/* * Description * ImaLib.c - Implements a sample common IMA library * * License: * The contents of this file are subject to the SNIA Public License * Version 1.0(the "License"); you may not use this file except in * compliance with the License. You may obtain a copy of the License at * * /http://www.snia.org/English/Resources/Code/OpenSource.html * * Software distributed under the License is distributed on an "AS IS" * basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See * the License for the specific language governing rights and limitations * under the License. * * The Original Code is SNIA HBA API and IMA general header file * * The Initial Developer of the Original Code is: * Benjamin F. Kuo, Troika Networks, Inc. (benk@troikanetworks.com) * David Dillard VERITAS Software david.dillard@veritas.com * * Contributor(s): * Jeff Ding, Adaptec, Inc. (jding@corp.adaptec.com) * * Changes: * 09/24/2003 Initial Draft * (for other changes... see the CVS logs) * * 12/15/2003 corrected the defined parameter in IMA_SetPhbaIsnsDiscovery(). * lower case the computer name as iscsi name in IMA_GenerateNodeName(). * * 01/21/2005 Updated to support IMA 1.1.3. */ #ifdef WIN32 #include #else #include #include #include #endif #include #include #include // #include #include #include #include #include // #include #include #include "libsun_ima.h" #include "ima.h" #include "ima-plugin.h" #define LIBRARY_PROPERTY_SUPPORTED_IMA_VERSION 1 #define LIBRARY_PROPERTY_IMPLEMENTATION_VERSION L"1.0.2" #define LIBRARY_PROPERTY_VENDOR L"QLogic, Inc." #define DEFAULT_NODE_NAME_FORMAT "iqn.1986-03.com.sun.central.%s" /* Linux only */ #define LIBRARY_FILE_NAME L"libima.so" #define EUOS_ERROR IMA_ERROR_UNEXPECTED_OS_ERROR IMA_PLUGIN_INFO plugintable[IMA_MAX_NUM_PLUGINS]; int number_of_plugins = -1; static IMA_NODE_NAME sharedNodeName; static IMA_NODE_ALIAS sharedNodeAlias; #ifdef WIN32 static HANDLE libMutex = NULL; #else int libMutex = -1; #endif void InitLibrary(); void ExitLibrary(); static void libSwprintf(wchar_t *wcs, const wchar_t *lpszFormat, ...) { va_list args; va_start(args, lpszFormat); #ifdef WIN32 vswprintf(wcs, lpszFormat, args); #else vswprintf(wcs, 255, lpszFormat, args); #endif va_end(args); } #ifdef WIN32 /* Begin implementation */ BOOL APIENTRY DllMain(HANDLE hModule, DWORD ul_reason_for_call, LPVOID lpReserved) { switch (ul_reason_for_call) { case DLL_PROCESS_ATTACH: // InitLibrary(); break; case DLL_PROCESS_DETACH: ExitLibrary(); break; case DLL_THREAD_ATTACH: case DLL_THREAD_DETACH: break; } return (TRUE); } #elif defined(SOLARIS) void so_init(void); void so_fini(void); static int os_createmutex(int *semid); static void os_obtainmutex(int semid); static void os_releasemutex(int semid); static void os_destroymutex(int semid); static IMA_STATUS getSolarisNodeProps(IMA_NODE_PROPERTIES *nodeProps); static IMA_STATUS getSolarisSharedNodeName(IMA_NODE_NAME name); static IMA_STATUS getSolarisSharedNodeAlias(IMA_NODE_ALIAS alias); static IMA_STATUS setSolarisSharedNodeName(const IMA_NODE_NAME name); static IMA_STATUS setSolarisSharedNodeAlias(const IMA_NODE_ALIAS alias); #pragma init(so_init) #pragma fini(so_fini) void so_init() { InitLibrary(); } void so_fini() { ExitLibrary(); } static IMA_STATUS getSolarisNodeProps(IMA_NODE_PROPERTIES *nodeProps) { int ret; int i; IMA_STATUS status = IMA_ERROR_UNKNOWN_ERROR; IMA_GetNodePropertiesFn PassFunc; IMA_OID nodeOid; if (number_of_plugins == -1) InitLibrary(); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (strstr(plugintable[i].PluginPath, "libsun_ima.so") == NULL) { continue; } status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); PassFunc = (IMA_GetNodePropertiesFn) dlsym( plugintable[i].hPlugin, "IMA_GetNodeProperties"); if (PassFunc != NULL) { status = PassFunc(nodeOid, nodeProps); } os_releasemutex(plugintable[i].pluginMutex); } break; } os_releasemutex(libMutex); return (status); } static IMA_STATUS getSolarisSharedNodeName(IMA_NODE_NAME name) { IMA_STATUS status = IMA_ERROR_UNKNOWN_ERROR; IMA_NODE_PROPERTIES nodeProps; status = getSolarisNodeProps(&nodeProps); if (status != IMA_STATUS_SUCCESS) { return (status); } bcopy(&nodeProps.name, name, sizeof (IMA_NODE_NAME)); return (status); } static IMA_STATUS getSolarisSharedNodeAlias(IMA_NODE_ALIAS alias) { IMA_STATUS status = IMA_ERROR_UNKNOWN_ERROR; IMA_NODE_PROPERTIES nodeProps; status = getSolarisNodeProps(&nodeProps); if (status != IMA_STATUS_SUCCESS) { return (status); } bcopy(&nodeProps.alias, alias, sizeof (IMA_NODE_ALIAS)); return (status); } static IMA_STATUS setSolarisSharedNodeName(const IMA_NODE_NAME name) { int ret; int i; IMA_STATUS status = IMA_ERROR_UNKNOWN_ERROR; IMA_NODE_PROPERTIES nodeProps; IMA_SetNodeNameFn PassFunc; IMA_OID nodeOid; if (number_of_plugins == -1) InitLibrary(); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (strstr(plugintable[i].PluginPath, "libsun_ima.so") == NULL) { continue; } status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); PassFunc = (IMA_SetNodeNameFn) dlsym(plugintable[i].hPlugin, "IMA_SetNodeName"); if (PassFunc != NULL) { status = PassFunc(nodeOid, name); } os_releasemutex(plugintable[i].pluginMutex); } break; } os_releasemutex(libMutex); return (status); } static IMA_STATUS setSolarisSharedNodeAlias(const IMA_NODE_ALIAS alias) { int ret; int i; IMA_STATUS status = IMA_ERROR_UNKNOWN_ERROR; IMA_NODE_PROPERTIES nodeProps; IMA_SetNodeAliasFn PassFunc; IMA_OID nodeOid; if (number_of_plugins == -1) InitLibrary(); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (strstr(plugintable[i].PluginPath, "libsun_ima.so") == NULL) { continue; } status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); PassFunc = (IMA_SetNodeAliasFn) dlsym(plugintable[i].hPlugin, "IMA_SetNodeAlias"); if (PassFunc != NULL) { status = PassFunc(nodeOid, alias); } os_releasemutex(plugintable[i].pluginMutex); } break; } os_releasemutex(libMutex); return (status); } #else /* * add code in .init and .fini, * "__attribute__ ((constructor))" and "__attribute__ ((destructor))" * are used with gcc */ __attribute__((constructor)) void init() { InitLibrary(); } __attribute__((destructor)) void fini() { ExitLibrary(); } #endif #ifdef WIN32 static BOOL os_createmutex(HANDLE Mutex) { Mutex = CreateMutex(NULL, FALSE, NULL); if (Mutex == NULL) { return (FALSE); } return (TRUE); } static void os_destroymutex(HANDLE Mutex) { if (Mutex != NULL) { CloseHandle(Mutex); } } static void os_obtainmutex(HANDLE Mutex) { WaitForSingleObject(Mutex, INFINITE); } static void os_releasemutex(HANDLE Mutex) { ReleaseMutex(Mutex); } #else #if defined(__GNU_LIBRARY__) && !defined(_SEM_SEMUN_UNDEFINED) /* */ #else union semun { int val; /* value for SETVAL */ struct semid_ds *bf; /* buffer for IPC_STAT, IPC_SET */ unsigned short int *array; /* array for GETALL, SETALL */ struct seminfo *__buf; /* buffer for IPC_INFO */ }; #endif /* Create the semaphore. Return 1 if successful, 0 otherwise */ static int os_createmutex(int *semid) { int retVal; union semun sem_union; if (semid == NULL) { return (0); } retVal = semget(IPC_PRIVATE, 1, IPC_CREAT); if (retVal == -1) { return (0); } *semid = retVal; /* save key of created semaphore */ sem_union.val = 1; /* start semaphore off signaled */ retVal = semctl(*semid, 0, SETVAL, sem_union); if (retVal == -1) { return (0); } return (1); } static void os_obtainmutex(int semid) { struct sembuf sem_b; sem_b.sem_num = 0; sem_b.sem_op = -1; sem_b.sem_flg = SEM_UNDO; (void) semop(semid, &sem_b, 1); } static void os_releasemutex(int semid) { struct sembuf sem_b; sem_b.sem_num = 0; sem_b.sem_op = 1; sem_b.sem_flg = SEM_UNDO; (void) semop(semid, &sem_b, 1); } /* Destroy the SNMP semaphore. */ static void os_destroymutex(int semid) { union semun sem_union; (void) semctl(semid, 0, IPC_RMID, sem_union); } #endif void InitLibrary() { FILE *imaconf; char fullline[512]; /* Full line read in from IMA.conf */ char pluginname[64]; /* Read in from file IMA.conf */ char pluginpath[256]; /* Read in from file IMA.conf */ char imaConfFilePath[256]; char systemPath[256]; char *charPtr; IMA_UINT i = 0; if (number_of_plugins != -1) return; number_of_plugins = 0; if (os_createmutex(&libMutex) == 0) { return; } os_obtainmutex(libMutex); sharedNodeAlias[0] = 0; /* Open configuration file from known location */ #ifdef WIN32 if (GetSystemDirectory(systemPath, sizeof (systemPath))) sprintf(imaConfFilePath, "%s\\drivers\\etc\\ima.conf", systemPath); else strcpy(imaConfFilePath, "ima.conf"); #else strcpy(imaConfFilePath, "/etc/ima.conf"); #endif if ((imaconf = fopen(imaConfFilePath, "r")) == NULL) { os_releasemutex(libMutex); return; } /* Read in each line and load library */ while ((imaconf != NULL) && (fgets(fullline, sizeof (fullline), imaconf))) { if ((fullline[0] != '#') && (fullline[0] != '\n')) { /* Take out the '\n' */ if ((charPtr = (char *)strchr(fullline, '\n')) != NULL) *charPtr = '\0'; /* look for the first tab */ if ((charPtr = (char *)strchr(fullline, '\t')) == NULL) charPtr = (char *)strchr(fullline, ' '); /* Set Null termination for library name if found */ if (charPtr != NULL) { *charPtr++ = '\0'; /* * Skip spaces and tabs until * the next character found */ while ((*charPtr == ' ') || (*charPtr == '\t')) charPtr++; } else continue; /* May be invalid entry */ /* Copy library name and path */ strcpy(pluginname, fullline); strcpy(pluginpath, charPtr); /* * Continue to the next line if library name or * path is invalid */ if ((strlen(pluginname) == 0) || (strlen(pluginpath) == 0)) continue; #ifdef WIN32 /* Load the DLL now */ plugintable[i].hPlugin = LoadLibrary(pluginpath); #else /* Load the DLL now */ plugintable[i].hPlugin = dlopen(pluginpath, RTLD_LAZY); #endif if (plugintable[i].hPlugin != NULL) { typedef int (*InitializeFn)(); InitializeFn PassFunc; memcpy((char *)&plugintable[i].PluginName, (char *)&pluginname, 64); memcpy((char *) &plugintable[i].PluginPath, (char *)&pluginpath, 256); plugintable[i].ownerId = i + 1; #ifdef WIN32 PassFunc = (InitializeFn) GetProcAddress( plugintable[i].hPlugin, "Initialize"); #else PassFunc = (InitializeFn) dlsym( plugintable[i].hPlugin, "Initialize"); #endif if (PassFunc != NULL) { (void) PassFunc(plugintable[i].ownerId); } plugintable[i].number_of_vbcallbacks = 0; plugintable[i].number_of_pccallbacks = 0; os_createmutex(&(plugintable[i].pluginMutex)); i++; } } } number_of_plugins = i; os_releasemutex(libMutex); } void ExitLibrary() { IMA_UINT j; IMA_UINT i; if (number_of_plugins == -1) return; os_obtainmutex(libMutex); for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].hPlugin != NULL) { TerminateFn ExitPassFunc; os_obtainmutex(plugintable[i].pluginMutex); for (j = 0; j < plugintable[i].number_of_vbcallbacks; j++) { #define IMA_DFOBC_STR "IMA_DeregisterForObjectVisibilityChangesFn" IMA_DeregisterForObjectVisibilityChangesFn PassFunc; #ifdef WIN32 PassFunc = (IMA_DeregisterForObjectVisibilityChangesFn) GetProcAddress(plugintable[i].hPlugin, IMA_DFOBC_STR); #else PassFunc = (IMA_DeregisterForObjectVisibilityChangesFn) dlsym(plugintable[i].hPlugin, IMA_DFOBC_STR); #endif if (PassFunc != NULL) { PassFunc(plugintable[i].vbcallback[j]); } #undef IMA_DFOBC_STR } plugintable[i].number_of_vbcallbacks = 0; for (j = 0; j < plugintable[i].number_of_pccallbacks; j++) { IMA_DeregisterForObjectPropertyChangesFn PassFunc; #ifdef WIN32 PassFunc = (IMA_DeregisterForObjectPropertyChangesFn) GetProcAddress(plugintable[i].hPlugin, "IMA_DeregisterForObjectPropertyChangesFn"); #else PassFunc = (IMA_DeregisterForObjectPropertyChangesFn) dlsym(plugintable[i].hPlugin, "IMA_DeregisterForObjectPropertyChangesFn"); #endif if (PassFunc != NULL) { PassFunc(plugintable[i].pccallback[j]); } } plugintable[i].number_of_pccallbacks = 0; #ifdef WIN32 ExitPassFunc = (TerminateFn) GetProcAddress (plugintable[i].hPlugin, "Terminate"); #else ExitPassFunc = (TerminateFn) dlsym(plugintable[i].hPlugin, "Terminate"); #endif if (ExitPassFunc != NULL) { ExitPassFunc(); } #ifdef WIN32 /* Unload DLL from memory */ FreeLibrary(plugintable[i].hPlugin); #else /* Unload DLL from memory */ dlclose(plugintable[i].hPlugin); #endif os_releasemutex(plugintable[i].pluginMutex); os_destroymutex(plugintable[i].pluginMutex); } } number_of_plugins = -1; os_releasemutex(libMutex); os_destroymutex(libMutex); } static void VisibilityCallback( IMA_BOOL becomingVisible, IMA_OID objectId) { IMA_UINT i, j; os_obtainmutex(libMutex); for (i = 0; i < number_of_plugins; i++) { if ((plugintable[i].hPlugin != NULL) && (objectId.ownerId == plugintable[i].ownerId)) { os_obtainmutex(plugintable[i].pluginMutex); for (j = 0; j < plugintable[i].number_of_vbcallbacks; j++) { (plugintable[i].vbcallback[j]) (becomingVisible, objectId); } os_releasemutex(plugintable[i].pluginMutex); } } os_releasemutex(libMutex); } static void PropertyCallback( IMA_OID objectId) { IMA_UINT i, j; os_obtainmutex(libMutex); for (i = 0; i < number_of_plugins; i++) { if ((plugintable[i].hPlugin != NULL) && (objectId.ownerId == plugintable[i].ownerId)) { os_obtainmutex(plugintable[i].pluginMutex); for (j = 0; j < plugintable[i].number_of_pccallbacks; j++) { (plugintable[i].pccallback[j])(objectId); } os_releasemutex(plugintable[i].pluginMutex); } } os_releasemutex(libMutex); } /* * Gets the date and time, in the form of an IMA_DATETIME, from the build * script when compiled. */ static void GetBuildTime(IMA_DATETIME* pdatetime) { #ifdef WIN32 char *dayToken[] = {"Sun", "Mon", "Tue", "Wed", "Thu", "Fri", "Sat"}; char *monthToken[] = {"Jan", "Feb", "Mar", "Apr", "May", "Jun", "Jul", "Aug", "Sep", "Oct", "Nov", "Dec"}; char monthString[4]; char dayString[4]; int i; sscanf(__TIME__, "%u:%u:%u", &pdatetime->tm_hour, &pdatetime->tm_min, &pdatetime->tm_sec); sscanf(__DATE__, "%s %u %u", monthString, &pdatetime->tm_mday, &pdatetime->tm_year); sscanf(__TIMESTAMP__, "%s", dayString); pdatetime->tm_year -= 1900; pdatetime->tm_isdst = -1; pdatetime->tm_wday = 0; for (i = 0; i < 7; i++) { if (strcmp(dayToken[i], dayString) == 0) { pdatetime->tm_wday = i; break; } } pdatetime->tm_mon = 0; for (i = 0; i < 12; i++) { if (strcmp(monthToken[i], monthString) == 0) { pdatetime->tm_mon = i; break; } } #else #if defined(BUILD_DATE) if (strptime(BUILD_DATE, "%Y/%m/%d %T %Z", pdatetime) == NULL) { memset(pdatetime, 0, sizeof (IMA_DATETIME)); } #else memset(pdatetime, 0, sizeof (IMA_DATETIME)); #endif #endif } /* * Gets the properties of the IMA library that is being used. * * @param pProps A pointer to an @ref IMA_LIBRARY_PROPERTIES structure * allocated by the caller. On successful return this structure will * contain the properties of the IMA library. * @return An IMA_STATUS indicating if the operation was successful or if * an error occurred. * @retval IMA_SUCCESS Returned if the library properties were successfully * returned. * @retval IMA_ERROR_INVALID_PARAMETER Returned if @a pProps is NULL or * specifies a memory area to which data cannot be written. */ IMA_API IMA_STATUS IMA_GetLibraryProperties( IMA_LIBRARY_PROPERTIES *pProps) { char imaPath[256]; #ifdef WIN32 HMODULE imaHandle; #endif if (number_of_plugins == -1) InitLibrary(); if (pProps == NULL) return (IMA_ERROR_INVALID_PARAMETER); // Fill in the library properties. GetBuildTime(&pProps->buildTime); pProps->supportedImaVersion = LIBRARY_PROPERTY_SUPPORTED_IMA_VERSION; libSwprintf(pProps->implementationVersion, L"%ls", LIBRARY_PROPERTY_IMPLEMENTATION_VERSION); libSwprintf(pProps->vendor, L"%ls", LIBRARY_PROPERTY_VENDOR); #ifdef WIN32 imaHandle = GetModuleHandleA("ima"); imaPath[0] = 0; if (imaHandle != NULL) { GetModuleFileNameA(imaHandle, imaPath, 256); } MultiByteToWideChar(CP_ACP, 0, imaPath, -1, pProps->fileName, 256); #else libSwprintf(pProps->fileName, LIBRARY_FILE_NAME); // mbstowcs(pProps->fileName, imaPath, 256); #endif return (IMA_STATUS_SUCCESS); } /* * Gets a list of the object IDs of all currently loaded plugins. * * @param ppList A pointer to a pointer to an @ref IMA_OID_LIST. * On successful return this will contain a pointer to an @ref * IMA_OID_LIST which contains the object IDs of all of the plugins * currently loaded by the library. * @return An IMA_STATUS indicating if the operation was successful * or if an error occurred. * @retval IMA_SUCCESS Returned if the plugin ID list was successfully * returned. * @retval IMA_ERROR_INVALID_PARAMETER Returned if @a ppList is NULL or * specifies a memory area to which data cannot be written. */ IMA_API IMA_STATUS IMA_GetPluginOidList( IMA_OID_LIST **ppList) { IMA_UINT i; if (number_of_plugins == -1) InitLibrary(); if (ppList == NULL) return (IMA_ERROR_INVALID_PARAMETER); os_obtainmutex(libMutex); *ppList = (IMA_OID_LIST*)calloc(1, sizeof (IMA_OID_LIST) + (number_of_plugins - 1) * sizeof (IMA_OID)); if ((*ppList) == NULL) return (IMA_ERROR_UNEXPECTED_OS_ERROR); (*ppList)->oidCount = number_of_plugins; for (i = 0; i < number_of_plugins; i++) { (*ppList)->oids[i].objectType = IMA_OBJECT_TYPE_PLUGIN; (*ppList)->oids[i].ownerId = plugintable[i].ownerId; (*ppList)->oids[i].objectSequenceNumber = 0; } os_releasemutex(libMutex); return (IMA_STATUS_SUCCESS); } /* * Gets the properties of the specified vendor plugin. * * @param pluginId The ID of the plugin whose properties are being retrieved. * @param pProps A pointer to an @ref IMA_PLUGIN_PROPERTIES structure * allocated by the caller. On successful return this will contain the * properties of the plugin specified by pluginId. * @return An IMA_STATUS indicating if the operation was successful or if * an error occurred. * @retval IMA_SUCCESS Returned if the plugin properties were successfully * returned. * @retval IMA_ERROR_INVALID_OBJECT_TYPE Returned if @a pluginId does not * specify any valid object type. * @retval IMA_ERROR_INCORRECT_OBJECT_TYPE Returned if @a pluginId does not * specify a plugin object. * @retval IMA_ERROR_OBJECT_NOT_FOUND Returned if @a pluginId refers to a * plugin, but not one that is currently loaded. * @retval IMA_ERROR_INVALID_PARAMETER Returned if @a pProps is NULL or * specify a memory area to which data cannot be written. */ IMA_API IMA_STATUS IMA_GetPluginProperties( IMA_OID pluginOid, IMA_PLUGIN_PROPERTIES *pProps) { IMA_GetPluginPropertiesFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (pProps == NULL) return (IMA_ERROR_INVALID_PARAMETER); if ((pluginOid.objectType != IMA_OBJECT_TYPE_PLUGIN) || (pluginOid.objectSequenceNumber != 0)) return (IMA_ERROR_INVALID_PARAMETER); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == pluginOid.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_GetPluginPropertiesFn) GetProcAddress(plugintable[i].hPlugin, "IMA_GetPluginProperties"); #else PassFunc = (IMA_GetPluginPropertiesFn) dlsym(plugintable[i].hPlugin, "IMA_GetPluginProperties"); #endif if (PassFunc != NULL) { status = PassFunc(pluginOid, pProps); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } /* * Gets the object ID for the plugin associated with the specified object ID. * * @param objectId The object ID of an object that has been received from * a previous library call. * @param pPluginId A pointer to an @ref IMA_OID structure allocated by the * caller. On successful return this will contain the object ID of the * plugin associated with the object specified by @a objectId. This * can then be used to work with the plugin, e.g., to get the * properties of the plugin or the send the plugin an IOCtl. * @return An IMA_STATUS indicating if the operation was successful or if * an error occurred. * @retval IMA_SUCCESS Returned if the associated plugin ID was * successfully returned. * @retval IMA_ERROR_INVALID_PARAMETER Returned if @a pPluginId is NULL * or specifes a memory area to which data cannot be written. * @retval IMA_ERROR_INVALID_PARAMETER Returned if @a objectId specifies * an object not owned by a plugin, but instead one that is owned by * the library. * @retval IMA_ERROR_INVALID_OBJECT_TYPE Returned if @a objectId specifies * an object with an invalid type. */ IMA_API IMA_STATUS IMA_GetAssociatedPluginOid( IMA_OID objectId, IMA_OID *pPluginId) { IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (pPluginId == NULL || objectId.ownerId == RL_LIBRARY_SEQNUM) return (IMA_ERROR_INVALID_PARAMETER); if (objectId.objectType != IMA_OBJECT_TYPE_UNKNOWN && objectId.objectType != IMA_OBJECT_TYPE_PLUGIN && objectId.objectType != IMA_OBJECT_TYPE_NODE && objectId.objectType != IMA_OBJECT_TYPE_LHBA && objectId.objectType != IMA_OBJECT_TYPE_PHBA && objectId.objectType != IMA_OBJECT_TYPE_NETWORK_PORTAL && objectId.objectType != IMA_OBJECT_TYPE_PORTAL_GROUP && objectId.objectType != IMA_OBJECT_TYPE_LNP && objectId.objectType != IMA_OBJECT_TYPE_PNP && objectId.objectType != IMA_OBJECT_TYPE_TARGET && objectId.objectType != IMA_OBJECT_TYPE_LU && objectId.objectType != IMA_OBJECT_TYPE_DISCOVERY_ADDRESS && objectId.objectType != IMA_OBJECT_TYPE_STATIC_DISCOVERY_TARGET) return (IMA_ERROR_INVALID_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (objectId.ownerId == plugintable[i].ownerId) { pPluginId->objectType = IMA_OBJECT_TYPE_PLUGIN; pPluginId->ownerId = plugintable[i].ownerId; pPluginId->objectSequenceNumber = 0; status = IMA_STATUS_SUCCESS; } } os_releasemutex(libMutex); return (status); } /* * Gets the object ID of the shared node. * * @param pSharedNodeId A pointer to an @ref IMA_OID structure allocated by * the caller. On successful return it will contain the object ID of the * shared node of the currently executing system is placed. * @return An IMA_STATUS indicating if the operation was successful or if * an error occurred. * @retval IMA_SUCCESS Returned if the shared node ID has been successfully * retrieved. * @retval IMA_ERROR_INVALID_PARAMETER Returned if @a pSharedNodeId is NULL * or specifies a memory area to which data cannot be written. */ IMA_API IMA_STATUS IMA_GetSharedNodeOid( IMA_OID *pSharedNodeId) { if (pSharedNodeId == NULL) return (IMA_ERROR_INVALID_PARAMETER); pSharedNodeId->objectType = IMA_OBJECT_TYPE_NODE; pSharedNodeId->ownerId = RL_LIBRARY_SEQNUM; pSharedNodeId->objectSequenceNumber = RL_SHARED_NODE_SEQNUM; return (IMA_STATUS_SUCCESS); } IMA_API IMA_STATUS IMA_GetObjectType( IMA_OID oid, IMA_OBJECT_TYPE *pObjectType) { IMA_STATUS status; IMA_UINT i; if (pObjectType == NULL) return (IMA_ERROR_INVALID_PARAMETER); if (oid.objectType != IMA_OBJECT_TYPE_UNKNOWN && oid.objectType != IMA_OBJECT_TYPE_PLUGIN && oid.objectType != IMA_OBJECT_TYPE_NODE && oid.objectType != IMA_OBJECT_TYPE_LHBA && oid.objectType != IMA_OBJECT_TYPE_PHBA && oid.objectType != IMA_OBJECT_TYPE_NETWORK_PORTAL && oid.objectType != IMA_OBJECT_TYPE_PORTAL_GROUP && oid.objectType != IMA_OBJECT_TYPE_LNP && oid.objectType != IMA_OBJECT_TYPE_PNP && oid.objectType != IMA_OBJECT_TYPE_TARGET && oid.objectType != IMA_OBJECT_TYPE_LU && oid.objectType != IMA_OBJECT_TYPE_DISCOVERY_ADDRESS && oid.objectType != IMA_OBJECT_TYPE_STATIC_DISCOVERY_TARGET) return (IMA_ERROR_INVALID_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == oid.ownerId) { *pObjectType = oid.objectType; status = IMA_STATUS_SUCCESS; } } os_releasemutex(libMutex); return (status); } /* * Gets the properties of the specified iSCSI node. * @param nodeId The ID of the node to get the properties of. * @param pProps A pointer to an @ref IMA_NODE_PROPERTIES structure * which on successfully return * will contain the properties of the specified node. * @return An IMA_STATUS indicating if the operation was successful or * if an error occurred. * @retval IMA_SUCCESS Returned if the node properties have been * successfully retrieved. * @retval IMA_ERROR_INVALID_PARAMETER Returned if @a pProps is NULL * or specifies a memory area to which data cannot be written. * @retval IMA_ERROR_INVALID_OBJECT_TYPE Returned if @a nodeId does * not specify any valid object type. * @retval IMA_ERROR_INCORRECT_OBJECT_TYPE Returned if @a nodeId does * not specify a node object. * @retval IMA_ERROR_OBJECT_NOT_FOUND Returned if @a nodeId does not * specify a node which is currently known to the system. */ IMA_API IMA_STATUS IMA_GetNodeProperties( IMA_OID nodeOid, IMA_NODE_PROPERTIES *pProps) { IMA_GetNodePropertiesFn PassFunc; IMA_UINT i; IMA_STATUS status; char fullline[512]; /* Full line read in from IMA.conf */ char nodename[MAXHOSTNAMELEN]; #if defined(_WINDOWS) IMA_UINT dwStrLength; #endif if (number_of_plugins == -1) InitLibrary(); if (pProps == NULL) return (IMA_ERROR_INVALID_PARAMETER); if (nodeOid.objectType != IMA_OBJECT_TYPE_NODE) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); if ((nodeOid.ownerId == RL_LIBRARY_SEQNUM) && (nodeOid.objectSequenceNumber == RL_SHARED_NODE_SEQNUM)) { pProps->runningInInitiatorMode = IMA_TRUE; pProps->runningInTargetMode = IMA_TRUE; pProps->nameAndAliasSettable = IMA_TRUE; if (sharedNodeName[0] == 0) { #if defined(_WINDOWS) GetComputerName((char *)fullline, (LPDWORD)&dwStrLength); sprintf(nodename, DEFAULT_NODE_NAME_FORMAT, fullline); MultiByteToWideChar(CP_ACP, 0, nodename, -1, sharedNodeName, 256); #elif defined(SOLARIS) if (getSolarisSharedNodeName(sharedNodeName) != IMA_STATUS_SUCCESS) { gethostname((char *)fullline, sizeof (fullline)); sprintf(nodename, DEFAULT_NODE_NAME_FORMAT, fullline); mbstowcs(sharedNodeName, nodename, 256); } #else gethostname((char *)fullline, sizeof (fullline)); sprintf(nodename, DEFAULT_NODE_NAME_FORMAT, fullline); mbstowcs(sharedNodeName, nodename, 256); #endif } if (sharedNodeName[0] != 0) { libSwprintf(pProps->name, L"%ls", sharedNodeName); pProps->nameValid = IMA_TRUE; } else pProps->nameValid = IMA_FALSE; #if defined(SOLARIS) if (sharedNodeAlias[0] == 0) { getSolarisSharedNodeAlias(sharedNodeAlias); } #endif if (sharedNodeAlias[0] != 0) { libSwprintf(pProps->alias, L"%ls", sharedNodeAlias); pProps->aliasValid = IMA_TRUE; } else pProps->aliasValid = IMA_FALSE; return (IMA_STATUS_SUCCESS); } os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == nodeOid.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_GetNodePropertiesFn) GetProcAddress(plugintable[i].hPlugin, "IMA_GetNodeProperties"); #else PassFunc = (IMA_GetNodePropertiesFn) dlsym(plugintable[i].hPlugin, "IMA_GetNodeProperties"); #endif if (PassFunc != NULL) { status = PassFunc(nodeOid, pProps); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } /* * Sets the name of the specified node. * * @param nodeId The object ID of the node whose name is being set. * @param newName The new name of the node. * @return An IMA_STATUS indicating if the operation was successful or if * an error occurred. * @retval IMA_SUCCESS Returned if the node name was successfully changed. * @retval IMA_STATUS_REBOOT_NECESSARY Returned if a reboot is necessary * before the setting of the name actually takes affect. * @retval IMA_ERROR_INVALID_PARAMETER Returned if @a newname is NULL, or * specifies a memory area to which data cannot be written, or has a * length of 0. * @retval IMA_ERROR_INVALID_OBJECT_TYPE Returned if @a nodeId does not * specify any valid object type. * @retval IMA_ERROR_INCORRECT_OBJECT_TYPE Returned if @a nodeId does not * specify a node object. * @retval IMA_ERROR_OBJECT_NOT_FOUND Returned if @a nodeId does not specify a * node which is currently known to the system. * @retval IMA_ERROR_NAME_TOO_LONG Returned if @a newName contains too many * characters. */ IMA_API IMA_STATUS IMA_SetNodeName( IMA_OID nodeOid, const IMA_NODE_NAME newName) { IMA_SetNodeNameFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (newName == NULL || wcslen(newName) == 0) return (IMA_ERROR_INVALID_PARAMETER); if (wcslen(newName) > IMA_NODE_NAME_LEN - 1) return (IMA_ERROR_NAME_TOO_LONG); if (nodeOid.objectType != IMA_OBJECT_TYPE_NODE) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); if ((nodeOid.ownerId == RL_LIBRARY_SEQNUM) && (nodeOid.objectSequenceNumber == RL_SHARED_NODE_SEQNUM)) { #if defined(SOLARIS) if (setSolarisSharedNodeName(newName) != IMA_STATUS_SUCCESS) { return (IMA_ERROR_UNKNOWN_ERROR); } #endif os_obtainmutex(libMutex); libSwprintf(sharedNodeName, L"%ls", newName); os_releasemutex(libMutex); return (IMA_STATUS_SUCCESS); } os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == nodeOid.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_SetNodeNameFn) GetProcAddress(plugintable[i].hPlugin, "IMA_SetNodeName"); #else PassFunc = (IMA_SetNodeNameFn) dlsym(plugintable[i].hPlugin, "IMA_SetNodeName"); #endif if (PassFunc != NULL) { status = PassFunc(nodeOid, newName); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } /* * Generates an unique node name for the currently running system. * * @param generatedname On successful return contains the generated node * name. * @return An IMA_STATUS indicating if the operation was successful or if * an error occurred. * @retval IMA_ERROR_INVALID_PARAMETER Returned if @a generatedname is NULL * or specifies a memory area to which data cannot be written. */ IMA_API IMA_STATUS IMA_GenerateNodeName( IMA_NODE_NAME generatedname) { char computername[256]; char nodename[MAXHOSTNAMELEN]; #if defined(_WINDOWS) IMA_UINT dwStrLength = 255; #endif #ifndef _WINDOWS #ifndef SOLARIS int i; #endif #endif if (generatedname == NULL) return (IMA_ERROR_INVALID_PARAMETER); #if defined(_WINDOWS) GetComputerName((char *)computername, (LPDWORD)&dwStrLength); _strlwr(computername); _snprintf(nodename, 256, DEFAULT_NODE_NAME_FORMAT, computername); MultiByteToWideChar(CP_ACP, 0, nodename, -1, generatedname, 256); #elif defined(SOLARIS) if (getSolarisSharedNodeName(generatedname) != IMA_STATUS_SUCCESS) { gethostname(computername, sizeof (computername)); sprintf(nodename, DEFAULT_NODE_NAME_FORMAT, generatedname); mbstowcs(generatedname, nodename, 256); } #else gethostname((char *)computername, sizeof (computername)); i = 0; while (computername[i] != '\0') { computername[i] = tolower(computername[i]); i++; } snprintf(nodename, 256, DEFAULT_NODE_NAME_FORMAT, computername); mbstowcs(generatedname, nodename, 256); #endif return (IMA_STATUS_SUCCESS); } /* * Sets the alias of the specified node. * * @param nodeId The object ID of the node whose alias is being set. * @param newAlias A pointer to a Unicode string which contains the new node * alias.If this parameter is NULL then the current alias is deleted, in * which case the specified node no longer has an alias. * @return An IMA_STATUS indicating if the operation was successful or if * an error occurred. * @retval IMA_SUCCESS Returned if the node's alias has been successfully set. * @retval IMA_STATUS_REBOOT_NECESSARY A reboot is necessary before * the setting of the * alias actually takes affect. * @retval IMA_ERROR_INVALID_OBJECT_TYPE Returned if @a nodeId does not * specify any valid object type. * @retval IMA_ERROR_INCORRECT_OBJECT_TYPE Returned if @a nodeId does not * specify a node object. * @retval IMA_ERROR_OBJECT_NOT_FOUND Returned if @a nodeId does not specify * a node which is currently known to the system. * @retval IMA_ERROR_NAME_TOO_LONG Returned if @a newAlias contains too many * characters. */ IMA_API IMA_STATUS IMA_SetNodeAlias( IMA_OID nodeOid, const IMA_NODE_ALIAS newAlias) { IMA_SetNodeAliasFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (newAlias == NULL) return (IMA_ERROR_INVALID_PARAMETER); if (wcslen(newAlias) > IMA_NODE_ALIAS_LEN - 1) return (IMA_ERROR_NAME_TOO_LONG); if (nodeOid.objectType != IMA_OBJECT_TYPE_NODE) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); if ((nodeOid.ownerId == RL_LIBRARY_SEQNUM) && (nodeOid.objectSequenceNumber == RL_SHARED_NODE_SEQNUM)) { #if defined(SOLARIS) if (setSolarisSharedNodeAlias(newAlias) != IMA_STATUS_SUCCESS) { return (IMA_ERROR_UNKNOWN_ERROR); } #endif os_obtainmutex(libMutex); if (wcslen(newAlias) > 0 && newAlias != NULL) libSwprintf(sharedNodeAlias, L"%ls", newAlias); else libSwprintf(sharedNodeAlias, L"%ls", ""); os_releasemutex(libMutex); return (IMA_STATUS_SUCCESS); } os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == nodeOid.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_SetNodeAliasFn) GetProcAddress(plugintable[i].hPlugin, "IMA_SetNodeAlias"); #else PassFunc = (IMA_SetNodeAliasFn) dlsym( plugintable[i].hPlugin, "IMA_SetNodeAlias"); #endif if (PassFunc != NULL) { status = PassFunc(nodeOid, newAlias); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } /* * Gets a list of the object IDs of all the logical HBAs in the system. * * @param ppList A pointer to a pointer to an @ref IMA_OID_LIST structure. * on successful return this will contain a pointer to an * @ref IMA_OID_LIST which contains the object IDs of all of the * LHBAs currently in the system. * @return An IMA_STATUS indicating if the operation was successful or if * an error occurred. * @retval IMA_SUCCESS Returned if the LHBA ID list has been successfully * returned. * @retval IMA_ERROR_INVALID_PARAMETER Returned if @a ppList is NULL or * specifies a * memory area to which data cannot be written. */ IMA_API IMA_STATUS IMA_GetLhbaOidList( IMA_OID_LIST **ppList) { IMA_GetLhbaOidListFn PassFunc; IMA_FreeMemoryFn FreeFunc; IMA_UINT i; IMA_UINT j; IMA_UINT totalIdCount; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (ppList == NULL) return (IMA_ERROR_INVALID_PARAMETER); os_obtainmutex(libMutex); // Get total id count first totalIdCount = 0; for (i = 0; i < number_of_plugins; i++) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_GetLhbaOidListFn) GetProcAddress(plugintable[i].hPlugin, "IMA_GetLhbaOidList"); #else PassFunc = (IMA_GetLhbaOidListFn) dlsym(plugintable[i].hPlugin, "IMA_GetLhbaOidList"); #endif if (PassFunc != NULL) { IMA_OID_LIST *ppOidList; status = PassFunc(&ppOidList); if (status == IMA_STATUS_SUCCESS) { totalIdCount += ppOidList->oidCount; #ifdef WIN32 FreeFunc = (IMA_FreeMemoryFn) GetProcAddress( plugintable[i].hPlugin, "IMA_FreeMemory"); #else FreeFunc = (IMA_FreeMemoryFn) dlsym(plugintable[i].hPlugin, "IMA_FreeMemory"); #endif if (FreeFunc != NULL) { FreeFunc(ppOidList); } } } os_releasemutex(plugintable[i].pluginMutex); } if (status != IMA_STATUS_SUCCESS) { break; } } *ppList = (IMA_OID_LIST*)calloc(1, sizeof (IMA_OID_LIST) + (totalIdCount - 1) * sizeof (IMA_OID)); if ((*ppList) == NULL) { os_releasemutex(libMutex); return (IMA_ERROR_UNEXPECTED_OS_ERROR); } (*ppList)->oidCount = totalIdCount; // 2nd pass to copy the id lists totalIdCount = 0; status = IMA_STATUS_SUCCESS; for (i = 0; i < number_of_plugins; i++) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_GetLhbaOidListFn) GetProcAddress(plugintable[i].hPlugin, "IMA_GetLhbaOidList"); #else PassFunc = (IMA_GetLhbaOidListFn) dlsym(plugintable[i].hPlugin, "IMA_GetLhbaOidList"); #endif if (PassFunc != NULL) { IMA_OID_LIST *ppOidList; status = PassFunc(&ppOidList); if (status == IMA_STATUS_SUCCESS) { for (j = 0; (j < ppOidList->oidCount) && (totalIdCount < (*ppList)->oidCount); j++) { (*ppList)->oids[totalIdCount]. objectType = ppOidList->oids[j]. objectType; (*ppList)->oids[totalIdCount]. objectSequenceNumber = ppOidList->oids[j]. objectSequenceNumber; (*ppList)->oids[totalIdCount]. ownerId = ppOidList->oids[j].ownerId; totalIdCount++; } #ifdef WIN32 FreeFunc = (IMA_FreeMemoryFn) GetProcAddress( plugintable[i].hPlugin, "IMA_FreeMemory"); #else FreeFunc = (IMA_FreeMemoryFn) dlsym(plugintable[i].hPlugin, "IMA_FreeMemory"); #endif if (FreeFunc != NULL) { FreeFunc(ppOidList); } } } os_releasemutex(plugintable[i].pluginMutex); } if (status != IMA_STATUS_SUCCESS) { free(*ppList); break; } } os_releasemutex(libMutex); return (status); } /* * Gets the properties of the specified logical HBA. * * @param lhbaId The object ID of the LHBA whose properties are being * retrieved. * @param pProps A pointer to an @ref IMA_LHBA_PROPERTIES structure. * On successful * return this will contain the properties of the LHBA specified by * @a lhbaId. * @return An IMA_STATUS indicating if the operation was successful or if * an error occurred. * @retval IMA_SUCCESS Returned if the properties of the specified LHBA * have been successfully retrieved. * @retval IMA_ERROR_INVALID_PARAMETER Returned if @a pProps is NULL or * specify a memory area to which data cannot be written. * @retval IMA_ERROR_INVALID_OBJECT_TYPE Returned if @a lhbaId does not * specify any valid object type. * @retval IMA_ERROR_INCORRECT_OBJECT_TYPE Returned if @a lhbaId does not * specify a LHBA. * @retval IMA_ERROR_OBJECT_NOT_FOUND Returned if @a lhbaId does not * specify a LHBA which is currently known to the system. */ IMA_API IMA_STATUS IMA_GetLhbaProperties( IMA_OID lhbaId, IMA_LHBA_PROPERTIES *pProps) { IMA_GetLhbaPropertiesFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (pProps == NULL) return (IMA_ERROR_INVALID_PARAMETER); if (lhbaId.objectType != IMA_OBJECT_TYPE_LHBA) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == lhbaId.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_GetLhbaPropertiesFn) GetProcAddress(plugintable[i].hPlugin, "IMA_GetLhbaProperties"); #else PassFunc = (IMA_GetLhbaPropertiesFn) dlsym(plugintable[i].hPlugin, "IMA_GetLhbaProperties"); #endif if (PassFunc != NULL) { status = PassFunc(lhbaId, pProps); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } /* * Gets a list of the object IDs of all the physical HBAs in the system. * * @param ppList A pointer to a pointer to an @ref IMA_OID_LIST structure. * on successful return this will contain a pointer to an * @ref IMA_OID_LIST which contains the object IDs of all of the * PHBAs currently in the system. * @return An IMA_STATUS indicating if the operation was successful or if * an error occurred. * @retval IMA_SUCCESS Returned if the PHBA ID list has been successfully * returned. * @retval IMA_ERROR_INVALID_PARAMETER Returned if @a ppList is NULL or * specify a memory area to which data cannot be written. * @retval IMA_SUCCESS Returned if the properties of the specified PHBA * have been successfully retrieved. * @retval IMA_ERROR_OBJECT_NOT_FOUND Returned if @a phbaId does not * specify a PHBA which is currently known to the system. * @retval IMA_ERROR_INVALID_PARAMETER Returned if @a ppList is NULL or * specify a memory area to which data cannot be written. */ IMA_API IMA_STATUS IMA_GetPhbaOidList( IMA_OID_LIST **ppList) { IMA_GetPhbaOidListFn PassFunc; IMA_FreeMemoryFn FreeFunc; IMA_UINT i; IMA_UINT j; IMA_UINT totalIdCount; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (ppList == NULL) return (IMA_ERROR_INVALID_PARAMETER); os_obtainmutex(libMutex); // Get total id count first totalIdCount = 0; for (i = 0; i < number_of_plugins; i++) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_GetPhbaOidListFn) GetProcAddress(plugintable[i].hPlugin, "IMA_GetPhbaOidList"); #else PassFunc = (IMA_GetPhbaOidListFn) dlsym(plugintable[i].hPlugin, "IMA_GetPhbaOidList"); #endif if (PassFunc != NULL) { IMA_OID_LIST *ppOidList; status = PassFunc(&ppOidList); if (status == IMA_STATUS_SUCCESS) { totalIdCount += ppOidList->oidCount; #ifdef WIN32 FreeFunc = (IMA_FreeMemoryFn) GetProcAddress( plugintable[i].hPlugin, "IMA_FreeMemory"); #else FreeFunc = (IMA_FreeMemoryFn) dlsym(plugintable[i].hPlugin, "IMA_FreeMemory"); #endif if (FreeFunc != NULL) { FreeFunc(ppOidList); } } } os_releasemutex(plugintable[i].pluginMutex); } if (status != IMA_STATUS_SUCCESS) { break; } } *ppList = (IMA_OID_LIST*)calloc(1, sizeof (IMA_OID_LIST) + (totalIdCount - 1) * sizeof (IMA_OID)); if ((*ppList) == NULL) { os_releasemutex(libMutex); return (IMA_ERROR_UNEXPECTED_OS_ERROR); } (*ppList)->oidCount = totalIdCount; // 2nd pass to copy the id lists totalIdCount = 0; status = IMA_STATUS_SUCCESS; for (i = 0; i < number_of_plugins; i++) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_GetPhbaOidListFn) GetProcAddress(plugintable[i].hPlugin, "IMA_GetPhbaOidList"); #else PassFunc = (IMA_GetPhbaOidListFn) dlsym(plugintable[i].hPlugin, "IMA_GetPhbaOidList"); #endif if (PassFunc != NULL) { IMA_OID_LIST *ppOidList; status = PassFunc(&ppOidList); if (status == IMA_STATUS_SUCCESS) { for (j = 0; (j < ppOidList->oidCount) && (totalIdCount < (*ppList)->oidCount); j++) { (*ppList)->oids[totalIdCount]. objectType = ppOidList->oids[j]. objectType; (*ppList)->oids[totalIdCount]. objectSequenceNumber = ppOidList->oids[j]. objectSequenceNumber; (*ppList)->oids[totalIdCount]. ownerId = ppOidList->oids[j].ownerId; totalIdCount++; } #ifdef WIN32 FreeFunc = (IMA_FreeMemoryFn) GetProcAddress (plugintable[i].hPlugin, "IMA_FreeMemory"); #else FreeFunc = (IMA_FreeMemoryFn) dlsym(plugintable[i].hPlugin, "IMA_FreeMemory"); #endif if (FreeFunc != NULL) { FreeFunc(ppOidList); } } } os_releasemutex(plugintable[i].pluginMutex); } if (status != IMA_STATUS_SUCCESS) { free(*ppList); break; } } os_releasemutex(libMutex); return (status); } /* * Gets the general properties of a physical HBA. * * @param phbaId The object ID of the PHBA whose * properties are being queried. * @param pProps A pointer to an @ref * IMA_PHBA_PROPERTIES structure. On successful * return this will contain the properties of * the PHBA specified by @a phbaId. * @return An IMA_STATUS indicating if the * operation was successful or if an error * occurred. * @retval IMA_SUCCESS Returned if the properties * of the specified PHBA have been * successfully retrieved. * @retval IMA_ERROR_INVALID_PARAMETER Returned * if @a pProps is NULL or specifies a * memory area to which data cannot be written. * @retval IMA_ERROR_INVALID_OBJECT_TYPE Returned * if @a phbaId does not specify any * valid object type. * @retval IMA_ERROR_INCORRECT_OBJECT_TYPE Returned * if @a phbaId does not specify a * PHBA. * @retval IMA_ERROR_OBJECT_NOT_FOUND Returned * if @a phbaId does not specify a PHBA * which is currently known to the system. */ IMA_API IMA_STATUS IMA_GetPhbaProperties( IMA_OID phbaId, IMA_PHBA_PROPERTIES *pProps) { IMA_GetPhbaPropertiesFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (pProps == NULL) return (IMA_ERROR_INVALID_PARAMETER); if (phbaId.objectType != IMA_OBJECT_TYPE_PHBA) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == phbaId.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_GetPhbaPropertiesFn) GetProcAddress(plugintable[i].hPlugin, "IMA_GetPhbaProperties"); #else PassFunc = (IMA_GetPhbaPropertiesFn) dlsym(plugintable[i].hPlugin, "IMA_GetPhbaProperties"); #endif if (PassFunc != NULL) { status = PassFunc(phbaId, pProps); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } /* * Frees a previously allocated IMA_OID_LIST structure. * * @param pList A pointer to an @ref IMA_OID_LIST * structure allocated by the * library. On successful return the memory * allocated by the list is freed. * @return An IMA_STATUS indicating if the operation * was successful or if an error occurred. * @retval IMA_SUCCESS Returned if the specified object * ID list was successfully freed. * @retval IMA_ERROR_INVALID_PARAMETER Returned * if @a pList is NULL or specifies a * memory area from which data cannot be read. */ IMA_API IMA_STATUS IMA_FreeMemory( void *pMemory) { if (pMemory == NULL) return (IMA_ERROR_INVALID_PARAMETER); free(pMemory); return (IMA_STATUS_SUCCESS); } IMA_API IMA_STATUS IMA_GetNonSharedNodeOidList( IMA_OID_LIST **ppList) { IMA_GetNonSharedNodeOidListFn PassFunc; IMA_FreeMemoryFn FreeFunc; IMA_UINT i; IMA_UINT j; IMA_UINT totalIdCount; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (ppList == NULL) return (IMA_ERROR_INVALID_PARAMETER); os_obtainmutex(libMutex); // Get total id count first totalIdCount = 0; for (i = 0; i < number_of_plugins; i++) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_GetNonSharedNodeOidListFn) GetProcAddress(plugintable[i].hPlugin, "IMA_GetNonSharedNodeOidList"); #else PassFunc = (IMA_GetNonSharedNodeOidListFn) dlsym(plugintable[i].hPlugin, "IMA_GetNonSharedNodeOidList"); #endif if (PassFunc != NULL) { IMA_OID_LIST *ppOidList; status = PassFunc(&ppOidList); if (status == IMA_STATUS_SUCCESS) { totalIdCount += ppOidList->oidCount; #ifdef WIN32 FreeFunc = (IMA_FreeMemoryFn) GetProcAddress( plugintable[i].hPlugin, "IMA_FreeMemory"); #else FreeFunc = (IMA_FreeMemoryFn) dlsym(plugintable[i].hPlugin, "IMA_FreeMemory"); #endif if (FreeFunc != NULL) { FreeFunc(ppOidList); } } } os_releasemutex(plugintable[i].pluginMutex); } if (status != IMA_STATUS_SUCCESS) { break; } } *ppList = (IMA_OID_LIST*)calloc(1, sizeof (IMA_OID_LIST) + (totalIdCount - 1) * sizeof (IMA_OID)); if ((*ppList) == NULL) { os_releasemutex(libMutex); return (IMA_ERROR_UNEXPECTED_OS_ERROR); } (*ppList)->oidCount = totalIdCount; // 2nd pass to copy the id lists totalIdCount = 0; status = IMA_STATUS_SUCCESS; for (i = 0; i < number_of_plugins; i++) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_GetNonSharedNodeOidListFn) GetProcAddress(plugintable[i].hPlugin, "IMA_GetNonSharedNodeOidList"); #else PassFunc = (IMA_GetNonSharedNodeOidListFn) dlsym(plugintable[i].hPlugin, "IMA_GetNonSharedNodeOidList"); #endif if (PassFunc != NULL) { IMA_OID_LIST *ppOidList; status = PassFunc(&ppOidList); if (status == IMA_STATUS_SUCCESS) { for (j = 0; (j < ppOidList->oidCount) && (totalIdCount < ( *ppList)->oidCount); j++) { (*ppList)->oids[ totalIdCount].objectType = ppOidList->oids[j]. objectType; (*ppList)->oids[totalIdCount]. objectSequenceNumber = ppOidList->oids[j]. objectSequenceNumber; (*ppList)->oids[ totalIdCount]. ownerId = ppOidList->oids[j]. ownerId; totalIdCount++; } #ifdef WIN32 FreeFunc = (IMA_FreeMemoryFn) GetProcAddress( plugintable[i].hPlugin, "IMA_FreeMemory"); #else FreeFunc = (IMA_FreeMemoryFn) dlsym(plugintable[i].hPlugin, "IMA_FreeMemory"); #endif if (FreeFunc != NULL) { FreeFunc(ppOidList); } } } os_releasemutex(plugintable[i].pluginMutex); } if (status != IMA_STATUS_SUCCESS) { free(*ppList); break; } } os_releasemutex(libMutex); return (status); } /* * Gets the first burst length properties of * the specified logical HBA. * * @param lhbaId The object ID of the logical HBA * to get the first burst length * properties of. * @param pProps A pointer to a min/max values * structure. * @return An IMA_STATUS indicating if the operation * was successful or if an error * occurred. * @retval IMA_SUCCESS Returned if the first burst * length properties have been * successfully retrieved. * @retval IMA_ERROR_INVALID_PARAMETER Returned * if @a pProps is NULL or specifies a * memory area to which data cannot be written. * @retval IMA_ERROR_INVALID_OBJECT_TYPE Returned * if @a lhbaId does not specify any * valid object type. * @retval IMA_ERROR_INCORRECT_OBJECT_TYPE Returned * if @a lhbaId does not specify a LHBA. * @retval IMA_ERROR_OBJECT_NOT_FOUND Returned * @a lhbaId does not specify a LHBA * which is currently known to the system. */ IMA_API IMA_STATUS IMA_GetFirstBurstLengthProperties( IMA_OID Oid, IMA_MIN_MAX_VALUE *pProps) { IMA_GetFirstBurstLengthPropertiesFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (pProps == NULL) return (IMA_ERROR_INVALID_PARAMETER); if (Oid.objectType != IMA_OBJECT_TYPE_LHBA && Oid.objectType != IMA_OBJECT_TYPE_TARGET) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == Oid.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_GetFirstBurstLengthPropertiesFn) GetProcAddress(plugintable[i].hPlugin, "IMA_GetFirstBurstLengthProperties"); #else PassFunc = (IMA_GetFirstBurstLengthPropertiesFn) dlsym(plugintable[i].hPlugin, "IMA_GetFirstBurstLengthProperties"); #endif if (PassFunc != NULL) { status = PassFunc(Oid, pProps); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } /* * Gets the max burst length properties of the * specified logical HBA. * * @param lhbaId The object ID of the logical HBA to * get the max burst length properties of. * @param pProps A pointer to an @ref IMA_MIN_MAX_VALUE * structure allocated by the * caller. On successful return this structure * will contain the max * burst length properties of this LHBA. * @return An IMA_STATUS indicating if the operation * was successful or if an error occurred. * @retval IMA_SUCCESS Returned if the max burst * length properties have been * successfully retrieved. * @retval IMA_ERROR_INVALID_PARAMETER Returned * if @a pProps is NULL or specifies a * memory area to which data cannot be written. * @retval IMA_ERROR_INVALID_OBJECT_TYPE Returned * if @a lhbaId does not specify any * valid object type. * @retval IMA_ERROR_INCORRECT_OBJECT_TYPE Returned * if @a lhbaId does not specify a HBA. * @retval IMA_ERROR_OBJECT_NOT_FOUND Returned * if @a lhbaId does not specify a LHBA * which is currently known to the system. */ IMA_API IMA_STATUS IMA_GetMaxBurstLengthProperties( IMA_OID Oid, IMA_MIN_MAX_VALUE *pProps) { IMA_GetMaxBurstLengthPropertiesFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (pProps == NULL) return (IMA_ERROR_INVALID_PARAMETER); if (Oid.objectType != IMA_OBJECT_TYPE_LHBA && Oid.objectType != IMA_OBJECT_TYPE_TARGET) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == Oid.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_GetMaxBurstLengthPropertiesFn) GetProcAddress(plugintable[i].hPlugin, "IMA_GetMaxBurstLengthProperties"); #else PassFunc = (IMA_GetMaxBurstLengthPropertiesFn) dlsym(plugintable[i].hPlugin, "IMA_GetMaxBurstLengthProperties"); #endif if (PassFunc != NULL) { status = PassFunc(Oid, pProps); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } /* * Gets the maximum receive data segment length properties * of the specified logical HBA. * * @param lhbaId The object ID of the logical HBA to * get the max receive data * segment length properties of. * @param pProps A pointer to an @ref IMA_MIN_MAX_VALUE * structure allocated by the caller. * On successful return this structure will contain the max * receive data segment length properties of this LHBA. * @return An IMA_STATUS indicating if the operation * was successful or if an error occurred. * @retval IMA_SUCCESS Returned if the max receive * data segment length properties * have been successfully retrieved. * @retval IMA_ERROR_INVALID_PARAMETER Returned if * @a pProps is NULL or specifies a * memory area to which data cannot be written. * @retval IMA_ERROR_INVALID_OBJECT_TYPE Returned if * @a lhbaId does not specify any * valid object type. * @retval IMA_ERROR_INCORRECT_OBJECT_TYPE Returned if * a lhbaId does not specify a LHBA. * @retval IMA_ERROR_OBJECT_NOT_FOUND Returned if @a * lhbaId does not specify a LHBA * which is currently known to the system. */ IMA_API IMA_STATUS IMA_GetMaxRecvDataSegmentLengthProperties( IMA_OID Oid, IMA_MIN_MAX_VALUE *pProps) { IMA_GetMaxRecvDataSegmentLengthPropertiesFn PassFunc; IMA_UINT i; IMA_STATUS status; #define IMA_GMRDSLPFN IMA_GetMaxRecvDataSegmentLengthPropertiesFn #define IMA_GMRDSLP "IMA_GetMaxRecvDataSegmentLengthProperties" if (number_of_plugins == -1) InitLibrary(); if (pProps == NULL) return (IMA_ERROR_INVALID_PARAMETER); if (Oid.objectType != IMA_OBJECT_TYPE_LHBA && Oid.objectType != IMA_OBJECT_TYPE_TARGET) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == Oid.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_GMRDSLPFN) GetProcAddress(plugintable[i].hPlugin, IMA_GMRDSLP); #else PassFunc = (IMA_GMRDSLPFN) dlsym(plugintable[i].hPlugin, IMA_GMRDSLP); #endif if (PassFunc != NULL) { status = PassFunc(Oid, pProps); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); #undef IMA_GMRDSLPFN #undef IMA_GMRDSLP return (status); } /* --------------------------------------------- */ IMA_API IMA_STATUS IMA_PluginIOCtl( IMA_OID pluginOid, IMA_UINT command, const void *pInputBuffer, IMA_UINT inputBufferLength, void *pOutputBuffer, IMA_UINT *pOutputBufferLength) { IMA_PluginIOCtlFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (pInputBuffer == NULL || inputBufferLength == 0 || pOutputBuffer == NULL || pOutputBufferLength == NULL || *pOutputBufferLength == 0) return (IMA_ERROR_INVALID_PARAMETER); if (pluginOid.objectType != IMA_OBJECT_TYPE_PLUGIN) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == pluginOid.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_PluginIOCtlFn) GetProcAddress(plugintable[i].hPlugin, "IMA_PluginIOCtl"); #else PassFunc = (IMA_PluginIOCtlFn) dlsym(plugintable[i].hPlugin, "IMA_PluginIOCtl"); #endif if (PassFunc != NULL) { status = PassFunc( pluginOid, command, pInputBuffer, inputBufferLength, pOutputBuffer, pOutputBufferLength); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_GetNetworkPortalOidList( IMA_OID lnpId, IMA_OID_LIST **ppList) { IMA_GetNetworkPortalOidListFn PassFunc; IMA_FreeMemoryFn FreeFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (ppList == NULL) return (IMA_ERROR_INVALID_PARAMETER); if (lnpId.objectType != IMA_OBJECT_TYPE_LNP) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == lnpId.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_GetNetworkPortalOidListFn) GetProcAddress(plugintable[i].hPlugin, "IMA_GetNetworkPortalOidList"); #else PassFunc = (IMA_GetNetworkPortalOidListFn) dlsym(plugintable[i].hPlugin, "IMA_GetNetworkPortalOidList"); #endif if (PassFunc != NULL) { IMA_OID_LIST *ppOidList; IMA_UINT listSize; listSize = sizeof (IMA_OID_LIST); status = PassFunc(lnpId, &ppOidList); if (IMA_SUCCESS(status)) { *ppList = (IMA_OID_LIST*) calloc(1, sizeof (IMA_OID_LIST) + (ppOidList-> oidCount - 1)* sizeof (IMA_OID)); if ((*ppList) == NULL) { return (EUOS_ERROR); } else memcpy((*ppList), ppOidList, listSize + (ppOidList-> oidCount - 1)* sizeof (IMA_OID)); #ifdef WIN32 FreeFunc = (IMA_FreeMemoryFn) GetProcAddress( plugintable[i].hPlugin, "IMA_FreeMemory"); #else FreeFunc = (IMA_FreeMemoryFn) dlsym( plugintable[i].hPlugin, "IMA_FreeMemory"); #endif if (FreeFunc != NULL) { FreeFunc(ppOidList); } } } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_SetFirstBurstLength( IMA_OID lhbaId, IMA_UINT firstBurstLength) { IMA_SetFirstBurstLengthFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (lhbaId.objectType != IMA_OBJECT_TYPE_LHBA && lhbaId.objectType != IMA_OBJECT_TYPE_TARGET) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == lhbaId.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_SetFirstBurstLengthFn) GetProcAddress(plugintable[i].hPlugin, "IMA_SetFirstBurstLength"); #else PassFunc = (IMA_SetFirstBurstLengthFn) dlsym( plugintable[i].hPlugin, "IMA_SetFirstBurstLength"); #endif if (PassFunc != NULL) { status = PassFunc( lhbaId, firstBurstLength); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_SetMaxBurstLength( IMA_OID lhbaId, IMA_UINT maxBurstLength) { IMA_SetMaxBurstLengthFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (lhbaId.objectType != IMA_OBJECT_TYPE_LHBA && lhbaId.objectType != IMA_OBJECT_TYPE_TARGET) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == lhbaId.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_SetMaxBurstLengthFn) GetProcAddress(plugintable[i].hPlugin, "IMA_SetMaxBurstLength"); #else PassFunc = (IMA_SetMaxBurstLengthFn) dlsym(plugintable[i].hPlugin, "IMA_SetMaxBurstLength"); #endif if (PassFunc != NULL) { status = PassFunc( lhbaId, maxBurstLength); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_SetMaxRecvDataSegmentLength( IMA_OID lhbaId, IMA_UINT maxRecvDataSegmentLength) { IMA_SetMaxRecvDataSegmentLengthFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (lhbaId.objectType != IMA_OBJECT_TYPE_LHBA && lhbaId.objectType != IMA_OBJECT_TYPE_TARGET) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == lhbaId.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_SetMaxRecvDataSegmentLengthFn) GetProcAddress(plugintable[i].hPlugin, "IMA_SetMaxRecvDataSegmentLength"); #else PassFunc = (IMA_SetMaxRecvDataSegmentLengthFn) dlsym(plugintable[i].hPlugin, "IMA_SetMaxRecvDataSegmentLength"); #endif if (PassFunc != NULL) { status = PassFunc( lhbaId, maxRecvDataSegmentLength); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_GetMaxConnectionsProperties( IMA_OID Oid, IMA_MIN_MAX_VALUE *pProps) { IMA_GetMaxConnectionsPropertiesFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (pProps == NULL) return (IMA_ERROR_INVALID_PARAMETER); if (Oid.objectType != IMA_OBJECT_TYPE_LHBA && Oid.objectType != IMA_OBJECT_TYPE_TARGET) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == Oid.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_GetMaxConnectionsPropertiesFn) GetProcAddress(plugintable[i].hPlugin, "IMA_GetMaxConnectionsProperties"); #else PassFunc = (IMA_GetMaxConnectionsPropertiesFn) dlsym(plugintable[i].hPlugin, "IMA_GetMaxConnectionsProperties"); #endif if (PassFunc != NULL) { status = PassFunc(Oid, pProps); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_SetMaxConnections( IMA_OID lhbaId, IMA_UINT maxConnections) { IMA_SetMaxConnectionsFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (lhbaId.objectType != IMA_OBJECT_TYPE_LHBA && lhbaId.objectType != IMA_OBJECT_TYPE_TARGET) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == lhbaId.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_SetMaxConnectionsFn) GetProcAddress(plugintable[i].hPlugin, "IMA_SetMaxConnections"); #else PassFunc = (IMA_SetMaxConnectionsFn) dlsym(plugintable[i].hPlugin, "IMA_SetMaxConnections"); #endif if (PassFunc != NULL) { status = PassFunc( lhbaId, maxConnections); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_GetDefaultTime2RetainProperties( IMA_OID lhbaId, IMA_MIN_MAX_VALUE *pProps) { IMA_GetDefaultTime2RetainPropertiesFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (pProps == NULL) return (IMA_ERROR_INVALID_PARAMETER); if (lhbaId.objectType != IMA_OBJECT_TYPE_LHBA && lhbaId.objectType != IMA_OBJECT_TYPE_TARGET) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == lhbaId.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_GetDefaultTime2RetainPropertiesFn) GetProcAddress(plugintable[i].hPlugin, "IMA_GetDefaultTime2RetainProperties"); #else PassFunc = (IMA_GetDefaultTime2RetainPropertiesFn) dlsym(plugintable[i].hPlugin, "IMA_GetDefaultTime2RetainProperties"); #endif if (PassFunc != NULL) { status = PassFunc(lhbaId, pProps); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_SetDefaultTime2Retain( IMA_OID lhbaId, IMA_UINT defaultTime2Retain) { IMA_SetDefaultTime2RetainFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (lhbaId.objectType != IMA_OBJECT_TYPE_LHBA && lhbaId.objectType != IMA_OBJECT_TYPE_TARGET) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == lhbaId.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_SetDefaultTime2RetainFn) GetProcAddress(plugintable[i].hPlugin, "IMA_SetDefaultTime2Retain"); #else PassFunc = (IMA_SetDefaultTime2RetainFn) dlsym(plugintable[i].hPlugin, "IMA_SetDefaultTime2Retain"); #endif if (PassFunc != NULL) { status = PassFunc( lhbaId, defaultTime2Retain); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_GetDefaultTime2WaitProperties( IMA_OID lhbaId, IMA_MIN_MAX_VALUE *pProps) { IMA_GetDefaultTime2WaitPropertiesFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (pProps == NULL) return (IMA_ERROR_INVALID_PARAMETER); if (lhbaId.objectType != IMA_OBJECT_TYPE_LHBA && lhbaId.objectType != IMA_OBJECT_TYPE_TARGET) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == lhbaId.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_GetDefaultTime2WaitPropertiesFn) GetProcAddress(plugintable[i].hPlugin, "IMA_GetDefaultTime2WaitProperties"); #else PassFunc = (IMA_GetDefaultTime2WaitPropertiesFn) dlsym(plugintable[i].hPlugin, "IMA_GetDefaultTime2WaitProperties"); #endif if (PassFunc != NULL) { status = PassFunc(lhbaId, pProps); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_SetDefaultTime2Wait( IMA_OID lhbaId, IMA_UINT defaultTime2Wait) { IMA_SetDefaultTime2WaitFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (lhbaId.objectType != IMA_OBJECT_TYPE_LHBA && lhbaId.objectType != IMA_OBJECT_TYPE_TARGET) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == lhbaId.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_SetDefaultTime2WaitFn) GetProcAddress(plugintable[i].hPlugin, "IMA_SetDefaultTime2Wait"); #else PassFunc = (IMA_SetDefaultTime2WaitFn) dlsym(plugintable[i].hPlugin, "IMA_SetDefaultTime2Wait"); #endif if (PassFunc != NULL) { status = PassFunc( lhbaId, defaultTime2Wait); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_GetMaxOutstandingR2TProperties( IMA_OID Oid, IMA_MIN_MAX_VALUE *pProps) { IMA_GetMaxOutstandingR2TPropertiesFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (pProps == NULL) return (IMA_ERROR_INVALID_PARAMETER); if (Oid.objectType != IMA_OBJECT_TYPE_LHBA && Oid.objectType != IMA_OBJECT_TYPE_TARGET) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == Oid.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_GetMaxOutstandingR2TPropertiesFn) GetProcAddress(plugintable[i].hPlugin, "IMA_GetMaxOutstandingR2TProperties"); #else PassFunc = (IMA_GetMaxOutstandingR2TPropertiesFn) dlsym(plugintable[i].hPlugin, "IMA_GetMaxOutstandingR2TProperties"); #endif if (PassFunc != NULL) { status = PassFunc(Oid, pProps); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_SetMaxOutstandingR2T( IMA_OID lhbaId, IMA_UINT maxOutstandingR2T) { IMA_SetMaxOutstandingR2TFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (lhbaId.objectType != IMA_OBJECT_TYPE_LHBA && lhbaId.objectType != IMA_OBJECT_TYPE_TARGET) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == lhbaId.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_SetMaxOutstandingR2TFn) GetProcAddress(plugintable[i].hPlugin, "IMA_SetMaxOutstandingR2T"); #else PassFunc = (IMA_SetMaxOutstandingR2TFn) dlsym(plugintable[i].hPlugin, "IMA_SetMaxOutstandingR2T"); #endif if (PassFunc != NULL) { status = PassFunc( lhbaId, maxOutstandingR2T); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_GetErrorRecoveryLevelProperties( IMA_OID Oid, IMA_MIN_MAX_VALUE *pProps) { IMA_GetMaxOutstandingR2TPropertiesFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (pProps == NULL) return (IMA_ERROR_INVALID_PARAMETER); if (Oid.objectType != IMA_OBJECT_TYPE_LHBA && Oid.objectType != IMA_OBJECT_TYPE_TARGET) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == Oid.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_GetErrorRecoveryLevelPropertiesFn) GetProcAddress(plugintable[i].hPlugin, "IMA_GetErrorRecoveryLevelProperties"); #else PassFunc = (IMA_GetErrorRecoveryLevelPropertiesFn) dlsym(plugintable[i].hPlugin, "IMA_GetErrorRecoveryLevelProperties"); #endif if (PassFunc != NULL) { status = PassFunc(Oid, pProps); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_SetErrorRecoveryLevel( IMA_OID Oid, IMA_UINT errorRecoveryLevel) { IMA_SetErrorRecoveryLevelFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (Oid.objectType != IMA_OBJECT_TYPE_LHBA && Oid.objectType != IMA_OBJECT_TYPE_TARGET) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == Oid.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_SetErrorRecoveryLevelFn) GetProcAddress(plugintable[i].hPlugin, "IMA_SetErrorRecoveryLevel"); #else PassFunc = (IMA_SetErrorRecoveryLevelFn) dlsym(plugintable[i].hPlugin, "IMA_SetErrorRecoveryLevel"); #endif if (PassFunc != NULL) { status = PassFunc( Oid, errorRecoveryLevel); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_GetInitialR2TProperties( IMA_OID Oid, IMA_BOOL_VALUE *pProps) { IMA_GetInitialR2TPropertiesFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (pProps == NULL) return (IMA_ERROR_INVALID_PARAMETER); if (Oid.objectType != IMA_OBJECT_TYPE_LHBA && Oid.objectType != IMA_OBJECT_TYPE_TARGET) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == Oid.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_GetInitialR2TPropertiesFn) GetProcAddress(plugintable[i].hPlugin, "IMA_GetInitialR2TProperties"); #else PassFunc = (IMA_GetInitialR2TPropertiesFn) dlsym(plugintable[i].hPlugin, "IMA_GetInitialR2TProperties"); #endif if (PassFunc != NULL) { status = PassFunc(Oid, pProps); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_SetInitialR2T( IMA_OID Oid, IMA_BOOL initialR2T) { IMA_SetInitialR2TFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (initialR2T != IMA_TRUE && initialR2T != IMA_FALSE) return (IMA_ERROR_INVALID_PARAMETER); if (Oid.objectType != IMA_OBJECT_TYPE_LHBA && Oid.objectType != IMA_OBJECT_TYPE_TARGET) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == Oid.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_SetInitialR2TFn) GetProcAddress( plugintable[i].hPlugin, "IMA_SetInitialR2T"); #else PassFunc = (IMA_SetInitialR2TFn) dlsym(plugintable[i].hPlugin, "IMA_SetInitialR2T"); #endif if (PassFunc != NULL) { status = PassFunc(Oid, initialR2T); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_GetImmediateDataProperties( IMA_OID Oid, IMA_BOOL_VALUE *pProps) { IMA_GetImmediateDataPropertiesFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (pProps == NULL) return (IMA_ERROR_INVALID_PARAMETER); if (Oid.objectType != IMA_OBJECT_TYPE_LHBA && Oid.objectType != IMA_OBJECT_TYPE_TARGET) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == Oid.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_GetImmediateDataPropertiesFn) GetProcAddress(plugintable[i].hPlugin, "IMA_GetImmediateDataProperties"); #else PassFunc = (IMA_GetImmediateDataPropertiesFn) dlsym(plugintable[i].hPlugin, "IMA_GetImmediateDataProperties"); #endif if (PassFunc != NULL) { status = PassFunc(Oid, pProps); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_SetImmediateData( IMA_OID Oid, IMA_BOOL immediateData) { IMA_SetImmediateDataFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (immediateData != IMA_TRUE && immediateData != IMA_FALSE) return (IMA_ERROR_INVALID_PARAMETER); if (Oid.objectType != IMA_OBJECT_TYPE_LHBA && Oid.objectType != IMA_OBJECT_TYPE_TARGET) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == Oid.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_SetImmediateDataFn) GetProcAddress(plugintable[i].hPlugin, "IMA_SetImmediateData"); #else PassFunc = (IMA_SetImmediateDataFn) dlsym(plugintable[i].hPlugin, "IMA_SetImmediateData"); #endif if (PassFunc != NULL) { status = PassFunc(Oid, immediateData); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_GetDataPduInOrderProperties( IMA_OID Oid, IMA_BOOL_VALUE *pProps) { IMA_GetDataPduInOrderPropertiesFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (pProps == NULL) return (IMA_ERROR_INVALID_PARAMETER); if (Oid.objectType != IMA_OBJECT_TYPE_LHBA && Oid.objectType != IMA_OBJECT_TYPE_TARGET) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == Oid.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_GetDataPduInOrderPropertiesFn) GetProcAddress(plugintable[i].hPlugin, "IMA_GetDataPduInOrderProperties"); #else PassFunc = (IMA_GetDataPduInOrderPropertiesFn) dlsym(plugintable[i].hPlugin, "IMA_GetDataPduInOrderProperties"); #endif if (PassFunc != NULL) { status = PassFunc(Oid, pProps); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_SetDataPduInOrder( IMA_OID Oid, IMA_BOOL dataPduInOrder) { IMA_SetDataPduInOrderFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (dataPduInOrder != IMA_TRUE && dataPduInOrder != IMA_FALSE) return (IMA_ERROR_INVALID_PARAMETER); if (Oid.objectType != IMA_OBJECT_TYPE_LHBA && Oid.objectType != IMA_OBJECT_TYPE_TARGET) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == Oid.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_SetDataPduInOrderFn) GetProcAddress(plugintable[i].hPlugin, "IMA_SetDataPduInOrder"); #else PassFunc = (IMA_SetDataPduInOrderFn) dlsym(plugintable[i].hPlugin, "IMA_SetDataPduInOrder"); #endif if (PassFunc != NULL) { status = PassFunc(Oid, dataPduInOrder); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_GetDataSequenceInOrderProperties( IMA_OID Oid, IMA_BOOL_VALUE *pProps) { IMA_GetDataSequenceInOrderPropertiesFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (pProps == NULL) return (IMA_ERROR_INVALID_PARAMETER); if (Oid.objectType != IMA_OBJECT_TYPE_LHBA && Oid.objectType != IMA_OBJECT_TYPE_TARGET) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == Oid.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_GetDataSequenceInOrderPropertiesFn) GetProcAddress(plugintable[i].hPlugin, "IMA_GetDataSequenceInOrderProperties"); #else PassFunc = (IMA_GetDataSequenceInOrderPropertiesFn) dlsym(plugintable[i].hPlugin, "IMA_GetDataSequenceInOrderProperties"); #endif if (PassFunc != NULL) { status = PassFunc(Oid, pProps); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_SetDataSequenceInOrder( IMA_OID Oid, IMA_BOOL dataSequenceInOrder) { IMA_SetDataSequenceInOrderFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (dataSequenceInOrder != IMA_TRUE && dataSequenceInOrder != IMA_FALSE) return (IMA_ERROR_INVALID_PARAMETER); if (Oid.objectType != IMA_OBJECT_TYPE_LHBA && Oid.objectType != IMA_OBJECT_TYPE_TARGET) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == Oid.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_SetDataSequenceInOrderFn) GetProcAddress(plugintable[i].hPlugin, "IMA_SetDataSequenceInOrder"); #else PassFunc = (IMA_SetDataSequenceInOrderFn) dlsym(plugintable[i].hPlugin, "IMA_SetDataSequenceInOrder"); #endif if (PassFunc != NULL) { status = PassFunc( Oid, dataSequenceInOrder); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_SetStatisticsCollection( IMA_OID Oid, IMA_BOOL enableStatisticsCollection) { IMA_SetStatisticsCollectionFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (enableStatisticsCollection != IMA_TRUE && enableStatisticsCollection != IMA_FALSE) return (IMA_ERROR_INVALID_PARAMETER); if (Oid.objectType != IMA_OBJECT_TYPE_PHBA && Oid.objectType != IMA_OBJECT_TYPE_TARGET) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == Oid.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_SetStatisticsCollectionFn) GetProcAddress(plugintable[i].hPlugin, "IMA_SetStatisticsCollection"); #else PassFunc = (IMA_SetStatisticsCollectionFn) dlsym(plugintable[i].hPlugin, "IMA_SetStatisticsCollection"); #endif if (PassFunc != NULL) { status = PassFunc( Oid, enableStatisticsCollection); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_GetNetworkPortStatus( IMA_OID portOid, IMA_NETWORK_PORT_STATUS *pStatus) { IMA_GetNetworkPortStatusFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (pStatus == NULL) return (IMA_ERROR_INVALID_PARAMETER); if (portOid.objectType != IMA_OBJECT_TYPE_PNP && portOid.objectType != IMA_OBJECT_TYPE_LNP) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == portOid.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_GetNetworkPortStatusFn) GetProcAddress(plugintable[i].hPlugin, "IMA_GetNetworkPortStatus"); #else PassFunc = (IMA_GetNetworkPortStatusFn) dlsym(plugintable[i].hPlugin, "IMA_GetNetworkPortStatus"); #endif if (PassFunc != NULL) { status = PassFunc(portOid, pStatus); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_GetTargetOidList( IMA_OID Oid, IMA_OID_LIST **ppList) { IMA_GetTargetOidListFn PassFunc; IMA_FreeMemoryFn FreeFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (ppList == NULL) return (IMA_ERROR_INVALID_PARAMETER); if (Oid.objectType != IMA_OBJECT_TYPE_LHBA && Oid.objectType != IMA_OBJECT_TYPE_LNP) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == Oid.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_GetTargetOidListFn) GetProcAddress(plugintable[i].hPlugin, "IMA_GetTargetOidList"); #else PassFunc = (IMA_GetTargetOidListFn) dlsym(plugintable[i].hPlugin, "IMA_GetTargetOidList"); #endif if (PassFunc != NULL) { IMA_OID_LIST *ppOidList; IMA_UINT listSize; listSize = sizeof (IMA_OID_LIST); status = PassFunc(Oid, &ppOidList); if (IMA_SUCCESS(status)) { *ppList = (IMA_OID_LIST*)calloc(1, sizeof (IMA_OID_LIST) + ((ppOidList->oidCount - 1)* sizeof (IMA_OID))); if ((*ppList) == NULL) { return (EUOS_ERROR); } else memcpy((*ppList), ppOidList, listSize + (ppOidList-> oidCount - 1)* sizeof (IMA_OID)); #ifdef WIN32 FreeFunc = (IMA_FreeMemoryFn) GetProcAddress( plugintable[i].hPlugin, "IMA_FreeMemory"); #else FreeFunc = (IMA_FreeMemoryFn) dlsym( plugintable[i].hPlugin, "IMA_FreeMemory"); #endif if (FreeFunc != NULL) { FreeFunc(ppOidList); } } } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_RemoveStaleData( IMA_OID lhbaId) { IMA_RemoveStaleDataFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (lhbaId.objectType != IMA_OBJECT_TYPE_LHBA) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == lhbaId.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_RemoveStaleDataFn) GetProcAddress(plugintable[i].hPlugin, "IMA_RemoveStaleData"); #else PassFunc = (IMA_RemoveStaleDataFn) dlsym(plugintable[i].hPlugin, "IMA_RemoveStaleData"); #endif if (PassFunc != NULL) { status = PassFunc(lhbaId); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_SetIsnsDiscovery( IMA_OID phbaId, IMA_BOOL enableIsnsDiscovery, IMA_ISNS_DISCOVERY_METHOD discoveryMethod, const IMA_HOST_ID *iSnsHost) { IMA_SetIsnsDiscoveryFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (enableIsnsDiscovery != IMA_TRUE && enableIsnsDiscovery != IMA_FALSE) return (IMA_ERROR_INVALID_PARAMETER); if (enableIsnsDiscovery == IMA_TRUE && iSnsHost == NULL) return (IMA_ERROR_INVALID_PARAMETER); if (discoveryMethod != IMA_ISNS_DISCOVERY_METHOD_STATIC && discoveryMethod != IMA_ISNS_DISCOVERY_METHOD_DHCP && discoveryMethod != IMA_ISNS_DISCOVERY_METHOD_SLP) return (IMA_ERROR_INVALID_PARAMETER); if (phbaId.objectType != IMA_OBJECT_TYPE_PHBA && phbaId.objectType != IMA_OBJECT_TYPE_LHBA) { return (IMA_ERROR_INCORRECT_OBJECT_TYPE); } os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == phbaId.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_SetIsnsDiscoveryFn) GetProcAddress(plugintable[i].hPlugin, "IMA_SetIsnsDiscovery"); #else PassFunc = (IMA_SetIsnsDiscoveryFn) dlsym(plugintable[i].hPlugin, "IMA_SetIsnsDiscovery"); #endif if (PassFunc != NULL) { status = PassFunc(phbaId, enableIsnsDiscovery, discoveryMethod, iSnsHost); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_SetSlpDiscovery( IMA_OID phbaId, IMA_BOOL enableSlpDiscovery) { IMA_SetSlpDiscoveryFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (enableSlpDiscovery != IMA_TRUE && enableSlpDiscovery != IMA_FALSE) return (IMA_ERROR_INVALID_PARAMETER); if (phbaId.objectType != IMA_OBJECT_TYPE_PHBA && phbaId.objectType != IMA_OBJECT_TYPE_LHBA) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == phbaId.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_SetSlpDiscoveryFn) GetProcAddress(plugintable[i].hPlugin, "IMA_SetSlpDiscovery"); #else PassFunc = (IMA_SetSlpDiscoveryFn) dlsym(plugintable[i].hPlugin, "IMA_SetSlpDiscovery"); #endif if (PassFunc != NULL) { status = PassFunc( phbaId, enableSlpDiscovery); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_SetStaticDiscovery( IMA_OID phbaId, IMA_BOOL enableStaticDiscovery) { IMA_SetStaticDiscoveryFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (enableStaticDiscovery != IMA_TRUE && enableStaticDiscovery != IMA_FALSE) return (IMA_ERROR_INVALID_PARAMETER); if (phbaId.objectType != IMA_OBJECT_TYPE_PHBA && phbaId.objectType != IMA_OBJECT_TYPE_LHBA) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == phbaId.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_SetStaticDiscoveryFn) GetProcAddress(plugintable[i].hPlugin, "IMA_SetStaticDiscovery"); #else PassFunc = (IMA_SetStaticDiscoveryFn) dlsym(plugintable[i].hPlugin, "IMA_SetStaticDiscovery"); #endif if (PassFunc != NULL) { status = PassFunc( phbaId, enableStaticDiscovery); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_SetSendTargetsDiscovery( IMA_OID phbaId, IMA_BOOL enableSendTargetsDiscovery) { IMA_SetSendTargetsDiscoveryFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (enableSendTargetsDiscovery != IMA_TRUE && enableSendTargetsDiscovery != IMA_FALSE) return (IMA_ERROR_INVALID_PARAMETER); if (phbaId.objectType != IMA_OBJECT_TYPE_PHBA && phbaId.objectType != IMA_OBJECT_TYPE_LHBA) { return (IMA_ERROR_INCORRECT_OBJECT_TYPE); } os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == phbaId.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_SetSendTargetsDiscoveryFn) GetProcAddress(plugintable[i].hPlugin, "IMA_SetSendTargetsDiscovery"); #else PassFunc = (IMA_SetSendTargetsDiscoveryFn) dlsym(plugintable[i].hPlugin, "IMA_SetSendTargetsDiscovery"); #endif if (PassFunc != NULL) { status = PassFunc( phbaId, enableSendTargetsDiscovery); } os_releasemutex( plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } /* * this forces plugins to rescan all iscsi targets on this * ipaddress/port and return a * list of discovered targets. * ERROR/todo: * according to IMA spec., pTargetOidList is allocated by * the caller for library to return data, * how does a caller know how much space it will be? * pTargetOidList should be allocated by the library/plugin * like IMA_GetLnpOidList */ IMA_API IMA_STATUS IMA_AddPhbaStaticDiscoveryTarget( IMA_OID phbaOid, const IMA_TARGET_ADDRESS targetAddress, IMA_OID_LIST **pTargetOidList) { IMA_AddPhbaStaticDiscoveryTargetFn PassFunc; IMA_FreeMemoryFn FreeFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == phbaOid.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_AddPhbaStaticDiscoveryTargetFn) GetProcAddress(plugintable[i].hPlugin, "IMA_AddPhbaStaticDiscoveryTarget"); #else PassFunc = (IMA_AddPhbaStaticDiscoveryTargetFn) dlsym(plugintable[i].hPlugin, "IMA_AddPhbaStaticDiscoveryTarget"); #endif if (PassFunc != NULL) { IMA_OID_LIST *ppOidList; IMA_UINT listSize; listSize = sizeof (IMA_OID_LIST); status = PassFunc(phbaOid, targetAddress, &ppOidList); if (IMA_SUCCESS(status)) { (*pTargetOidList) = (IMA_OID_LIST*) calloc(1, listSize + (ppOidList->oidCount-1)* sizeof (IMA_OID)); if ((*pTargetOidList) == NULL) { status = EUOS_ERROR; } memcpy((*pTargetOidList), ppOidList, listSize + (ppOidList->oidCount-1)* sizeof (IMA_OID)); #ifdef WIN32 FreeFunc = (IMA_FreeMemoryFn) GetProcAddress( plugintable[i].hPlugin, "IMA_FreeMemory"); #else FreeFunc = (IMA_FreeMemoryFn) dlsym( plugintable[i].hPlugin, "IMA_FreeMemory"); #endif if (FreeFunc != NULL) { FreeFunc(ppOidList); } } } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_RemovePhbaStaticDiscoveryTarget( IMA_OID phbaOid, IMA_OID targetOid) { IMA_RemovePhbaStaticDiscoveryTargetFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == targetOid.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_RemovePhbaStaticDiscoveryTargetFn) GetProcAddress(plugintable[i].hPlugin, "IMA_RemovePhbaStaticDiscoveryTarget"); #else PassFunc = (IMA_RemovePhbaStaticDiscoveryTargetFn) dlsym(plugintable[i].hPlugin, "IMA_RemovePhbaStaticDiscoveryTarget"); #endif if (PassFunc != NULL) { status = PassFunc(phbaOid, targetOid); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_GetPnpOidList( IMA_OID Oid, IMA_OID_LIST **ppList) { IMA_GetPnpOidListFn PassFunc; IMA_FreeMemoryFn FreeFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (ppList == NULL) return (IMA_ERROR_INVALID_PARAMETER); if (Oid.objectType != IMA_OBJECT_TYPE_PHBA && Oid.objectType != IMA_OBJECT_TYPE_LNP) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == Oid.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_GetPnpOidListFn) GetProcAddress(plugintable[i].hPlugin, "IMA_GetPnpOidList"); #else PassFunc = (IMA_GetPnpOidListFn) dlsym(plugintable[i].hPlugin, "IMA_GetPnpOidList"); #endif if (PassFunc != NULL) { IMA_OID_LIST *ppOidList; status = PassFunc(Oid, &ppOidList); if (IMA_SUCCESS(status)) { IMA_UINT listSize; listSize = sizeof (IMA_OID_LIST); *ppList = (IMA_OID_LIST*) calloc(1, listSize + (ppOidList->oidCount-1)* sizeof (IMA_OID)); if ((*ppList) == NULL) { status = EUOS_ERROR; } else memcpy((*ppList), ppOidList, listSize + (ppOidList-> oidCount - 1)* sizeof (IMA_OID)); #ifdef WIN32 FreeFunc = (IMA_FreeMemoryFn) GetProcAddress( plugintable[i].hPlugin, "IMA_FreeMemory"); #else FreeFunc = (IMA_FreeMemoryFn) dlsym( plugintable[i].hPlugin, "IMA_FreeMemory"); #endif if (FreeFunc != NULL) { FreeFunc(ppOidList); } } } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_GetPhbaDownloadProperties( IMA_OID phbaId, IMA_PHBA_DOWNLOAD_PROPERTIES *pProps) { IMA_GetPhbaDownloadPropertiesFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (pProps == NULL) return (IMA_ERROR_INVALID_PARAMETER); if (phbaId.objectType != IMA_OBJECT_TYPE_PHBA) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == phbaId.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_GetPhbaDownloadPropertiesFn) GetProcAddress(plugintable[i].hPlugin, "IMA_GetPhbaDownloadProperties"); #else PassFunc = (IMA_GetPhbaDownloadPropertiesFn) dlsym(plugintable[i].hPlugin, "IMA_GetPhbaDownloadProperties"); #endif if (PassFunc != NULL) { status = PassFunc(phbaId, pProps); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_IsPhbaDownloadFile( IMA_OID phbaId, const IMA_WCHAR *pFileName, IMA_PHBA_DOWNLOAD_IMAGE_PROPERTIES *pProps) { IMA_IsPhbaDownloadFileFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (pFileName == NULL || pProps == NULL) return (IMA_ERROR_INVALID_PARAMETER); if (phbaId.objectType != IMA_OBJECT_TYPE_PHBA) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == phbaId.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_IsPhbaDownloadFileFn) GetProcAddress(plugintable[i].hPlugin, "IMA_IsPhbaDownloadFile"); #else PassFunc = (IMA_IsPhbaDownloadFileFn) dlsym(plugintable[i].hPlugin, "IMA_IsPhbaDownloadFile"); #endif if (PassFunc != NULL) { status = PassFunc( phbaId, pFileName, pProps); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_PhbaDownload( IMA_OID phbaId, IMA_PHBA_DOWNLOAD_IMAGE_TYPE imageType, const IMA_WCHAR *pFileName) { IMA_PhbaDownloadFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (phbaId.objectType != IMA_OBJECT_TYPE_PHBA) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); if (imageType != IMA_DOWNLOAD_IMAGE_TYPE_FIRMWARE && imageType != IMA_DOWNLOAD_IMAGE_TYPE_OPTION_ROM && imageType != IMA_DOWNLOAD_IMAGE_TYPE_ALL && imageType != IMA_DOWNLOAD_IMAGE_TYPE_BOOTCODE) return (IMA_ERROR_INVALID_PARAMETER); if (pFileName == NULL) return (IMA_ERROR_INVALID_PARAMETER); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == phbaId.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_PhbaDownloadFn) GetProcAddress(plugintable[i].hPlugin, "IMA_PhbaDownload"); #else PassFunc = (IMA_PhbaDownloadFn) dlsym(plugintable[i].hPlugin, "IMA_PhbaDownload"); #endif if (PassFunc != NULL) { status = PassFunc( phbaId, imageType, pFileName); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_GetNetworkPortalProperties( IMA_OID networkPortalId, IMA_NETWORK_PORTAL_PROPERTIES *pProps) { IMA_GetNetworkPortalPropertiesFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (pProps == NULL) return (IMA_ERROR_INVALID_PARAMETER); if (networkPortalId.objectType != IMA_OBJECT_TYPE_NETWORK_PORTAL) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == networkPortalId.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_GetNetworkPortalPropertiesFn) GetProcAddress(plugintable[i].hPlugin, "IMA_GetNetworkPortalProperties"); #else PassFunc = (IMA_GetNetworkPortalPropertiesFn) dlsym(plugintable[i].hPlugin, "IMA_GetNetworkPortalProperties"); #endif if (PassFunc != NULL) { status = PassFunc( networkPortalId, pProps); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_SetNetworkPortalIpAddress( IMA_OID networkPortalId, const IMA_IP_ADDRESS NewIpAddress) { IMA_SetNetworkPortalIpAddressFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (networkPortalId.objectType != IMA_OBJECT_TYPE_NETWORK_PORTAL) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == networkPortalId.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_SetNetworkPortalIpAddressFn) GetProcAddress(plugintable[i].hPlugin, "IMA_SetNetworkPortalIpAddress"); #else PassFunc = (IMA_SetNetworkPortalIpAddressFn) dlsym(plugintable[i].hPlugin, "IMA_SetNetworkPortalIpAddress"); #endif if (PassFunc != NULL) { status = PassFunc( networkPortalId, NewIpAddress); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_GetLnpOidList( IMA_OID_LIST **ppList) { IMA_GetLnpOidListFn PassFunc; IMA_FreeMemoryFn FreeFunc; IMA_UINT i; IMA_UINT j; IMA_UINT totalIdCount; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (ppList == NULL) return (IMA_ERROR_INVALID_PARAMETER); os_obtainmutex(libMutex); // Get total id count first totalIdCount = 0; for (i = 0; i < number_of_plugins; i++) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_GetLnpOidListFn) GetProcAddress(plugintable[i].hPlugin, "IMA_GetLnpOidList"); #else PassFunc = (IMA_GetLnpOidListFn) dlsym(plugintable[i].hPlugin, "IMA_GetLnpOidList"); #endif if (PassFunc != NULL) { IMA_OID_LIST *ppOidList; status = PassFunc(&ppOidList); if (status == IMA_STATUS_SUCCESS) { totalIdCount += ppOidList->oidCount; #ifdef WIN32 FreeFunc = (IMA_FreeMemoryFn) GetProcAddress( plugintable[i].hPlugin, "IMA_FreeMemory"); #else FreeFunc = (IMA_FreeMemoryFn) dlsym(plugintable[i].hPlugin, "IMA_FreeMemory"); #endif if (FreeFunc != NULL) { FreeFunc(ppOidList); } } } os_releasemutex(plugintable[i].pluginMutex); } if (status != IMA_STATUS_SUCCESS) { break; } } *ppList = (IMA_OID_LIST*)calloc(1, sizeof (IMA_OID_LIST) + (totalIdCount - 1)* sizeof (IMA_OID)); if ((*ppList) == NULL) { os_releasemutex(libMutex); return (IMA_ERROR_UNEXPECTED_OS_ERROR); } (*ppList)->oidCount = totalIdCount; // 2nd pass to copy the id lists totalIdCount = 0; status = IMA_STATUS_SUCCESS; for (i = 0; i < number_of_plugins; i++) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_GetLnpOidListFn) GetProcAddress(plugintable[i].hPlugin, "IMA_GetLnpOidList"); #else PassFunc = (IMA_GetLnpOidListFn) dlsym(plugintable[i].hPlugin, "IMA_GetLnpOidList"); #endif if (PassFunc != NULL) { IMA_OID_LIST *ppOidList; status = PassFunc(&ppOidList); if (status == IMA_STATUS_SUCCESS) { for (j = 0; (j < ppOidList->oidCount) && (totalIdCount < (*ppList)->oidCount); j++) { (*ppList)->oids[totalIdCount]. objectType = ppOidList->oids[j]. objectType; (*ppList)->oids[totalIdCount]. objectSequenceNumber = ppOidList->oids[j]. objectSequenceNumber; (*ppList)->oids[totalIdCount]. ownerId = ppOidList->oids[j].ownerId; totalIdCount++; } #ifdef WIN32 FreeFunc = (IMA_FreeMemoryFn) GetProcAddress( plugintable[i].hPlugin, "IMA_FreeMemory"); #else FreeFunc = (IMA_FreeMemoryFn) dlsym(plugintable[i].hPlugin, "IMA_FreeMemory"); #endif if (FreeFunc != NULL) { FreeFunc(ppOidList); } } } os_releasemutex(plugintable[i].pluginMutex); } if (status != IMA_STATUS_SUCCESS) { free(*ppList); break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_GetLnpProperties( IMA_OID lnpId, IMA_LNP_PROPERTIES *pProps) { IMA_GetLnpPropertiesFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (pProps == NULL) return (IMA_ERROR_INVALID_PARAMETER); if (lnpId.objectType != IMA_OBJECT_TYPE_LNP) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == lnpId.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_GetLnpPropertiesFn) GetProcAddress(plugintable[i].hPlugin, "IMA_GetLnpProperties"); #else PassFunc = (IMA_GetLnpPropertiesFn) dlsym(plugintable[i].hPlugin, "IMA_GetLnpProperties"); #endif if (PassFunc != NULL) { status = PassFunc(lnpId, pProps); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_GetPnpProperties( IMA_OID pnpId, IMA_PNP_PROPERTIES *pProps) { IMA_GetPnpPropertiesFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (pProps == NULL) return (IMA_ERROR_INVALID_PARAMETER); if (pnpId.objectType != IMA_OBJECT_TYPE_PNP) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == pnpId.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_GetPnpPropertiesFn) GetProcAddress(plugintable[i].hPlugin, "IMA_GetPnpProperties"); #else PassFunc = (IMA_GetPnpPropertiesFn) dlsym(plugintable[i].hPlugin, "IMA_GetPnpProperties"); #endif if (PassFunc != NULL) { status = PassFunc(pnpId, pProps); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_GetPnpStatistics( IMA_OID pnpId, IMA_PNP_STATISTICS *pStats) { IMA_GetPnpStatisticsFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (pStats == NULL) return (IMA_ERROR_INVALID_PARAMETER); if (pnpId.objectType != IMA_OBJECT_TYPE_PNP) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == pnpId.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_GetPnpStatisticsFn) GetProcAddress(plugintable[i].hPlugin, "IMA_GetPnpStatistics"); #else PassFunc = (IMA_GetPnpStatisticsFn) dlsym(plugintable[i].hPlugin, "IMA_GetPnpStatistics"); #endif if (PassFunc != NULL) { status = PassFunc(pnpId, pStats); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_GetTargetProperties( IMA_OID targetId, IMA_TARGET_PROPERTIES *pProps) { IMA_GetTargetPropertiesFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (pProps == NULL) return (IMA_ERROR_INVALID_PARAMETER); if (targetId.objectType != IMA_OBJECT_TYPE_TARGET) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == targetId.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_GetTargetPropertiesFn) GetProcAddress(plugintable[i].hPlugin, "IMA_GetTargetProperties"); #else PassFunc = (IMA_GetTargetPropertiesFn) dlsym(plugintable[i].hPlugin, "IMA_GetTargetProperties"); #endif if (PassFunc != NULL) { status = PassFunc(targetId, pProps); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_GetSessionProperties( IMA_OID sessionId, IMA_SESSION_PROPERTIES *pProps) { IMA_GetSessionPropertiesFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (pProps == NULL) return (IMA_ERROR_INVALID_PARAMETER); if (sessionId.objectType != IMA_OBJECT_TYPE_SESSION) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == sessionId.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_GetSessionPropertiesFn) GetProcAddress(plugintable[i].hPlugin, "IMA_GetSessionProperties"); #else PassFunc = (IMA_GetSessionPropertiesFn) dlsym(plugintable[i].hPlugin, "IMA_GetSessionProperties"); #endif if (PassFunc != NULL) { status = PassFunc(sessionId, pProps); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_GetConnectionProperties( IMA_OID connectionId, IMA_CONNECTION_PROPERTIES *pProps) { IMA_GetConnectionPropertiesFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (pProps == NULL) return (IMA_ERROR_INVALID_PARAMETER); if (connectionId.objectType != IMA_OBJECT_TYPE_CONNECTION) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == connectionId.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_GetConnectionPropertiesFn) GetProcAddress(plugintable[i].hPlugin, "IMA_GetConnectionProperties"); #else PassFunc = (IMA_GetConnectionPropertiesFn) dlsym(plugintable[i].hPlugin, "IMA_GetConnectionProperties"); #endif if (PassFunc != NULL) { status = PassFunc(connectionId, pProps); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_GetTargetErrorStatistics( IMA_OID targetId, IMA_TARGET_ERROR_STATISTICS *pStats) { IMA_GetTargetErrorStatisticsFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (pStats == NULL) return (IMA_ERROR_INVALID_PARAMETER); if (targetId.objectType != IMA_OBJECT_TYPE_TARGET) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == targetId.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_GetTargetErrorStatisticsFn) GetProcAddress(plugintable[i].hPlugin, "IMA_GetTargetErrorStatistics"); #else PassFunc = (IMA_GetTargetErrorStatisticsFn) dlsym(plugintable[i].hPlugin, "IMA_GetTargetErrorStatistics"); #endif if (PassFunc != NULL) { status = PassFunc(targetId, pStats); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_GetLuOidList( IMA_OID Oid, IMA_OID_LIST **ppList) { IMA_GetLuOidListFn PassFunc; IMA_FreeMemoryFn FreeFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (ppList == NULL) return (IMA_ERROR_INVALID_PARAMETER); if (Oid.objectType != IMA_OBJECT_TYPE_LHBA && Oid.objectType != IMA_OBJECT_TYPE_TARGET) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == Oid.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_GetLuOidListFn) GetProcAddress(plugintable[i].hPlugin, "IMA_GetLuOidList"); #else PassFunc = (IMA_GetLuOidListFn) dlsym(plugintable[i].hPlugin, "IMA_GetLuOidList"); #endif if (PassFunc != NULL) { IMA_OID_LIST *ppOidList; status = PassFunc(Oid, &ppOidList); if (IMA_SUCCESS(status)) { IMA_UINT listSize; listSize = sizeof (IMA_OID_LIST); *ppList = (IMA_OID_LIST*) calloc(1, listSize + (ppOidList->oidCount - 1)* sizeof (IMA_OID)); if ((*ppList) == NULL) { status = EUOS_ERROR; } else memcpy((*ppList), ppOidList, listSize + (ppOidList-> oidCount - 1)* sizeof (IMA_OID)); #ifdef WIN32 FreeFunc = (IMA_FreeMemoryFn) GetProcAddress( plugintable[i].hPlugin, "IMA_FreeMemory"); #else FreeFunc = (IMA_FreeMemoryFn) dlsym( plugintable[i].hPlugin, "IMA_FreeMemory"); #endif if (FreeFunc != NULL) { FreeFunc(ppOidList); } } } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_GetLuOid( IMA_OID targetId, IMA_UINT64 lun, IMA_OID *pluId) { IMA_GetLuOidFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (pluId == NULL) return (IMA_ERROR_INVALID_PARAMETER); if (targetId.objectType != IMA_OBJECT_TYPE_TARGET) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == targetId.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex( plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_GetLuOidFn) GetProcAddress( plugintable[i].hPlugin, "IMA_GetLuOid"); #else PassFunc = (IMA_GetLuOidFn) dlsym(plugintable[i].hPlugin, "IMA_GetLuOid"); #endif if (PassFunc != NULL) { status = PassFunc(targetId, lun, pluId); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_GetLuProperties( IMA_OID luId, IMA_LU_PROPERTIES *pProps) { IMA_GetLuPropertiesFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (pProps == NULL) return (IMA_ERROR_INVALID_PARAMETER); if (luId.objectType != IMA_OBJECT_TYPE_LU) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == luId.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_GetLuPropertiesFn) GetProcAddress(plugintable[i].hPlugin, "IMA_GetLuProperties"); #else PassFunc = (IMA_GetLuPropertiesFn) dlsym(plugintable[i].hPlugin, "IMA_GetLuProperties"); #endif if (PassFunc != NULL) { status = PassFunc(luId, pProps); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_GetStatisticsProperties( IMA_OID oid, IMA_STATISTICS_PROPERTIES *pProps) { IMA_GetStatisticsPropertiesFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (pProps == NULL) return (IMA_ERROR_INVALID_PARAMETER); if (oid.objectType != IMA_OBJECT_TYPE_TARGET && oid.objectType != IMA_OBJECT_TYPE_LU && oid.objectType != IMA_OBJECT_TYPE_PNP) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == oid.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_GetStatisticsPropertiesFn) GetProcAddress(plugintable[i].hPlugin, "IMA_GetStatisticsProperties"); #else PassFunc = (IMA_GetStatisticsPropertiesFn) dlsym(plugintable[i].hPlugin, "IMA_GetStatisticsProperties"); #endif if (PassFunc != NULL) { status = PassFunc(oid, pProps); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_GetDeviceStatistics( IMA_OID oid, IMA_DEVICE_STATISTICS *pStats) { IMA_GetDeviceStatisticsFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (pStats == NULL) return (IMA_ERROR_INVALID_PARAMETER); if (oid.objectType != IMA_OBJECT_TYPE_LU && oid.objectType != IMA_OBJECT_TYPE_TARGET) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == oid.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_GetDeviceStatisticsFn) GetProcAddress(plugintable[i].hPlugin, "IMA_GetDeviceStatistics"); #else PassFunc = (IMA_GetDeviceStatisticsFn) dlsym(plugintable[i].hPlugin, "IMA_GetDeviceStatistics"); #endif if (PassFunc != NULL) { status = PassFunc(oid, pStats); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_LuInquiry( IMA_OID deviceId, IMA_BOOL evpd, IMA_BOOL cmddt, IMA_BYTE pageCode, IMA_BYTE *pOutputBuffer, IMA_UINT *pOutputBufferLength, IMA_BYTE *pSenseBuffer, IMA_UINT *pSenseBufferLength) { IMA_LuInquiryFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (pOutputBuffer == NULL || pOutputBufferLength == NULL || *pOutputBufferLength == 0 || (pSenseBuffer == NULL && pSenseBufferLength != NULL && *pSenseBufferLength != 0)) return (IMA_ERROR_INVALID_PARAMETER); if ((evpd != IMA_TRUE && evpd != IMA_FALSE) || (cmddt != IMA_TRUE && cmddt != IMA_FALSE)) return (IMA_ERROR_INVALID_PARAMETER); if (deviceId.objectType != IMA_OBJECT_TYPE_TARGET && deviceId.objectType != IMA_OBJECT_TYPE_LU) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == deviceId.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_LuInquiryFn) GetProcAddress(plugintable[i].hPlugin, "IMA_LuInquiry"); #else PassFunc = (IMA_LuInquiryFn) dlsym(plugintable[i].hPlugin, "IMA_LuInquiry"); #endif if (PassFunc != NULL) { status = PassFunc(deviceId, evpd, cmddt, pageCode, pOutputBuffer, pOutputBufferLength, pSenseBuffer, pSenseBufferLength); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_LuReadCapacity( IMA_OID deviceId, IMA_UINT cdbLength, IMA_BYTE *pOutputBuffer, IMA_UINT *pOutputBufferLength, IMA_BYTE *pSenseBuffer, IMA_UINT *pSenseBufferLength) { IMA_LuReadCapacityFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (cdbLength != 10 && cdbLength != 16) return (IMA_ERROR_INVALID_PARAMETER); if ((pOutputBuffer == NULL || pOutputBufferLength == NULL || *pOutputBufferLength == 0) || (pSenseBuffer == NULL && pSenseBufferLength != NULL && *pSenseBufferLength != 0)) return (IMA_ERROR_INVALID_PARAMETER); if (deviceId.objectType != IMA_OBJECT_TYPE_TARGET && deviceId.objectType != IMA_OBJECT_TYPE_LU) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == deviceId.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_LuReadCapacityFn) GetProcAddress(plugintable[i].hPlugin, "IMA_LuReadCapacity"); #else PassFunc = (IMA_LuReadCapacityFn) dlsym(plugintable[i].hPlugin, "IMA_LuReadCapacity"); #endif if (PassFunc != NULL) { status = PassFunc(deviceId, cdbLength, pOutputBuffer, pOutputBufferLength, pSenseBuffer, pSenseBufferLength); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_LuReportLuns( IMA_OID deviceId, IMA_BOOL sendToWellKnownLun, IMA_BYTE selectReport, IMA_BYTE *pOutputBuffer, IMA_UINT *pOutputBufferLength, IMA_BYTE *pSenseBuffer, IMA_UINT *pSenseBufferLength) { IMA_LuReportLunsFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if ((pOutputBuffer == NULL || pOutputBufferLength == NULL || *pOutputBufferLength == 0) || (pSenseBuffer == NULL && pSenseBufferLength != NULL && *pSenseBufferLength != 0)) return (IMA_ERROR_INVALID_PARAMETER); if (sendToWellKnownLun != IMA_TRUE && sendToWellKnownLun != IMA_FALSE) return (IMA_ERROR_INVALID_PARAMETER); if (deviceId.objectType != IMA_OBJECT_TYPE_TARGET && deviceId.objectType != IMA_OBJECT_TYPE_LU) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == deviceId.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_LuReportLunsFn) GetProcAddress(plugintable[i].hPlugin, "IMA_LuReportLuns"); #else PassFunc = (IMA_LuReportLunsFn) dlsym(plugintable[i].hPlugin, "IMA_LuReportLuns"); #endif if (PassFunc != NULL) { status = PassFunc(deviceId, sendToWellKnownLun, selectReport, pOutputBuffer, pOutputBufferLength, pSenseBuffer, pSenseBufferLength); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_ExposeLu( IMA_OID luId) { IMA_ExposeLuFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (luId.objectType != IMA_OBJECT_TYPE_LU) return (IMA_ERROR_INVALID_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == luId.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_ExposeLuFn) GetProcAddress(plugintable[i].hPlugin, "IMA_ExposeLu"); #else PassFunc = (IMA_ExposeLuFn) dlsym(plugintable[i].hPlugin, "IMA_ExposeLu"); #endif if (PassFunc != NULL) { status = PassFunc(luId); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_UnexposeLu( IMA_OID luId) { IMA_UnexposeLuFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (luId.objectType != IMA_OBJECT_TYPE_LU) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == luId.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_UnexposeLuFn) GetProcAddress(plugintable[i].hPlugin, "IMA_UnexposeLu"); #else PassFunc = (IMA_UnexposeLuFn) dlsym(plugintable[i].hPlugin, "IMA_UnexposeLu"); #endif if (PassFunc != NULL) { status = PassFunc(luId); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_GetPhbaStatus( IMA_OID hbaId, IMA_PHBA_STATUS *pStatus) { IMA_GetPhbaStatusFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (pStatus == NULL) return (IMA_ERROR_INVALID_PARAMETER); if (hbaId.objectType != IMA_OBJECT_TYPE_PHBA) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == hbaId.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_GetPhbaStatusFn) GetProcAddress(plugintable[i].hPlugin, "IMA_GetPhbaStatus"); #else PassFunc = (IMA_GetPhbaStatusFn) dlsym(plugintable[i].hPlugin, "IMA_GetPhbaStatus"); #endif if (PassFunc != NULL) { status = PassFunc(hbaId, pStatus); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_RegisterForObjectVisibilityChanges( IMA_OBJECT_VISIBILITY_FN pClientFn) { IMA_RegisterForObjectVisibilityChangesFn PassFunc; IMA_UINT i; IMA_UINT j; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (pClientFn == NULL) return (IMA_ERROR_INVALID_PARAMETER); os_obtainmutex(libMutex); status = IMA_STATUS_SUCCESS; for (i = 0; i < number_of_plugins; i++) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); if (plugintable[i].number_of_vbcallbacks >= IMA_MAX_CALLBACK_PER_PLUGIN) { os_releasemutex(plugintable[i].pluginMutex); continue; } /* check if registered already */ for (j = 0; j < plugintable[i].number_of_vbcallbacks; j++) { if (plugintable[i].vbcallback[j] == pClientFn) { status = IMA_STATUS_SUCCESS; break; } } if (status != IMA_STATUS_SUCCESS) { #ifdef WIN32 PassFunc = (IMA_RegisterForObjectVisibilityChangesFn) GetProcAddress(plugintable[i].hPlugin, "IMA_RegisterForObjectVisibilityChanges"); #else PassFunc = (IMA_RegisterForObjectVisibilityChangesFn) dlsym(plugintable[i].hPlugin, "IMA_RegisterForObjectVisibilityChanges"); #endif if (PassFunc != NULL) { status = PassFunc(VisibilityCallback); if (status == IMA_STATUS_SUCCESS) { j = plugintable[i]. number_of_vbcallbacks; plugintable[i].vbcallback[j] = pClientFn; plugintable[i]. number_of_vbcallbacks++; } } } os_releasemutex(plugintable[i].pluginMutex); } if (status != IMA_STATUS_SUCCESS) break; } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_DeregisterForObjectVisibilityChanges( IMA_OBJECT_VISIBILITY_FN pClientFn) { IMA_DeregisterForObjectVisibilityChangesFn PassFunc; IMA_UINT i; IMA_UINT j; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (pClientFn == NULL) return (IMA_ERROR_INVALID_PARAMETER); os_obtainmutex(libMutex); status = IMA_STATUS_SUCCESS; for (i = 0; i < number_of_plugins; i++) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); /* check if deregistered already */ status = IMA_STATUS_SUCCESS; for (j = 0; j < plugintable[i].number_of_vbcallbacks; j++) { if (plugintable[i].vbcallback[j] == pClientFn) { /* * use IMA_ERROR_UNKNOWN_ERROR * as a flag */ status = IMA_ERROR_UNKNOWN_ERROR; break; } } if (status != IMA_STATUS_SUCCESS) { #ifdef WIN32 PassFunc = (IMA_DeregisterForObjectVisibilityChangesFn) GetProcAddress(plugintable[i].hPlugin, "IMA_DeregisterForObjectVisibilityChanges"); #else PassFunc = (IMA_DeregisterForObjectVisibilityChangesFn) dlsym(plugintable[i].hPlugin, "IMA_DeregisterForObjectVisibilityChanges"); #endif if (PassFunc != NULL) { status = PassFunc(VisibilityCallback); if (status == IMA_STATUS_SUCCESS) { /* * where plugintable[i]. * vbcallback[j] == pClientFn */ for (; j < plugintable[i]. number_of_vbcallbacks; j++) { plugintable[i]. vbcallback[j] = plugintable[i]. vbcallback[j+1]; } plugintable[i]. number_of_vbcallbacks--; } } } os_releasemutex(plugintable[i].pluginMutex); } if (status != IMA_STATUS_SUCCESS) break; } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_RegisterForObjectPropertyChanges( IMA_OBJECT_PROPERTY_FN pClientFn) { IMA_RegisterForObjectPropertyChangesFn PassFunc; IMA_UINT i; IMA_UINT j; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (pClientFn == NULL) return (IMA_ERROR_INVALID_PARAMETER); os_obtainmutex(libMutex); status = IMA_STATUS_SUCCESS; for (i = 0; i < number_of_plugins; i++) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); if (plugintable[i].number_of_pccallbacks >= IMA_MAX_CALLBACK_PER_PLUGIN) { os_releasemutex(plugintable[i].pluginMutex); continue; } /* check if registered already */ for (j = 0; j < plugintable[i].number_of_pccallbacks; j++) { if (plugintable[i].pccallback[j] == pClientFn) { status = IMA_STATUS_SUCCESS; break; } } if (status != IMA_STATUS_SUCCESS) { #ifdef WIN32 PassFunc = (IMA_RegisterForObjectPropertyChangesFn) GetProcAddress(plugintable[i].hPlugin, "IMA_RegisterForObjectPropertyChanges"); #else PassFunc = (IMA_RegisterForObjectPropertyChangesFn) dlsym(plugintable[i].hPlugin, "IMA_RegisterForObjectPropertyChanges"); #endif if (PassFunc != NULL) { status = PassFunc(PropertyCallback); if (status == IMA_STATUS_SUCCESS) { j = plugintable[i]. number_of_pccallbacks; plugintable[i].pccallback[j] = pClientFn; plugintable[i]. number_of_pccallbacks++; } } } os_releasemutex(plugintable[i].pluginMutex); } if (status != IMA_STATUS_SUCCESS) break; } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_DeregisterForObjectPropertyChanges( IMA_OBJECT_PROPERTY_FN pClientFn) { IMA_DeregisterForObjectPropertyChangesFn PassFunc; IMA_UINT i; IMA_UINT j; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (pClientFn == NULL) return (IMA_ERROR_INVALID_PARAMETER); os_obtainmutex(libMutex); status = IMA_STATUS_SUCCESS; for (i = 0; i < number_of_plugins; i++) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); /* check if deregistered already */ status = IMA_STATUS_SUCCESS; for (j = 0; j < plugintable[i].number_of_pccallbacks; j++) { if (plugintable[i].pccallback[j] == pClientFn) { /* * use IMA_ERROR_UNKNOWN_ERROR * as a flag */ status = IMA_ERROR_UNKNOWN_ERROR; break; } } if (status != IMA_STATUS_SUCCESS) { #ifdef WIN32 PassFunc = (IMA_DeregisterForObjectPropertyChangesFn) GetProcAddress(plugintable[i].hPlugin, "IMA_DeregisterForObjectPropertyChanges"); #else PassFunc = (IMA_DeregisterForObjectPropertyChangesFn) dlsym(plugintable[i].hPlugin, "IMA_DeregisterForObjectPropertyChanges"); #endif if (PassFunc != NULL) { status = PassFunc(PropertyCallback); if (status == IMA_STATUS_SUCCESS) { /* * where plugintable[i].vbcallback[ * j] == pClientFn */ for (; j < plugintable[i]. number_of_pccallbacks; j++) { plugintable[i]. pccallback[j] = plugintable[i]. pccallback[j+1]; } plugintable[i]. number_of_pccallbacks--; } } } os_releasemutex(plugintable[i].pluginMutex); } if (status != IMA_STATUS_SUCCESS) break; } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_GetIpProperties( IMA_OID oid, IMA_IP_PROPERTIES *pProps) { IMA_GetIpPropertiesFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (pProps == NULL) return (IMA_ERROR_INVALID_PARAMETER); if (oid.objectType != IMA_OBJECT_TYPE_PNP) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == oid.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_GetIpPropertiesFn) GetProcAddress(plugintable[i].hPlugin, "IMA_GetIpProperties"); #else PassFunc = (IMA_GetIpPropertiesFn) dlsym(plugintable[i].hPlugin, "IMA_GetIpProperties"); #endif if (PassFunc != NULL) { status = PassFunc(oid, pProps); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_SetIpConfigMethod( IMA_OID oid, IMA_BOOL enableDhcpIpConfiguration) { IMA_SetIpConfigMethodFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (enableDhcpIpConfiguration != IMA_TRUE && enableDhcpIpConfiguration != IMA_FALSE) return (IMA_ERROR_INVALID_PARAMETER); if (oid.objectType != IMA_OBJECT_TYPE_PNP) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == oid.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_SetIpConfigMethodFn) GetProcAddress(plugintable[i].hPlugin, "IMA_SetIpConfigMethod"); #else PassFunc = (IMA_SetIpConfigMethodFn) dlsym(plugintable[i].hPlugin, "IMA_SetIpConfigMethod"); #endif if (PassFunc != NULL) { status = PassFunc(oid, enableDhcpIpConfiguration); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_SetSubnetMask( IMA_OID oid, IMA_IP_ADDRESS subnetMask) { IMA_SetSubnetMaskFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (oid.objectType != IMA_OBJECT_TYPE_PNP) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == oid.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_SetSubnetMaskFn) GetProcAddress(plugintable[i].hPlugin, "IMA_SetSubnetMask"); #else PassFunc = (IMA_SetSubnetMaskFn) dlsym(plugintable[i].hPlugin, "IMA_SetSubnetMask"); #endif if (PassFunc != NULL) { status = PassFunc(oid, subnetMask); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_SetDnsServerAddress( IMA_OID oid, const IMA_IP_ADDRESS *primaryDnsServerAddress, const IMA_IP_ADDRESS *alternateDnsServerAddress) { IMA_SetDnsServerAddressFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (primaryDnsServerAddress == NULL && alternateDnsServerAddress != NULL) return (IMA_ERROR_INVALID_PARAMETER); if (primaryDnsServerAddress != NULL && alternateDnsServerAddress != NULL && memcmp(primaryDnsServerAddress->ipAddress, alternateDnsServerAddress->ipAddress, sizeof (primaryDnsServerAddress->ipAddress)) == 0) return (IMA_ERROR_INVALID_PARAMETER); if (oid.objectType != IMA_OBJECT_TYPE_PNP) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == oid.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_SetDnsServerAddressFn) GetProcAddress(plugintable[i].hPlugin, "IMA_SetDnsServerAddress"); #else PassFunc = (IMA_SetDnsServerAddressFn) dlsym(plugintable[i].hPlugin, "IMA_SetDnsServerAddress"); #endif if (PassFunc != NULL) { status = PassFunc(oid, primaryDnsServerAddress, alternateDnsServerAddress); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_SetDefaultGateway( IMA_OID oid, IMA_IP_ADDRESS defaultGateway) { IMA_SetDefaultGatewayFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (oid.objectType != IMA_OBJECT_TYPE_PNP) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == oid.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_SetDefaultGatewayFn) GetProcAddress(plugintable[i].hPlugin, "IMA_SetDefaultGateway"); #else PassFunc = (IMA_SetDefaultGatewayFn) dlsym(plugintable[i].hPlugin, "IMA_SetDefaultGateway"); #endif if (PassFunc != NULL) { status = PassFunc(oid, defaultGateway); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_GetSupportedAuthMethods( IMA_OID lhbaOid, IMA_BOOL getSettableMethods, IMA_UINT *pMethodCount, IMA_AUTHMETHOD *pMethodList) { IMA_GetSupportedAuthMethodsFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (pMethodCount == NULL) return (IMA_ERROR_INVALID_PARAMETER); if (lhbaOid.objectType != IMA_OBJECT_TYPE_LHBA) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == lhbaOid.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_GetSupportedAuthMethodsFn) GetProcAddress(plugintable[i].hPlugin, "IMA_GetSupportedAuthMethods"); #else PassFunc = (IMA_GetSupportedAuthMethodsFn) dlsym(plugintable[i].hPlugin, "IMA_GetSupportedAuthMethods"); #endif if (PassFunc != NULL) { status = PassFunc(lhbaOid, getSettableMethods, pMethodCount, pMethodList); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_GetInUseInitiatorAuthMethods( IMA_OID lhbaOid, IMA_UINT *pMethodCount, IMA_AUTHMETHOD *pMethodList) { IMA_GetInUseInitiatorAuthMethodsFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (pMethodCount == NULL) return (IMA_ERROR_INVALID_PARAMETER); if (lhbaOid.objectType != IMA_OBJECT_TYPE_LHBA) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == lhbaOid.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_GetInUseInitiatorAuthMethodsFn) GetProcAddress(plugintable[i].hPlugin, "IMA_GetInUseInitiatorAuthMethods"); #else PassFunc = (IMA_GetInUseInitiatorAuthMethodsFn) dlsym(plugintable[i].hPlugin, "IMA_GetInUseInitiatorAuthMethods"); #endif if (PassFunc != NULL) { status = PassFunc(lhbaOid, pMethodCount, pMethodList); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_GetInitiatorAuthParms( IMA_OID lhbaOid, IMA_AUTHMETHOD method, IMA_INITIATOR_AUTHPARMS *pParms) { IMA_GetInitiatorAuthParmsFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (pParms == NULL) return (IMA_ERROR_INVALID_PARAMETER); if (lhbaOid.objectType != IMA_OBJECT_TYPE_LHBA) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); if (method != IMA_AUTHMETHOD_NONE && method != IMA_AUTHMETHOD_CHAP && method != IMA_AUTHMETHOD_SRP && method != IMA_AUTHMETHOD_KRB5 && method != IMA_AUTHMETHOD_SPKM1 && method != IMA_AUTHMETHOD_SPKM2) return (IMA_ERROR_INVALID_PARAMETER); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == lhbaOid.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_GetInitiatorAuthParmsFn) GetProcAddress(plugintable[i].hPlugin, "IMA_GetInitiatorAuthParms"); #else PassFunc = (IMA_GetInitiatorAuthParmsFn) dlsym(plugintable[i].hPlugin, "IMA_GetInitiatorAuthParms"); #endif if (PassFunc != NULL) { status = PassFunc(lhbaOid, method, pParms); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_SetInitiatorAuthMethods( IMA_OID lhbaOid, IMA_UINT methodCount, const IMA_AUTHMETHOD *pMethodList) { IMA_SetInitiatorAuthMethodsFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (methodCount == 0 || pMethodList == NULL) return (IMA_ERROR_INVALID_PARAMETER); if (lhbaOid.objectType != IMA_OBJECT_TYPE_LHBA) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == lhbaOid.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_SetInitiatorAuthMethodsFn) GetProcAddress(plugintable[i].hPlugin, "IMA_SetInitiatorAuthMethods"); #else PassFunc = (IMA_SetInitiatorAuthMethodsFn) dlsym(plugintable[i].hPlugin, "IMA_SetInitiatorAuthMethods"); #endif if (PassFunc != NULL) { status = PassFunc(lhbaOid, methodCount, pMethodList); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_SetInitiatorAuthParms( IMA_OID lhbaOid, IMA_AUTHMETHOD method, const IMA_INITIATOR_AUTHPARMS *pParms) { IMA_SetInitiatorAuthParmsFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (pParms == NULL) return (IMA_ERROR_INVALID_PARAMETER); if (method != IMA_AUTHMETHOD_NONE && method != IMA_AUTHMETHOD_CHAP && method != IMA_AUTHMETHOD_SRP && method != IMA_AUTHMETHOD_KRB5 && method != IMA_AUTHMETHOD_SPKM1 && method != IMA_AUTHMETHOD_SPKM2) return (IMA_ERROR_INVALID_PARAMETER); if (lhbaOid.objectType != IMA_OBJECT_TYPE_LHBA) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == lhbaOid.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_SetInitiatorAuthParmsFn) GetProcAddress(plugintable[i].hPlugin, "IMA_SetInitiatorAuthParms"); #else PassFunc = (IMA_SetInitiatorAuthParmsFn) dlsym(plugintable[i].hPlugin, "IMA_SetInitiatorAuthParms"); #endif if (PassFunc != NULL) { status = PassFunc( lhbaOid, method, pParms); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_GetStaticDiscoveryTargetOidList( IMA_OID oid, IMA_OID_LIST **ppList) { IMA_GetStaticDiscoveryTargetOidListFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (ppList == NULL) return (IMA_ERROR_INVALID_PARAMETER); if (oid.objectType != IMA_OBJECT_TYPE_LHBA && oid.objectType != IMA_OBJECT_TYPE_PNP) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == oid.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_GetStaticDiscoveryTargetOidListFn) GetProcAddress(plugintable[i].hPlugin, "IMA_GetStaticDiscoveryTargetOidList"); #else PassFunc = (IMA_GetStaticDiscoveryTargetOidListFn) dlsym(plugintable[i].hPlugin, "IMA_GetStaticDiscoveryTargetOidList"); #endif if (PassFunc != NULL) { status = PassFunc(oid, ppList); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_GetDiscoveryProperties( IMA_OID oid, IMA_DISCOVERY_PROPERTIES *pProps) { IMA_GetDiscoveryPropertiesFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (pProps == NULL) return (IMA_ERROR_INVALID_PARAMETER); if (oid.objectType != IMA_OBJECT_TYPE_PHBA && oid.objectType != IMA_OBJECT_TYPE_LHBA) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == oid.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_GetDiscoveryPropertiesFn) GetProcAddress(plugintable[i].hPlugin, "IMA_GetDiscoveryProperties"); #else PassFunc = (IMA_GetDiscoveryPropertiesFn) dlsym(plugintable[i].hPlugin, "IMA_GetDiscoveryProperties"); #endif if (PassFunc != NULL) { status = PassFunc(oid, pProps); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_AddDiscoveryAddress( IMA_OID oid, const IMA_TARGET_ADDRESS discoveryAddress, IMA_OID *pDiscoveryAddressOid) { IMA_AddDiscoveryAddressFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (oid.objectType != IMA_OBJECT_TYPE_LHBA && oid.objectType != IMA_OBJECT_TYPE_PNP) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == oid.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_AddDiscoveryAddressFn) GetProcAddress(plugintable[i].hPlugin, "IMA_AddDiscoveryAddress"); #else PassFunc = (IMA_AddDiscoveryAddressFn) dlsym(plugintable[i].hPlugin, "IMA_AddDiscoveryAddress"); #endif if (PassFunc != NULL) { status = PassFunc(oid, discoveryAddress, pDiscoveryAddressOid); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_AddStaticDiscoveryTarget( IMA_OID oid, const IMA_STATIC_DISCOVERY_TARGET staticDiscoveryTarget, IMA_OID *pStaticDiscoveryTargetOid) { IMA_AddStaticDiscoveryTargetFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (oid.objectType != IMA_OBJECT_TYPE_LHBA && oid.objectType != IMA_OBJECT_TYPE_PNP) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == oid.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_AddStaticDiscoveryTargetFn) GetProcAddress(plugintable[i].hPlugin, "IMA_AddStaticDiscoveryTarget"); #else PassFunc = (IMA_AddStaticDiscoveryTargetFn) dlsym(plugintable[i].hPlugin, "IMA_AddStaticDiscoveryTarget"); #endif if (PassFunc != NULL) { status = PassFunc(oid, staticDiscoveryTarget, pStaticDiscoveryTargetOid); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_CommitHbaParameters(IMA_OID oid, IMA_COMMIT_LEVEL commitLevel) { IMA_CommitHbaParametersFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (oid.objectType != IMA_OBJECT_TYPE_LHBA && oid.objectType != IMA_OBJECT_TYPE_PHBA) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == oid.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_CommitHbaParametersFn) GetProcAddress(plugintable[i].hPlugin, "IMA_CommitHbaParameters"); #else PassFunc = (IMA_CommitHbaParametersFn) dlsym(plugintable[i].hPlugin, "IMA_CommitHbaParameters"); #endif if (PassFunc != NULL) { status = PassFunc(oid, commitLevel); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_RemoveStaticDiscoveryTarget( IMA_OID oid) { IMA_RemoveStaticDiscoveryTargetFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (oid.objectType != IMA_OBJECT_TYPE_STATIC_DISCOVERY_TARGET) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == oid.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_RemoveStaticDiscoveryTargetFn) GetProcAddress(plugintable[i].hPlugin, "IMA_RemoveStaticDiscoveryTarget"); #else PassFunc = (IMA_RemoveStaticDiscoveryTargetFn) dlsym(plugintable[i].hPlugin, "IMA_RemoveStaticDiscoveryTarget"); #endif if (PassFunc != NULL) { status = PassFunc(oid); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_GetStaticDiscoveryTargetProperties( IMA_OID staticDiscoveryTargetOid, IMA_STATIC_DISCOVERY_TARGET_PROPERTIES *pProps) { IMA_GetStaticDiscoveryTargetPropertiesFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (pProps == NULL) return (IMA_ERROR_INVALID_PARAMETER); if (staticDiscoveryTargetOid.objectType != IMA_OBJECT_TYPE_STATIC_DISCOVERY_TARGET) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == staticDiscoveryTargetOid.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_GetStaticDiscoveryTargetPropertiesFn) GetProcAddress(plugintable[i].hPlugin, "IMA_GetStaticDiscoveryTargetProperties"); #else PassFunc = (IMA_GetStaticDiscoveryTargetPropertiesFn) dlsym(plugintable[i].hPlugin, "IMA_GetStaticDiscoveryTargetProperties"); #endif if (PassFunc != NULL) { status = PassFunc( staticDiscoveryTargetOid, pProps); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_GetDiscoveryAddressOidList( IMA_OID Oid, IMA_OID_LIST **ppList) { IMA_GetDiscoveryAddressOidListFn PassFunc; IMA_FreeMemoryFn FreeFunc; IMA_UINT i; IMA_UINT j; IMA_UINT totalIdCount; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (ppList == NULL) return (IMA_ERROR_INVALID_PARAMETER); if ((Oid.objectType != IMA_OBJECT_TYPE_LHBA) && (Oid.objectType != IMA_OBJECT_TYPE_PNP)) { return (IMA_ERROR_INCORRECT_OBJECT_TYPE); } os_obtainmutex(libMutex); // Get total id count first totalIdCount = 0; status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == Oid.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_GetDiscoveryAddressOidListFn) GetProcAddress(plugintable[i].hPlugin, "IMA_GetDiscoveryAddressOidList"); #else PassFunc = (IMA_GetDiscoveryAddressOidListFn) dlsym(plugintable[i].hPlugin, "IMA_GetDiscoveryAddressOidList"); #endif if (PassFunc != NULL) { IMA_OID_LIST *ppOidList; status = PassFunc(Oid, &ppOidList); if (status == IMA_STATUS_SUCCESS) { totalIdCount += ppOidList->oidCount; #ifdef WIN32 FreeFunc = (IMA_FreeMemoryFn) GetProcAddress( plugintable[i].hPlugin, "IMA_FreeMemory"); #else FreeFunc = (IMA_FreeMemoryFn) dlsym( plugintable[i].hPlugin, "IMA_FreeMemory"); #endif if (FreeFunc != NULL) { FreeFunc(ppOidList); } } } os_releasemutex(plugintable[i].pluginMutex); } if (status != IMA_STATUS_SUCCESS) { break; } } } *ppList = (IMA_OID_LIST*)calloc(1, sizeof (IMA_OID_LIST) + (totalIdCount - 1)* sizeof (IMA_OID)); if ((*ppList) == NULL) { os_releasemutex(libMutex); return (IMA_ERROR_UNEXPECTED_OS_ERROR); } (*ppList)->oidCount = totalIdCount; // 2nd pass to copy the id lists totalIdCount = 0; status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == Oid.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_GetDiscoveryAddressOidListFn) GetProcAddress(plugintable[i].hPlugin, "IMA_GetDiscoveryAddressOidList"); #else PassFunc = (IMA_GetDiscoveryAddressOidListFn) dlsym(plugintable[i].hPlugin, "IMA_GetDiscoveryAddressOidList"); #endif if (PassFunc != NULL) { IMA_OID_LIST *ppOidList; status = PassFunc(Oid, &ppOidList); if (status == IMA_STATUS_SUCCESS) { for (j = 0; (j < ppOidList->oidCount) && (totalIdCount < (*ppList)->oidCount); j++) { #define OBJ_SEQ_NUM ppOidList->oids[j].objectSequenceNumber (*ppList)->oids [totalIdCount]. objectType = ppOidList->oids[j]. objectType; (*ppList)->oids[ totalIdCount]. objectSequenceNumber = OBJ_SEQ_NUM; (*ppList)->oids[ totalIdCount]. ownerId = ppOidList-> oids[j].ownerId; totalIdCount++; #undef OBJ_SEQ_NUM } #ifdef WIN32 FreeFunc = (IMA_FreeMemoryFn) GetProcAddress( plugintable[i].hPlugin, "IMA_FreeMemory"); #else FreeFunc = (IMA_FreeMemoryFn) dlsym( plugintable[i].hPlugin, "IMA_FreeMemory"); #endif if (FreeFunc != NULL) { FreeFunc(ppOidList); } } } os_releasemutex(plugintable[i].pluginMutex); } if (status != IMA_STATUS_SUCCESS) { free(*ppList); break; } } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_GetSessionOidList( IMA_OID Oid, IMA_OID_LIST **ppList) { IMA_GetSessionOidListFn PassFunc; IMA_FreeMemoryFn FreeFunc; IMA_UINT i; IMA_UINT j; IMA_UINT totalIdCount; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (ppList == NULL) return (IMA_ERROR_INVALID_PARAMETER); if ((Oid.objectType != IMA_OBJECT_TYPE_LHBA) && (Oid.objectType != IMA_OBJECT_TYPE_TARGET)) { return (IMA_ERROR_INCORRECT_OBJECT_TYPE); } os_obtainmutex(libMutex); // Get total id count first totalIdCount = 0; status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == Oid.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_GetSessionOidListFn) GetProcAddress(plugintable[i].hPlugin, "IMA_GetSessionOidList"); #else PassFunc = (IMA_GetSessionOidListFn) dlsym(plugintable[i].hPlugin, "IMA_GetSessionOidList"); #endif if (PassFunc != NULL) { IMA_OID_LIST *ppOidList; status = PassFunc(Oid, &ppOidList); if (status == IMA_STATUS_SUCCESS) { totalIdCount += ppOidList->oidCount; #ifdef WIN32 FreeFunc = (IMA_FreeMemoryFn) GetProcAddress( plugintable[i].hPlugin, "IMA_FreeMemory"); #else FreeFunc = (IMA_FreeMemoryFn) dlsym( plugintable[i].hPlugin, "IMA_FreeMemory"); #endif if (FreeFunc != NULL) { FreeFunc(ppOidList); } } } os_releasemutex(plugintable[i].pluginMutex); } if (status != IMA_STATUS_SUCCESS) { break; } } } *ppList = (IMA_OID_LIST*)calloc(1, sizeof (IMA_OID_LIST) + (totalIdCount - 1)* sizeof (IMA_OID)); if ((*ppList) == NULL) { os_releasemutex(libMutex); return (IMA_ERROR_UNEXPECTED_OS_ERROR); } (*ppList)->oidCount = totalIdCount; // 2nd pass to copy the id lists totalIdCount = 0; status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == Oid.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_GetSessionOidListFn) GetProcAddress(plugintable[i].hPlugin, "IMA_GetSessionOidList"); #else PassFunc = (IMA_GetSessionOidListFn) dlsym(plugintable[i].hPlugin, "IMA_GetSessionOidList"); #endif if (PassFunc != NULL) { IMA_OID_LIST *ppOidList; status = PassFunc(Oid, &ppOidList); if (status == IMA_STATUS_SUCCESS) { for (j = 0; (j < ppOidList->oidCount) && (totalIdCount < (*ppList)->oidCount); j++) { #define OBJ_SEQ_NUM ppOidList->oids[j].objectSequenceNumber (*ppList)->oids[ totalIdCount]. objectType = ppOidList->oids[j]. objectType; (*ppList)->oids[ totalIdCount]. objectSequenceNumber = OBJ_SEQ_NUM; (*ppList)->oids[ totalIdCount]. ownerId = ppOidList->oids[j]. ownerId; totalIdCount++; #undef OBJ_SEQ_NUM } #ifdef WIN32 FreeFunc = (IMA_FreeMemoryFn) GetProcAddress( plugintable[i].hPlugin, "IMA_FreeMemory"); #else FreeFunc = (IMA_FreeMemoryFn) dlsym( plugintable[i].hPlugin, "IMA_FreeMemory"); #endif if (FreeFunc != NULL) { FreeFunc(ppOidList); } } } os_releasemutex(plugintable[i].pluginMutex); } if (status != IMA_STATUS_SUCCESS) { free(*ppList); break; } } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_GetConnectionOidList( IMA_OID Oid, IMA_OID_LIST **ppList) { IMA_GetSessionOidListFn PassFunc; IMA_FreeMemoryFn FreeFunc; IMA_UINT i; IMA_UINT j; IMA_UINT totalIdCount; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (ppList == NULL) return (IMA_ERROR_INVALID_PARAMETER); if (Oid.objectType != IMA_OBJECT_TYPE_SESSION) { return (IMA_ERROR_INCORRECT_OBJECT_TYPE); } os_obtainmutex(libMutex); // Get total id count first totalIdCount = 0; status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == Oid.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_GetConnectionOidListFn) GetProcAddress(plugintable[i].hPlugin, "IMA_GetConnectionOidList"); #else PassFunc = (IMA_GetConnectionOidListFn) dlsym(plugintable[i].hPlugin, "IMA_GetConnectionOidList"); #endif if (PassFunc != NULL) { IMA_OID_LIST *ppOidList; status = PassFunc(Oid, &ppOidList); if (status == IMA_STATUS_SUCCESS) { totalIdCount += ppOidList->oidCount; #ifdef WIN32 FreeFunc = (IMA_FreeMemoryFn) GetProcAddress( plugintable[i].hPlugin, "IMA_FreeMemory"); #else FreeFunc = (IMA_FreeMemoryFn) dlsym( plugintable[i].hPlugin, "IMA_FreeMemory"); #endif if (FreeFunc != NULL) { FreeFunc(ppOidList); } } } os_releasemutex(plugintable[i].pluginMutex); } if (status != IMA_STATUS_SUCCESS) { break; } } } *ppList = (IMA_OID_LIST*)calloc(1, sizeof (IMA_OID_LIST) + (totalIdCount - 1)* sizeof (IMA_OID)); if ((*ppList) == NULL) { os_releasemutex(libMutex); return (IMA_ERROR_UNEXPECTED_OS_ERROR); } (*ppList)->oidCount = totalIdCount; // 2nd pass to copy the id lists totalIdCount = 0; status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == Oid.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_GetConnectionOidListFn) GetProcAddress(plugintable[i].hPlugin, "IMA_GetConnectionOidList"); #else PassFunc = (IMA_GetConnectionOidListFn) dlsym(plugintable[i].hPlugin, "IMA_GetConnectionOidList"); #endif if (PassFunc != NULL) { IMA_OID_LIST *ppOidList; status = PassFunc(Oid, &ppOidList); if (status == IMA_STATUS_SUCCESS) { for (j = 0; ( j < ppOidList->oidCount) && (totalIdCount < (*ppList)->oidCount); j++) { #define OBJ_SEQ_NUM ppOidList->oids[j].objectSequenceNumber (*ppList)-> oids[totalIdCount]. objectType = ppOidList-> oids[j].objectType; (*ppList)-> oids[totalIdCount]. objectSequenceNumber = OBJ_SEQ_NUM; (*ppList)-> oids[totalIdCount]. ownerId = ppOidList->oids[j]. ownerId; totalIdCount++; #undef OBJ_SEQ_NUM } #ifdef WIN32 FreeFunc = (IMA_FreeMemoryFn) GetProcAddress( plugintable[i].hPlugin, "IMA_FreeMemory"); #else FreeFunc = (IMA_FreeMemoryFn) dlsym( plugintable[i].hPlugin, "IMA_FreeMemory"); #endif if (FreeFunc != NULL) { FreeFunc(ppOidList); } } } os_releasemutex(plugintable[i].pluginMutex); } if (status != IMA_STATUS_SUCCESS) { free(*ppList); break; } } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_RemoveDiscoveryAddress( IMA_OID discoveryAddressOid) { IMA_RemoveDiscoveryAddressFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (discoveryAddressOid.objectType != IMA_OBJECT_TYPE_DISCOVERY_ADDRESS) { return (IMA_ERROR_INCORRECT_OBJECT_TYPE); } os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == discoveryAddressOid.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_RemoveDiscoveryAddressFn) GetProcAddress(plugintable[i].hPlugin, "IMA_RemoveDiscoveryAddress"); #else PassFunc = (IMA_RemoveDiscoveryAddressFn) dlsym(plugintable[i].hPlugin, "IMA_RemoveDiscoveryAddress"); #endif if (PassFunc != NULL) { status = PassFunc(discoveryAddressOid); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_GetIpsecProperties( IMA_OID oid, IMA_IPSEC_PROPERTIES *pProps) { IMA_GetIpsecPropertiesFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (pProps == NULL) return (IMA_ERROR_INVALID_PARAMETER); if (oid.objectType != IMA_OBJECT_TYPE_PNP && oid.objectType != IMA_OBJECT_TYPE_LHBA) { return (IMA_ERROR_INCORRECT_OBJECT_TYPE); } os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == oid.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_GetIpsecPropertiesFn) GetProcAddress(plugintable[i].hPlugin, "IMA_GetIpsecProperties"); #else PassFunc = (IMA_GetIpsecPropertiesFn) dlsym(plugintable[i].hPlugin, "IMA_GetIpsecProperties"); #endif if (PassFunc != NULL) { status = PassFunc(oid, pProps); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_GetAddressKeys( IMA_OID targetOid, IMA_ADDRESS_KEYS **ppKeys) { IMA_GetAddressKeysFn PassFunc; IMA_FreeMemoryFn FreeFunc; IMA_STATUS status; IMA_UINT i; if (number_of_plugins == -1) InitLibrary(); if (ppKeys == NULL) return (IMA_ERROR_INVALID_PARAMETER); if (targetOid.objectType != IMA_OBJECT_TYPE_TARGET) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == targetOid.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_GetAddressKeysFn) GetProcAddress( plugintable[i].hPlugin, "IMA_GetAddressKeys"); #else PassFunc = (IMA_GetAddressKeysFn) dlsym( plugintable[i].hPlugin, "IMA_GetAddressKeys"); #endif if (PassFunc != NULL) { IMA_ADDRESS_KEYS *ppKeysList; IMA_UINT addrSize; addrSize = sizeof (IMA_ADDRESS_KEYS); status = PassFunc(targetOid, &ppKeysList); if (IMA_SUCCESS(status)) { *ppKeys = (IMA_ADDRESS_KEYS*)calloc(1, addrSize + (ppKeysList->addressKeyCount - 1) * addrSize); if ((*ppKeys) == NULL) { status = EUOS_ERROR; } else { memcpy((*ppKeys), ppKeysList, addrSize + (ppKeysList-> addressKeyCount-1)* addrSize); } #ifdef WIN32 FreeFunc = (IMA_FreeMemoryFn) GetProcAddress( plugintable[i].hPlugin, "IMA_FreeMemory"); #else FreeFunc = (IMA_FreeMemoryFn) dlsym( plugintable[i].hPlugin, "IMA_FreeMemory"); #endif if (FreeFunc != NULL) { FreeFunc(ppKeysList); } } } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS IMA_GetDiscoveryAddressProperties( IMA_OID oid, IMA_DISCOVERY_ADDRESS_PROPERTIES *pProps) { IMA_GetDiscoveryAddressPropertiesFn PassFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (pProps == NULL) return (IMA_ERROR_INVALID_PARAMETER); if (oid.objectType != IMA_OBJECT_TYPE_DISCOVERY_ADDRESS) return (IMA_ERROR_INCORRECT_OBJECT_TYPE); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == oid.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 PassFunc = (IMA_GetDiscoveryAddressPropertiesFn) GetProcAddress( plugintable[i].hPlugin, "IMA_GetDiscoveryAddressProperties"); #else PassFunc = (IMA_GetDiscoveryAddressPropertiesFn) dlsym( plugintable[i].hPlugin, "IMA_GetDiscoveryAddressProperties"); #endif if (PassFunc != NULL) { status = PassFunc(oid, pProps); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); } IMA_API IMA_STATUS QIMA_SetUpdateInterval( IMA_OID pluginOid, time_t interval) { QIMA_SetUpdateIntervalFn updFunc; IMA_UINT i; IMA_STATUS status; if (number_of_plugins == -1) InitLibrary(); if (interval <= 1) return (IMA_ERROR_INVALID_PARAMETER); if ((pluginOid.objectType != IMA_OBJECT_TYPE_PLUGIN) || (pluginOid.objectSequenceNumber != 0)) return (IMA_ERROR_INVALID_PARAMETER); os_obtainmutex(libMutex); status = IMA_ERROR_OBJECT_NOT_FOUND; for (i = 0; i < number_of_plugins; i++) { if (plugintable[i].ownerId == pluginOid.ownerId) { status = IMA_ERROR_UNEXPECTED_OS_ERROR; if (plugintable[i].hPlugin != NULL) { os_obtainmutex(plugintable[i].pluginMutex); #ifdef WIN32 updFunc = (QIMA_SetUpdateIntervalFn) GetProcAddress( plugintable[i].hPlugin, "QIMA_SetUpdateInterval"); #else updFunc = (QIMA_SetUpdateIntervalFn) dlsym( plugintable[i].hPlugin, "QIMA_SetUpdateInterval"); #endif if (updFunc != NULL) { status = updFunc(pluginOid, interval); } os_releasemutex(plugintable[i].pluginMutex); } break; } } os_releasemutex(libMutex); return (status); }