/**
Replace an existing Instance from inst, using object-path op as reference.
*/
CMPIStatus TestInstanceProviderModifyInstance (
CMPIInstanceMI * mi,
const CMPIContext * ctx,
const CMPIResult * rslt,
const CMPIObjectPath * cop,
const CMPIInstance * ci,
const char **properties)
{
CMPIStatus rc = { CMPI_RC_OK, NULL };
CMPIInstance * inst;
CMPIValue val1, val2;
CMPIData key1, key2, retData1, retInst;
CMPIObjectPath *obp;
unsigned int j = 0, flag = 0;
if(ci)
{
inst = CMClone(ci, &rc);
/* get key from the object-path */
key1 = CMGetKey(cop, "Identifier", &rc);
val1.uint8 = key1.value.uint8;
/* get the value of Message property */
retData1 = CMGetProperty(inst, "Message", &rc);
val2.string = retData1.value.string;
for (j=0; j < numOfInst; j++)
{
/* check for validity of Instance, that its not deleted */
if (valid[j] == 1)
{
/* get element(instance) from array */
retInst = CMGetArrayElementAt(clone_arr_ptr, j, &rc);
/* get object-path of instance */
obp = CMGetObjectPath(retInst.value.inst, &rc);
/* get key from this object-path */
key2 = CMGetKey(obp, "Identifier", &rc);
/*compare key values.
If they match then set the properties received from client */
if(key1.value.uint8 == key2.value.uint8)
{
CMSetProperty(
retInst.value.inst,
"Message",
&val2,
CMPI_string);
flag = 1;
}
}
}
CMRelease(inst);
/*If match fails, throw exception, as instance to be mmodified is not
found */
if(!flag)
{
CMReturn (CMPI_RC_ERR_NOT_FOUND);
}
}
CMReturnDone (rslt);
CMReturn (CMPI_RC_OK);
}
CMPIStatus TestInstanceProviderDeleteInstance (
CMPIInstanceMI * mi,
const CMPIContext * ctx,
const CMPIResult * result,
const CMPIObjectPath * cop)
{
CMPIStatus rc = { CMPI_RC_OK, NULL };
CMPIData key1, key2, retInst;
CMPIObjectPath *obp;
unsigned int j = 0, flag = 0;
/* get key from the object-path */
key1 = CMGetKey(cop, "Identifier", &rc);
for (j=0; j < numOfInst ; j++)
{
/*check for validity of Instance, that its not deleted */
if(valid[j] == 1)
{
/*get element(instance) from array */
retInst = CMGetArrayElementAt(clone_arr_ptr, j, &rc);
/*get object-path of instance */
obp = CMGetObjectPath(retInst.value.inst, &rc);
/*get key from this object-path */
key2 = CMGetKey(obp, "Identifier" , &rc);
/*compare key values.
If they match, release the object(instance)
Also set its validity to zero, marking it as deleted */
if (key1.value.uint8 == key2.value.uint8)
{
if(retInst.value.inst)
{
flag =1;
CMRelease(retInst.value.inst);
CMSetArrayElementAt(
clone_arr_ptr,
j,
&retInst.value.inst,
CMPI_null);
valid[j] = 0;
}
}
}
}
if(!flag)
{
CMReturn (CMPI_RC_ERR_NOT_FOUND);
}
CMReturn (CMPI_RC_OK);
}
CMPIStatus CWS_DirectoryGetInstance( CMPIInstanceMI * mi,
const CMPIContext * ctx,
const CMPIResult * rslt,
const CMPIObjectPath * cop,
const char ** properties)
{
CMPIInstance *in = NULL;
CMPIStatus st = {CMPI_RC_OK,NULL};
CMPIData nd = CMGetKey(cop,"Name",&st);
CWS_FILE filebuf;
if (!silentMode()) fprintf(stderr,"--- CWS_DirectoryGetInstance() \n");
if (st.rc == CMPI_RC_OK &&
nd.type == CMPI_string &&
CWS_Get_File(CMGetCharsPtr(nd.value.string, NULL),&filebuf))
in = makeInstance(_broker,
LOCALCLASSNAME,
CMGetCharsPtr(CMGetNameSpace(cop,NULL), NULL),
&filebuf);
if (CMIsNullObject(in)) {
CMSetStatusWithChars(_broker, &st, CMPI_RC_ERR_FAILED,
"Could not find or construct instance");
} else {
CMReturnInstance(rslt,in);
CMReturnDone(rslt);
}
return st;
}
/**
Create Instance from inst, using object-path op as reference.
*/
CMPIStatus TestInstanceProviderCreateInstance (
CMPIInstanceMI * mi,
const CMPIContext * ctx,
const CMPIResult * rslt,
const CMPIObjectPath * cop,
const CMPIInstance * ci)
{
CMPIStatus rc = { CMPI_RC_OK, NULL };
CMPIInstance * inst;
CMPIValue value_inst;
CMPIData key1,key2, retInst;
CMPIObjectPath *obp;
unsigned int j = 0;
if(ci)
{
/* clone the instance to be added to the array */
inst = CMClone(ci, &rc);
key1 = CMGetProperty(inst, "Identifier", &rc);
for (j=0; j < numOfInst ; j++)
{
/* check for validity of Instance, that its not deleted */
if (valid[j] == 1)
{
/* get element(instance) from array */
retInst = CMGetArrayElementAt(clone_arr_ptr, j, &rc);
/* get object-path of instance */
obp = CMGetObjectPath(retInst.value.inst, &rc);
/* get key from this object-path */
key2 = CMGetKey(obp, "Identifier", &rc);
/*compare key values.
If they match throw exception as two instance with same key
properties cannot exists. */
if(key1.value.uint8 == key2.value.uint8)
{
CMRelease(inst);
CMReturn (CMPI_RC_ERR_ALREADY_EXISTS);
}
}
}
value_inst.inst = inst;
/* If instance doesnot exists in array add it */
rc = CMSetArrayElementAt(
clone_arr_ptr,
numOfInst,
&value_inst,
CMPI_instance);
valid[numOfInst]=1;
numOfInst++;
/* return object-path of instance */
CMReturnObjectPath(rslt, cop);
CMReturnDone(rslt);
}
else
{
CMReturn (CMPI_RC_ERR_NOT_SUPPORTED);
}
CMRelease(inst);
CMReturn (CMPI_RC_OK);
}
/**
Get the Instances defined by object-path op.
*/
CMPIStatus TestInstanceProviderGetInstance (
CMPIInstanceMI * mi,
const CMPIContext * ctx,
const CMPIResult * rslt,
const CMPIObjectPath * op,
const char **properties)
{
CMPIData data,key1,key2;
CMPIObjectPath *local;
unsigned int j = 0;
CMPIBoolean flag = 0;
CMPIStatus rc = {CMPI_RC_OK, NULL};
/* get the kay from object-path */
key1 = CMGetKey(op, "Identifier", &rc);
/* get the element from array containing created instances */
for(j = 0; j < numOfInst; j++)
{
/* check for validity of Instance, that its not deleted */
if (valid[j] == 1)
{
/* get element(instance) from array */
data = CMGetArrayElementAt(clone_arr_ptr, j, &rc);
/* get object-path of instance */
local = CMGetObjectPath(data.value.inst, &rc);
/* get key from this object-path */
key2 = CMGetKey(local, "Identifier", &rc);
/* compare key values.
If they match return instance */
if (key1.value.uint8 == key2.value.uint8)
{
CMReturnInstance(rslt, data.value.inst);
flag =1;
}
}
}
/* key values did not match so throw exception */
if(!flag)
{
CMReturn (CMPI_RC_ERR_NOT_FOUND);
}
CMReturnDone (rslt);
CMReturn (CMPI_RC_OK);
}
/*
Get the Instances defined by <op>.
Parameters:
mi - Provider this pointer.
ctx - Invocation Context.
rslt - Result data container.
cop - ObjectPath containing namespace, classname and key components.
properties - If not NULL, the members of the array define one or more Property names. Each returned Object MUST NOT include elements for any Properties missing from this list.
Returns:
Function return status. The following CMPIrc codes shall be recognized: CMPI_RC_OK Operation successful. CMPI_RC_ERR_FAILED Unspecific error occurred.
CMPI_RC_ERR_NOT_SUPPORTED Operation not supported by this MI. CMPI_RC_ERR_ACCESS_DENIED Not authorized. CMPI_RC_ERR_NOT_FOUND Instance not found.
*/
CMPIStatus GK_TestGetInstance( CMPIInstanceMI * mi,
CMPIContext * ctx,
CMPIResult * rslt,
CMPIObjectPath * cop,
char ** properties) {
const CMPIInstance * ci = NULL;
CMPIStatus rc = {CMPI_RC_OK, NULL};
CMPIString * instanceId = NULL;
printf("--- %s CMPI GetInstance() called",_ClassName);
instanceId = CMGetKey( cop, "InstanceID", &rc).value.string;
if( instanceId == NULL ) {
CMSetStatusWithChars( _broker, &rc,
CMPI_RC_ERR_NOT_FOUND, "Could not get InstanceID." );
goto exit;
}
if ( strcmp(CMGetCharPtr(instanceId),_InstanceID) != 0){
CMSetStatusWithChars( _broker, &rc,
CMPI_RC_ERR_NOT_FOUND, "This class name does not exist (wrong InstanceID)." );
goto exit;
}
ci = _makeInst_GK_Test(cop, &rc );
if( ci == NULL ){
CMSetStatusWithChars(_broker, &rc, CMPI_RC_ERR_FAILED,
"Couldn't build instance");
goto exit;
}
CMReturnInstance( rslt, ci );
CMReturnDone(rslt);
exit:
return rc;
}
CMPIBoolean KMatch(const CMPIObjectPath* cop1, const CMPIObjectPath* cop2)
{
CMPIStatus st = KSTATUS_INIT;
CMPICount count1;
CMPICount count2;
CMPICount i;
if (!cop1 || !cop2)
return 0;
count1 = CMGetKeyCount(cop1, &st);
if (!KOkay(st))
return 0;
count2 = CMGetKeyCount(cop2, &st);
if (!KOkay(st))
return 0;
if (count1 != count2)
return 0;
for (i = 0; i < count1; i++)
{
CMPIData cd1;
CMPIData cd2;
CMPIString* pn;
cd1 = CMGetKeyAt(cop1, i, &pn, &st);
if (!KOkay(st) || !pn)
return 0;
cd2 = CMGetKey(cop2, KChars(pn), &st);
if (!KOkay(st))
return 0;
if (!_match_key(&cd1, &cd2))
return 0;
}
/* Identicial */
return 1;
}
/******************************************************************************
* Provider export function
* Execute an extrinsic method on the specified CIM instance.
*****************************************************************************/
static CMPIStatus xen_resource_invoke_method(
CMPIMethodMI * self, /* [in] Handle to this provider (i.e. 'self') */
const CMPIBroker *broker, /* [in] CMPI Factory services */
const CMPIContext * context, /* [in] Additional context info, if any */
const CMPIResult * results, /* [out] Results of this operation */
const CMPIObjectPath * reference, /* [in] Contains the CIM namespace, classname and desired object path */
const char * methodname, /* [in] Name of the method to apply against the reference object */
const CMPIArgs * argsin, /* [in] Method input arguments */
CMPIArgs * argsout) /* [in] Method output arguments */
{
CMPIStatus status = {CMPI_RC_OK, NULL}; /* Return status of CIM operations. */
char * nameSpace = CMGetCharPtr(CMGetNameSpace(reference, NULL)); /* Target namespace. */
unsigned long rc = 0;
CMPIData argdata;
xen_utils_session * session = NULL;
_SBLIM_ENTER("InvokeMethod");
_SBLIM_TRACE(_SBLIM_TRACE_LEVEL_INFO, ("--- self=\"%s\"", self->ft->miName));
_SBLIM_TRACE(_SBLIM_TRACE_LEVEL_INFO, ("--- methodname=\"%s\"", methodname));
_SBLIM_TRACE(_SBLIM_TRACE_LEVEL_INFO, ("--- namespace=\"%s\"", nameSpace));
struct xen_call_context *ctx = NULL;
if(!xen_utils_get_call_context(context, &ctx, &status)){
goto Exit;
}
if (!xen_utils_validate_session(&session, ctx)) {
CMSetStatusWithChars(broker, &status,
CMPI_RC_ERR_METHOD_NOT_AVAILABLE, "Unable to connect to Xen");
goto Exit;
}
int argcount = CMGetArgCount(argsin, NULL);
_SBLIM_TRACE(_SBLIM_TRACE_LEVEL_INFO, ("--- argsin=%d", argcount));
argdata = CMGetKey(reference, "Name", &status);
if((status.rc != CMPI_RC_OK) || CMIsNullValue(argdata)) {
_SBLIM_TRACE(_SBLIM_TRACE_LEVEL_ERROR,
("Couldnt find the Virtual System Migration Service to invoke method on"));
goto Exit;
}
/* Check that the method has the correct number of arguments. */
if(strcmp(methodname, "MigrateVirtualSystemToHost") == 0) {
rc = MigrateVirtualSystem(broker, context, argsin, argsout, session, true, false, &status);
//CMPIObjectPath* job_instance_op = NULL;
//CMAddArg(argsout, "Job", (CMPIValue *)&job_instance_op, CMPI_ref);
}
else if(strcmp(methodname, "MigrateVirtualSystemToSystem") == 0) {
rc = MigrateVirtualSystem(broker, context, argsin, argsout, session, false, false, &status);
//CMPIObjectPath* job_instance_op = NULL;
//CMAddArg(argsout, "Job", (CMPIValue *)&job_instance_op, CMPI_ref);
//CMPIObjectPath* newcomputersystem_instance_op = NULL;
//CMAddArg(argsout, "NewComputerSystem", (CMPIValue *)&newcomputersystem_instance_op, CMPI_ref);
}
else if(strcmp(methodname, "CheckVirtualSystemIsMigratableToHost") == 0) {
rc = MigrateVirtualSystem(broker, context, argsin, argsout, session, true, true, &status);
}
else if(strcmp(methodname, "CheckVirtualSystemIsMigratableToSystem") == 0) {
rc = MigrateVirtualSystem(broker, context, argsin, argsout, session, false, true, &status);
}
else
status.rc = CMPI_RC_ERR_METHOD_NOT_FOUND;
Exit:
if(session)
xen_utils_cleanup_session(session);
if(ctx)
xen_utils_free_call_context(ctx);
CMReturnData(results, (CMPIValue *)&rc, CMPI_uint32);
CMReturnDone(results);
_SBLIM_RETURNSTATUS(status);
}
/******************************************************************************
* checks for migratability or actually does the migration
******************************************************************************/
int MigrateVirtualSystem(
const CMPIBroker *broker, /* in - CMPI Broker that does most of the work */
const CMPIContext *context, /* in - CMPI context for the caller */
const CMPIArgs *argsin, /* in - All the arguments for the method */
const CMPIArgs *argsout, /* out - All the output arguments for the method */
xen_utils_session *session, /* in - Session for making xen calls */
bool host_ip, /* in - The host parameter is an IP address */
bool migrate_check_only, /* in -Check if migration is possible only, dont actually migrate */
CMPIStatus *status) /* out - Report CMPI status of method */
{
char *hostid = NULL, *vm_uuid = NULL;
CMPIData argdata;
xen_vm vm = NULL;
xen_host_set *host_set = NULL;
CMPIInstance *msd = NULL;
xen_host host = NULL;
int rc = Xen_VirtualSystemMigrationService_MigrateVirtualSystemToSystem_Invalid_Parameter;
CMPIrc statusrc = CMPI_RC_ERR_INVALID_PARAMETER;
char *error_msg = "ERROR: Unknown error";
xen_string_string_map *other_config=NULL;
/* For now only Live migrations are supported */
if(_GetArgument(broker, argsin, "MigrationSettingData", CMPI_chars, &argdata, status)) {
/* Argument passed in as a MOF string, parse it */
msd = xen_utils_parse_embedded_instance(broker, CMGetCharPtr(argdata.value.string));
if (msd == NULL) { // parser returns zero for success, non-zero for error
error_msg = "ERROR: Couldnt parse the 'MigrationSettingData' parameter";
goto Exit;
}
}
else
/* Argument could have been passed in as an intance */
if(_GetArgument(broker, argsin, "MigrationSettingData", CMPI_instance, &argdata, status))
msd = argdata.value.inst;
if(msd != NULL) {
CMPIData data = CMGetProperty(msd, "MigrationType", status);
if(data.value.uint16 != Xen_VirtualSystemMigrationSettingData_MigrationType_Live) {
error_msg = "ERROR: 'MigrationSettingData' contains an invalid MigrationType (Live expected)";
goto Exit;
}
}
/* Host to migrate to */
if(!host_ip) {
/* required parameters */
if(!_GetArgument(broker, argsin, "DestinationSystem", CMPI_ref, &argdata, status)){
error_msg = "ERROR: 'DestionationSystem' parameter is missing";
goto Exit;
}
else {
/* This is the CIM reference to an existing Host object */
CMPIData key;
key = CMGetKey(argdata.value.ref, "Name", status);
if(status->rc != CMPI_RC_OK || CMIsNullValue(key)) {
error_msg = "ERROR: 'DestinationSystem' is missing the required 'Name' key";
goto Exit;
}
hostid = CMGetCharPtr(key.value.string);
if(!xen_host_get_by_uuid(session->xen, &host, hostid))
goto Exit;
}
}
else {
if(!_GetArgument(broker, argsin, "DestinationHost", CMPI_string, &argdata, status)) {
error_msg = "ERROR: 'DestinationHost' parameter is missing";
goto Exit;
}
else {
/* Determing Xen host based on IP address,. Cannot use inet_pton() and so on since DNS may not have been configured properly */
hostid = CMGetCharPtr(argdata.value.string);
_SBLIM_TRACE(_SBLIM_TRACE_LEVEL_INFO, ("Trying to migrate to DestinationHost : %s", hostid));
if(!xen_host_get_all(session->xen, &host_set))
goto Exit;
int i=0;
for (i=0; i<host_set->size; i++) {
xen_host_record *host_rec = NULL;
if(!xen_host_get_record(session->xen, &host_rec, host_set->contents[i]))
goto Exit;
/* DestinationHost could be an IP address or the hostname */
if((host_rec->address && (strcmp(hostid, host_rec->address) == 0)) ||
(host_rec->hostname && (strcmp(hostid, host_rec->hostname) == 0)) ||
(host_rec->name_label && (strcmp(hostid, host_rec->name_label) == 0))) {
xen_host_record_free(host_rec);
host = host_set->contents[i];
host_set->contents[i] = NULL; /* dont free this one */
break;
}
xen_host_record_free(host_rec);
}
}
}
/* VM to migrate - required parameter */
if(!_GetArgument(broker, argsin, "ComputerSystem", CMPI_ref, &argdata, status)) {
if(!_GetArgument(broker, argsin, "ComputerSystem", CMPI_string, &argdata, status)) {
error_msg = "ERROR: Missing the required 'ComputerSystem' parameter";
goto Exit;
}
else
vm_uuid = CMGetCharPtr(argdata.value.string);
} else {
argdata = CMGetKey(argdata.value.ref, "Name", status);
if(status->rc != CMPI_RC_OK || CMIsNullValue(argdata)) {
error_msg = "ERROR: ComputerSystem is missing the required 'Name' key";
goto Exit;
}
vm_uuid = CMGetCharPtr(argdata.value.string);
}
status->rc = CMPI_RC_ERR_FAILED;
rc = Xen_VirtualSystemMigrationService_MigrateVirtualSystemToSystem_Failed;
if(xen_vm_get_by_uuid(session->xen, &vm, vm_uuid)) {
_SBLIM_TRACE(_SBLIM_TRACE_LEVEL_ERROR, ("Migrating %s to %s", vm_uuid, hostid));
if(migrate_check_only) {
/* Check to see if migration is possible */
statusrc = CMPI_RC_OK;
rc = Xen_VirtualSystemMigrationService_MigrateVirtualSystemToSystem_Completed_with_No_Error;
bool migratable = xen_vm_assert_can_boot_here(session->xen, vm, host);
if(migratable == false || !session->xen->ok) {
migratable = false;
// Workaround for kvp migration
if(session->xen->error_description_count==1) {
if(xen_vm_get_other_config(session->xen, &other_config, vm)) {
if(xen_utils_get_from_string_string_map(other_config, "kvp_enabled")) {
_SBLIM_TRACE(_SBLIM_TRACE_LEVEL_INFO, ("Overwriting migratable to mark kvp vm as migratable, although its network"));
migratable=true;
RESET_XEN_ERROR(session->xen);
}
free(other_config);
} else {
_SBLIM_TRACE(_SBLIM_TRACE_LEVEL_ERROR, ("Could not get other config."));
}
}
if(migratable == false && session->xen->error_description) {
/* This is not part of the MOF (and is not documented), but nice to have */
char *xen_error = xen_utils_get_xen_error(session->xen);
CMAddArg(argsout, "Reason", (CMPIValue *)xen_error, CMPI_chars);
free(xen_error);
}
}
CMAddArg(argsout, "IsMigratable", (CMPIValue *)&migratable, CMPI_boolean);
}
else {
/* Do the actual migration, this could take a few minutes */
CMPIObjectPath* job_instance_op = NULL;
migrate_job_context *job_context = calloc(1, sizeof(migrate_job_context));
if(!job_context) {
error_msg = "ERROR: Couldn't allocate memory for the migrate job.";
goto Exit;
}
job_context->vm = vm;
job_context->host = host;
if(!job_create(broker, context, session, MIGRATE_VM_TASK_NAME, vm_uuid,
migrate_task, job_context, &job_instance_op, status)) {
error_msg = "ERROR: Couldn't prepare the Migrate job. Job wasnt started.";
goto Exit;
}
statusrc = CMPI_RC_OK;
rc = Xen_VirtualSystemMigrationService_MigrateVirtualSystemToHost_Method_Parameters_Checked___Job_Started;
CMAddArg(argsout, "Job", (CMPIValue *)&job_instance_op, CMPI_ref);
vm = NULL; /* freed by async thread */
host = NULL; /* freed by async thread */
}
}
Exit:
if(host)
xen_host_free(host);
if(vm)
xen_vm_free(vm);
if(host_set)
xen_host_set_free(host_set);
xen_utils_set_status(broker, status, statusrc, error_msg, session->xen);
return rc;
}
int assoc_ServiceProcess( const CMPIBroker * _broker,
const CMPIContext * ctx,
const CMPIResult * rslt,
const CMPIObjectPath * ref,
int assocType,
CMPIStatus * rc )
{
CMPIString * sourceClass = NULL;
CMPIData serviceName;
CMPIObjectPath * op = NULL;
CMPIObjectPath * rop = NULL;
CMPIInstance * rci = NULL;
CMPIInstance * sci = NULL;
LXS_Handle lhdl;
LXS_Service * lxssvc = NULL;
int i = 0;
_OSBASE_TRACE(2,("--- assoc_ServiceProcess() called"));
/* check if source instance does exist */
sci = CBGetInstance(_broker, ctx, ref, NULL, rc);
if( sci == NULL ) {
if( rc->rc == CMPI_RC_ERR_FAILED ) {
CMSetStatusWithChars( _broker, rc,
CMPI_RC_ERR_FAILED, "GetInstance of source object failed.");
}
if( rc->rc == CMPI_RC_ERR_NOT_FOUND ) {
CMSetStatusWithChars( _broker, rc,
CMPI_RC_ERR_NOT_FOUND, "Source object not found.");
}
_OSBASE_TRACE(2,("--- assoc_ServiceProcess() failed : %s",CMGetCharPtr(rc->msg)));
return -1;
}
sourceClass = CMGetClassName(ref, rc);
if (CMGetCharPtr(sourceClass) == NULL) {
CMSetStatusWithChars( _broker, rc,
CMPI_RC_ERR_FAILED, "Could not get source class name.");
_OSBASE_TRACE(2,("--- assoc_ServiceProcess() failed : %s",CMGetCharPtr(rc->msg)));
return -1;
}
/* source class is Linux_UnixProcess; target class is Linux_Service */
if( strcasecmp(CMGetCharPtr(sourceClass),_RefRightClass) == 0 ) {
/* NOT_SUPPORTED - association is uni-directional */
}
/* source class is Linux_Service; target class is Linux_UnixProcess */
else if( strcasecmp(CMGetCharPtr(sourceClass),_RefLeftClass) == 0 ) {
serviceName = CMGetKey(ref, "Name", rc);
if( serviceName.value.string == NULL ) {
CMSetStatusWithChars( _broker, rc,
CMPI_RC_ERR_FAILED, "Could not get Name of Service" );
_OSBASE_TRACE(2,("--- assoc_ServiceProcess() failed : %s",CMGetCharPtr(rc->msg)));
return -1;
}
lhdl=LXS_InitFiltered(CMGetCharPtr(serviceName.value.string));
if (lhdl==NULL) {
_OSBASE_TRACE(2,("--- assoc_ServiceProcess() exited : Could not find associated Service."));
return 0;
}
lxssvc=LXS_Next(lhdl);
if (lxssvc==NULL) {
_OSBASE_TRACE(2,("--- assoc_ServiceProcess() exited : Could not find associated Service."));
return 0;
}
/* get the list of associated processe */
for (i=0;lxssvc->svProcesses[i]!=NULL;i++) {
op = CMNewObjectPath( _broker, CMGetCharPtr(CMGetNameSpace(ref,rc)),
_RefRightClass, rc );
if( CMIsNullObject(op) ) {
CMSetStatusWithChars( _broker, rc,
CMPI_RC_ERR_FAILED, "Create CMPIObjectPath failed." );
_OSBASE_TRACE(2,("--- assoc_ServiceProcess() failed : %s",CMGetCharPtr(rc->msg)));
return -1;
}
CMAddKey(op, "CSCreationClassName", CSCreationClassName, CMPI_chars);
CMAddKey(op, "CSName", get_system_name(), CMPI_chars);
CMAddKey(op, "OSCreationClassName", OSCreationClassName, CMPI_chars);
CMAddKey(op, "OSName", get_os_name(), CMPI_chars);
CMAddKey(op, "CreationClassName", _RefRightClass, CMPI_chars);
CMAddKey(op, "Handle", lxssvc->svProcesses[i], CMPI_chars);
if (assocType&ATYPE_ASSOC) {
/* the process (name) */
if (assocType&ATYPE_NAME) {
CMReturnObjectPath(rslt, op);
}
else {
rci = CBGetInstance(_broker, ctx, op, NULL, rc);
if(rci==NULL) { return -1; }
CMReturnInstance( rslt, rci );
}
}
else {
/* the reference object (name) */
if (assocType&ATYPE_NAME) {
rop = _makePath_ServiceProcess(_broker, ref, op, rc);
CMReturnObjectPath(rslt, rop);
}
else {
rci = _makeInst_ServiceProcess(_broker, ref, op, rc);
CMReturnInstance( rslt, rci );
}
}
}
LXS_Term(lhdl);
}
_OSBASE_TRACE(2,("--- assoc_ServiceProcess() exited"));
return 0;
}
/******************************************************************************
* disk_rasd_to_vbd
*
* This function attempts to parse a Xen_Disk CIM instance and populate a new
* VBD record. It also gets the record to the VDI that the VBD attaches to (could
* be a newly created VDI, if requested) and a handle to an existing SR as
* pointed to by the PoolID field in the CIM instance
*
* Returns 1 on Success and 0 on failure.
*******************************************************************************/
int disk_rasd_to_vbd(
const CMPIBroker *broker,
xen_utils_session* session,
CMPIInstance *disk_rasd,
xen_vbd_record **vbd_rec,
xen_vdi_record **vdi_rec,
xen_sr *sr,
CMPIStatus *status)
{
CMPIData propertyvalue;
char *error_msg = "ERROR: Unknown error";
char *sr_label = NULL, *vdi_name_label = NULL, *vdi_name_desc = NULL;
char *vbd_device = NULL, *vbd_uuid = NULL, *vdi_uuid = NULL;
enum xen_vbd_type vbd_type = XEN_VBD_TYPE_DISK; /* default with Disk (as opposed to CDRom) */
enum xen_vdi_type vdi_type = XEN_VDI_TYPE_USER;
bool vbd_readonly = false, vbd_bootable = false;/* defaults for Disk type */
int vbd_mode= XEN_VBD_MODE_RW; /* defaults for Disk type */
int64_t disk_size = -1; /* for CDRoms - this is the size expected */
char buf[MAX_INSTANCEID_LEN];
*vbd_rec = NULL;
*vdi_rec = NULL;
/* only resource types of 15,16 and 19 are currently supported */
int rc = CMPI_RC_ERR_INVALID_PARAMETER;
propertyvalue = CMGetProperty(disk_rasd, "ResourceType", status);
if ((status->rc != CMPI_RC_OK) || CMIsNullValue(propertyvalue)) {
error_msg = "ERROR: Xen_DiskSettingData has no ResourceType";
goto Error;
}
int res_type = propertyvalue.value.uint16;
if ((res_type == DMTF_ResourceType_CD_Drive) || (res_type == DMTF_ResourceType_DVD_drive)) {
vbd_mode = XEN_VBD_MODE_RO;
vbd_type = XEN_VBD_TYPE_CD;
}
else if ((res_type == DMTF_ResourceType_Storage_Extent) || (res_type == DMTF_ResourceType_Disk_Drive))
vbd_type = XEN_VBD_TYPE_DISK;
else {
error_msg = "ERROR: Xen_DiskSettingData has unsupported ResourceType";
goto Error;
}
/* Get the instance ID which has the device's UUID in it, if its available
This will be usd during deletes and not used during create*/
propertyvalue = CMGetProperty(disk_rasd, "InstanceID", status);
if ((status->rc == CMPI_RC_OK) && !CMIsNullValue(propertyvalue)) {
_CMPIStrncpyDeviceNameFromID(buf, CMGetCharPtr(propertyvalue.value.string),
sizeof(buf)/sizeof(buf[0]));
vbd_uuid = strdup(buf);
}
/* The HostResource property is used to identify the VDI, if available */
propertyvalue = CMGetProperty(disk_rasd, "HostResource", status);
if ((status->rc == CMPI_RC_OK) && !CMIsNullValue(propertyvalue)) {
/* HostResource is always in WBEM URI format and it points to a
Xen_DiskImage object reference. Convert it to CMPIObjectPath */
CMPIData data = CMGetArrayElementAt(propertyvalue.value.array, 0, NULL);
CMPIObjectPath *obj_path = xen_utils_WBEM_URI_to_CMPIObjectPath(
broker,
CMGetCharPtr(data.value.string));
if (obj_path) {
/* this should be a Xen_DiskImage object reference */
/* Get the DeviceID key */
propertyvalue = CMGetKey(obj_path, "DeviceID", status);
if ((status->rc == CMPI_RC_OK) &&
!CMIsNullValue(propertyvalue) &&
propertyvalue.type == CMPI_string) {
memset(buf, 0, sizeof(buf));
_CMPIStrncpyDeviceNameFromID(buf, CMGetCharPtr(propertyvalue.value.string),
sizeof(buf)/sizeof(buf[0]));
vdi_uuid = strdup(buf);
}
}
}
if (!vdi_uuid) {
/* second chance, Try the HostExtentName */
propertyvalue = CMGetProperty(disk_rasd, "HostExtentName", status);
if ((status->rc == CMPI_RC_OK) && !CMIsNullValue(propertyvalue))
vdi_uuid = strdup(CMGetCharPtr(propertyvalue.value.string));
}
/* Device is specified as the address on the host bus */
propertyvalue = CMGetProperty(disk_rasd, "AddressOnParent", status);
if ((status->rc == CMPI_RC_OK) && !CMIsNullValue(propertyvalue))
vbd_device = strdup(CMGetCharPtr(propertyvalue.value.string));
propertyvalue = CMGetProperty(disk_rasd, "Bootable", status);
if ((status->rc == CMPI_RC_OK) && !CMIsNullValue(propertyvalue))
vbd_bootable = propertyvalue.value.boolean;
propertyvalue = CMGetProperty(disk_rasd, "Access", status);
if ((status->rc == CMPI_RC_OK) && !CMIsNullValue(propertyvalue)) {
if (propertyvalue.value.uint16 == Access_Readable)
vbd_mode = XEN_VBD_MODE_RO;
}
/*
* The Pool ID property is used to identify the Xen SR
* This could be NULL if VDIs are reused or if
* the VBD has to be created on the default SR.
*/
propertyvalue = CMGetProperty(disk_rasd, "PoolID", status);
if ((status->rc == CMPI_RC_OK) && !CMIsNullValue(propertyvalue)) {
char *poolid = CMGetCharPtr(propertyvalue.value.string);
if (poolid && (*poolid != '\0'))
sr_label = strdup(poolid);
}
propertyvalue = CMGetProperty(disk_rasd, "ElementName", status);
if ((status->rc == CMPI_RC_OK) && !CMIsNullValue(propertyvalue))
vdi_name_label = strdup(CMGetCharPtr(propertyvalue.value.string));
propertyvalue = CMGetProperty(disk_rasd, "Description", status);
if ((status->rc == CMPI_RC_OK) && !CMIsNullValue(propertyvalue))
vdi_name_desc = strdup(CMGetCharPtr(propertyvalue.value.string));
/* Get the disk size from the CIM instance -
* If this is a new disk, this property is required
* If we are instantiating a CDRom VDI, this is not required */
int64_t multiplier = 1; /* default to bytes */
propertyvalue = CMGetProperty(disk_rasd, "AllocationUnits", status);
if ((status->rc == CMPI_RC_OK) && !CMIsNullValue(propertyvalue)) {
char *units = CMGetCharPtr(propertyvalue.value.string);
if ((multiplier = xen_utils_get_alloc_units(units)) == 0) {
error_msg = "ERROR: Xen_DiskSettingData has unsupported AllocationUnits";
goto Error;
}
}
/* Limit and VirtualQuantity properties mean the same when we create the VBD */
propertyvalue = CMGetProperty(disk_rasd, "VirtualQuantity", status);
if ((status->rc == CMPI_RC_OK) && !CMIsNullValue(propertyvalue))
disk_size = (propertyvalue.value.uint64) * multiplier;
if (vbd_type == XEN_VBD_TYPE_CD)
vdi_type = XEN_VDI_TYPE_USER;
/* We have enough information... create the Xen device records so we can */
/* create new devices or identify existing ones */
/* Create the VDI device record */
rc = CMPI_RC_ERR_FAILED;
*vdi_rec = xen_vdi_record_alloc();
if (*vdi_rec == NULL) {
error_msg = "ERROR: Unable to malloc memory";
goto Error;
}
(*vdi_rec)->virtual_size = disk_size;
#if OSS_XENAPI
(*vdi_rec)->other_config = xen_string_string_map_alloc(0);
vdi_location = "";
(*vdi_rec)->other_config->contents[0].key= strdup("location");
(*vdi_rec)->other_config->contents[0].val = strdup(vdi_location);
(*vdi_rec)->other_config->size = 1;
#else
(*vdi_rec)->other_config = xen_string_string_map_alloc(0);
(*vdi_rec)->other_config->size = 0;
#endif
(*vdi_rec)->type = vdi_type;
(*vdi_rec)->read_only = vbd_readonly;
(*vdi_rec)->name_label = vdi_name_label;
(*vdi_rec)->name_description = vdi_name_desc;
#if XENAPI_VERSION > 400
(*vdi_rec)->managed = true;
#endif
/* If VDI has already been created, use it */
if (vdi_uuid) {
_SBLIM_TRACE(_SBLIM_TRACE_LEVEL_INFO, ("VDI specified in the RASD: -%s-", vdi_uuid));
(*vdi_rec)->uuid = vdi_uuid;
}
/* create the VBD record */
*vbd_rec = xen_vbd_record_alloc();
if (*vbd_rec == NULL) {
error_msg = "ERROR: Unable to malloc memory";
goto Error;
}
if (vbd_uuid)
(*vbd_rec)->uuid = vbd_uuid;
#if XENAPI_VERSION > 400
if (vbd_device)
(*vbd_rec)->userdevice = vbd_device;
(*vbd_rec)->other_config = xen_string_string_map_alloc(0);
#endif
(*vbd_rec)->bootable = vbd_bootable;
(*vbd_rec)->mode = vbd_mode;
(*vbd_rec)->type = vbd_type;
(*vbd_rec)->qos_algorithm_params = xen_string_string_map_alloc(0);
if (vbd_type == XEN_VBD_TYPE_CD)
(*vdi_rec)->sharable = true;
else
(*vdi_rec)->sharable = false;
/* Identify the Storage Repository where this VDI will be created (if its being created) */
if (sr_label) {
if (!_get_sr(broker, session, sr_label, true, sr, status)) {
_SBLIM_TRACE(_SBLIM_TRACE_LEVEL_ERROR,
("--- getting SR for %s failed", sr_label));
goto Error;
}
free(sr_label);
}
return 1;
Error:
if (sr_label)
free(sr_label);
if (vdi_name_label) {
free(vdi_name_label);
if (*vdi_rec)
(*vdi_rec)->name_label = NULL;
}
if(vdi_name_desc) {
free(vdi_name_desc);
}
if(vbd_device) {
free(vbd_device);
}
if(vbd_uuid) {
free(vbd_uuid);
}
/* frees fields as well */
if (*vbd_rec) {
xen_vbd_record_free(*vbd_rec);
*vbd_rec = NULL;
}
if (*vdi_rec) {
xen_vdi_record_free(*vdi_rec);
*vdi_rec = NULL;
}
xen_utils_set_status(broker, status, rc, error_msg, session->xen);
return 0;
}
CMPIStatus Linux_FanProviderSetInstance( CMPIInstanceMI * mi,
const CMPIContext * ctx,
const CMPIResult * rslt,
const CMPIObjectPath * cop,
const CMPIInstance * ci,
const char ** properties) {
UNUSED(mi); UNUSED(ctx); UNUSED(rslt); UNUSED(properties);
CMPIStatus rc = {CMPI_RC_OK, NULL};
CMPIData data;
char const * device_id = NULL;
struct cim_fan * sptr;
cim_fan_prop_value_t cfpv;
cim_fan_error_t cmdrc;
char const * tmp = NULL;
char buf[200];
_OSBASE_TRACE(1, ("--- %s CMPI SetInstance() called", _ClassName));
_check_system_key_value_pairs(_broker, cop, "SystemCreationClassName",
"SystemName", &rc);
if (rc.rc != CMPI_RC_OK) {
_OSBASE_TRACE(1, ("--- %s CMPI SetInstance() failed : %s",
_ClassName, CMGetCharPtr(rc.msg)));
return rc;
}
data = CMGetKey(cop, "DeviceID", &rc);
if (data.value.string == NULL) {
CMSetStatusWithChars(_broker, &rc,
CMPI_RC_ERR_FAILED, "Could not get fan ID." );
_OSBASE_TRACE(1, ("--- %s CMPI SetInstance() failed : %s",
_ClassName, CMGetCharPtr(rc.msg)));
}
device_id = CMGetCharPtr(data.value.string);
if (device_id) {
cmdrc = get_fan_data_by_id(device_id, &sptr);
}
if (cmdrc || !sptr) {
CMSetStatusWithChars(_broker, &rc,
CMPI_RC_ERR_NOT_FOUND, cim_fan_strerror(cmdrc));
_OSBASE_TRACE(1, ("--- %s CMPI SetInstance() exited : %s",
_ClassName,CMGetCharPtr(rc.msg)));
return rc;
}
data = CMGetProperty(ci, "MinSpeed", &rc);
if (!rc.rc && data.value.uint64 != (uint64_t) sptr->min_speed) {
tmp = "MinSpeed";
cfpv.min_speed = data.value.uint64;
cmdrc = set_fan_prop_by_id(device_id, CIM_FAN_MIN_SPEED, &cfpv);
}
data = CMGetProperty(ci , "MaxSpeed", &rc);
if (!cmdrc && !rc.rc && data.value.uint64 != (uint64_t) sptr->max_speed) {
tmp = "MaxSpeed";
cfpv.max_speed = data.value.uint64;
set_fan_prop_by_id(device_id, CIM_FAN_MAX_SPEED, &cfpv);
}
data = CMGetProperty(ci, "Divisor", &rc);
if (!cmdrc && !rc.rc && data.value.uint32 != sptr->divisor) {
tmp = "Divisor";
cfpv.divisor = data.value.uint32;
set_fan_prop_by_id(device_id, CIM_FAN_DIV, &cfpv);
}
data = CMGetProperty(ci, "Pulses", &rc);
if (!cmdrc && !rc.rc && data.value.uint32 != sptr->pulses) {
tmp = "Pulses";
cfpv.pulses = data.value.uint32;
set_fan_prop_by_id(device_id, CIM_FAN_PULSES, &cfpv);
}
data = CMGetProperty(ci, "Beep", &rc);
if (!cmdrc && !rc.rc && data.value.boolean != sptr->beep) {
tmp = "Beep";
cfpv.beep = data.value.uint32;
set_fan_prop_by_id(device_id, CIM_FAN_BEEP, &cfpv);
}
if (cmdrc) {
if (tmp && cmdrc == CIM_FAN_SEN_NO_ENTRY) {
snprintf(buf, 200,
"System interface for fan(name=\"%s\", chip=\"%s\") does not"
" provide a way to set \"%s\".", sptr->name, sptr->chip_name,
tmp);
CMSetStatusWithChars(_broker, &rc,
CMPI_RC_ERR_FAILED, buf);
}else {
CMSetStatusWithChars(_broker, &rc,
CMPI_RC_ERR_FAILED, cim_fan_strerror(cmdrc))
}
_OSBASE_TRACE(2, ("--- %s CMPI SetInstance() exited : %s",
_ClassName, CMGetCharPtr(rc.msg)));
}else {
CMPIStatus Linux_FanProviderGetInstance( CMPIInstanceMI * mi,
const CMPIContext * ctx,
const CMPIResult * rslt,
const CMPIObjectPath * cop,
const char **properties) {
UNUSED(mi);
CMPIInstance * ci = NULL;
CMPIStatus rc = {CMPI_RC_OK, NULL};
struct cim_fan * sptr = NULL;
CMPIData data;
CMPIArray * other_identifying_info = NULL;
CMPIString * sys_path = NULL;
CMPIString * fan_name = NULL;
CMPIString * device_id = NULL;
cim_fan_error_t cmdrc;
_OSBASE_TRACE(1,("--- %s CMPI GetInstance() called",_ClassName));
_check_system_key_value_pairs(_broker, cop, "SystemCreationClassName",
"SystemName", &rc);
if (rc.rc != CMPI_RC_OK) {
_OSBASE_TRACE(1, ("--- %s CMPI GetInstance() failed : %s",
_ClassName, CMGetCharPtr(rc.msg)));
return rc;
}
data = CMGetKey(cop, "OtherIdentifyingInfo", &rc);
if ( !rc.rc
&& data.type == CMPI_stringA
&& (other_identifying_info = data.value.array)
&& !rc.rc
&& (CMGetArrayCount(other_identifying_info, &rc) > 1)
&& !rc.rc)
{
data = CMGetArrayElementAt(other_identifying_info, 0, &rc);
if (!rc.rc) sys_path = data.value.string;
data = CMGetArrayElementAt(other_identifying_info, 1, &rc);
if (!rc.rc) fan_name = data.value.string;
}
device_id = CMGetKey(cop, "DeviceID", &rc).value.string;
if ((sys_path == NULL || fan_name == NULL) && (device_id == NULL)) {
CMSetStatusWithChars(_broker, &rc,
CMPI_RC_ERR_FAILED, "Could not get fan ID." );
_OSBASE_TRACE(1, ("--- %s CMPI GetInstance() failed : %s",
_ClassName, CMGetCharPtr(rc.msg)));
return rc;
}
if (sys_path && fan_name) {
cmdrc = get_fan_data(CMGetCharPtr(sys_path), CMGetCharPtr(fan_name),
&sptr);
}
if ((cmdrc || !sptr) && device_id) {
cmdrc = get_fan_data_by_id(CMGetCharPtr(device_id), &sptr);
}
if (cmdrc || !sptr) {
CMSetStatusWithChars(_broker, &rc,
CMPI_RC_ERR_NOT_FOUND, cim_fan_strerror(cmdrc));
_OSBASE_TRACE(1, ("--- %s CMPI GetInstance() exited : %s",
_ClassName,CMGetCharPtr(rc.msg)));
return rc;
}
ci = _makeInst_Fan(_broker, ctx, cop, properties, sptr, &rc);
if (sptr) free_fan(sptr);
if (ci == NULL) {
if (rc.msg != NULL) {
_OSBASE_TRACE(1, ("--- %s CMPI GetInstance() failed : %s",
_ClassName, CMGetCharPtr(rc.msg)));
}else {
_OSBASE_TRACE(1, ("--- %s CMPI GetInstance() failed", _ClassName));
}
return rc;
}
CMReturnInstance(rslt, ci);
CMReturnDone(rslt);
_OSBASE_TRACE(1, ("--- %s CMPI GetInstance() exited", _ClassName));
return rc;
}
static int
_testCMPIObjectPath()
{
CMPIStatus rc = { CMPI_RC_OK, NULL };
CMPIObjectPath *objPath = NULL;
CMPIObjectPath *clonedObjPath = NULL;
CMPIObjectPath *otherObjPath = NULL;
CMPIObjectPath *fakeObjPath = NULL;
const char *hostName = "HOSTNAME";
const char *nameSpace = "root/dummy";
const char *className = "classname";
CMPIString *returnedHostname = NULL;
CMPIBoolean equalHostname = 0;
CMPIString *returnedNamespace = NULL;
CMPIBoolean equalNamespace = 0;
CMPIString *returnedClassName;
CMPIBoolean equalClassName = 0;
CMPIString *returnedObjectPath;
CMPIBoolean cloneSuccessful = 0;
CMPIBoolean getKeySuccessful = 0;
CMPIBoolean getKeyCountSuccessful = 0;
CMPIBoolean getKeyAtSuccessful = 0;
const char *objectPath1 = NULL;
const char *objectPath2 = NULL;
CMPIData data;
CMPIValue value;
unsigned int keyCount = 0;
objPath = make_ObjectPath(_broker, _Namespace, _ClassName);
rc = CMSetHostname(objPath, hostName);
returnedHostname = CMGetHostname(objPath, &rc);
if (strcmp(hostName, CMGetCharsPtr(returnedHostname, &rc)) == 0) {
equalHostname = 1;
}
rc = CMSetNameSpace(objPath, nameSpace);
returnedNamespace = CMGetNameSpace(objPath, &rc);
if (strcmp(nameSpace, CMGetCharsPtr(returnedNamespace, &rc)) == 0) {
equalNamespace = 1;
}
rc = CMSetClassName(objPath, className);
returnedClassName = CMGetClassName(objPath, &rc);
if (strcmp(className, CMGetCharsPtr(returnedClassName, &rc)) == 0) {
equalClassName = 1;
}
otherObjPath = make_ObjectPath(_broker, _Namespace, _ClassName);
returnedNamespace = CMGetNameSpace(otherObjPath, &rc);
rc = CMSetNameSpaceFromObjectPath(otherObjPath, objPath);
returnedNamespace = CMGetNameSpace(otherObjPath, &rc);
if (strcmp(nameSpace, CMGetCharsPtr(returnedNamespace, &rc)) == 0) {
equalNamespace = 1;
}
returnedHostname = CMGetHostname(otherObjPath, &rc);
rc = CMSetHostAndNameSpaceFromObjectPath(otherObjPath, objPath);
returnedHostname = CMGetHostname(otherObjPath, &rc);
if (strcmp(hostName, CMGetCharsPtr(returnedHostname, &rc)) == 0) {
equalHostname = 1;
}
returnedObjectPath = CMObjectPathToString(objPath, &rc);
objectPath1 = CMGetCharsPtr(returnedObjectPath, &rc);
clonedObjPath = objPath->ft->clone(objPath, &rc);
returnedObjectPath = CMObjectPathToString(clonedObjPath, &rc);
rc = clonedObjPath->ft->release(clonedObjPath);
objectPath2 = CMGetCharsPtr(returnedObjectPath, &rc);
if (strcmp(objectPath1, objectPath2) == 0) {
cloneSuccessful = 1;
} else {
cloneSuccessful = 0;
}
fakeObjPath = CMNewObjectPath(_broker, "root#cimv2",
"Sample_Instance", &rc);
rc = CMAddKey(fakeObjPath, "ElementName",
(CMPIValue *) "Fake", CMPI_chars);
rc = CMAddKey(otherObjPath, "ElementName1",
(CMPIValue *) "otherObjPath", CMPI_chars);
data = CMGetKey(fakeObjPath, "ElementName", &rc);
if (strcmp(CMGetCharsPtr(data.value.string, &rc), "Fake") == 0) {
getKeySuccessful = 1;
}
keyCount = CMGetKeyCount(fakeObjPath, &rc);
if (keyCount == 1) {
getKeyCountSuccessful = 1;
}
data = CMGetKeyAt(fakeObjPath, 0, NULL, &rc);
if (rc.rc == 0) {
getKeyAtSuccessful = 1;
}
value.uint16 = 67;
rc = CMAddKey(fakeObjPath, "Numeric_key_unsigned",
(CMPIValue *) & value, CMPI_uint16);
data = CMGetKey(fakeObjPath, "Numeric_key_unsigned", &rc);
value.sint16 = -67;
rc = CMAddKey(fakeObjPath, "Numeric_key_signed",
(CMPIValue *) & value, CMPI_sint16);
data = CMGetKey(fakeObjPath, "Numeric_key_signed", &rc);
value.boolean = 1;
rc = CMAddKey(fakeObjPath, "Boolean_key",
(CMPIValue *) & value, CMPI_boolean);
data = CMGetKey(fakeObjPath, "Boolean_key", &rc);
CMGetKeyAt(objPath, 500, NULL, &rc);
if (rc.rc != CMPI_RC_ERR_NO_SUCH_PROPERTY) {
return 1;
}
rc = objPath->ft->release(objPath);
rc = fakeObjPath->ft->release(fakeObjPath);
return 0;
}
