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windows-server-2003/ds/netapi/svcdlls/upssvc/apcsmart/upsreg.c

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/*******************************************************************************
*
* Copyright 1999 American Power Conversion, All Rights Reserved
*
* TITLE: UPSREG.C
*
* VERSION: 1.0
*
* AUTHOR: SteveT
*
* DATE: 07 June, 1999
*
* Revision History:
* v-stebe 23May2000 added check for NULL in ReadRegistryValue() (bug 112595)
* v-stebe 23May2000 added code to avoid rewriting the registry value if the
* value is unchanged in setDwordValue() (bug #92799)
* v-stebe 11Sep2000 Fixed PREfix error (bug #170456)
*******************************************************************************/
/*
* system includes
*/
#include <windows.h>
#include <tchar.h>
/*
* local includes
*/
//#include "upsdefines.h"
#include "upsreg.h"
#include "regdefs.h"
#ifdef __cplusplus
extern "C" {
#endif
/*
* Reg entry info structure declaration
*/
struct _reg_entry
{
HKEY hKey; /* the key */
LPTSTR lpSubKey; /* address of SubKey name */
LPTSTR lpValueName; /* address of name of value to query */
DWORD ulType; /* buffer for value type */
LPBYTE lpData; /* address of data buffer */
DWORD cbData; /* data buffer size */
BOOL changed; /* ID of dialog that changed this entry */
};
/*
* local function pre-declarations
*/
void freeBlock(struct _reg_entry *aBlock[]);
void readBlock(struct _reg_entry *aBlock[], BOOL changed);
void writeBlock(struct _reg_entry *aBlock[], BOOL forceAll);
LONG setDwordValue(struct _reg_entry *aRegEntry, DWORD aValue);
LONG setStringValue(struct _reg_entry *aRegEntry, LPCTSTR aBuffer);
static BOOL isRegistryInitialized();
static void CheckForUpgrade();
static void InitializeServiceKeys();
static void InitializeServiceProviders();
static void InitializeConfigValues();
static void InitializeStatusValues();
/*
* Reg entry value name declarations
*/
#define UPS_VENDOR _T("Vendor")
#define UPS_MODEL _T("Model")
#define UPS_SERIALNUMBER _T("SerialNumber")
#define UPS_FIRMWAREREV _T("FirmwareRev")
#define UPS_UTILITYSTATUS _T("UtilityPowerStatus")
#define UPS_RUNTIME _T("TotalUPSRuntime")
#define UPS_BATTERYSTATUS _T("BatteryStatus")
#define UPS_PORT _T("Port")
#define UPS_OPTIONS _T("Options")
#define UPS_SHUTDOWNWAIT _T("ShutdownWait")
#define UPS_FIRSTMESSAGEDELAY _T("FirstMessageDelay")
#define UPS_MESSAGEINTERVAL _T("MessageInterval")
#define UPS_SERVICEDLL _T("ServiceProviderDLL")
#define UPS_NOTIFYENABLE _T("NotifyEnable")
#define UPS_SHUTBATTENABLE _T("ShutdownOnBatteryEnable")
#define UPS_SHUTBATTWAIT _T("ShutdownOnBatteryWait")
#define UPS_RUNTASKENABLE _T("RunTaskEnable")
#define UPS_TASKNAME _T("TaskName")
#define UPS_TURNUPSOFFENABLE _T("TurnUPSOffEnable")
#define UPS_APCLINKURL _T("APCLinkURL")
#define UPS_CUSTOMOPTIONS _T("CustomOptions")
#define UPS_UPGRADE _T("Upgrade")
#define UPS_COMMSTATUS _T("CommStatus")
#define UPS_CRITICALPOWERACTION _T("CriticalPowerAction")
#define UPS_TURNUPSOFFWAIT _T("TurnUPSOffWait")
#define UPS_SHOWTAB _T("ShowUPSTab")
#define UPS_BATTERYCAPACITY _T("BatteryCapacity")
#define UPS_IMAGEPATH _T("ImagePath")
#define UPS_ERRORCONTROL _T("ErrorControl")
#define UPS_OBJECTNAME _T("ObjectName")
#define UPS_START _T("Start")
#define UPS_TYPE _T("Type")
// This specifies the key to examine to determine if the registry
// has been updated for the UPS Service.
#define UPS_SERVICE_INITIALIZED_KEY TEXT("SYSTEM\\CurrentControlSet\\Services\\UPS\\Config")
// Specifies the name of the BatteryLife key used in the NT 4.0 UPS Service
#define UPS_BATTLIFE_KEY TEXT("BatteryLife")
// This specifies the default name for the shutdown Task
#define DEFAULT_SHUTDOWN_TASK_NAME TEXT("")
// Default values for the Config settings
#define DEFAULT_CONFIG_VENDOR_OLD TEXT("\\(NONE)")
#define DEFAULT_CONFIG_VENDOR TEXT("")
#define DEFAULT_CONFIG_MODEL TEXT("")
#define DEFAULT_CONFIG_PORT TEXT("COM1")
#define DEFAULT_CONFIG_OPTIONS 0x7e
#define DEFAULT_CONFIG_FIRSTMSG_DELAY 5
#define DEFAULT_CONFIG_MESSAGE_INTERVAL 120
#define DEFAULT_CONFIG_PROVIDER_DLL TEXT("")
#define DEFAULT_CONFIG_NOTIFY_ENABLE 1
#define DEFAULT_CONFIG_SHUTDOWN_ONBATT_ENABLE FALSE
#define DEFAULT_CONFIG_SHUTDOWN_ONBATT_WAIT 2
#define DEFAULT_CONFIG_RUNTASK_ENABLE FALSE
#define DEFAULT_CONFIG_TASK_NAME DEFAULT_SHUTDOWN_TASK_NAME
#define DEFAULT_CONFIG_TURNOFF_UPS_ENABLE TRUE
#define DEFAULT_CONFIG_CUSTOM_OPTIONS UPS_DEFAULT_SIGMASK
#define DEFAULT_CONFIG_CRITICALPOWERACTION UPS_SHUTDOWN_SHUTDOWN
#define DEFAULT_CONFIG_TURNOFF_UPS_WAIT 180
#define DEFAULT_CONFIG_ERRORCONTROL 1
#define DEFAULT_CONFIG_OBJECTNAME TEXT("LocalSystem")
#define DEFAULT_CONFIG_START SERVICE_DEMAND_START
#define DEFAULT_CONFIG_TYPE 16
#define DEFAULT_CONFIG_SHOWUPSTAB FALSE
// Default values for the Status settings
#define DEFAULT_STATUS_SERIALNO TEXT("")
#define DEFAULT_STATUS_FIRMWARE_REV TEXT("")
#define DEFAULT_STATUS_UTILITY_STAT 0
#define DEFAULT_STATUS_TOTAL_RUNTIME 0
#define DEFAULT_STATUS_BATTERY_STAT 0
#define DEFAULT_STATUS_BATTERY_CAPACITY 0
// Default values for upgraded services
#define UPGRADE_CONFIG_VENDOR_OLD TEXT("\\Generic")
#define UPGRADE_CONFIG_VENDOR TEXT("")
#define UPGRADE_CONFIG_MODEL TEXT("")
/*
* Allocate the individual Configuration Reg entry records
*/
struct _reg_entry UPSConfigVendor = {HKEY_LOCAL_MACHINE,UPS_CONFIG_ROOT,UPS_VENDOR,REG_SZ,NULL,0,FALSE};
struct _reg_entry UPSConfigModel = {HKEY_LOCAL_MACHINE,UPS_CONFIG_ROOT,UPS_MODEL,REG_SZ,NULL,0,FALSE};
struct _reg_entry UPSConfigPort = {HKEY_LOCAL_MACHINE,UPS_DEFAULT_ROOT,UPS_PORT,REG_SZ,NULL,0,FALSE};
struct _reg_entry UPSConfigOptions = {HKEY_LOCAL_MACHINE,UPS_DEFAULT_ROOT,UPS_OPTIONS,REG_DWORD,NULL,0,FALSE};
struct _reg_entry UPSConfigServiceDLL = {HKEY_LOCAL_MACHINE,UPS_CONFIG_ROOT,UPS_SERVICEDLL,REG_SZ,NULL,0,FALSE};
struct _reg_entry UPSConfigNotifyEnable = {HKEY_LOCAL_MACHINE,UPS_CONFIG_ROOT,UPS_NOTIFYENABLE,REG_DWORD,NULL,0,FALSE};
struct _reg_entry UPSConfigFirstMessageDelay= {HKEY_LOCAL_MACHINE,UPS_DEFAULT_ROOT,UPS_FIRSTMESSAGEDELAY,REG_DWORD,NULL,0,FALSE};
struct _reg_entry UPSConfigMessageInterval = {HKEY_LOCAL_MACHINE,UPS_DEFAULT_ROOT,UPS_MESSAGEINTERVAL,REG_DWORD,NULL,0,FALSE};
struct _reg_entry UPSConfigShutBattEnable = {HKEY_LOCAL_MACHINE,UPS_CONFIG_ROOT,UPS_SHUTBATTENABLE,REG_DWORD,NULL,0,FALSE};
struct _reg_entry UPSConfigShutBattWait = {HKEY_LOCAL_MACHINE,UPS_CONFIG_ROOT,UPS_SHUTBATTWAIT,REG_DWORD,NULL,0,FALSE};
struct _reg_entry UPSConfigRunTaskEnable = {HKEY_LOCAL_MACHINE,UPS_CONFIG_ROOT,UPS_RUNTASKENABLE,REG_DWORD,NULL,0,FALSE};
struct _reg_entry UPSConfigTaskName = {HKEY_LOCAL_MACHINE,UPS_CONFIG_ROOT,UPS_TASKNAME,REG_SZ,NULL,0,FALSE};
struct _reg_entry UPSConfigTurnOffEnable = {HKEY_LOCAL_MACHINE,UPS_CONFIG_ROOT,UPS_TURNUPSOFFENABLE,REG_DWORD,NULL,0,FALSE};
struct _reg_entry UPSConfigCustomOptions = {HKEY_LOCAL_MACHINE,UPS_CONFIG_ROOT,UPS_CUSTOMOPTIONS,REG_DWORD,NULL,0,FALSE};
struct _reg_entry UPSConfigAPCLinkURL = {HKEY_LOCAL_MACHINE,UPS_CONFIG_ROOT,UPS_APCLINKURL,REG_SZ,NULL,0,FALSE};
struct _reg_entry UPSConfigShutdownWait = {HKEY_LOCAL_MACHINE,UPS_DEFAULT_ROOT,UPS_SHUTDOWNWAIT,REG_DWORD,NULL,0,FALSE};
struct _reg_entry UPSConfigUpgrade = {HKEY_LOCAL_MACHINE,UPS_CONFIG_ROOT,UPS_UPGRADE,REG_DWORD,NULL,0,FALSE};
struct _reg_entry UPSConfigCriticalPowerAction = {HKEY_LOCAL_MACHINE,UPS_CONFIG_ROOT,UPS_CRITICALPOWERACTION,REG_DWORD,NULL,0,FALSE};
struct _reg_entry UPSConfigTurnOffWait = {HKEY_LOCAL_MACHINE,UPS_CONFIG_ROOT,UPS_TURNUPSOFFWAIT,REG_DWORD,NULL,0,FALSE};
struct _reg_entry UPSConfigImagePath = {HKEY_LOCAL_MACHINE,UPS_DEFAULT_ROOT,UPS_IMAGEPATH,REG_EXPAND_SZ,NULL,0,FALSE};
struct _reg_entry UPSConfigObjectName = {HKEY_LOCAL_MACHINE,UPS_DEFAULT_ROOT,UPS_OBJECTNAME,REG_EXPAND_SZ,NULL,0,FALSE};
struct _reg_entry UPSConfigErrorControl = {HKEY_LOCAL_MACHINE,UPS_DEFAULT_ROOT,UPS_ERRORCONTROL,REG_DWORD,NULL,0,FALSE};
struct _reg_entry UPSConfigStart = {HKEY_LOCAL_MACHINE,UPS_DEFAULT_ROOT,UPS_START,REG_DWORD,NULL,0,FALSE};
struct _reg_entry UPSConfigType = {HKEY_LOCAL_MACHINE,UPS_DEFAULT_ROOT,UPS_TYPE,REG_DWORD,NULL,0,FALSE};
struct _reg_entry UPSConfigShowUPSTab = {HKEY_LOCAL_MACHINE,UPS_DEFAULT_ROOT,UPS_SHOWTAB,REG_DWORD,NULL,0,FALSE};
/*
* Allocate the individual Status Reg entry records
*/
struct _reg_entry UPSStatusSerialNum = {HKEY_LOCAL_MACHINE,UPS_STATUS_ROOT,UPS_SERIALNUMBER,REG_SZ,NULL,0,FALSE};
struct _reg_entry UPSStatusFirmRev = {HKEY_LOCAL_MACHINE,UPS_STATUS_ROOT,UPS_FIRMWAREREV,REG_SZ,NULL,0,FALSE};
struct _reg_entry UPSStatusUtilityStatus= {HKEY_LOCAL_MACHINE,UPS_STATUS_ROOT,UPS_UTILITYSTATUS,REG_DWORD,NULL,0,FALSE};
struct _reg_entry UPSStatusRuntime = {HKEY_LOCAL_MACHINE,UPS_STATUS_ROOT,UPS_RUNTIME,REG_DWORD,NULL,0,FALSE};
struct _reg_entry UPSStatusBatteryStatus= {HKEY_LOCAL_MACHINE,UPS_STATUS_ROOT,UPS_BATTERYSTATUS,REG_DWORD,NULL,0,FALSE};
struct _reg_entry UPSStatusCommStatus = {HKEY_LOCAL_MACHINE,UPS_STATUS_ROOT,UPS_COMMSTATUS,REG_DWORD,NULL,0,FALSE};
struct _reg_entry UPSStatusBatteryCapacity = {HKEY_LOCAL_MACHINE,UPS_STATUS_ROOT,UPS_BATTERYCAPACITY,REG_DWORD,NULL,0,FALSE};
/*
* Allocate an array of pointers to the Configuration Reg entry records
*/
struct _reg_entry *ConfigBlock[] = {&UPSConfigVendor,
&UPSConfigModel,
&UPSConfigPort,
&UPSConfigOptions,
&UPSConfigServiceDLL,
&UPSConfigNotifyEnable,
&UPSConfigFirstMessageDelay,
&UPSConfigMessageInterval,
&UPSConfigShutBattEnable,
&UPSConfigShutBattWait,
&UPSConfigRunTaskEnable,
&UPSConfigTaskName,
&UPSConfigTurnOffEnable,
&UPSConfigCustomOptions,
&UPSConfigAPCLinkURL,
&UPSConfigShutdownWait,
&UPSConfigUpgrade,
&UPSConfigCriticalPowerAction,
&UPSConfigTurnOffWait,
&UPSConfigImagePath,
&UPSConfigObjectName,
&UPSConfigErrorControl,
&UPSConfigStart,
&UPSConfigType,
&UPSConfigShowUPSTab,
NULL};
/*
* Allocate an array of pointers to the Status Reg entry records
*/
struct _reg_entry *StatusBlock[] = {&UPSStatusSerialNum,
&UPSStatusFirmRev,
&UPSStatusUtilityStatus,
&UPSStatusRuntime,
&UPSStatusBatteryStatus,
&UPSStatusCommStatus,
&UPSStatusBatteryCapacity,
NULL};
/******************************************************************
* Public functions
*/
LONG GetUPSConfigVendor(LPTSTR aBuffer, size_t aBufferLen)
{
return getStringValue( &UPSConfigVendor, aBuffer, aBufferLen);
}
LONG GetUPSConfigModel(LPTSTR aBuffer, size_t aBufferLen)
{
return getStringValue(&UPSConfigModel, aBuffer, aBufferLen);
}
LONG GetUPSConfigPort(LPTSTR aBuffer, size_t aBufferLen)
{
return getStringValue(&UPSConfigPort, aBuffer, aBufferLen);
}
LONG GetUPSConfigOptions( LPDWORD aValue)
{
return getDwordValue( &UPSConfigOptions, aValue);
}
LONG GetUPSConfigServiceDLL(LPTSTR aBuffer, size_t aBufferLen)
{
return getStringValue(&UPSConfigServiceDLL, aBuffer, aBufferLen);
}
LONG GetUPSConfigNotifyEnable( LPDWORD aValue)
{
return getDwordValue( &UPSConfigNotifyEnable, aValue);
}
LONG GetUPSConfigFirstMessageDelay( LPDWORD aValue)
{
return getDwordValue( &UPSConfigFirstMessageDelay, aValue);
}
LONG GetUPSConfigMessageInterval( LPDWORD aValue)
{
return getDwordValue( &UPSConfigMessageInterval, aValue);
}
LONG GetUPSConfigShutdownOnBatteryEnable( LPDWORD aValue)
{
return getDwordValue( &UPSConfigShutBattEnable, aValue);
}
LONG GetUPSConfigShutdownOnBatteryWait( LPDWORD aValue)
{
return getDwordValue( &UPSConfigShutBattWait, aValue);
}
LONG GetUPSConfigRunTaskEnable( LPDWORD aValue)
{
return getDwordValue( &UPSConfigRunTaskEnable, aValue);
}
LONG GetUPSConfigTaskName( LPTSTR aBuffer, size_t aBufferLen)
{
return getStringValue(&UPSConfigTaskName, aBuffer, aBufferLen);
}
LONG GetUPSConfigTurnOffEnable( LPDWORD aValue)
{
return getDwordValue( &UPSConfigTurnOffEnable, aValue);
}
LONG GetUPSConfigCustomOptions( LPDWORD aValue)
{
return getDwordValue( &UPSConfigCustomOptions, aValue);
}
LONG GetUPSConfigAPCLinkURL(LPTSTR aBuffer, size_t aBufferLen)
{
return getStringValue(&UPSConfigAPCLinkURL, aBuffer, aBufferLen);
}
LONG GetUPSConfigShutdownWait( LPDWORD aValue)
{
return getDwordValue( &UPSConfigShutdownWait, aValue);
}
LONG GetUPSConfigUpgrade( LPDWORD aValue)
{
return getDwordValue( &UPSConfigUpgrade, aValue);
}
LONG GetUPSConfigCriticalPowerAction( LPDWORD aValue)
{
return getDwordValue( &UPSConfigCriticalPowerAction, aValue);
}
LONG GetUPSConfigTurnOffWait( LPDWORD aValue)
{
return getDwordValue( &UPSConfigTurnOffWait, aValue);
}
LONG GetUPSConfigShowUPSTab( LPDWORD aValue)
{
return getDwordValue( &UPSConfigShowUPSTab, aValue);
}
LONG GetUPSConfigImagePath(LPTSTR aBuffer, size_t aBufferLen)
{
return getStringValue(&UPSConfigImagePath, aBuffer, aBufferLen);
}
LONG GetUPSConfigObjectName(LPTSTR aBuffer, size_t aBufferLen)
{
return getStringValue(&UPSConfigObjectName, aBuffer, aBufferLen);
}
LONG GetUPSConfigErrorControl( LPDWORD aValue)
{
return getDwordValue( &UPSConfigErrorControl, aValue);
}
LONG GetUPSConfigStart( LPDWORD aValue)
{
return getDwordValue( &UPSConfigStart, aValue);
}
LONG GetUPSConfigType( LPDWORD aValue)
{
return getDwordValue( &UPSConfigType, aValue);
}
///////////////////////////////////////////
LONG SetUPSConfigVendor( LPCTSTR aBuffer)
{
return setStringValue( &UPSConfigVendor, aBuffer);
}
LONG SetUPSConfigModel( LPCTSTR aBuffer)
{
return setStringValue( &UPSConfigModel, aBuffer);
}
LONG SetUPSConfigPort( LPCTSTR aBuffer)
{
return setStringValue( &UPSConfigPort, aBuffer);
}
LONG SetUPSConfigOptions( DWORD aValue)
{
return setDwordValue( &UPSConfigOptions, aValue);
}
LONG SetUPSConfigServiceDLL( LPCTSTR aBuffer)
{
return setStringValue( &UPSConfigServiceDLL, aBuffer);
}
LONG SetUPSConfigNotifyEnable( DWORD aValue)
{
return setDwordValue( &UPSConfigNotifyEnable, aValue);
}
LONG SetUPSConfigFirstMessageDelay( DWORD aValue)
{
return setDwordValue( &UPSConfigFirstMessageDelay, aValue);
}
LONG SetUPSConfigMessageInterval( DWORD aValue)
{
return setDwordValue( &UPSConfigMessageInterval, aValue);
}
LONG SetUPSConfigShutdownOnBatteryEnable( DWORD aValue)
{
return setDwordValue( &UPSConfigShutBattEnable, aValue);
}
LONG SetUPSConfigShutdownOnBatteryWait( DWORD aValue)
{
return setDwordValue( &UPSConfigShutBattWait, aValue);
}
LONG SetUPSConfigRunTaskEnable( DWORD aValue)
{
return setDwordValue( &UPSConfigRunTaskEnable, aValue);
}
LONG SetUPSConfigTaskName( LPCTSTR aBuffer)
{
return setStringValue( &UPSConfigTaskName, aBuffer);
}
LONG SetUPSConfigTurnOffEnable( DWORD aValue)
{
return setDwordValue( &UPSConfigTurnOffEnable, aValue);
}
LONG SetUPSConfigCustomOptions( DWORD aValue)
{
return setDwordValue( &UPSConfigCustomOptions, aValue);
}
LONG SetUPSConfigAPCLinkURL( LPCTSTR aBuffer)
{
return setStringValue( &UPSConfigAPCLinkURL, aBuffer);
}
LONG SetUPSConfigShutdownWait( DWORD aValue)
{
return setDwordValue( &UPSConfigShutdownWait, aValue);
}
LONG SetUPSConfigUpgrade( DWORD aValue)
{
return setDwordValue( &UPSConfigUpgrade, aValue);
}
LONG SetUPSConfigCriticalPowerAction( DWORD aValue)
{
return setDwordValue( &UPSConfigCriticalPowerAction, aValue);
}
LONG SetUPSConfigTurnOffWait( DWORD aValue)
{
return setDwordValue( &UPSConfigTurnOffWait, aValue);
}
LONG SetUPSConfigShowUPSTab( DWORD aValue)
{
return setDwordValue( &UPSConfigShowUPSTab, aValue);
}
LONG SetUPSConfigImagePath( LPCTSTR aBuffer)
{
return setStringValue( &UPSConfigImagePath, aBuffer);
}
LONG SetUPSConfigObjectName( LPCTSTR aBuffer)
{
return setStringValue( &UPSConfigObjectName, aBuffer);
}
LONG SetUPSConfigErrorControl( DWORD aValue)
{
return setDwordValue( &UPSConfigErrorControl, aValue);
}
LONG SetUPSConfigStart( DWORD aValue)
{
return setDwordValue( &UPSConfigStart, aValue);
}
LONG SetUPSConfigType( DWORD aValue)
{
return setDwordValue( &UPSConfigType, aValue);
}
////////////////////////////////////////////////
LONG GetUPSStatusSerialNum(LPTSTR aBuffer, size_t aBufferLen)
{
return getStringValue( &UPSStatusSerialNum, aBuffer, aBufferLen);
}
LONG GetUPSStatusFirmRev(LPTSTR aBuffer, size_t aBufferLen)
{
return getStringValue(&UPSStatusFirmRev, aBuffer, aBufferLen);
}
LONG GetUPSStatusUtilityStatus( LPDWORD aValue)
{
return getDwordValue( &UPSStatusUtilityStatus, aValue);
}
LONG GetUPSStatusRuntime( LPDWORD aValue)
{
return getDwordValue( &UPSStatusRuntime, aValue);
}
LONG GetUPSStatusBatteryStatus( LPDWORD aValue)
{
return getDwordValue( &UPSStatusBatteryStatus, aValue);
}
LONG GetUPSStatusCommStatus( LPDWORD aValue)
{
return getDwordValue( &UPSStatusCommStatus, aValue);
}
LONG GetUPSBatteryCapacity( LPDWORD aValue)
{
return getDwordValue( &UPSStatusBatteryCapacity, aValue);
}
/////////////////////////////////////////
LONG SetUPSStatusSerialNum( LPCTSTR aBuffer)
{
return setStringValue( &UPSStatusSerialNum, aBuffer);
}
LONG SetUPSStatusFirmRev( LPCTSTR aBuffer)
{
return setStringValue( &UPSStatusFirmRev, aBuffer);
}
LONG SetUPSStatusUtilityStatus( DWORD aValue)
{
return setDwordValue( &UPSStatusUtilityStatus,aValue);
}
LONG SetUPSStatusRuntime( DWORD aValue)
{
return setDwordValue( &UPSStatusRuntime,aValue);
}
LONG SetUPSStatusBatteryStatus( DWORD aValue)
{
return setDwordValue( &UPSStatusBatteryStatus,aValue);
}
LONG SetUPSStatusCommStatus( DWORD aValue)
{
return setDwordValue( &UPSStatusCommStatus,aValue);
}
LONG SetUPSStatusBatteryCapacity( DWORD aValue)
{
return setDwordValue( &UPSStatusBatteryCapacity,aValue);
}
//////////////////////////////////////////////////////////////
void FreeUPSConfigBlock()
{
freeBlock(ConfigBlock);
}
void FreeUPSStatusBlock()
{
freeBlock(StatusBlock);
}
void InitUPSConfigBlock()
{
readBlock(ConfigBlock,FALSE);
}
void InitUPSStatusBlock()
{
readBlock(StatusBlock,FALSE);
}
void RestoreUPSConfigBlock()
{
readBlock(ConfigBlock, TRUE);
}
void RestoreUPSStatusBlock()
{
readBlock(StatusBlock, TRUE);
}
void SaveUPSConfigBlock(BOOL forceAll)
{
writeBlock(ConfigBlock, forceAll);
}
void SaveUPSStatusBlock(BOOL forceAll)
{
writeBlock(StatusBlock, forceAll);
}
/******************************************************************
* Local functions
*/
/*
* freeBlock()
*
* Description: Frees storage allocated when a block of registry
* entries is read
*
* Parameters: aBlock - pointer to an array of _reg_entry structures
*
* Returns:
*/
void freeBlock(struct _reg_entry *aBlock[])
{
while ((NULL != aBlock) && (NULL != *aBlock))
{
struct _reg_entry *anEntry = *aBlock;
if (NULL != anEntry->lpData)
{
LocalFree(anEntry->lpData);
}
anEntry->lpData = NULL;
anEntry->cbData = 0;
anEntry->changed = FALSE;
aBlock++;
}
}
/*
* readBlock()
*
* Description: Loads all of the items in a array of registry entries
*
* Parameters: aBlock - pointer to an array of _reg_entry structures
* changed - boolean which, when true, causes only the
* structures that are marked as changed to be loaded.
*
* Returns:
*/
void readBlock(struct _reg_entry *aBlock[], BOOL changed)
{
LONG res;
HKEY hkResult;
while ((NULL != aBlock) && (NULL != *aBlock))
{
struct _reg_entry *anEntry = *aBlock;
/*
* if changed is FALSE, we read all entries
* otherwise, only re-read the changed entries
*/
if ((FALSE == changed) || (TRUE == anEntry->changed))
{
/*
* delete current value, in case this is a reload
*/
if (NULL != anEntry->lpData)
{
LocalFree(anEntry->lpData);
}
anEntry->lpData = NULL;
anEntry->cbData = 0;
anEntry->changed = FALSE;
/*
* open key
*/
res = RegOpenKeyEx( anEntry->hKey,
anEntry->lpSubKey,
0,
KEY_QUERY_VALUE,
&hkResult);
if (ERROR_SUCCESS == res)
{
DWORD ulTmpType;
/*
* query for the data size
*/
res = RegQueryValueEx( hkResult,
anEntry->lpValueName,
NULL,
&ulTmpType,
NULL,
&anEntry->cbData);
/*
* if the data has 0 size, we don't read it
*/
if ((ERROR_SUCCESS == res) &&
(anEntry->cbData > 0) &&
(anEntry->ulType == ulTmpType) &&
(NULL != (anEntry->lpData = (LPBYTE)LocalAlloc(LMEM_FIXED, anEntry->cbData))))
// (NULL != (anEntry->lpData = (LPBYTE)malloc(anEntry->cbData))))
{
/*
* query for data
*/
res = RegQueryValueEx( hkResult,
anEntry->lpValueName,
NULL,
&ulTmpType,
anEntry->lpData,
&anEntry->cbData);
/*
* something went wrong; reset
*/
if (ERROR_SUCCESS != res)
{
LocalFree(anEntry->lpData);
anEntry->lpData = NULL;
anEntry->cbData = 0;
}
}
else
{
anEntry->cbData = 0;
}
RegCloseKey(hkResult);
}
}
aBlock++;
}
}
/*
* writeBlock()
*
* Description: Stores all of the items in a array of registry entries
*
* Parameters: aBlock - pointer to an array of _reg_entry structures
* forceAll - boolean which, when true, causes all of the
* structures to be written to the registry, otherwise only
* those entries that are marked as changed are stored.
*
* Returns:
*/
void writeBlock(struct _reg_entry *aBlock[], BOOL forceAll)
{
LONG res;
HKEY hkResult;
while ((NULL != aBlock) && (NULL != *aBlock))
{
struct _reg_entry *anEntry = *aBlock;
/*
* if forcall is true, write out everything
* otherwise only write out the changed entries
*/
if ((NULL != anEntry->lpData) &&
((TRUE == forceAll) || (TRUE == anEntry->changed)))
{
/*
* open key
*/
res = RegOpenKeyEx( anEntry->hKey,
anEntry->lpSubKey,
0,
KEY_SET_VALUE,
&hkResult);
if (ERROR_SUCCESS == res)
{
/*
* set data
*/
res = RegSetValueEx( hkResult,
anEntry->lpValueName,
0,
anEntry->ulType,
anEntry->lpData,
anEntry->cbData);
RegCloseKey(hkResult);
}
anEntry->changed = FALSE;
}
aBlock++;
}
}
/*
* setDwordValue()
*
* Description: Sets the value of a REG_DWORD entry record.
*
* Parameters: aRegEntry - pointer to a _reg_entry structure
* aValue - the value to store in the entry
*
* Returns: ERROR_SUCCESS, E_OUTOFMEMORY, ERROR_INVALID_PARAMETER
*/
LONG setDwordValue(struct _reg_entry *aRegEntry, DWORD aValue)
{
LONG res = ERROR_SUCCESS;
DWORD value_changed = TRUE;
if (NULL != aRegEntry)
{
/*
* Check to see if a value already exists
*/
if (NULL != aRegEntry->lpData)
{
/*
* If the value is the different, delete it.
*/
if (memcmp(aRegEntry->lpData, &aValue, sizeof(aValue)) != 0) {
LocalFree (aRegEntry->lpData);
aRegEntry->lpData = NULL;
aRegEntry->cbData = 0;
}
else {
/*
* The value is the same, don't change it. That would cause an
* unnecessary write to the registry (see bug #92799)
*/
value_changed = FALSE;
}
}
/*
* set value
*/
if (value_changed) {
aRegEntry->cbData = sizeof(DWORD);
if (NULL != (aRegEntry->lpData = LocalAlloc(LMEM_FIXED, aRegEntry->cbData)))
{
*((DWORD*)aRegEntry->lpData) = aValue;
aRegEntry->changed = TRUE;
}
else
{
res = E_OUTOFMEMORY;
aRegEntry->cbData = 0;
}
}
}
else
{
res = ERROR_INVALID_PARAMETER;
}
return res;
}
/*
* setStringValue()
*
* Description: Sets the value of a REG_SZ entry record.
*
* Parameters: aRegEntry - pointer to a _reg_entry structure
* aBuffer - pointer to the string to store in the entry
*
* Returns: ERROR_SUCCESS, E_OUTOFMEMORY, ERROR_INVALID_PARAMETER
*/
LONG setStringValue(struct _reg_entry *aRegEntry, LPCTSTR aBuffer)
{
LONG res = ERROR_SUCCESS;
if ((NULL != aRegEntry) && (NULL != aBuffer))
{
/*
* if value already exists, delete it
*/
if (NULL != aRegEntry->lpData)
{
LocalFree(aRegEntry->lpData);
aRegEntry->lpData = NULL;
aRegEntry->cbData = 0;
}
/*
* set value
*/
aRegEntry->cbData = (_tcslen(aBuffer)+1)*sizeof(TCHAR);
if (NULL != (aRegEntry->lpData = LocalAlloc(LMEM_FIXED, aRegEntry->cbData)))
{
_tcscpy((LPTSTR)aRegEntry->lpData,aBuffer);
aRegEntry->changed = TRUE;
}
else
{
res = E_OUTOFMEMORY;
aRegEntry->cbData = 0;
}
}
else
{
res = ERROR_INVALID_PARAMETER;
}
return res;
}
/*
* getStringValue()
*
* Description: Gets the value of a REG_SZ entry record.
*
* Parameters:
* aRegEntry pointer to a _reg_entry structure
* aBuffer pointer to the string to receive the string
* aBufferLen the length (in characters) of the buffer
*
* Returns: ERROR_SUCCESS, REGDB_E_INVALIDVALUE, ERROR_INVALID_PARAMETER
*/
LONG getStringValue(struct _reg_entry *aRegEntry, LPTSTR aBuffer, size_t aBufferLen)
{
LONG res = REGDB_E_INVALIDVALUE;
if ((NULL != aRegEntry) && (NULL != aBuffer))
{
if (NULL != aRegEntry->lpData)
{
if (_tcslen((LPCTSTR) aRegEntry->lpData) <= aBufferLen) {
_tcscpy(aBuffer, (LPCTSTR)aRegEntry->lpData);
res = ERROR_SUCCESS;
}
}
}
else
{
res = ERROR_INVALID_PARAMETER;
}
return res;
}
/*
* getDwordValue()
*
* Description: Gets the value of a REG_DWORD entry record.
*
* Parameters: aRegEntry - pointer to a _reg_entry structure
* aValue - pointer to the variable to receive the value
*
* Returns: ERROR_SUCCESS, REGDB_E_INVALIDVALUE, ERROR_INVALID_PARAMETER
*/
LONG getDwordValue(struct _reg_entry *aRegEntry, LPDWORD aValue)
{
LONG res = ERROR_SUCCESS;
if ((NULL != aRegEntry) && (NULL != aValue))
{
if (NULL != aRegEntry->lpData)
{
*aValue = *((DWORD*)aRegEntry->lpData);
}
else
{
res = REGDB_E_INVALIDVALUE;
}
}
else
{
res = ERROR_INVALID_PARAMETER;
}
return res;
}
/**
* InitializeRegistry
*
* Description:
* This function initiates the registry for the UPS service and the
* configuration application. When called, this function calls the
* function isRegistryInitialized(..) to determine if the registry
* has been initialied. If it has not, the following Keys are updated:
* Status
* Config
* ServiceProviders
*
* The values for the ServiceProviders key is supplied in the regdefs.h
* header file.
*
* Parameters:
* none
*
* Returns:
* TRUE if able to open registry keys with write access.
*/
BOOL InitializeRegistry() {
BOOL ret_val = FALSE;
HKEY key;
TCHAR szKeyName[MAX_PATH] = _T("");
// Initialize UPS Service registry keys
InitializeServiceKeys();
// Check to see if the registry is already initialized
if (isRegistryInitialized() == FALSE) {
CheckForUpgrade();
InitializeServiceProviders();
InitializeConfigValues();
InitializeStatusValues();
}
/*
* Remove "(None)" and "Generic" Service Provider keys if they exist
* This fixes a localization bug introduced in RC2
*/
_tcscpy(szKeyName, UPS_SERVICE_ROOT);
_tcscat(szKeyName, DEFAULT_CONFIG_VENDOR_OLD);
RegDeleteKey(HKEY_LOCAL_MACHINE, szKeyName);
_tcscpy(szKeyName, UPS_SERVICE_ROOT);
_tcscat(szKeyName, UPGRADE_CONFIG_VENDOR_OLD);
RegDeleteKey(HKEY_LOCAL_MACHINE, szKeyName);
// ...and check if we have write access
if (RegOpenKeyEx(HKEY_LOCAL_MACHINE,
UPS_DEFAULT_ROOT,
0,
KEY_WRITE,
&key) == ERROR_SUCCESS )
{
RegCloseKey(key);
ret_val = TRUE;
}
return ret_val;
}
/**
* isRegistryInitialized
*
* Description:
* This function determines if the registry has been initialized for
* the UPS service. This is done by examine the registry key specified
* by the identifier UPS_SERVICE_INITIALIED_KEY. If the key is present,
* the registry is assumed to be initialized and TRUE is returned.
* Otherwise, FALSE is returned.
*
* Parameters:
* none
*
* Returns:
* TRUE - if the registry has been initialized for the UPS service
* FALSE - otherwise
*/
static BOOL isRegistryInitialized() {
BOOL ret_val = FALSE;
HKEY key;
if (RegOpenKeyEx(HKEY_LOCAL_MACHINE, UPS_SERVICE_INITIALIZED_KEY,
0, KEY_QUERY_VALUE, &key) == ERROR_SUCCESS) {
ret_val = TRUE;
RegCloseKey(key);
}
return ret_val;
}
/**
* CheckForUpgrade
*
* Description:
* This function determines if this installation is an upgrade from
* the WINNT 4.x UPS service. This is done by checking to see if the
* Config registry key is present. If it is not present and the Options
* key is set to UPS_INSTALLED, then the Upgrade registry key is set to
* TRUE. Otherwise, it is set to FALSE.
*
* Parameters:
* none
*
* Returns:
* nothing
*/
static void CheckForUpgrade() {
DWORD result;
HKEY key;
DWORD options = 0;
// Create the Config key
if (RegCreateKeyEx(HKEY_LOCAL_MACHINE, UPS_CONFIG_ROOT, 0, NULL,
REG_OPTION_NON_VOLATILE, KEY_SET_VALUE, NULL, &key, &result) == ERROR_SUCCESS) {
// close the key, we only needed to create it
RegCloseKey(key);
// Check to see if the Config key was present
if (result != REG_OPENED_EXISTING_KEY) {
// Config key was not found
InitUPSConfigBlock();
// Check the port value
if (ERROR_SUCCESS != GetUPSConfigOptions(&options)) {
// Options key is not found
SetUPSConfigUpgrade(FALSE);
}
else if (options & UPS_INSTALLED) {
// The Options key is present and UPS_INSTALLED is set
// This is an upgrade
SetUPSConfigUpgrade(TRUE);
}
else {
// The Config key is present and UPS_INSTALLED is not set
SetUPSConfigUpgrade(FALSE);
}
}
else {
// Config key does not exist
SetUPSConfigUpgrade(FALSE);
}
// Write the Config values, force a save of all values
SaveUPSConfigBlock(TRUE);
// Free the Config block
FreeUPSConfigBlock();
}
}
/**
* InitializeServiceKeys
*
* Description:
* This function initializes the UPS service registry keys to
* default values, if the values are not present.
*
* Parameters:
* none
*
* Returns:
* nothing
*/
static void InitializeServiceKeys() {
TCHAR tmpString[MAX_PATH];
DWORD tmpDword;
// Initialize the registry functions
InitUPSConfigBlock();
// Check the service keys and initialize any missing keys
if (GetUPSConfigImagePath(tmpString, MAX_PATH) != ERROR_SUCCESS) {
SetUPSConfigImagePath(DEFAULT_CONFIG_IMAGEPATH);
}
if (GetUPSConfigObjectName(tmpString, MAX_PATH) != ERROR_SUCCESS) {
SetUPSConfigObjectName(DEFAULT_CONFIG_OBJECTNAME);
}
if (GetUPSConfigErrorControl(&tmpDword) != ERROR_SUCCESS) {
SetUPSConfigErrorControl(DEFAULT_CONFIG_ERRORCONTROL);
}
if (GetUPSConfigStart(&tmpDword) != ERROR_SUCCESS) {
SetUPSConfigStart(DEFAULT_CONFIG_START);
}
if (GetUPSConfigType(&tmpDword) != ERROR_SUCCESS) {
SetUPSConfigType(DEFAULT_CONFIG_TYPE);
}
// Write the Config values, force a save of all values
SaveUPSConfigBlock(TRUE);
// Free the Status block
FreeUPSConfigBlock();
}
/**
* InitializeServiceProviders
*
* Description:
* This function initializes the ServiceProviders registry keys with the
* data provided in the global structure _theStaticProvidersTable. This
* structure is defined in the file regdefs.h and is automatically
* generated.
*
* Parameters:
* none
*
* Returns:
* nothing
*/
static void InitializeServiceProviders() {
DWORD result;
HKEY key;
int index = 0;
// Loop through the list of Service Providers
while (_theStaticProvidersTable[index].theModelName != NULL) {
// Open the vendor registry key
if (RegCreateKeyEx(HKEY_LOCAL_MACHINE, _theStaticProvidersTable[index].theVendorKey,
0, NULL, REG_OPTION_NON_VOLATILE, KEY_SET_VALUE, NULL, &key, &result) == ERROR_SUCCESS) {
// Set the model value
RegSetValueEx(key, _theStaticProvidersTable[index].theModelName, 0, REG_SZ,
(LPSTR) _theStaticProvidersTable[index].theValue,
wcslen(_theStaticProvidersTable[index].theValue)*sizeof(TCHAR));
RegCloseKey(key);
}
// Increment counter
index++;
}
}
/**
* InitializeConfigValues
*
* Description:
* This function initializes the Config registry keys with
* default values.
*
* Parameters:
* none
*
* Returns:
* nothing
*/
static void InitializeConfigValues() {
DWORD result;
HKEY key;
DWORD options_val, batt_life, type;
DWORD batt_life_size = sizeof(DWORD);
// Create the Config key
if (RegCreateKeyEx(HKEY_LOCAL_MACHINE, UPS_CONFIG_ROOT, 0, NULL,
REG_OPTION_NON_VOLATILE, KEY_SET_VALUE, NULL, &key, &result) == ERROR_SUCCESS) {
// close the key, we only needed to create it
RegCloseKey(key);
// Initialize the registry functions
InitUPSConfigBlock();
// Set default values
SetUPSConfigServiceDLL(DEFAULT_CONFIG_PROVIDER_DLL);
SetUPSConfigNotifyEnable(DEFAULT_CONFIG_NOTIFY_ENABLE);
SetUPSConfigShutdownOnBatteryEnable(DEFAULT_CONFIG_SHUTDOWN_ONBATT_ENABLE);
SetUPSConfigShutdownOnBatteryWait(DEFAULT_CONFIG_SHUTDOWN_ONBATT_WAIT);
SetUPSConfigRunTaskEnable(DEFAULT_CONFIG_RUNTASK_ENABLE);
SetUPSConfigTaskName(DEFAULT_CONFIG_TASK_NAME);
SetUPSConfigTurnOffEnable(DEFAULT_CONFIG_TURNOFF_UPS_ENABLE);
SetUPSConfigCustomOptions(DEFAULT_CONFIG_CUSTOM_OPTIONS);
SetUPSConfigCriticalPowerAction(DEFAULT_CONFIG_CRITICALPOWERACTION);
SetUPSConfigTurnOffWait(DEFAULT_CONFIG_TURNOFF_UPS_WAIT);
// If this is not an upgrade, set the appropriate values
if ((GetUPSConfigUpgrade(&result) != ERROR_SUCCESS) || (result == FALSE)) {
SetUPSConfigVendor(DEFAULT_CONFIG_VENDOR);
SetUPSConfigModel(DEFAULT_CONFIG_MODEL);
SetUPSConfigPort(DEFAULT_CONFIG_PORT);
SetUPSConfigOptions(DEFAULT_CONFIG_OPTIONS);
SetUPSConfigFirstMessageDelay(DEFAULT_CONFIG_FIRSTMSG_DELAY);
SetUPSConfigMessageInterval(DEFAULT_CONFIG_MESSAGE_INTERVAL);
}
else {
// This is an upgrade
SetUPSConfigVendor(UPGRADE_CONFIG_VENDOR);
SetUPSConfigModel(UPGRADE_CONFIG_MODEL);
// Migrate the run command file option bit to the RunTaskEnable key
if ((GetUPSConfigOptions(&options_val) == ERROR_SUCCESS) &&
(options_val & UPS_RUNCMDFILE)) {
// Run command file is enabled, set RunTaskEnable to TRUE
SetUPSConfigRunTaskEnable(TRUE);
}
else {
// Run command file is not enabled
SetUPSConfigRunTaskEnable(FALSE);
}
// Migrate the BatteryLife value to the ShutdownOnBatteryWait value
if (RegOpenKeyEx(HKEY_LOCAL_MACHINE, UPS_DEFAULT_ROOT, 0, KEY_ALL_ACCESS, &key) == ERROR_SUCCESS) {
result = RegQueryValueEx(key, UPS_BATTLIFE_KEY, NULL, &type, (LPBYTE) &batt_life, &batt_life_size);
if ((result == ERROR_SUCCESS) && (type == REG_DWORD)) {
// Migrate the value and enable shutdown on battery
SetUPSConfigShutdownOnBatteryWait(batt_life);
SetUPSConfigShutdownOnBatteryEnable(TRUE);
// Delete the value
RegDeleteValue(key, UPS_BATTLIFE_KEY);
}
// Close the key
RegCloseKey(key);
}
}
// Write the Config values, force a save of all values
SaveUPSConfigBlock(TRUE);
// Free the Config block
FreeUPSConfigBlock();
}
}
/**
* InitializeStatusValues
*
* Description:
* This function initializes the Status registry keys with
* default values.
*
* Parameters:
* none
*
* Returns:
* nothing
*/
static void InitializeStatusValues() {
DWORD result;
HKEY key;
// Create the Status key
if (RegCreateKeyEx(HKEY_LOCAL_MACHINE, UPS_STATUS_ROOT, 0, NULL,
REG_OPTION_NON_VOLATILE, KEY_SET_VALUE, NULL, &key, &result) == ERROR_SUCCESS) {
// close the key, we only needed to create it
RegCloseKey(key);
// Initialize the registry functions
InitUPSStatusBlock();
// Put in default values
SetUPSStatusSerialNum(DEFAULT_STATUS_SERIALNO);
SetUPSStatusFirmRev(DEFAULT_STATUS_FIRMWARE_REV);
SetUPSStatusUtilityStatus(DEFAULT_STATUS_UTILITY_STAT);
SetUPSStatusRuntime(DEFAULT_STATUS_TOTAL_RUNTIME);
SetUPSStatusBatteryStatus(DEFAULT_STATUS_BATTERY_STAT);
SetUPSStatusBatteryCapacity(DEFAULT_STATUS_BATTERY_CAPACITY);
// Write the Config values, force a save of all values
SaveUPSStatusBlock(TRUE);
// Free the Status block
FreeUPSStatusBlock();
}
}
///////////////////////////////////////////////////////////////////////////////
// upsdata.c
///////////////////////////////////////////////////////////////////////////////
//Note that the order of the following RegField is linked to the enum
//tUPSDataItemID.
//Do not change these value without due care and attention. It's OK to change
//them as long as the enum is updated to match.
//To access the RegField associated with Firmware, for example, use
//g_upsRegFields[(DWORD) eREG_FIRMWARE_REVISION]
static RegField g_upsRegFields[] = {
{ HKEY_LOCAL_MACHINE, CONFIG_KEY_NAME, TEXT("Vendor"), REG_SZ },
{ HKEY_LOCAL_MACHINE, CONFIG_KEY_NAME, TEXT("Model"), REG_SZ },
{ HKEY_LOCAL_MACHINE, STATUS_KEY_NAME, TEXT("SerialNumber"), REG_SZ },
{ HKEY_LOCAL_MACHINE, STATUS_KEY_NAME, TEXT("FirmwareRev"), REG_SZ },
{ HKEY_LOCAL_MACHINE, STATUS_KEY_NAME, TEXT("UtilityPowerStatus"), REG_DWORD },
{ HKEY_LOCAL_MACHINE, STATUS_KEY_NAME, TEXT("TotalUPSRuntime"), REG_DWORD },
{ HKEY_LOCAL_MACHINE, STATUS_KEY_NAME, TEXT("BatteryCapacity"), REG_DWORD },
{ HKEY_LOCAL_MACHINE, STATUS_KEY_NAME, TEXT("BatteryStatus"), REG_DWORD },
{ HKEY_LOCAL_MACHINE, UPS_KEY_NAME, TEXT("Options"), REG_DWORD },
{ HKEY_LOCAL_MACHINE, CONFIG_KEY_NAME, TEXT("ServiceProviderDLL"), REG_EXPAND_SZ },
{ HKEY_LOCAL_MACHINE, CONFIG_KEY_NAME, TEXT("ShutdownOnBatteryEnable"), REG_DWORD },
{ HKEY_LOCAL_MACHINE, CONFIG_KEY_NAME, TEXT("ShutdownOnBatteryWait"), REG_DWORD },
{ HKEY_LOCAL_MACHINE, CONFIG_KEY_NAME, TEXT("TurnUPSOffEnable"), REG_DWORD },
{ HKEY_LOCAL_MACHINE, CONFIG_KEY_NAME, TEXT("APCLinkURL"), REG_SZ },
{ HKEY_LOCAL_MACHINE, CONFIG_KEY_NAME, TEXT("Upgrade"), REG_DWORD },
{ HKEY_LOCAL_MACHINE, STATUS_KEY_NAME, TEXT("CommStatus"), REG_DWORD },
{ HKEY_LOCAL_MACHINE, UPS_KEY_NAME, TEXT("Port"), REG_SZ } };
// functions
///////////////////////////////////////////////////////////////////////////////
DWORD ReadRegistryValue (const tUPSDataItemID aDataItemID,
DWORD aAllowedTypes,
DWORD * aTypePtr,
LPBYTE aReturnBuffer,
DWORD * aBufferSizePtr);
///////////////////////////////////////////////////////////////////////////////
///////////////////////////////////////////////////////////////////////////////
///////////////////////////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////_/_//
//////////////////////////////////////////////////////////////////////////_/_//
// RegField * GetRegField (DWORD aIndex);
//
// Description: This function returns a pointer to a RegField from the
// static array of RegFields named g_upsRegFields. The parameter
// aIndex is an index into this array.
//
// Additional Information:
//
// Parameters:
//
// DWORD aIndex :- A index into array of known RegFields g_upsRegFields
//
// Return Value: If aIndex is within range this function returns a point to
// the corresponding RegField, otherwise it ASSERTs and returns
// NULL.
//
RegField * GetRegField (DWORD aIndex) {
static const DWORD numRegFields = DIMENSION_OF(g_upsRegFields);
RegField * pRequiredReg = NULL;
if (aIndex < numRegFields) {
pRequiredReg = &g_upsRegFields[aIndex];
}
else {
_ASSERT(FALSE);
}
return(pRequiredReg);
}
//////////////////////////////////////////////////////////////////////////_/_//
//////////////////////////////////////////////////////////////////////////_/_//
// BOOL GetUPSDataItemDWORD (const tUPSDataItemID aDataItemID, DWORD * aReturnValuePtr);
//
// Description: This function reads the DWORD value from the registry that
// corresponds to the registry field identified by aDataItemID.
// The registry value must be one of the DWORD types (REG_DWORD,
// REG_DWORD_LITTLE_ENDIAN, REG_DWORD_BIG_ENDIAN)
//
// For example, if aDataItemID is eREG_UPS_OPTIONS (=7), the
// RegField at index 7 in g_upsRegFields identifies the required
// registry information. The RegField identifies that the registry
// key is HKLM\SYSTEM\CurrentControlSet\Services\UPS and the
// value name is Options and it's of type DWORD. Using this
// information this function gets the information from the
// registry and puts the result in aReturnValuePtr.
//
// Additional Information:
//
// Parameters:
//
// const tUPSDataItemID aDataItemID :- This parameter identifies the registry
// value being queried. The value ranges
// from eREG_VENDOR_NAME (which equals 0)
// to eREG_PORT, the values incrementing
// by 1 for each enum in the range. The
// range of values in tUPSDataItemID
// corresponds directly to the number of
// elements in the array g_upsRegFields
// because this enum is used to index the
// elements in g_upsRegFields.
//
// DWORD * aReturnValuePtr :- The DWORD value is returned through this
// pointer.
//
// Return Value:
//
BOOL GetUPSDataItemDWORD (const tUPSDataItemID aDataItemID, DWORD * aReturnValuePtr) {
BOOL bGotValue = FALSE;
DWORD nDWORDSize = sizeof(DWORD);
if (ReadRegistryValue(aDataItemID, REG_DWORD, NULL, (LPBYTE) aReturnValuePtr, &nDWORDSize) == ERROR_SUCCESS) {
bGotValue = TRUE;
}
return(bGotValue);
}
//////////////////////////////////////////////////////////////////////////_/_//
//////////////////////////////////////////////////////////////////////////_/_//
// BOOL GetUPSDataItemString (const tUPSDataItemID aDataItemID,
// LPTSTR aBufferPtr,
// DWORD * pSizeOfBufferPtr);
//
// Description: This function reads the string value from the registry that
// corresponds to the registry field identified by aDataItemID.
// The registry value must be one of the string types (REG_SZ or
// REG_EXPAND_SZ)
//
// Additional Information:
//
// Parameters:
//
// const tUPSDataItemID aDataItemID :- This parameter identifies the registry
// value being queried. The value must be
// one of the string types (REG_SZ or
// REG_EXPAND_SZ).
//
// LPTSTR aBufferPtr :- The buffer into which the data is to be placed. This
// parameter can be NULL in which case no data is
// retrieved.
//
// DWORD * pSizeOfBufferPtr :- This should point to a DWORD that contains the
// size of the buffer. This parameter cannot be
// NULL. When this function returns this value
// will contain the size actually required. This
// is useful if the user want to determine how
// big a buffer is required by calling this
// function with aBufferPtr set to NULL and
// pSizeOfBufferPtr pointing to a DWORD that
// is set to 0. When the function returns the
// DWORD pointed to by pSizeOfBufferPtr should
// contain the size of string required. This can
// then be used to dynamically allocate memory
// and call this function again with the buffer
// included this time.
//
// Return Value: The function returns TRUE if successful, FALSE otherwise.
//
BOOL GetUPSDataItemString (const tUPSDataItemID aDataItemID,
LPTSTR aBufferPtr,
DWORD * pSizeOfBufferPtr) {
BOOL bGotValue = FALSE;
DWORD nType = 0;
if (ReadRegistryValue(aDataItemID,
REG_SZ | REG_EXPAND_SZ,
&nType,
(LPBYTE) aBufferPtr,
pSizeOfBufferPtr) == ERROR_SUCCESS) {
//RegQueryValueEx stores the size of the data, in bytes, in the variable
//pointed to by lpcbData. If the data has the REG_SZ, REG_MULTI_SZ or
//REG_EXPAND_SZ type, then lpcbData will also include the size of the
//terminating null character.
//For Unicode the terminating NULL character is two-bytes.
if ((pSizeOfBufferPtr != NULL) && (*pSizeOfBufferPtr > sizeof(TCHAR))) {
if (nType == REG_EXPAND_SZ) {
TCHAR expandBuffer[MAX_MESSAGE_LENGTH] = TEXT("");
DWORD expandBufferSize = DIMENSION_OF(expandBuffer);
//ExpandEnvironmentStrings return number of bytes(ANSI) or
//number of character(UNICODE) including the NULL character
if (ExpandEnvironmentStrings(aBufferPtr, expandBuffer, expandBufferSize) > 0) {
_tcscpy(aBufferPtr, expandBuffer);
}
}
bGotValue = TRUE;
}
}
return(bGotValue);
}
//////////////////////////////////////////////////////////////////////////_/_//
//////////////////////////////////////////////////////////////////////////_/_//
// DWORD ReadRegistryValue (const tUPSDataItemID aDataItemID,
// DWORD aAllowedTypes,
// DWORD * aTypePtr,
// LPBYTE aReturnBuffer,
// DWORD * aBufferSizePtr);
//
// Description: This function reads the registry value identified by
// aDataItemID. This function can read any type of registry value
// but the value must match that identified in the RegField
// description for this field.
//
// For example, if aDataItemID is eREG_UPS_OPTIONS (=7), the
// RegField at index 7 in g_upsRegFields identifies the required
// registry information. The RegField identifies that the registry
// key is HKLM\SYSTEM\CurrentControlSet\Services\UPS and the
// value name is Options and it's of type DWORD. This function
// will succeed only if it's called with an aAllowedTypes value
// equal to REG_DWORD.
//
// Additional Information:
//
// Parameters:
//
// const tUPSDataItemID aDataItemID :- This parameter identifies the registry
// value being queried.
//
// DWORD aAllowedTypes :- This identifies the allowed type of the registry
// data. The registry value types are not bit value
// that can be |'d (the types are sequentially
// numbered 0, 1, 2, 3, 4, not 0, 1, 2, 4, 8).
// However, the parameter is still called
// aAllowedTypes because we actually call the function
// with a value of REG_SZ | REG_EXPAND_SZ (1 | 2) to
// allow the same function to work if the value is
// either of these. Except for this case assume that
// the aAllowedTypes is actually aAllowedType.
//
// DWORD * aTypePtr :- A pointer to the buffer that will receive the type.
// If the type is not required then this parameter can be
// set to NULL.
//
// LPBYTE aReturnBuffer :- The buffer into which the data is to be placed.
// This parameter can be NULL in which case no data
// is retrieved.
//
// DWORD * aBufferSizePtr :- This should point to a DWORD that contains the
// size of the buffer. This parameter cannot be
// NULL. When this function returns this value
// will contain the size actually required.
//
// Return Value: This function returns a Win32 error code, ERROS_SUCCESS on
// success.
//
DWORD ReadRegistryValue (const tUPSDataItemID aDataItemID,
DWORD aAllowedTypes,
DWORD * aTypePtr,
LPBYTE aReturnBuffer,
DWORD * aBufferSizePtr) {
DWORD ret_val = ERROR_NO_MATCH;
RegField * pRegField = GetRegField((DWORD) aDataItemID);
if (pRegField != NULL ) {
_ASSERT((pRegField->theValueType & aAllowedTypes) == pRegField->theValueType);
ret_val = ReadRegistryValueData(pRegField->theRootKey,
pRegField->theKeyName,
pRegField->theValueName,
aAllowedTypes,
aTypePtr,
(LPTSTR) aReturnBuffer,
aBufferSizePtr);
}
return ret_val;
}
//////////////////////////////////////////////////////////////////////////_/_//
//////////////////////////////////////////////////////////////////////////_/_//
// DWORD ReadRegistryValueData (HKEY aRootKey,
// LPCTSTR aKeyName,
// LPCTSTR aValueName,
// DWORD aAllowedTypes,
// DWORD * aTypePtr,
// LPTSTR aReturnBuffer,
// DWORD * aBufferSizePtr);
//
// Description:
//
// Additional Information:
//
// Parameters:
//
// HKEY aRootKey :- A handle to an open registry key.
//
// LPCTSTR aKeyName :- The name of the key relative to the open key.
//
// LPCTSTR aValueName :- The name of the value to read
//
// DWORD aAllowedTypes :- See help on ReadRegistryValue.
//
// DWORD * aTypePtr :- A pointer to the buffer that will receive the type.
// If the type is not required then this parameter can be
// set to NULL.
//
// LPBYTE aReturnBuffer :- The buffer into which the data is to be placed.
// This parameter can be NULL in which case no data
// is retrieved.
//
// DWORD * aBufferSizePtr :- This should point to a DWORD that contains the
// size of the buffer. This parameter cannot be
// NULL. When this function returns this value
// will contain the size actually required.
//
// Return Value: This function returns a Win32 error code, ERROS_SUCCESS on
// success.
//
DWORD ReadRegistryValueData (HKEY aRootKey,
LPCTSTR aKeyName,
LPCTSTR aValueName,
DWORD aAllowedTypes,
DWORD * aTypePtr,
LPTSTR aReturnBuffer,
DWORD * aBufferSizePtr) {
DWORD nType = 0;
DWORD errCode = ERROR_INVALID_PARAMETER;
HKEY hOpenKey = NULL;
if ((errCode = RegOpenKeyEx(aRootKey,
aKeyName,
0,
KEY_READ,
&hOpenKey)) == ERROR_SUCCESS) {
_ASSERT(hOpenKey != NULL);
//Key exists and is now open
if ((errCode = RegQueryValueEx(hOpenKey,
aValueName,
NULL,
&nType,
(LPBYTE) aReturnBuffer,
aBufferSizePtr)) == ERROR_SUCCESS) {
if (aTypePtr != NULL) {
*aTypePtr = nType;
}
if ((nType & aAllowedTypes) == 0) {
//The value type in the registry does not match the expected
//type for this function call.
_ASSERT(FALSE);
}
if ((aReturnBuffer != NULL) && (*aBufferSizePtr == 1)) {
//If the registry entry was in fact empty, the buffer needs to
//be 1 character, for the NULL termination.
*aReturnBuffer = TEXT('\0');
}
}
else {
//Something prevented us from reading the value.
//The value may not exist, the buffer size might
//not be large enough. May be using the function to
//read a DWORD value on a registry value that is a
//shorter string.
if (errCode == ERROR_MORE_DATA) {
//There is most likely a mismatch between the type we expect
//and the actual type of this registry value.
_ASSERT(FALSE);
}
}
RegCloseKey(hOpenKey);
}
return(errCode);
}
#ifdef __cplusplus
}
#endif