALLOWED_LOW_BATTERY_DURATIONS, allowed_values);
TokenString token_str(allowed_values, LOW_BATT_DURATION_SEPARATOR);
PCHAR tok = token_str.GetCurrentToken();
// Set the low battery duration if there are allowed values
if (tok) {
// Initialize counters
long max = atol(tok);
long last_closest = 0;
long requested_value = 0;
if (turn_off_wait > 0) {
// Convert the value from seconds to minutes (rounded up)
requested_value = turn_off_wait / SECONDS_TO_MINUTES;
if ((turn_off_wait % SECONDS_TO_MINUTES) > 0) {
++requested_value;
}
}
// Cycle through the allowed values looking for a suitable value
while (tok) {
long value = atol(tok);
// Check to see if this value is closest to the requested
if ( ((value >= requested_value) && (value < last_closest))
|| (last_closest < requested_value)) {
last_closest = value;
}
// Check to see if this value is the max value
if (value > max) {
max = value;
}
// Get the next value
tok = token_str.GetCurrentToken();
}
long low_batt_duration = last_closest;
if (last_closest < requested_value) {
// The requested value is larger than all of the values, use the max
low_batt_duration = max;
}
// Set the shutdown delay
char low_batt_duration_str[4];
sprintf(low_batt_duration_str, "%2.2u", low_batt_duration);
theUpsApp->Set(LOW_BATTERY_DURATION, low_batt_duration_str);
}
}
}