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/*
* Copyright (C) 2013-2014 Red Hat, Inc. All rights reserved.
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*
* Authors: Peter Schiffer <pschiffe@redhat.com>
*/
#include <konkret/konkret.h>
#include <stdio.h>
#include <unistd.h>
#include <limits.h>
#include "LMI_Memory.h"
#include "LMI_Hardware.h"
#include "dmidecode.h"
#include "procfs.h"
#include "sysfs.h"
static const CMPIBroker* _cb = NULL;
static void LMI_MemoryInitialize(const CMPIContext *ctx)
{
lmi_init(provider_name, _cb, ctx, provider_config_defaults);
}
static CMPIStatus LMI_MemoryCleanup(
CMPIInstanceMI* mi,
const CMPIContext* cc,
CMPIBoolean term)
{
CMReturn(CMPI_RC_OK);
}
static CMPIStatus LMI_MemoryEnumInstanceNames(
CMPIInstanceMI* mi,
const CMPIContext* cc,
const CMPIResult* cr,
const CMPIObjectPath* cop)
{
return KDefaultEnumerateInstanceNames(
_cb, mi, cc, cr, cop);
}
static CMPIStatus LMI_MemoryEnumInstances(
CMPIInstanceMI* mi,
const CMPIContext* cc,
const CMPIResult* cr,
const CMPIObjectPath* cop,
const char** properties)
{
LMI_Memory lmi_mem;
const char *ns = KNameSpace(cop), *name = "System Memory";
char *error_msg = NULL;
long page_size;
unsigned long fallback_memory_size = 0;
DmiMemory dmi_memory;
unsigned i, *huge_page_sizes = NULL, huge_page_sizes_nb;
if (dmi_get_memory(&dmi_memory) != 0) {
fallback_memory_size = meminfo_get_memory_size();
if (!fallback_memory_size) {
error_msg = "Unable to get memory information.";
goto done;
}
}
page_size = sysconf(_SC_PAGESIZE);
sysfs_get_sizes_of_hugepages(&huge_page_sizes, &huge_page_sizes_nb);
LMI_Memory_Init(&lmi_mem, _cb, ns);
LMI_Memory_Set_SystemCreationClassName(&lmi_mem,
lmi_get_system_creation_class_name());
LMI_Memory_Set_SystemName(&lmi_mem, lmi_get_system_name());
LMI_Memory_Set_CreationClassName(&lmi_mem, LMI_ORGID "_" MEM_CLASS_NAME);
LMI_Memory_Set_DeviceID(&lmi_mem, "0");
LMI_Memory_Set_Volatile(&lmi_mem, 1);
LMI_Memory_Set_Access(&lmi_mem, LMI_Memory_Access_Read_Write_Supported);
LMI_Memory_Set_BlockSize(&lmi_mem, 1);
LMI_Memory_Set_EnabledState(&lmi_mem, LMI_Memory_EnabledState_Enabled);
LMI_Memory_Init_OperationalStatus(&lmi_mem, 1);
LMI_Memory_Set_OperationalStatus(&lmi_mem, 0,
LMI_Memory_OperationalStatus_Unknown);
LMI_Memory_Set_HealthState(&lmi_mem, LMI_Memory_HealthState_Unknown);
LMI_Memory_Set_ElementName(&lmi_mem, name);
LMI_Memory_Set_Caption(&lmi_mem, name);
LMI_Memory_Set_Name(&lmi_mem, name);
LMI_Memory_Set_Description(&lmi_mem,
"This object represents all memory available in system.");
LMI_Memory_Set_InstanceID(&lmi_mem,
LMI_ORGID ":" LMI_ORGID "_" MEM_CLASS_NAME ":0");
LMI_Memory_Set_IsCompressed(&lmi_mem, 0);
LMI_Memory_Set_Purpose(&lmi_mem, "The system memory is temporary storage "
"area storing instructions and data required by processor "
"to run programs.");
if (!fallback_memory_size) {
LMI_Memory_Set_NumberOfBlocks(&lmi_mem, dmi_memory.physical_size);
LMI_Memory_Set_ConsumableBlocks(&lmi_mem, dmi_memory.available_size);
LMI_Memory_Set_StartingAddress(&lmi_mem, dmi_memory.start_addr);
LMI_Memory_Set_EndingAddress(&lmi_mem, dmi_memory.end_addr);
} else {
LMI_Memory_Set_NumberOfBlocks(&lmi_mem, fallback_memory_size);
}
LMI_Memory_Set_HasNUMA(&lmi_mem, sysfs_has_numa());
if (page_size > 0) {
LMI_Memory_Set_StandardMemoryPageSize(&lmi_mem, page_size / 1024);
}
if (huge_page_sizes_nb > 0) {
LMI_Memory_Init_SupportedHugeMemoryPageSizes(&lmi_mem,
huge_page_sizes_nb);
for (i = 0; i < huge_page_sizes_nb; i++) {
LMI_Memory_Set_SupportedHugeMemoryPageSizes(&lmi_mem, i,
huge_page_sizes[i]);
}
}
LMI_Memory_Set_TransparentHugeMemoryPageStatus(&lmi_mem,
sysfs_get_transparent_hugepages_status());
KReturnInstance(cr, lmi_mem);
done:
dmi_free_memory(&dmi_memory);
free(huge_page_sizes);
if (error_msg) {
KReturn2(_cb, ERR_FAILED, "%s", error_msg);
}
CMReturn(CMPI_RC_OK);
}
static CMPIStatus LMI_MemoryGetInstance(
CMPIInstanceMI* mi,
const CMPIContext* cc,
const CMPIResult* cr,
const CMPIObjectPath* cop,
const char** properties)
{
return KDefaultGetInstance(
_cb, mi, cc, cr, cop, properties);
}
static CMPIStatus LMI_MemoryCreateInstance(
CMPIInstanceMI* mi,
const CMPIContext* cc,
const CMPIResult* cr,
const CMPIObjectPath* cop,
const CMPIInstance* ci)
{
CMReturn(CMPI_RC_ERR_NOT_SUPPORTED);
}
static CMPIStatus LMI_MemoryModifyInstance(
CMPIInstanceMI* mi,
const CMPIContext* cc,
const CMPIResult* cr,
const CMPIObjectPath* cop,
const CMPIInstance* ci,
const char** properties)
{
CMReturn(CMPI_RC_ERR_NOT_SUPPORTED);
}
static CMPIStatus LMI_MemoryDeleteInstance(
CMPIInstanceMI* mi,
const CMPIContext* cc,
const CMPIResult* cr,
const CMPIObjectPath* cop)
{
CMReturn(CMPI_RC_ERR_NOT_SUPPORTED);
}
static CMPIStatus LMI_MemoryExecQuery(
CMPIInstanceMI* mi,
const CMPIContext* cc,
const CMPIResult* cr,
const CMPIObjectPath* cop,
const char* lang,
const char* query)
{
CMReturn(CMPI_RC_ERR_NOT_SUPPORTED);
}
CMInstanceMIStub(
LMI_Memory,
LMI_Memory,
_cb,
LMI_MemoryInitialize(ctx))
static CMPIStatus LMI_MemoryMethodCleanup(
CMPIMethodMI* mi,
const CMPIContext* cc,
CMPIBoolean term)
{
CMReturn(CMPI_RC_OK);
}
static CMPIStatus LMI_MemoryInvokeMethod(
CMPIMethodMI* mi,
const CMPIContext* cc,
const CMPIResult* cr,
const CMPIObjectPath* cop,
const char* meth,
const CMPIArgs* in,
CMPIArgs* out)
{
return LMI_Memory_DispatchMethod(
_cb, mi, cc, cr, cop, meth, in, out);
}
CMMethodMIStub(
LMI_Memory,
LMI_Memory,
_cb,
LMI_MemoryInitialize(ctx))
KUint32 LMI_Memory_RequestStateChange(
const CMPIBroker* cb,
CMPIMethodMI* mi,
const CMPIContext* context,
const LMI_MemoryRef* self,
const KUint16* RequestedState,
KRef* Job,
const KDateTime* TimeoutPeriod,
CMPIStatus* status)
{
KUint32 result = KUINT32_INIT;
KSetStatus(status, ERR_NOT_SUPPORTED);
return result;
}
KUint32 LMI_Memory_SetPowerState(
const CMPIBroker* cb,
CMPIMethodMI* mi,
const CMPIContext* context,
const LMI_MemoryRef* self,
const KUint16* PowerState,
const KDateTime* Time,
CMPIStatus* status)
{
KUint32 result = KUINT32_INIT;
KSetStatus(status, ERR_NOT_SUPPORTED);
return result;
}
KUint32 LMI_Memory_Reset(
const CMPIBroker* cb,
CMPIMethodMI* mi,
const CMPIContext* context,
const LMI_MemoryRef* self,
CMPIStatus* status)
{
KUint32 result = KUINT32_INIT;
KSetStatus(status, ERR_NOT_SUPPORTED);
return result;
}
KUint32 LMI_Memory_EnableDevice(
const CMPIBroker* cb,
CMPIMethodMI* mi,
const CMPIContext* context,
const LMI_MemoryRef* self,
const KBoolean* Enabled,
CMPIStatus* status)
{
KUint32 result = KUINT32_INIT;
KSetStatus(status, ERR_NOT_SUPPORTED);
return result;
}
KUint32 LMI_Memory_OnlineDevice(
const CMPIBroker* cb,
CMPIMethodMI* mi,
const CMPIContext* context,
const LMI_MemoryRef* self,
const KBoolean* Online,
CMPIStatus* status)
{
KUint32 result = KUINT32_INIT;
KSetStatus(status, ERR_NOT_SUPPORTED);
return result;
}
KUint32 LMI_Memory_QuiesceDevice(
const CMPIBroker* cb,
CMPIMethodMI* mi,
const CMPIContext* context,
const LMI_MemoryRef* self,
const KBoolean* Quiesce,
CMPIStatus* status)
{
KUint32 result = KUINT32_INIT;
KSetStatus(status, ERR_NOT_SUPPORTED);
return result;
}
KUint32 LMI_Memory_SaveProperties(
const CMPIBroker* cb,
CMPIMethodMI* mi,
const CMPIContext* context,
const LMI_MemoryRef* self,
CMPIStatus* status)
{
KUint32 result = KUINT32_INIT;
KSetStatus(status, ERR_NOT_SUPPORTED);
return result;
}
KUint32 LMI_Memory_RestoreProperties(
const CMPIBroker* cb,
CMPIMethodMI* mi,
const CMPIContext* context,
const LMI_MemoryRef* self,
CMPIStatus* status)
{
KUint32 result = KUINT32_INIT;
KSetStatus(status, ERR_NOT_SUPPORTED);
return result;
}
KONKRET_REGISTRATION(
"root/cimv2",
"LMI_Memory",
"LMI_Memory",
"instance method")
|
