Google Git
Sign in
gfiber / vendor / opensource / netsnmp / cc3216b6587bfd263adf9b0ff12cd9a59e7d66da / . / snmplib / winservice.c
blob: bc27f8c10e367add3294dc867d83385427e44769 [file] [log] [blame]
/*
* Windows Service related function definitions
* By Raju Krishnappa(raju_krishnappa@yahoo.com)
*
*/
#ifdef WIN32
#include <net-snmp/net-snmp-config.h>
#include <windows.h>
#include <tchar.h>
#include <stdio.h> /* sprintf */
#include <process.h> /* beginthreadex */
#include <net-snmp/library/winservice.h>
#ifdef mingw32 /* MinGW doesn't fully support exception handling. */
#define TRY if(1)
#define LEAVE goto labelFIN
#define FINALLY do { \
labelFIN: \
; \
} while(0); if(1)
#else
#define TRY __try
#define LEAVE __leave
#define FINALLY __finally
#endif /* mingw32 */
#define CountOf(arr) ( sizeof(arr) / sizeof(arr[0]) )
#if defined(WIN32) && defined(HAVE_WIN32_PLATFORM_SDK) && !defined(mingw32)
#pragma comment(lib, "iphlpapi.lib")
#endif
#if defined(WIN32) && !defined(mingw32)
#ifdef USING_WINEXTDLL_MODULE
#pragma comment(lib, "snmpapi.lib")
#pragma comment(lib, "mgmtapi.lib")
#endif
#endif
/*
* External global variables used here
*/
/*
* Application Name
* This should be declared by the application, which wants to register as
* windows service
*/
extern LPTSTR app_name_long;
/*
* Declare global variable
*/
/*
* Flag to indicate whether process is running as Service
*/
BOOL g_fRunningAsService = FALSE;
/*
* Variable to maintain Current Service status
*/
static SERVICE_STATUS ServiceStatus;
/*
* Service Handle
*/
static SERVICE_STATUS_HANDLE hServiceStatus = 0L;
/*
* Service Table Entry
*/
SERVICE_TABLE_ENTRY ServiceTableEntry[] = {
{NULL, ServiceMain}, /* Service Main function */
{NULL, NULL}
};
/*
* Handle to Thread, to implement Pause, Resume and Stop functions
*/
static HANDLE hServiceThread = NULL; /* Thread Handle */
/*
* Holds calling partys Function Entry point, that should start
* when entering service mode
*/
static INT (*ServiceEntryPoint) (INT Argc, LPTSTR Argv[]) = 0L;
/*
* To hold Stop Function address, to be called when STOP request
* received from the SCM
*/
static VOID (*StopFunction) (VOID) = 0L;
/*
* To update windows service status to SCM
*/
static BOOL UpdateServiceStatus (DWORD dwStatus, DWORD dwErrorCode,
DWORD dwWaitHint);
/*
* To Report current service status to SCM
*/
static BOOL ReportCurrentServiceStatus (VOID);
VOID
ProcessError (WORD eventLogType, LPCTSTR pszMessage, int useGetLastError, int quiet);
/*
* To register as Windows Service with SCM(Service Control Manager)
* Input - Service Name, Service Display Name,Service Description and
* Service startup arguments
*/
int
RegisterService (LPCTSTR lpszServiceName, LPCTSTR lpszServiceDisplayName,
LPCTSTR lpszServiceDescription,
InputParams * StartUpArg, int quiet) /* Startup argument to the service */
{
TCHAR szServicePath[MAX_PATH]; /* To hold module File name */
TCHAR MsgErrorString[MAX_STR_SIZE]; /* Message or Error string */
TCHAR szServiceCommand[MAX_PATH + 9]; /* Command to execute */
SC_HANDLE hSCManager = NULL;
SC_HANDLE hService = NULL;
TCHAR szRegAppLogKey[] =
_T("SYSTEM\\CurrentControlSet\\Services\\EventLog\\Application\\");
TCHAR szRegKey[512];
HKEY hKey = NULL; /* Key to registry entry */
HKEY hParamKey = NULL; /* To store startup parameters */
DWORD dwData; /* Type of logging supported */
DWORD i, j; /* Loop variables */
int exitStatus = 0;
GetModuleFileName (NULL, szServicePath, MAX_PATH);
TRY
{
/*
* Open Service Control Manager handle
*/
hSCManager = OpenSCManager (NULL, NULL, SC_MANAGER_CREATE_SERVICE);
if (hSCManager == NULL)
{
ProcessError (EVENTLOG_ERROR_TYPE, _T ("Can't open SCM (Service Control Manager)"), 1, quiet);
exitStatus = SERVICE_ERROR_SCM_OPEN;
LEAVE;
}
/*
* Generate the command to be executed by the SCM
*/
_sntprintf (szServiceCommand, CountOf(szServiceCommand), _T("%s %s"), szServicePath, _T ("-service"));
/*
* Create the desired service
*/
hService = CreateService (hSCManager, lpszServiceName, lpszServiceDisplayName,
SERVICE_ALL_ACCESS, SERVICE_WIN32_OWN_PROCESS,
SERVICE_AUTO_START, SERVICE_ERROR_NORMAL, szServiceCommand,
NULL, /* load-order group */
NULL, /* group member tag */
NULL, /* dependencies */
NULL, /* account */
NULL); /* password */
if (hService == NULL)
{
_sntprintf (MsgErrorString, CountOf(MsgErrorString), _T("%s %s"),
_T ("Can't create service"), lpszServiceDisplayName);
ProcessError (EVENTLOG_ERROR_TYPE, MsgErrorString, 1, quiet);
exitStatus = SERVICE_ERROR_CREATE_SERVICE;
LEAVE;
}
/*
* Create registry entries for the event log
*/
/*
* Create registry Application event log key
*/
_tcscpy (szRegKey, szRegAppLogKey);
_tcscat (szRegKey, lpszServiceName);
/*
* Create registry key
*/
if (RegCreateKey (HKEY_LOCAL_MACHINE, szRegKey, &hKey) != ERROR_SUCCESS)
{
_sntprintf (MsgErrorString, CountOf(MsgErrorString), _T("%s %s"),
_T ("is unable to create registry entries"), lpszServiceDisplayName);
ProcessError (EVENTLOG_ERROR_TYPE, MsgErrorString, 1, quiet);
exitStatus = SERVICE_ERROR_CREATE_REGISTRY_ENTRIES;
LEAVE;
}
/*
* Add Event ID message file name to the 'EventMessageFile' subkey
*/
RegSetValueEx (hKey, _T("EventMessageFile"), 0, REG_EXPAND_SZ,
(CONST BYTE *) szServicePath,
_tcslen (szServicePath) + sizeof (TCHAR));
/*
* Set the supported types flags.
*/
dwData = EVENTLOG_ERROR_TYPE | EVENTLOG_WARNING_TYPE | EVENTLOG_INFORMATION_TYPE;
RegSetValueEx (hKey, _T("TypesSupported"), 0, REG_DWORD,
(CONST BYTE *) & dwData, sizeof (DWORD));
/*
* Close Registry key
*/
RegCloseKey (hKey);
/*
* Set Service Description String and save startup parameters if present
*/
if (lpszServiceDescription != NULL || StartUpArg->Argc > 2)
{
/*
* Create Registry Key path
*/
_tcscpy (szRegKey, _T ("SYSTEM\\CurrentControlSet\\Services\\"));
_tcscat (szRegKey, app_name_long);
hKey = NULL;
/*
* Open Registry key using Create and Set access.
*/
if (RegOpenKeyEx (HKEY_LOCAL_MACHINE, szRegKey, 0, KEY_WRITE,
&hKey) != ERROR_SUCCESS)
{
_sntprintf (MsgErrorString, CountOf(MsgErrorString), _T("%s %s"),
_T ("is unable to create registry entries"),
lpszServiceDisplayName);
ProcessError (EVENTLOG_ERROR_TYPE, MsgErrorString, 1, quiet);
exitStatus = SERVICE_ERROR_CREATE_REGISTRY_ENTRIES;
LEAVE;
}
/*
* Create description subkey and the set value
*/
if (lpszServiceDescription != NULL)
{
if (RegSetValueEx (hKey, _T("Description"), 0, REG_SZ,
(CONST BYTE *) lpszServiceDescription,
_tcslen (lpszServiceDescription) +
sizeof (TCHAR)) != ERROR_SUCCESS)
{
_sntprintf (MsgErrorString, CountOf(MsgErrorString), _T("%s %s"),
_T ("is unable to create registry entries"),
lpszServiceDisplayName);
ProcessError (EVENTLOG_ERROR_TYPE, MsgErrorString, 1, quiet);
exitStatus = SERVICE_ERROR_CREATE_REGISTRY_ENTRIES;
LEAVE;
};
}
/*
* Save startup arguments if they are present
*/
if (StartUpArg->Argc > 2)
{
/*
* Create Subkey parameters
*/
if (RegCreateKeyEx
(hKey, _T("Parameters"), 0, NULL,
REG_OPTION_NON_VOLATILE, KEY_WRITE, NULL,
&hParamKey, NULL) != ERROR_SUCCESS)
{
_sntprintf (MsgErrorString, CountOf(MsgErrorString), _T("%s %s"),
_T ("is unable to create registry entries"),
lpszServiceDisplayName);
ProcessError (EVENTLOG_ERROR_TYPE, MsgErrorString, 1, quiet);
exitStatus = SERVICE_ERROR_CREATE_REGISTRY_ENTRIES;
LEAVE;
}
/*
* Save parameters
*/
/*
* Loop through arguments
*/
if (quiet) /* Make sure we don't store -quiet arg */
i = 3;
else
i = 2;
for (j = 1; i < StartUpArg->Argc; i++, j++)
{
_sntprintf (szRegKey, CountOf(szRegKey), _T("%s%d"), _T ("Param"), j);
/*
* Create registry key
*/
if (RegSetValueEx
(hParamKey, szRegKey, 0, REG_SZ,
(CONST BYTE *) StartUpArg->Argv[i],
_tcslen (StartUpArg->Argv[i]) +
sizeof (TCHAR)) != ERROR_SUCCESS)
{
_sntprintf (MsgErrorString, CountOf(MsgErrorString), _T("%s %s"),
_T ("is unable to create registry entries"),
lpszServiceDisplayName);
ProcessError (EVENTLOG_ERROR_TYPE, MsgErrorString, 1, quiet);
exitStatus = SERVICE_ERROR_CREATE_REGISTRY_ENTRIES;
LEAVE;
};
}
}
/*
* Everything is set, delete hKey
*/
RegCloseKey (hParamKey);
RegCloseKey (hKey);
}
/*
* Ready to log messages
*/
/*
* Successfully registered as service
*/
_sntprintf (MsgErrorString, CountOf(MsgErrorString), _T("%s %s"), lpszServiceName,
_T ("successfully registered as a service"));
/*
* Log message to eventlog
*/
ProcessError (EVENTLOG_INFORMATION_TYPE, MsgErrorString, 0, quiet);
}
FINALLY
{
if (hSCManager)
CloseServiceHandle (hSCManager);
if (hService)
CloseServiceHandle (hService);
if (hKey)
RegCloseKey (hKey);
if (hParamKey)
RegCloseKey (hParamKey);
}
return (exitStatus);
}
/*
* Unregister the service with the Windows SCM
* Input - ServiceName
*/
int
UnregisterService (LPCTSTR lpszServiceName, int quiet)
{
TCHAR MsgErrorString[MAX_STR_SIZE]; /* Message or Error string */
SC_HANDLE hSCManager = NULL; /* SCM handle */
SC_HANDLE hService = NULL; /* Service Handle */
SERVICE_STATUS sStatus;
TCHAR szRegAppLogKey[] =
_T("SYSTEM\\CurrentControlSet\\Services\\EventLog\\Application\\");
TCHAR szRegKey[512];
int exitStatus = 0;
/* HKEY hKey = NULL; ?* Key to registry entry */
TRY
{
/*
* Open Service Control Manager
*/
hSCManager = OpenSCManager (NULL, NULL, SC_MANAGER_CREATE_SERVICE);
if (hSCManager == NULL)
{
ProcessError (EVENTLOG_ERROR_TYPE, _T ("Can't open SCM (Service Control Manager)"), 1, quiet);
exitStatus = SERVICE_ERROR_SCM_OPEN;
LEAVE;
}
/*
* Open registered service
*/
hService = OpenService (hSCManager, lpszServiceName, SERVICE_ALL_ACCESS);
if (hService == NULL)
{
_sntprintf (MsgErrorString, CountOf(MsgErrorString), _T("%s %s"), _T ("Can't open service"),
lpszServiceName);
ProcessError (EVENTLOG_ERROR_TYPE, MsgErrorString, 1, quiet);
exitStatus = SERVICE_ERROR_OPEN_SERVICE;
LEAVE;
}
/*
* Query service status
* If running stop before deleting
*/
if (QueryServiceStatus (hService, &sStatus))
{
if (sStatus.dwCurrentState == SERVICE_RUNNING
|| sStatus.dwCurrentState == SERVICE_PAUSED)
{
ControlService (hService, SERVICE_CONTROL_STOP, &sStatus);
}
};
/*
* Delete the service
*/
if (DeleteService (hService) == FALSE)
{
_sntprintf (MsgErrorString, CountOf(MsgErrorString), _T("%s %s"), _T ("Can't delete service"),
lpszServiceName);
/*
* Log message to eventlog
*/
ProcessError (EVENTLOG_ERROR_TYPE, MsgErrorString, 0, quiet);
LEAVE;
}
/*
* Log "Service deleted successfully " message to eventlog
*/
_sntprintf (MsgErrorString, CountOf(MsgErrorString), _T("%s %s"), lpszServiceName, _T ("service deleted"));
ProcessError (EVENTLOG_INFORMATION_TYPE, MsgErrorString, 0, quiet);
/*
* Delete registry entries for EventLog
*/
_tcscpy (szRegKey, szRegAppLogKey);
_tcscat (szRegKey, lpszServiceName);
RegDeleteKey (HKEY_LOCAL_MACHINE, szRegKey);
}
/*
* Delete the handles
*/
FINALLY
{
if (hService)
CloseServiceHandle (hService);
if (hSCManager)
CloseServiceHandle (hSCManager);
}
return (exitStatus);
}
/*
* Write a message to the Windows event log.
*/
VOID
WriteToEventLog (WORD wType, LPCTSTR pszFormat, ...)
{
TCHAR szMessage[512];
LPCTSTR LogStr[1];
va_list ArgList;
HANDLE hEventSource = NULL;
va_start (ArgList, pszFormat);
_vsntprintf (szMessage, CountOf(szMessage), pszFormat, ArgList);
va_end (ArgList);
LogStr[0] = szMessage;
hEventSource = RegisterEventSource (NULL, app_name_long);
if (hEventSource == NULL)
return;
ReportEvent (hEventSource, wType, 0,
DISPLAY_MSG,
NULL, 1, 0, LogStr, NULL);
DeregisterEventSource (hEventSource);
}
/*
* Pre-process the second command-line argument from the user.
* Service related options are:
* -register - registers the service
* -unregister - unregisters the service
* -service - run as service
* other command-line arguments are ignored here.
*
* Return: Type indicating the option specified
*/
INT
ParseCmdLineForServiceOption (int argc, TCHAR * argv[], int *quiet)
{
int nReturn = RUN_AS_CONSOLE; /* default is to run as a console application */
if (argc >= 2)
{
/*
* second argument present
*/
if (lstrcmpi (_T ("-register"), argv[1]) == 0)
{
nReturn = REGISTER_SERVICE;
}
else if (lstrcmpi (_T ("-unregister"), argv[1]) == 0)
{
nReturn = UN_REGISTER_SERVICE;
}
else if (lstrcmpi (_T ("-service"), argv[1]) == 0)
{
nReturn = RUN_AS_SERVICE;
}
}
if (argc >= 3)
{
/*
* third argument present
*/
if (lstrcmpi (_T ("-quiet"), argv[2]) == 0)
{
*quiet = 1;
}
}
return nReturn;
}
/*
* Write error message to event log, console or pop-up window.
*
* If useGetLastError is 1, the last error returned from GetLastError()
* is appended to pszMessage, separated by a ": ".
*
* eventLogType: MessageBox equivalent:
*
* EVENTLOG_INFORMATION_TYPE MB_ICONASTERISK
* EVENTLOG_WARNING_TYPE MB_ICONEXCLAMATION
* EVENTLOG_ERROR_TYPE MB_ICONSTOP
*
*/
VOID
ProcessError (WORD eventLogType, LPCTSTR pszMessage, int useGetLastError, int quiet)
{
HANDLE hEventSource = NULL;
TCHAR pszMessageFull[MAX_STR_SIZE]; /* Combined pszMessage and GetLastError */
/*
* If useGetLastError enabled, generate text from GetLastError() and append to
* pszMessageFull
*/
if (useGetLastError) {
LPTSTR pErrorMsgTemp = NULL;
FormatMessage (FORMAT_MESSAGE_ALLOCATE_BUFFER |
FORMAT_MESSAGE_FROM_SYSTEM, NULL, GetLastError (),
MAKELANGID (LANG_NEUTRAL, SUBLANG_DEFAULT),
(LPTSTR) & pErrorMsgTemp, 0, NULL);
_sntprintf (pszMessageFull, CountOf(pszMessageFull), _T("%s: %s"), pszMessage, pErrorMsgTemp);
if (pErrorMsgTemp) {
LocalFree (pErrorMsgTemp);
pErrorMsgTemp = NULL;
}
}
else {
_sntprintf (pszMessageFull, CountOf(pszMessageFull), _T("%s"), pszMessage);
}
hEventSource = RegisterEventSource (NULL, app_name_long);
if (hEventSource != NULL) {
LPCTSTR LogStr[1];
LogStr[0] = pszMessageFull;
if (ReportEvent (hEventSource,
eventLogType,
0,
DISPLAY_MSG, /* just output the text to the event log */
NULL,
1,
0,
LogStr,
NULL)) {
}
else {
LPTSTR pErrorMsgTemp = NULL;
FormatMessage (FORMAT_MESSAGE_ALLOCATE_BUFFER |
FORMAT_MESSAGE_FROM_SYSTEM, NULL, GetLastError (),
MAKELANGID (LANG_NEUTRAL, SUBLANG_DEFAULT),
(LPTSTR) & pErrorMsgTemp, 0, NULL);
_ftprintf(stderr,_T("Could NOT lot to Event Log. Error returned from ReportEvent(): %s\n"),pErrorMsgTemp);
if (pErrorMsgTemp) {
LocalFree (pErrorMsgTemp);
pErrorMsgTemp = NULL;
}
}
DeregisterEventSource (hEventSource);
}
if (quiet) {
_ftprintf(stderr,_T("%s\n"),pszMessageFull);
}
else {
switch (eventLogType) {
case EVENTLOG_INFORMATION_TYPE:
MessageBox (NULL, pszMessageFull, app_name_long, MB_ICONASTERISK);
break;
case EVENTLOG_WARNING_TYPE:
MessageBox (NULL, pszMessageFull, app_name_long, MB_ICONEXCLAMATION);
break;
case EVENTLOG_ERROR_TYPE:
MessageBox (NULL, pszMessageFull, app_name_long, MB_ICONSTOP);
break;
default:
MessageBox (NULL, pszMessageFull, app_name_long, EVENTLOG_WARNING_TYPE);
break;
}
}
}
/*
* Update current service status.
* Sends the current service status to the SCM. Also updates
* the global service status structure.
*/
static BOOL
UpdateServiceStatus (DWORD dwStatus, DWORD dwErrorCode, DWORD dwWaitHint)
{
DWORD static dwCheckpoint = 1;
DWORD dwControls = SERVICE_ACCEPT_STOP | SERVICE_ACCEPT_PAUSE_CONTINUE;
if (g_fRunningAsService == FALSE)
return FALSE;
ZeroMemory (&ServiceStatus, sizeof (ServiceStatus));
ServiceStatus.dwServiceType = SERVICE_WIN32;
ServiceStatus.dwCurrentState = dwStatus;
ServiceStatus.dwWaitHint = dwWaitHint;
if (dwErrorCode)
{
ServiceStatus.dwWin32ExitCode = ERROR_SERVICE_SPECIFIC_ERROR;
ServiceStatus.dwServiceSpecificExitCode = dwErrorCode;
}
/*
* special cases that depend on the new state
*/
switch (dwStatus)
{
case SERVICE_START_PENDING:
dwControls = 0;
break;
case SERVICE_RUNNING:
case SERVICE_STOPPED:
dwCheckpoint = 0;
break;
}
ServiceStatus.dwCheckPoint = dwCheckpoint++;
ServiceStatus.dwControlsAccepted = dwControls;
return ReportCurrentServiceStatus ();
}
/*
* Reports current service status to SCM
*/
static BOOL
ReportCurrentServiceStatus ()
{
return SetServiceStatus (hServiceStatus, &ServiceStatus);
}
/*
* ServiceMain function.
*/
VOID WINAPI
ServiceMain (DWORD argc, LPTSTR argv[])
{
SECURITY_ATTRIBUTES SecurityAttributes;
unsigned threadId;
/*
* Input arguments
*/
DWORD ArgCount = 0;
LPTSTR *ArgArray = NULL;
TCHAR szRegKey[512];
HKEY hParamKey = NULL;
DWORD TotalParams = 0;
DWORD i;
InputParams ThreadInputParams;
/*
* Build the Input parameters to pass to worker thread
*/
/*
* SCM sends Service Name as first arg, increment to point
* arguments user specified while starting control agent
*/
/*
* Read registry parameter
*/
ArgCount = 1;
/*
* Create registry key path
*/
_sntprintf (szRegKey, CountOf(szRegKey), _T("%s%s\\%s"),
_T ("SYSTEM\\CurrentControlSet\\Services\\"), app_name_long,
_T("Parameters"));
if (RegOpenKeyEx
(HKEY_LOCAL_MACHINE, szRegKey, 0, KEY_ALL_ACCESS, &hParamKey) == ERROR_SUCCESS)
{
/*
* Read startup configuration information
*/
/*
* Find number of subkeys inside parameters
*/
if (RegQueryInfoKey (hParamKey, NULL, NULL, 0,
NULL, NULL, NULL, &TotalParams,
NULL, NULL, NULL, NULL) == ERROR_SUCCESS)
{
if (TotalParams != 0)
{
ArgCount += TotalParams;
/*
* Allocate memory to hold strings
*/
ArgArray = calloc(ArgCount, sizeof(ArgArray[0]));
if (ArgArray == 0)
{
WriteToEventLog (EVENTLOG_ERROR_TYPE,
_T ("Resource failure"));
return;
}
/*
* Copy first argument
*/
ArgArray[0] = _tcsdup (argv[0]);
for (i = 1; i <= TotalParams; i++)
{
DWORD dwErrorcode;
DWORD nSize;
DWORD nRegkeyType;
TCHAR *szValue;
/*
* Create Subkey value name
*/
_sntprintf (szRegKey, CountOf(szRegKey), _T("%s%d"), _T("Param"), i);
/*
* Query subkey.
*/
nSize = 0;
dwErrorcode = RegQueryValueEx(hParamKey, szRegKey, NULL,
&nRegkeyType, NULL, &nSize);
if (dwErrorcode == ERROR_SUCCESS) {
if (nRegkeyType == REG_SZ || nRegkeyType == REG_EXPAND_SZ) {
szValue = malloc(nSize + sizeof(szValue[0]));
if (szValue) {
dwErrorcode = RegQueryValueEx(hParamKey, szRegKey, NULL,
&nRegkeyType, (LPBYTE)szValue, &nSize);
if (dwErrorcode == ERROR_SUCCESS) {
szValue[nSize] = 0;
ArgArray[i] = szValue;
} else {
free(szValue);
WriteToEventLog(EVENTLOG_ERROR_TYPE, _T("Querying registry key %s failed: error code %ld"), szRegKey, dwErrorcode);
}
} else
WriteToEventLog(EVENTLOG_ERROR_TYPE, _T("Querying registry key %s failed: out of memory"), szRegKey);
} else
WriteToEventLog(EVENTLOG_ERROR_TYPE, _T("Type %ld of registry key %s is incorrect"), nRegkeyType, szRegKey);
} else
WriteToEventLog(EVENTLOG_ERROR_TYPE, _T("Querying registry key %s failed: error code %ld"), szRegKey, dwErrorcode);
if (!ArgArray[i]) {
TotalParams = ArgCount = i;
break;
}
}
}
}
RegCloseKey (hParamKey);
}
if (ArgCount == 1)
{
/*
* No startup args are given
*/
ThreadInputParams.Argc = argc;
ThreadInputParams.Argv = argv;
}
else
{
ThreadInputParams.Argc = ArgCount;
ThreadInputParams.Argv = ArgArray;
}
/*
* Register Service Control Handler
*/
hServiceStatus = RegisterServiceCtrlHandler (app_name_long, ControlHandler);
if (hServiceStatus == 0)
{
WriteToEventLog (EVENTLOG_ERROR_TYPE,
_T ("RegisterServiceCtrlHandler failed"));
return;
}
/*
* Update the service status to START_PENDING.
*/
UpdateServiceStatus (SERVICE_START_PENDING, NO_ERROR, SCM_WAIT_INTERVAL);
/*
* Start the worker thread, which does the majority of the work .
*/
TRY
{
if (SetSimpleSecurityAttributes (&SecurityAttributes) == FALSE)
{
WriteToEventLog (EVENTLOG_ERROR_TYPE,
_T ("Couldn't init security attributes"));
LEAVE;
}
hServiceThread =
(void *) _beginthreadex (&SecurityAttributes, 0,
ThreadFunction,
(void *) &ThreadInputParams, 0, &threadId);
if (hServiceThread == NULL)
{
WriteToEventLog (EVENTLOG_ERROR_TYPE, _T ("Couldn't start worker thread"));
LEAVE;
}
/*
* Set service status to SERVICE_RUNNING.
*/
UpdateServiceStatus (SERVICE_RUNNING, NO_ERROR, SCM_WAIT_INTERVAL);
/*
* Wait until the worker thread finishes.
*/
WaitForSingleObject (hServiceThread, INFINITE);
}
FINALLY
{
/*
* Release resources
*/
UpdateServiceStatus (SERVICE_STOPPED, NO_ERROR, SCM_WAIT_INTERVAL);
if (hServiceThread)
CloseHandle (hServiceThread);
FreeSecurityAttributes (&SecurityAttributes);
/*
* Free allocated argument list
*/
if (ArgCount > 1 && ArgArray != NULL)
{
/*
* Free all strings
*/
for (i = 0; i < ArgCount; i++)
{
free (ArgArray[i]);
}
free (ArgArray);
}
}
}
/*
* Function to start as Windows service
* The calling party should specify their entry point as input parameter
* Returns TRUE if the Service is started successfully
*/
BOOL
RunAsService (INT (*ServiceFunction) (INT, LPTSTR *))
{
/*
* Set the ServiceEntryPoint
*/
ServiceEntryPoint = ServiceFunction;
/*
* By default, mark as Running as a service
*/
g_fRunningAsService = TRUE;
/*
* Initialize ServiceTableEntry table
*/
ServiceTableEntry[0].lpServiceName = app_name_long; /* Application Name */
/*
* Call SCM via StartServiceCtrlDispatcher to run as Service
* * If the function returns TRUE we are running as Service,
*/
if (StartServiceCtrlDispatcher (ServiceTableEntry) == FALSE)
{
g_fRunningAsService = FALSE;
/*
* Some other error has occurred.
*/
WriteToEventLog (EVENTLOG_ERROR_TYPE,
_T ("Couldn't start service - %s"), app_name_long);
}
return g_fRunningAsService;
}
/*
* Service control handler function
* Responds to SCM commands/requests
* This service handles 4 commands
* - interrogate, pause, continue and stop.
*/
VOID WINAPI
ControlHandler (DWORD dwControl)
{
switch (dwControl)
{
case SERVICE_CONTROL_INTERROGATE:
ProcessServiceInterrogate ();
break;
case SERVICE_CONTROL_PAUSE:
ProcessServicePause ();
break;
case SERVICE_CONTROL_CONTINUE:
ProcessServiceContinue ();
break;
case SERVICE_CONTROL_STOP:
ProcessServiceStop ();
break;
}
}
/*
* To stop the service.
* If a stop function was registered, invoke it,
* otherwise terminate the worker thread.
* After stopping, Service status is set to STOP in
* main loop
*/
VOID
ProcessServiceStop (VOID)
{
UpdateServiceStatus (SERVICE_STOP_PENDING, NO_ERROR, SCM_WAIT_INTERVAL);
if (StopFunction != NULL)
{
(*StopFunction) ();
}
else
{
TerminateThread (hServiceThread, 0);
}
}
/*
* Returns the current state of the service to the SCM.
*/
VOID
ProcessServiceInterrogate (VOID)
{
ReportCurrentServiceStatus ();
}
/*
* To Create a security descriptor with a NULL ACL, which
* allows unlimited access. Returns a SECURITY_ATTRIBUTES
* structure that contains the security descriptor.
* The structure contains a dynamically allocated security
* descriptor that must be freed either manually, or by
* calling FreeSecurityAttributes
*/
BOOL
SetSimpleSecurityAttributes (SECURITY_ATTRIBUTES * pSecurityAttr)
{
BOOL fReturn = FALSE;
SECURITY_DESCRIPTOR *pSecurityDesc = NULL;
/*
* If an invalid address is passed as a parameter, return
* FALSE right away.
*/
if (!pSecurityAttr)
return FALSE;
pSecurityDesc =
(SECURITY_DESCRIPTOR *) LocalAlloc (LPTR, SECURITY_DESCRIPTOR_MIN_LENGTH);
if (!pSecurityDesc)
return FALSE;
fReturn =
InitializeSecurityDescriptor (pSecurityDesc, SECURITY_DESCRIPTOR_REVISION);
if (fReturn != FALSE)
{
fReturn = SetSecurityDescriptorDacl (pSecurityDesc, TRUE, NULL, FALSE);
}
if (fReturn != FALSE)
{
pSecurityAttr->nLength = sizeof (SECURITY_ATTRIBUTES);
pSecurityAttr->lpSecurityDescriptor = pSecurityDesc;
pSecurityAttr->bInheritHandle = TRUE;
}
else
{
/*
* Couldn't initialize or set security descriptor.
*/
LocalFree (pSecurityDesc);
}
return fReturn;
}
/*
* This function Frees the security descriptor, if any was created.
*/
VOID
FreeSecurityAttributes (SECURITY_ATTRIBUTES * pSecurityAttr)
{
if (pSecurityAttr && pSecurityAttr->lpSecurityDescriptor)
LocalFree (pSecurityAttr->lpSecurityDescriptor);
}
/*
* This function runs in the worker thread
* until an exit is forced, or until the SCM issues the STOP command.
* Invokes registered service function
* Returns when called registered function returns
*
* Input:
* lpParam contains argc and argv, pass to service main function
*/
unsigned WINAPI
ThreadFunction (LPVOID lpParam)
{
InputParams * pInputArg = (InputParams *) lpParam;
return (*ServiceEntryPoint) (pInputArg->Argc, pInputArg->Argv);
}
/*
* This function is called to register an application-specific function
* which is invoked when the SCM stops the worker thread.
*/
VOID
RegisterStopFunction (VOID (*StopFunc) (VOID))
{
StopFunction = StopFunc;
}
/*
* SCM pause command invokes this function
* If the service is not running, this function does nothing.
* Otherwise, suspend the worker thread and update the status.
*/
VOID
ProcessServicePause (VOID)
{
if (ServiceStatus.dwCurrentState == SERVICE_RUNNING)
{
UpdateServiceStatus (SERVICE_PAUSE_PENDING, NO_ERROR, SCM_WAIT_INTERVAL);
if (SuspendThread (hServiceThread) != -1)
{
UpdateServiceStatus (SERVICE_PAUSED, NO_ERROR, SCM_WAIT_INTERVAL);
}
}
}
/*
* SCM resume command invokes this function
* If the service is not paused, this function does nothing.
* Otherwise, resume the worker thread and update the status.
*/
VOID
ProcessServiceContinue (VOID)
{
if (ServiceStatus.dwCurrentState == SERVICE_PAUSED)
{
UpdateServiceStatus (SERVICE_CONTINUE_PENDING, NO_ERROR, SCM_WAIT_INTERVAL);
if (ResumeThread (hServiceThread) != -1)
{
UpdateServiceStatus (SERVICE_RUNNING, NO_ERROR, SCM_WAIT_INTERVAL);
}
}
}
#endif /* WIN32 */