Sweden-Number/dlls/wbemprox/builtin.c

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/*
* Copyright 2012 Hans Leidekker for CodeWeavers
*
* 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 St, Fifth Floor, Boston, MA 02110-1301, USA
*/
#define COBJMACROS
#define NONAMELESSUNION
#define NONAMELESSSTRUCT
#include "config.h"
#include <stdarg.h>
#include <fcntl.h>
#ifdef HAVE_UNISTD_H
# include <unistd.h>
#endif
#ifdef HAVE_ARPA_INET_H
# include <arpa/inet.h>
#endif
#include "ntstatus.h"
#define WIN32_NO_STATUS
#include "windef.h"
#include "winbase.h"
#ifdef __MINGW32__
# include "winsock2.h"
# include "ws2tcpip.h"
# define WS_AF_INET AF_INET
# define WS_AF_UNSPEC AF_UNSPEC
# define WS_NI_MAXHOST NI_MAXHOST
# define WS_NI_NAMEREQD NI_NAMEREQD
#else
# define USE_WS_PREFIX
# include "winsock2.h"
# include "ws2tcpip.h"
#endif
#include "initguid.h"
#include "wbemcli.h"
#include "wbemprov.h"
#include "iphlpapi.h"
#include "netioapi.h"
#include "tlhelp32.h"
#include "d3d10.h"
#include "winternl.h"
#include "winioctl.h"
#include "winsvc.h"
#include "winver.h"
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#include "sddl.h"
#include "ntsecapi.h"
#include "winspool.h"
#include "setupapi.h"
#include "wine/asm.h"
#include "wine/debug.h"
#include "wbemprox_private.h"
WINE_DEFAULT_DEBUG_CHANNEL(wbemprox);
static const WCHAR class_baseboardW[] =
{'W','i','n','3','2','_','B','a','s','e','B','o','a','r','d',0};
static const WCHAR class_biosW[] =
{'W','i','n','3','2','_','B','I','O','S',0};
static const WCHAR class_cdromdriveW[] =
{'W','i','n','3','2','_','C','D','R','O','M','D','r','i','v','e',0};
static const WCHAR class_compsysW[] =
{'W','i','n','3','2','_','C','o','m','p','u','t','e','r','S','y','s','t','e','m',0};
static const WCHAR class_compsysproductW[] =
{'W','i','n','3','2','_','C','o','m','p','u','t','e','r','S','y','s','t','e','m','P','r','o','d','u','c','t',0};
static const WCHAR class_datafileW[] =
{'C','I','M','_','D','a','t','a','F','i','l','e',0};
static const WCHAR class_desktopmonitorW[] =
{'W','i','n','3','2','_','D','e','s','k','t','o','p','M','o','n','i','t','o','r',0};
static const WCHAR class_directoryW[] =
{'W','i','n','3','2','_','D','i','r','e','c','t','o','r','y',0};
static const WCHAR class_diskdriveW[] =
{'W','i','n','3','2','_','D','i','s','k','D','r','i','v','e',0};
static const WCHAR class_diskpartitionW[] =
{'W','i','n','3','2','_','D','i','s','k','P','a','r','t','i','t','i','o','n',0};
static const WCHAR class_ip4routetableW[] =
{'W','i','n','3','2','_','I','P','4','R','o','u','t','e','T','a','b','l','e',0};
static const WCHAR class_logicaldiskW[] =
{'W','i','n','3','2','_','L','o','g','i','c','a','l','D','i','s','k',0};
static const WCHAR class_logicaldisk2W[] =
{'C','I','M','_','L','o','g','i','c','a','l','D','i','s','k',0};
static const WCHAR class_networkadapterW[] =
{'W','i','n','3','2','_','N','e','t','w','o','r','k','A','d','a','p','t','e','r',0};
static const WCHAR class_networkadapterconfigW[] =
{'W','i','n','3','2','_','N','e','t','w','o','r','k','A','d','a','p','t','e','r',
'C','o','n','f','i','g','u','r','a','t','i','o','n',0};
static const WCHAR class_osW[] =
{'W','i','n','3','2','_','O','p','e','r','a','t','i','n','g','S','y','s','t','e','m',0};
static const WCHAR class_paramsW[] =
{'_','_','P','A','R','A','M','E','T','E','R','S',0};
static const WCHAR class_physicalmediaW[] =
{'W','i','n','3','2','_','P','h','y','s','i','c','a','l','M','e','d','i','a',0};
static const WCHAR class_physicalmemoryW[] =
{'W','i','n','3','2','_','P','h','y','s','i','c','a','l','M','e','m','o','r','y',0};
static const WCHAR class_pnpentityW[] =
{'W','i','n','3','2','_','P','n','P','E','n','t','i','t','y',0};
static const WCHAR class_printerW[] =
{'W','i','n','3','2','_','P','r','i','n','t','e','r',0};
static const WCHAR class_process_getowner_outW[] =
{'_','_','W','I','N','3','2','_','P','R','O','C','E','S','S','_','G','E','T','O','W',
'N','E','R','_','O','U','T',0};
static const WCHAR class_processorW[] =
{'W','i','n','3','2','_','P','r','o','c','e','s','s','o','r',0};
static const WCHAR class_processor2W[] =
{'C','I','M','_','P','r','o','c','e','s','s','o','r',0};
static const WCHAR class_qualifiersW[] =
{'_','_','Q','U','A','L','I','F','I','E','R','S',0};
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static const WCHAR class_sidW[] =
{'W','i','n','3','2','_','S','I','D',0};
static const WCHAR class_sounddeviceW[] =
{'W','i','n','3','2','_','S','o','u','n','d','D','e','v','i','c','e',0};
static const WCHAR class_systemenclosureW[] =
{'W','i','n','3','2','_','S','y','s','t','e','m','E','n','c','l','o','s','u','r','e',0};
static const WCHAR class_videocontrollerW[] =
{'W','i','n','3','2','_','V','i','d','e','o','C','o','n','t','r','o','l','l','e','r',0};
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static const WCHAR prop_accountnameW[] =
{'A','c','c','o','u','n','t','N','a','m','e',0};
static const WCHAR prop_acceptpauseW[] =
{'A','c','c','e','p','t','P','a','u','s','e',0};
static const WCHAR prop_acceptstopW[] =
{'A','c','c','e','p','t','S','t','o','p',0};
static const WCHAR prop_accessmaskW[] =
{'A','c','c','e','s','s','M','a','s','k',0};
static const WCHAR prop_adapterdactypeW[] =
{'A','d','a','p','t','e','r','D','A','C','T','y','p','e',0};
static const WCHAR prop_adapterramW[] =
{'A','d','a','p','t','e','r','R','A','M',0};
static const WCHAR prop_adaptertypeW[] =
{'A','d','a','p','t','e','r','T','y','p','e',0};
static const WCHAR prop_adaptertypeidW[] =
{'A','d','a','p','t','e','r','T','y','p','e','I','D',0};
static const WCHAR prop_addresswidthW[] =
{'A','d','d','r','e','s','s','W','i','d','t','h',0};
static const WCHAR prop_architectureW[] =
{'A','r','c','h','i','t','e','c','t','u','r','e',0};
static const WCHAR prop_attributesW[] =
{'A','t','t','r','i','b','u','t','e','s',0};
static const WCHAR prop_availabilityW[] =
{'A','v','a','i','l','a','b','i','l','i','t','y',0};
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static const WCHAR prop_binaryrepresentationW[] =
{'B','i','n','a','r','y','R','e','p','r','e','s','e','n','t','a','t','i','o','n',0};
static const WCHAR prop_bootableW[] =
{'B','o','o','t','a','b','l','e',0};
static const WCHAR prop_bootpartitionW[] =
{'B','o','o','t','P','a','r','t','i','t','i','o','n',0};
static const WCHAR prop_buildnumberW[] =
{'B','u','i','l','d','N','u','m','b','e','r',0};
static const WCHAR prop_capacityW[] =
{'C','a','p','a','c','i','t','y',0};
static const WCHAR prop_captionW[] =
{'C','a','p','t','i','o','n',0};
static const WCHAR prop_chassistypesW[] =
{'C','h','a','s','s','i','s','T','y','p','e','s',0};
static const WCHAR prop_classW[] =
{'C','l','a','s','s',0};
static const WCHAR prop_codesetW[] =
{'C','o','d','e','S','e','t',0};
static const WCHAR prop_commandlineW[] =
{'C','o','m','m','a','n','d','L','i','n','e',0};
static const WCHAR prop_configmanagererrorcodeW[] =
{'C','o','n','f','i','g','M','a','n','a','g','e','r','E','r','r','o','r','C','o','d','e',0};
static const WCHAR prop_countrycodeW[] =
{'C','o','u','n','t','r','y','C','o','d','e',0};
static const WCHAR prop_cpustatusW[] =
{'C','p','u','S','t','a','t','u','s',0};
static const WCHAR prop_csdversionW[] =
{'C','S','D','V','e','r','s','i','o','n',0};
static const WCHAR prop_currentbitsperpixelW[] =
{'C','u','r','r','e','n','t','B','i','t','s','P','e','r','P','i','x','e','l',0};
static const WCHAR prop_currentclockspeedW[] =
{'C','u','r','r','e','n','t','C','l','o','c','k','S','p','e','e','d',0};
static const WCHAR prop_currenthorizontalresW[] =
{'C','u','r','r','e','n','t','H','o','r','i','z','o','n','t','a','l','R','e','s','o','l','u','t','i','o','n',0};
static const WCHAR prop_currentrefreshrateW[] =
{'C','u','r','r','e','n','t','R','e','f','r','e','s','h','R','a','t','e',0};
static const WCHAR prop_currentscanmodeW[] =
{'C','u','r','r','e','n','t','S','c','a','n','M','o','d','e',0};
static const WCHAR prop_currentverticalresW[] =
{'C','u','r','r','e','n','t','V','e','r','t','i','c','a','l','R','e','s','o','l','u','t','i','o','n',0};
static const WCHAR prop_datawidthW[] =
{'D','a','t','a','W','i','d','t','h',0};
static const WCHAR prop_defaultipgatewayW[] =
{'D','e','f','a','u','l','t','I','P','G','a','t','e','w','a','y',0};
static const WCHAR prop_defaultvalueW[] =
{'D','e','f','a','u','l','t','V','a','l','u','e',0};
static const WCHAR prop_descriptionW[] =
{'D','e','s','c','r','i','p','t','i','o','n',0};
static const WCHAR prop_destinationW[] =
{'D','e','s','t','i','n','a','t','i','o','n',0};
static const WCHAR prop_deviceidW[] =
{'D','e','v','i','c','e','I','d',0};
static const WCHAR prop_devicelocatorW[] =
{'D','e','v','i','c','e','L','o','c','a','t','o','r',0};
static const WCHAR prop_dhcpenabledW[] =
{'D','H','C','P','E','n','a','b','l','e','d',0};
static const WCHAR prop_directionW[] =
{'D','i','r','e','c','t','i','o','n',0};
static const WCHAR prop_displaynameW[] =
{'D','i','s','p','l','a','y','N','a','m','e',0};
static const WCHAR prop_diskindexW[] =
{'D','i','s','k','I','n','d','e','x',0};
static const WCHAR prop_dnshostnameW[] =
{'D','N','S','H','o','s','t','N','a','m','e',0};
static const WCHAR prop_dnsserversearchorderW[] =
{'D','N','S','S','e','r','v','e','r','S','e','a','r','c','h','O','r','d','e','r',0};
static const WCHAR prop_domainW[] =
{'D','o','m','a','i','n',0};
static const WCHAR prop_domainroleW[] =
{'D','o','m','a','i','n','R','o','l','e',0};
static const WCHAR prop_driveW[] =
{'D','r','i','v','e',0};
static const WCHAR prop_driverdateW[] =
{'D','r','i','v','e','r','D','a','t','e',0};
static const WCHAR prop_drivernameW[] =
{'D','r','i','v','e','r','N','a','m','e',0};
static const WCHAR prop_driverversionW[] =
{'D','r','i','v','e','r','V','e','r','s','i','o','n',0};
static const WCHAR prop_drivetypeW[] =
{'D','r','i','v','e','T','y','p','e',0};
static const WCHAR prop_familyW[] =
{'F','a','m','i','l','y',0};
static const WCHAR prop_filesystemW[] =
{'F','i','l','e','S','y','s','t','e','m',0};
static const WCHAR prop_flavorW[] =
{'F','l','a','v','o','r',0};
static const WCHAR prop_freespaceW[] =
{'F','r','e','e','S','p','a','c','e',0};
static const WCHAR prop_freephysicalmemoryW[] =
{'F','r','e','e','P','h','y','s','i','c','a','l','M','e','m','o','r','y',0};
static const WCHAR prop_handleW[] =
{'H','a','n','d','l','e',0};
static const WCHAR prop_horizontalresolutionW[] =
{'H','o','r','i','z','o','n','t','a','l','R','e','s','o','l','u','t','i','o','n',0};
static const WCHAR prop_idW[] =
{'I','D',0};
static const WCHAR prop_identificationcodeW[] =
{'I','d','e','n','t','i','f','i','c','a','t','i','o','n','C','o','d','e',0};
static const WCHAR prop_identifyingnumberW[] =
{'I','d','e','n','t','i','f','y','i','n','g','N','u','m','b','e','r',0};
static const WCHAR prop_indexW[] =
{'I','n','d','e','x',0};
static const WCHAR prop_installdateW[] =
{'I','n','s','t','a','l','l','D','a','t','e',0};
static const WCHAR prop_installeddisplaydriversW[]=
{'I','n','s','t','a','l','l','e','d','D','i','s','p','l','a','y','D','r','i','v','e','r','s',0};
static const WCHAR prop_interfaceindexW[] =
{'I','n','t','e','r','f','a','c','e','I','n','d','e','x',0};
static const WCHAR prop_interfacetypeW[] =
{'I','n','t','e','r','f','a','c','e','T','y','p','e',0};
static const WCHAR prop_intvalueW[] =
{'I','n','t','e','g','e','r','V','a','l','u','e',0};
static const WCHAR prop_ipaddressW[] =
{'I','P','A','d','d','r','e','s','s',0};
static const WCHAR prop_ipconnectionmetricW[] =
{'I','P','C','o','n','n','e','c','t','i','o','n','M','e','t','r','i','c',0};
static const WCHAR prop_ipenabledW[] =
{'I','P','E','n','a','b','l','e','d',0};
static const WCHAR prop_ipsubnet[] =
{'I','P','S','u','b','n','e','t',0};
static const WCHAR prop_lastbootuptimeW[] =
{'L','a','s','t','B','o','o','t','U','p','T','i','m','e',0};
static const WCHAR prop_levelW[] =
{'L','e','v','e','l',0};
static const WCHAR prop_localW[] =
{'L','o','c','a','l',0};
static const WCHAR prop_localdatetimeW[] =
{'L','o','c','a','l','D','a','t','e','T','i','m','e',0};
static const WCHAR prop_localeW[] =
{'L','o','c','a','l','e',0};
static const WCHAR prop_locationW[] =
{'L','o','c','a','t','i','o','n',0};
static const WCHAR prop_lockpresentW[] =
{'L','o','c','k','P','r','e','s','e','n','t',0};
static const WCHAR prop_macaddressW[] =
{'M','A','C','A','d','d','r','e','s','s',0};
static const WCHAR prop_manufacturerW[] =
{'M','a','n','u','f','a','c','t','u','r','e','r',0};
static const WCHAR prop_maxclockspeedW[] =
{'M','a','x','C','l','o','c','k','S','p','e','e','d',0};
static const WCHAR prop_mediatypeW[] =
{'M','e','d','i','a','T','y','p','e',0};
static const WCHAR prop_memberW[] =
{'M','e','m','b','e','r',0};
static const WCHAR prop_memorytypeW[] =
{'M','e','m','o','r','y','T','y','p','e',0};
static const WCHAR prop_methodW[] =
{'M','e','t','h','o','d',0};
static const WCHAR prop_modelW[] =
{'M','o','d','e','l',0};
static const WCHAR prop_netconnectionstatusW[] =
{'N','e','t','C','o','n','n','e','c','t','i','o','n','S','t','a','t','u','s',0};
static const WCHAR prop_networkW[] =
{'N','e','t','w','o','r','k',0};
static const WCHAR prop_nexthopW[] =
{'N','e','x','t','H','o','p',0};
static const WCHAR prop_numcoresW[] =
{'N','u','m','b','e','r','O','f','C','o','r','e','s',0};
static const WCHAR prop_numlogicalprocessorsW[] =
{'N','u','m','b','e','r','O','f','L','o','g','i','c','a','l','P','r','o','c','e','s','s','o','r','s',0};
static const WCHAR prop_numprocessorsW[] =
{'N','u','m','b','e','r','O','f','P','r','o','c','e','s','s','o','r','s',0};
static const WCHAR prop_operatingsystemskuW[] =
{'O','p','e','r','a','t','i','n','g','S','y','s','t','e','m','S','K','U',0};
static const WCHAR prop_osarchitectureW[] =
{'O','S','A','r','c','h','i','t','e','c','t','u','r','e',0};
static const WCHAR prop_oslanguageW[] =
{'O','S','L','a','n','g','u','a','g','e',0};
static const WCHAR prop_osproductsuiteW[] =
{'O','S','P','r','o','d','u','c','t','S','u','i','t','e',0};
static const WCHAR prop_ostypeW[] =
{'O','S','T','y','p','e',0};
static const WCHAR prop_parameterW[] =
{'P','a','r','a','m','e','t','e','r',0};
static const WCHAR prop_physicaladapterW[] =
{'P','h','y','s','i','c','a','l','A','d','a','p','t','e','r',0};
static const WCHAR prop_pixelsperxlogicalinchW[] =
{'P','i','x','e','l','s','P','e','r','X','L','o','g','i','c','a','l','I','n','c','h',0};
static const WCHAR prop_pnpdeviceidW[] =
{'P','N','P','D','e','v','i','c','e','I','D',0};
static const WCHAR prop_portnameW[] =
{'P','o','r','t','N','a','m','e',0};
static const WCHAR prop_pprocessidW[] =
{'P','a','r','e','n','t','P','r','o','c','e','s','s','I','D',0};
static const WCHAR prop_primaryW[] =
{'P','r','i','m','a','r','y',0};
static const WCHAR prop_processidW[] =
{'P','r','o','c','e','s','s','I','D',0};
static const WCHAR prop_processoridW[] =
{'P','r','o','c','e','s','s','o','r','I','d',0};
static const WCHAR prop_processortypeW[] =
{'P','r','o','c','e','s','s','o','r','T','y','p','e',0};
static const WCHAR prop_productW[] =
{'P','r','o','d','u','c','t',0};
static const WCHAR prop_productnameW[] =
{'P','r','o','d','u','c','t','N','a','m','e',0};
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static const WCHAR prop_referenceddomainnameW[] =
{'R','e','f','e','r','e','n','c','e','d','D','o','m','a','i','n','N','a','m','e',0};
static const WCHAR prop_releasedateW[] =
{'R','e','l','e','a','s','e','D','a','t','e',0};
static const WCHAR prop_revisionW[] =
{'R','e','v','i','s','i','o','n',0};
static const WCHAR prop_serialnumberW[] =
{'S','e','r','i','a','l','N','u','m','b','e','r',0};
static const WCHAR prop_servicepackmajorW[] =
{'S','e','r','v','i','c','e','P','a','c','k','M','a','j','o','r','V','e','r','s','i','o','n',0};
static const WCHAR prop_servicepackminorW[] =
{'S','e','r','v','i','c','e','P','a','c','k','M','i','n','o','r','V','e','r','s','i','o','n',0};
static const WCHAR prop_servicetypeW[] =
{'S','e','r','v','i','c','e','T','y','p','e',0};
static const WCHAR prop_settingidW[] =
{'S','e','t','t','i','n','g','I','D',0};
static const WCHAR prop_skunumberW[] =
{'S','K','U','N','u','m','b','e','r',0};
static const WCHAR prop_smbiosbiosversionW[] =
{'S','M','B','I','O','S','B','I','O','S','V','e','r','s','i','o','n',0};
static const WCHAR prop_smbiosmajorversionW[] =
{'S','M','B','I','O','S','M','a','j','o','r','V','e','r','s','i','o','n',0};
static const WCHAR prop_smbiosminorversionW[] =
{'S','M','B','I','O','S','M','i','n','o','r','V','e','r','s','i','o','n',0};
static const WCHAR prop_startmodeW[] =
{'S','t','a','r','t','M','o','d','e',0};
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static const WCHAR prop_sidW[] =
{'S','I','D',0};
static const WCHAR prop_sidlengthW[] =
{'S','i','d','L','e','n','g','t','h',0};
static const WCHAR prop_sizeW[] =
{'S','i','z','e',0};
static const WCHAR prop_speedW[] =
{'S','p','e','e','d',0};
static const WCHAR prop_startingoffsetW[] =
{'S','t','a','r','t','i','n','g','O','f','f','s','e','t',0};
static const WCHAR prop_stateW[] =
{'S','t','a','t','e',0};
static const WCHAR prop_statusW[] =
{'S','t','a','t','u','s',0};
static const WCHAR prop_statusinfoW[] =
{'S','t','a','t','u','s','I','n','f','o',0};
static const WCHAR prop_strvalueW[] =
{'S','t','r','i','n','g','V','a','l','u','e',0};
static const WCHAR prop_suitemaskW[] =
{'S','u','i','t','e','M','a','s','k',0};
static const WCHAR prop_systemdirectoryW[] =
{'S','y','s','t','e','m','D','i','r','e','c','t','o','r','y',0};
static const WCHAR prop_systemdriveW[] =
{'S','y','s','t','e','m','D','r','i','v','e',0};
static const WCHAR prop_systemnameW[] =
{'S','y','s','t','e','m','N','a','m','e',0};
static const WCHAR prop_tagW[] =
{'T','a','g',0};
static const WCHAR prop_threadcountW[] =
{'T','h','r','e','a','d','C','o','u','n','t',0};
static const WCHAR prop_totalphysicalmemoryW[] =
{'T','o','t','a','l','P','h','y','s','i','c','a','l','M','e','m','o','r','y',0};
static const WCHAR prop_totalvirtualmemorysizeW[] =
{'T','o','t','a','l','V','i','r','t','u','a','l','M','e','m','o','r','y','S','i','z','e',0};
static const WCHAR prop_totalvisiblememorysizeW[] =
{'T','o','t','a','l','V','i','s','i','b','l','e','M','e','m','o','r','y','S','i','z','e',0};
static const WCHAR prop_typeW[] =
{'T','y','p','e',0};
static const WCHAR prop_uniqueidW[] =
{'U','n','i','q','u','e','I','d',0};
static const WCHAR prop_usernameW[] =
{'U','s','e','r','N','a','m','e',0};
static const WCHAR prop_uuidW[] =
{'U','U','I','D',0};
static const WCHAR prop_varianttypeW[] =
{'V','a','r','i','a','n','t','T','y','p','e',0};
static const WCHAR prop_vendorW[] =
{'V','e','n','d','o','r',0};
static const WCHAR prop_versionW[] =
{'V','e','r','s','i','o','n',0};
static const WCHAR prop_videoarchitectureW[] =
{'V','i','d','e','o','A','r','c','h','i','t','e','c','t','u','r','e',0};
static const WCHAR prop_videomemorytypeW[] =
{'V','i','d','e','o','M','e','m','o','r','y','T','y','p','e',0};
static const WCHAR prop_videomodedescriptionW[] =
{'V','i','d','e','o','M','o','d','e','D','e','s','c','r','i','p','t','i','o','n',0};
static const WCHAR prop_videoprocessorW[] =
{'V','i','d','e','o','P','r','o','c','e','s','s','o','r',0};
static const WCHAR prop_volumenameW[] =
{'V','o','l','u','m','e','N','a','m','e',0};
static const WCHAR prop_volumeserialnumberW[] =
{'V','o','l','u','m','e','S','e','r','i','a','l','N','u','m','b','e','r',0};
static const WCHAR prop_workingsetsizeW[] =
{'W','o','r','k','i','n','g','S','e','t','S','i','z','e',0};
/* column definitions must be kept in sync with record structures below */
static const struct column col_baseboard[] =
{
{ prop_manufacturerW, CIM_STRING },
{ prop_modelW, CIM_STRING },
{ prop_nameW, CIM_STRING },
{ prop_productW, CIM_STRING },
{ prop_serialnumberW, CIM_STRING },
{ prop_tagW, CIM_STRING|COL_FLAG_KEY },
{ prop_versionW, CIM_STRING }
};
static const struct column col_bios[] =
{
{ prop_descriptionW, CIM_STRING },
{ prop_identificationcodeW, CIM_STRING },
{ prop_manufacturerW, CIM_STRING },
{ prop_nameW, CIM_STRING },
{ prop_releasedateW, CIM_DATETIME },
{ prop_serialnumberW, CIM_STRING },
{ prop_smbiosbiosversionW, CIM_STRING },
{ prop_smbiosmajorversionW, CIM_UINT16, VT_I4 },
{ prop_smbiosminorversionW, CIM_UINT16, VT_I4 },
{ prop_versionW, CIM_STRING|COL_FLAG_KEY }
};
static const struct column col_cdromdrive[] =
{
{ prop_deviceidW, CIM_STRING|COL_FLAG_KEY },
{ prop_driveW, CIM_STRING|COL_FLAG_DYNAMIC },
{ prop_mediatypeW, CIM_STRING },
{ prop_nameW, CIM_STRING },
{ prop_pnpdeviceidW, CIM_STRING }
};
static const struct column col_compsys[] =
{
{ prop_descriptionW, CIM_STRING },
{ prop_domainW, CIM_STRING },
{ prop_domainroleW, CIM_UINT16, VT_I4 },
{ prop_manufacturerW, CIM_STRING },
{ prop_modelW, CIM_STRING },
{ prop_nameW, CIM_STRING|COL_FLAG_DYNAMIC },
{ prop_numlogicalprocessorsW, CIM_UINT32, VT_I4 },
{ prop_numprocessorsW, CIM_UINT32, VT_I4 },
{ prop_totalphysicalmemoryW, CIM_UINT64 },
2015-04-02 16:19:12 +02:00
{ prop_usernameW, CIM_STRING|COL_FLAG_DYNAMIC }
};
static const struct column col_compsysproduct[] =
{
{ prop_identifyingnumberW, CIM_STRING|COL_FLAG_KEY },
{ prop_nameW, CIM_STRING|COL_FLAG_KEY },
{ prop_skunumberW, CIM_STRING },
{ prop_uuidW, CIM_STRING|COL_FLAG_DYNAMIC },
{ prop_vendorW, CIM_STRING },
{ prop_versionW, CIM_STRING|COL_FLAG_KEY }
};
static const struct column col_datafile[] =
{
{ prop_nameW, CIM_STRING|COL_FLAG_DYNAMIC|COL_FLAG_KEY },
{ prop_versionW, CIM_STRING|COL_FLAG_DYNAMIC }
};
static const struct column col_desktopmonitor[] =
{
{ prop_pixelsperxlogicalinchW, CIM_UINT32 }
};
static const struct column col_directory[] =
{
{ prop_accessmaskW, CIM_UINT32 },
{ prop_nameW, CIM_STRING|COL_FLAG_DYNAMIC|COL_FLAG_KEY }
};
static const struct column col_diskdrive[] =
{
{ prop_deviceidW, CIM_STRING|COL_FLAG_DYNAMIC|COL_FLAG_KEY },
{ prop_indexW, CIM_UINT32, VT_I4 },
{ prop_interfacetypeW, CIM_STRING },
{ prop_manufacturerW, CIM_STRING },
{ prop_mediatypeW, CIM_STRING },
{ prop_modelW, CIM_STRING },
{ prop_pnpdeviceidW, CIM_STRING },
{ prop_serialnumberW, CIM_STRING },
{ prop_sizeW, CIM_UINT64 }
};
static const struct column col_diskpartition[] =
{
{ prop_bootableW, CIM_BOOLEAN },
{ prop_bootpartitionW, CIM_BOOLEAN },
{ prop_deviceidW, CIM_STRING|COL_FLAG_DYNAMIC|COL_FLAG_KEY },
{ prop_diskindexW, CIM_UINT32, VT_I4 },
{ prop_indexW, CIM_UINT32, VT_I4 },
{ prop_pnpdeviceidW, CIM_STRING|COL_FLAG_DYNAMIC },
{ prop_sizeW, CIM_UINT64 },
{ prop_startingoffsetW, CIM_UINT64 },
{ prop_typeW, CIM_STRING|COL_FLAG_DYNAMIC }
};
static const struct column col_ip4routetable[] =
{
{ prop_destinationW, CIM_STRING|COL_FLAG_DYNAMIC|COL_FLAG_KEY },
{ prop_interfaceindexW, CIM_SINT32|COL_FLAG_KEY },
{ prop_nexthopW, CIM_STRING|COL_FLAG_DYNAMIC|COL_FLAG_KEY },
};
static const struct column col_logicaldisk[] =
{
{ prop_deviceidW, CIM_STRING|COL_FLAG_DYNAMIC|COL_FLAG_KEY },
{ prop_drivetypeW, CIM_UINT32, VT_I4 },
{ prop_filesystemW, CIM_STRING|COL_FLAG_DYNAMIC },
{ prop_freespaceW, CIM_UINT64 },
{ prop_nameW, CIM_STRING|COL_FLAG_DYNAMIC },
{ prop_sizeW, CIM_UINT64 },
{ prop_volumenameW, CIM_STRING|COL_FLAG_DYNAMIC },
{ prop_volumeserialnumberW, CIM_STRING|COL_FLAG_DYNAMIC }
};
static const struct column col_networkadapter[] =
{
{ prop_adaptertypeW, CIM_STRING },
{ prop_adaptertypeidW, CIM_UINT16, VT_I4 },
{ prop_descriptionW, CIM_STRING|COL_FLAG_DYNAMIC },
{ prop_deviceidW, CIM_STRING|COL_FLAG_DYNAMIC|COL_FLAG_KEY },
{ prop_indexW, CIM_UINT32, VT_I4 },
{ prop_interfaceindexW, CIM_UINT32, VT_I4 },
{ prop_macaddressW, CIM_STRING|COL_FLAG_DYNAMIC },
{ prop_manufacturerW, CIM_STRING },
{ prop_nameW, CIM_STRING|COL_FLAG_DYNAMIC },
{ prop_netconnectionstatusW, CIM_UINT16, VT_I4 },
{ prop_physicaladapterW, CIM_BOOLEAN },
{ prop_pnpdeviceidW, CIM_STRING },
{ prop_speedW, CIM_UINT64 }
};
static const struct column col_networkadapterconfig[] =
{
{ prop_defaultipgatewayW, CIM_STRING|CIM_FLAG_ARRAY|COL_FLAG_DYNAMIC },
{ prop_descriptionW, CIM_STRING|COL_FLAG_DYNAMIC },
{ prop_dhcpenabledW, CIM_BOOLEAN },
{ prop_dnshostnameW, CIM_STRING|COL_FLAG_DYNAMIC },
{ prop_dnsserversearchorderW, CIM_STRING|CIM_FLAG_ARRAY|COL_FLAG_DYNAMIC },
{ prop_indexW, CIM_UINT32|COL_FLAG_KEY, VT_I4 },
{ prop_ipaddressW, CIM_STRING|CIM_FLAG_ARRAY|COL_FLAG_DYNAMIC },
{ prop_ipconnectionmetricW, CIM_UINT32, VT_I4 },
{ prop_ipenabledW, CIM_BOOLEAN },
{ prop_ipsubnet, CIM_STRING|CIM_FLAG_ARRAY|COL_FLAG_DYNAMIC },
{ prop_macaddressW, CIM_STRING|COL_FLAG_DYNAMIC },
{ prop_settingidW, CIM_STRING|COL_FLAG_DYNAMIC }
};
static const struct column col_os[] =
{
{ prop_buildnumberW, CIM_STRING|COL_FLAG_DYNAMIC },
{ prop_captionW, CIM_STRING|COL_FLAG_DYNAMIC },
{ prop_codesetW, CIM_STRING|COL_FLAG_DYNAMIC },
{ prop_countrycodeW, CIM_STRING|COL_FLAG_DYNAMIC },
{ prop_csdversionW, CIM_STRING|COL_FLAG_DYNAMIC },
{ prop_freephysicalmemoryW, CIM_UINT64 },
{ prop_installdateW, CIM_DATETIME },
{ prop_lastbootuptimeW, CIM_DATETIME|COL_FLAG_DYNAMIC },
{ prop_localdatetimeW, CIM_DATETIME|COL_FLAG_DYNAMIC },
{ prop_localeW, CIM_STRING|COL_FLAG_DYNAMIC },
{ prop_nameW, CIM_STRING|COL_FLAG_DYNAMIC },
{ prop_operatingsystemskuW, CIM_UINT32, VT_I4 },
{ prop_osarchitectureW, CIM_STRING },
{ prop_oslanguageW, CIM_UINT32, VT_I4 },
{ prop_osproductsuiteW, CIM_UINT32, VT_I4 },
{ prop_ostypeW, CIM_UINT16, VT_I4 },
{ prop_primaryW, CIM_BOOLEAN },
{ prop_serialnumberW, CIM_STRING },
{ prop_servicepackmajorW, CIM_UINT16, VT_I4 },
{ prop_servicepackminorW, CIM_UINT16, VT_I4 },
{ prop_suitemaskW, CIM_UINT32, VT_I4 },
{ prop_systemdirectoryW, CIM_STRING|COL_FLAG_DYNAMIC },
{ prop_systemdriveW, CIM_STRING|COL_FLAG_DYNAMIC },
{ prop_totalvirtualmemorysizeW, CIM_UINT64 },
{ prop_totalvisiblememorysizeW, CIM_UINT64 },
{ prop_versionW, CIM_STRING|COL_FLAG_DYNAMIC }
};
static const struct column col_param[] =
{
{ prop_classW, CIM_STRING },
{ prop_methodW, CIM_STRING },
{ prop_directionW, CIM_SINT32 },
{ prop_parameterW, CIM_STRING },
{ prop_typeW, CIM_UINT32 },
{ prop_varianttypeW, CIM_UINT32 },
{ prop_defaultvalueW, CIM_UINT32 }
};
static const struct column col_physicalmedia[] =
{
{ prop_serialnumberW, CIM_STRING },
{ prop_tagW, CIM_STRING }
};
static const struct column col_physicalmemory[] =
{
{ prop_capacityW, CIM_UINT64 },
{ prop_devicelocatorW, CIM_STRING },
{ prop_memorytypeW, CIM_UINT16, VT_I4 }
};
static const struct column col_pnpentity[] =
{
{ prop_deviceidW, CIM_STRING|COL_FLAG_DYNAMIC },
};
static const struct column col_printer[] =
{
{ prop_attributesW, CIM_UINT32 },
{ prop_deviceidW, CIM_STRING|COL_FLAG_DYNAMIC|COL_FLAG_KEY },
{ prop_drivernameW, CIM_STRING|COL_FLAG_DYNAMIC },
{ prop_horizontalresolutionW, CIM_UINT32 },
{ prop_localW, CIM_BOOLEAN },
{ prop_locationW, CIM_STRING|COL_FLAG_DYNAMIC },
{ prop_nameW, CIM_STRING|COL_FLAG_DYNAMIC },
{ prop_networkW, CIM_BOOLEAN },
{ prop_portnameW, CIM_STRING|COL_FLAG_DYNAMIC },
};
static const struct column col_process[] =
{
{ prop_captionW, CIM_STRING|COL_FLAG_DYNAMIC },
{ prop_commandlineW, CIM_STRING|COL_FLAG_DYNAMIC },
{ prop_descriptionW, CIM_STRING|COL_FLAG_DYNAMIC },
{ prop_handleW, CIM_STRING|COL_FLAG_DYNAMIC|COL_FLAG_KEY },
{ prop_nameW, CIM_STRING|COL_FLAG_DYNAMIC },
{ prop_pprocessidW, CIM_UINT32, VT_I4 },
{ prop_processidW, CIM_UINT32, VT_I4 },
{ prop_threadcountW, CIM_UINT32, VT_I4 },
{ prop_workingsetsizeW, CIM_UINT64 },
/* methods */
{ method_getownerW, CIM_FLAG_ARRAY|COL_FLAG_METHOD }
};
static const struct column col_processor[] =
{
{ prop_addresswidthW, CIM_UINT16, VT_I4 },
{ prop_architectureW, CIM_UINT16, VT_I4 },
{ prop_captionW, CIM_STRING|COL_FLAG_DYNAMIC },
{ prop_cpustatusW, CIM_UINT16 },
{ prop_currentclockspeedW, CIM_UINT32, VT_I4 },
{ prop_datawidthW, CIM_UINT16, VT_I4 },
{ prop_descriptionW, CIM_STRING|COL_FLAG_DYNAMIC },
{ prop_deviceidW, CIM_STRING|COL_FLAG_DYNAMIC|COL_FLAG_KEY },
{ prop_familyW, CIM_UINT16, VT_I4 },
{ prop_levelW, CIM_UINT16, VT_I4 },
{ prop_manufacturerW, CIM_STRING|COL_FLAG_DYNAMIC },
{ prop_maxclockspeedW, CIM_UINT32, VT_I4 },
{ prop_nameW, CIM_STRING|COL_FLAG_DYNAMIC },
{ prop_numcoresW, CIM_UINT32, VT_I4 },
{ prop_numlogicalprocessorsW, CIM_UINT32, VT_I4 },
{ prop_processoridW, CIM_STRING|COL_FLAG_DYNAMIC },
{ prop_processortypeW, CIM_UINT16, VT_I4 },
{ prop_revisionW, CIM_UINT16, VT_I4 },
{ prop_uniqueidW, CIM_STRING },
{ prop_versionW, CIM_STRING|COL_FLAG_DYNAMIC }
};
static const struct column col_qualifier[] =
{
{ prop_classW, CIM_STRING },
{ prop_memberW, CIM_STRING },
{ prop_typeW, CIM_UINT32 },
{ prop_flavorW, CIM_SINT32 },
{ prop_nameW, CIM_STRING },
{ prop_intvalueW, CIM_SINT32 },
{ prop_strvalueW, CIM_STRING }
};
static const struct column col_service[] =
{
{ prop_acceptpauseW, CIM_BOOLEAN },
{ prop_acceptstopW, CIM_BOOLEAN },
{ prop_displaynameW, CIM_STRING|COL_FLAG_DYNAMIC },
{ prop_nameW, CIM_STRING|COL_FLAG_DYNAMIC|COL_FLAG_KEY },
{ prop_processidW, CIM_UINT32 },
{ prop_servicetypeW, CIM_STRING },
{ prop_startmodeW, CIM_STRING },
{ prop_stateW, CIM_STRING },
{ prop_systemnameW, CIM_STRING|COL_FLAG_DYNAMIC },
/* methods */
{ method_pauseserviceW, CIM_FLAG_ARRAY|COL_FLAG_METHOD },
{ method_resumeserviceW, CIM_FLAG_ARRAY|COL_FLAG_METHOD },
{ method_startserviceW, CIM_FLAG_ARRAY|COL_FLAG_METHOD },
{ method_stopserviceW, CIM_FLAG_ARRAY|COL_FLAG_METHOD }
};
2015-02-13 13:40:36 +01:00
static const struct column col_sid[] =
{
{ prop_accountnameW, CIM_STRING|COL_FLAG_DYNAMIC },
{ prop_binaryrepresentationW, CIM_UINT8|CIM_FLAG_ARRAY|COL_FLAG_DYNAMIC },
{ prop_referenceddomainnameW, CIM_STRING|COL_FLAG_DYNAMIC },
{ prop_sidW, CIM_STRING|COL_FLAG_DYNAMIC|COL_FLAG_KEY },
{ prop_sidlengthW, CIM_UINT32 }
};
static const struct column col_sounddevice[] =
{
{ prop_nameW, CIM_STRING },
{ prop_productnameW, CIM_STRING },
{ prop_statusinfoW, CIM_UINT16, VT_I4 }
};
static const struct column col_stdregprov[] =
{
{ method_createkeyW, CIM_FLAG_ARRAY|COL_FLAG_METHOD },
{ method_enumkeyW, CIM_FLAG_ARRAY|COL_FLAG_METHOD },
{ method_enumvaluesW, CIM_FLAG_ARRAY|COL_FLAG_METHOD },
{ method_getstringvalueW, CIM_FLAG_ARRAY|COL_FLAG_METHOD }
};
static const struct column col_systemenclosure[] =
{
{ prop_captionW, CIM_STRING },
{ prop_chassistypesW, CIM_UINT16|CIM_FLAG_ARRAY, VT_I4|VT_ARRAY },
{ prop_descriptionW, CIM_STRING },
{ prop_lockpresentW, CIM_BOOLEAN },
{ prop_manufacturerW, CIM_STRING },
{ prop_nameW, CIM_STRING },
{ prop_tagW, CIM_STRING },
};
static const struct column col_systemsecurity[] =
{
{ method_getsdW, CIM_FLAG_ARRAY|COL_FLAG_METHOD },
{ method_setsdW, CIM_FLAG_ARRAY|COL_FLAG_METHOD },
};
static const struct column col_videocontroller[] =
{
{ prop_adapterdactypeW, CIM_STRING },
{ prop_adapterramW, CIM_UINT32, VT_I4 },
{ prop_availabilityW, CIM_UINT16 },
{ prop_captionW, CIM_STRING|COL_FLAG_DYNAMIC },
{ prop_configmanagererrorcodeW, CIM_UINT32, VT_I4 },
{ prop_currentbitsperpixelW, CIM_UINT32, VT_I4 },
{ prop_currenthorizontalresW, CIM_UINT32, VT_I4 },
{ prop_currentrefreshrateW, CIM_UINT32, VT_I4 },
{ prop_currentscanmodeW, CIM_UINT16, VT_I4 },
{ prop_currentverticalresW, CIM_UINT32, VT_I4 },
{ prop_descriptionW, CIM_STRING|COL_FLAG_DYNAMIC },
{ prop_deviceidW, CIM_STRING|COL_FLAG_KEY },
{ prop_driverdateW, CIM_DATETIME },
{ prop_driverversionW, CIM_STRING },
{ prop_installeddisplaydriversW,CIM_STRING },
{ prop_nameW, CIM_STRING|COL_FLAG_DYNAMIC },
{ prop_pnpdeviceidW, CIM_STRING|COL_FLAG_DYNAMIC },
{ prop_statusW, CIM_STRING },
{ prop_videoarchitectureW, CIM_UINT16, VT_I4 },
{ prop_videomemorytypeW, CIM_UINT16, VT_I4 },
{ prop_videomodedescriptionW, CIM_STRING|COL_FLAG_DYNAMIC },
{ prop_videoprocessorW, CIM_STRING|COL_FLAG_DYNAMIC },
};
static const WCHAR baseboard_manufacturerW[] =
{'I','n','t','e','l',' ','C','o','r','p','o','r','a','t','i','o','n',0};
static const WCHAR baseboard_serialnumberW[] =
{'N','o','n','e',0};
static const WCHAR baseboard_tagW[] =
{'B','a','s','e',' ','B','o','a','r','d',0};
static const WCHAR baseboard_versionW[] =
{'1','.','0',0};
static const WCHAR bios_descriptionW[] =
{'D','e','f','a','u','l','t',' ','S','y','s','t','e','m',' ','B','I','O','S',0};
static const WCHAR bios_manufacturerW[] =
{'T','h','e',' ','W','i','n','e',' ','P','r','o','j','e','c','t',0};
static const WCHAR bios_nameW[] =
{'W','I','N','E',' ','B','I','O','S',0};
static const WCHAR bios_releasedateW[] =
{'2','0','1','2','0','6','0','8','0','0','0','0','0','0','.','0','0','0','0','0','0','+','0','0','0',0};
static const WCHAR bios_serialnumberW[] =
{'0',0};
static const WCHAR bios_smbiosbiosversionW[] =
{'W','i','n','e',0};
static const WCHAR bios_versionW[] =
{'W','I','N','E',' ',' ',' ','-',' ','1',0};
static const WCHAR cdromdrive_mediatypeW[] =
{'C','D','-','R','O','M',0};
static const WCHAR cdromdrive_nameW[] =
{'W','i','n','e',' ','C','D','-','R','O','M',' ','A','T','A',' ','D','e','v','i','c','e',0};
static const WCHAR cdromdrive_pnpdeviceidW[]=
{'I','D','E','\\','C','D','R','O','M','W','I','N','E','_','C','D','-','R','O','M',
'_','_','_','_','_','_','_','_','_','_','_','_','_','_','_','_','_','_','_','_','_','_',
'_','_','_','_','_','_','_','1','.','0','_','_','_','_','_','\\','5','&','3','A','2',
'A','5','8','5','4','&','0','&','1','.','0','.','0',0};
static const WCHAR compsys_descriptionW[] =
{'A','T','/','A','T',' ','C','O','M','P','A','T','I','B','L','E',0};
static const WCHAR compsys_domainW[] =
{'W','O','R','K','G','R','O','U','P',0};
static const WCHAR compsys_manufacturerW[] =
{'T','h','e',' ','W','i','n','e',' ','P','r','o','j','e','c','t',0};
static const WCHAR compsys_modelW[] =
{'W','i','n','e',0};
static const WCHAR compsysproduct_identifyingnumberW[] =
{'0',0};
static const WCHAR compsysproduct_nameW[] =
{'W','i','n','e',0};
static const WCHAR compsysproduct_uuidW[] =
{'d','e','a','d','d','e','a','d','-','d','e','a','d','-','d','e','a','d','-','d','e','a','d','-',
'd','e','a','d','d','e','a','d','d','e','a','d',0};
static const WCHAR compsysproduct_vendorW[] =
{'T','h','e',' ','W','i','n','e',' ','P','r','o','j','e','c','t',0};
static const WCHAR compsysproduct_versionW[] =
{'1','.','0',0};
static const WCHAR diskdrive_interfacetypeW[] =
{'I','D','E',0};
static const WCHAR diskdrive_manufacturerW[] =
{'(','S','t','a','n','d','a','r','d',' ','d','i','s','k',' ','d','r','i','v','e','s',')',0};
static const WCHAR diskdrive_mediatype_fixedW[] =
{'F','i','x','e','d',' ','h','a','r','d',' ','d','i','s','k',0};
static const WCHAR diskdrive_mediatype_removableW[] =
{'R','e','m','o','v','a','b','l','e',' ','m','e','d','i','a',0};
static const WCHAR diskdrive_modelW[] =
{'W','i','n','e',' ','D','i','s','k',' ','D','r','i','v','e',0};
static const WCHAR diskdrive_pnpdeviceidW[] =
{'I','D','E','\\','D','i','s','k','\\','V','E','N','_','W','I','N','E',0};
static const WCHAR diskdrive_serialW[] =
{'W','I','N','E','H','D','I','S','K',0};
static const WCHAR networkadapter_pnpdeviceidW[]=
{'P','C','I','\\','V','E','N','_','8','0','8','6','&','D','E','V','_','1','0','0','E','&',
'S','U','B','S','Y','S','_','0','0','1','E','8','0','8','6','&','R','E','V','_','0','2','\\',
'3','&','2','6','7','A','6','1','6','A','&','1','&','1','8',0};
static const WCHAR os_32bitW[] =
{'3','2','-','b','i','t',0};
static const WCHAR os_64bitW[] =
{'6','4','-','b','i','t',0};
static const WCHAR os_installdateW[] =
{'2','0','1','4','0','1','0','1','0','0','0','0','0','0','.','0','0','0','0','0','0','+','0','0','0',0};
static const WCHAR os_serialnumberW[] =
{'1','2','3','4','5','-','O','E','M','-','1','2','3','4','5','6','7','-','1','2','3','4','5',0};
static const WCHAR physicalmedia_tagW[] =
{'\\','\\','.','\\','P','H','Y','S','I','C','A','L','D','R','I','V','E','0',0};
static const WCHAR sounddevice_productnameW[] =
{'W','i','n','e',' ','A','u','d','i','o',' ','D','e','v','i','c','e',0};
static const WCHAR systemenclosure_systemenclosureW[] =
{'S','y','s','t','e','m',' ','E','n','c','l','o','s','u','r','e',0};
static const WCHAR systemenclosure_tagW[] =
{'S','y','s','t','e','m',' ','E','n','c','l','o','s','u','r','e',' ','0',0};
static const WCHAR systemenclosure_manufacturerW[] =
{'W','i','n','e',0};
static const WCHAR videocontroller_dactypeW[] =
{'I','n','t','e','g','r','a','t','e','d',' ','R','A','M','D','A','C',0};
static const WCHAR videocontroller_deviceidW[] =
{'V','i','d','e','o','C','o','n','t','r','o','l','l','e','r','1',0};
static const WCHAR videocontroller_driverdateW[] =
{'2','0','1','7','0','1','0','1','0','0','0','0','0','0','.','0','0','0','0','0','0','+','0','0','0',0};
static const WCHAR videocontroller_driverversionW[] =
{'1','.','0',0};
static const WCHAR videocontroller_statusW[] =
{'O','K',0};
#include "pshpack1.h"
struct record_baseboard
{
const WCHAR *manufacturer;
const WCHAR *model;
const WCHAR *name;
const WCHAR *product;
const WCHAR *serialnumber;
const WCHAR *tag;
const WCHAR *version;
};
struct record_bios
{
const WCHAR *description;
const WCHAR *identificationcode;
const WCHAR *manufacturer;
const WCHAR *name;
const WCHAR *releasedate;
const WCHAR *serialnumber;
const WCHAR *smbiosbiosversion;
UINT16 smbiosmajorversion;
UINT16 smbiosminorversion;
const WCHAR *version;
};
struct record_cdromdrive
{
const WCHAR *device_id;
const WCHAR *drive;
const WCHAR *mediatype;
const WCHAR *name;
const WCHAR *pnpdevice_id;
};
struct record_computersystem
{
const WCHAR *description;
const WCHAR *domain;
UINT16 domainrole;
const WCHAR *manufacturer;
const WCHAR *model;
const WCHAR *name;
UINT32 num_logical_processors;
UINT32 num_processors;
UINT64 total_physical_memory;
const WCHAR *username;
};
struct record_computersystemproduct
{
const WCHAR *identifyingnumber;
const WCHAR *name;
const WCHAR *skunumber;
const WCHAR *uuid;
const WCHAR *vendor;
const WCHAR *version;
};
struct record_datafile
{
const WCHAR *name;
const WCHAR *version;
};
struct record_desktopmonitor
{
UINT32 pixelsperxlogicalinch;
};
struct record_directory
{
UINT32 accessmask;
const WCHAR *name;
};
struct record_diskdrive
{
const WCHAR *device_id;
UINT32 index;
const WCHAR *interfacetype;
const WCHAR *manufacturer;
const WCHAR *mediatype;
const WCHAR *model;
const WCHAR *pnpdevice_id;
const WCHAR *serialnumber;
UINT64 size;
};
struct record_diskpartition
{
int bootable;
int bootpartition;
const WCHAR *device_id;
UINT32 diskindex;
UINT32 index;
const WCHAR *pnpdevice_id;
UINT64 size;
UINT64 startingoffset;
const WCHAR *type;
};
struct record_ip4routetable
{
const WCHAR *destination;
INT32 interfaceindex;
const WCHAR *nexthop;
};
struct record_logicaldisk
{
const WCHAR *device_id;
UINT32 drivetype;
const WCHAR *filesystem;
UINT64 freespace;
const WCHAR *name;
UINT64 size;
const WCHAR *volumename;
const WCHAR *volumeserialnumber;
};
struct record_networkadapter
{
const WCHAR *adaptertype;
UINT16 adaptertypeid;
const WCHAR *description;
const WCHAR *device_id;
UINT32 index;
UINT32 interface_index;
const WCHAR *mac_address;
const WCHAR *manufacturer;
const WCHAR *name;
UINT16 netconnection_status;
int physicaladapter;
const WCHAR *pnpdevice_id;
UINT64 speed;
};
struct record_networkadapterconfig
{
const struct array *defaultipgateway;
const WCHAR *description;
int dhcpenabled;
const WCHAR *dnshostname;
const struct array *dnsserversearchorder;
UINT32 index;
const struct array *ipaddress;
UINT32 ipconnectionmetric;
int ipenabled;
const struct array *ipsubnet;
const WCHAR *mac_address;
const WCHAR *settingid;
};
struct record_operatingsystem
{
const WCHAR *buildnumber;
const WCHAR *caption;
const WCHAR *codeset;
const WCHAR *countrycode;
const WCHAR *csdversion;
UINT64 freephysicalmemory;
const WCHAR *installdate;
const WCHAR *lastbootuptime;
const WCHAR *localdatetime;
const WCHAR *locale;
const WCHAR *name;
UINT32 operatingsystemsku;
const WCHAR *osarchitecture;
UINT32 oslanguage;
UINT32 osproductsuite;
UINT16 ostype;
int primary;
const WCHAR *serialnumber;
UINT16 servicepackmajor;
UINT16 servicepackminor;
UINT32 suitemask;
const WCHAR *systemdirectory;
const WCHAR *systemdrive;
UINT64 totalvirtualmemorysize;
UINT64 totalvisiblememorysize;
const WCHAR *version;
};
struct record_param
{
const WCHAR *class;
const WCHAR *method;
INT32 direction;
const WCHAR *parameter;
UINT32 type;
UINT32 varianttype;
UINT32 defaultvalue;
};
struct record_physicalmedia
{
const WCHAR *serialnumber;
const WCHAR *tag;
};
struct record_physicalmemory
{
UINT64 capacity;
const WCHAR *devicelocator;
UINT16 memorytype;
};
struct record_pnpentity
{
const WCHAR *device_id;
};
struct record_printer
{
UINT32 attributes;
const WCHAR *device_id;
const WCHAR *drivername;
UINT32 horizontalresolution;
int local;
const WCHAR *location;
const WCHAR *name;
int network;
const WCHAR *portname;
};
struct record_process
{
const WCHAR *caption;
const WCHAR *commandline;
const WCHAR *description;
const WCHAR *handle;
const WCHAR *name;
UINT32 pprocess_id;
UINT32 process_id;
UINT32 thread_count;
UINT64 workingsetsize;
/* methods */
class_method *get_owner;
};
struct record_processor
{
UINT16 addresswidth;
UINT16 architecture;
const WCHAR *caption;
UINT16 cpu_status;
UINT32 currentclockspeed;
UINT16 datawidth;
const WCHAR *description;
const WCHAR *device_id;
UINT16 family;
UINT16 level;
const WCHAR *manufacturer;
UINT32 maxclockspeed;
const WCHAR *name;
UINT32 num_cores;
UINT32 num_logical_processors;
const WCHAR *processor_id;
UINT16 processortype;
UINT16 revision;
const WCHAR *unique_id;
const WCHAR *version;
};
struct record_qualifier
{
const WCHAR *class;
const WCHAR *member;
UINT32 type;
INT32 flavor;
const WCHAR *name;
INT32 intvalue;
const WCHAR *strvalue;
};
struct record_service
{
int accept_pause;
int accept_stop;
const WCHAR *displayname;
const WCHAR *name;
UINT32 process_id;
const WCHAR *servicetype;
const WCHAR *startmode;
const WCHAR *state;
const WCHAR *systemname;
/* methods */
class_method *pause_service;
class_method *resume_service;
class_method *start_service;
class_method *stop_service;
};
2015-02-13 13:40:36 +01:00
struct record_sid
{
const WCHAR *accountname;
const struct array *binaryrepresentation;
2015-02-13 13:40:36 +01:00
const WCHAR *referenceddomainname;
const WCHAR *sid;
UINT32 sidlength;
};
struct record_sounddevice
{
const WCHAR *name;
const WCHAR *productname;
UINT16 statusinfo;
};
struct record_stdregprov
{
class_method *createkey;
class_method *enumkey;
class_method *enumvalues;
class_method *getstringvalue;
};
struct record_systemsecurity
{
class_method *getsd;
class_method *setsd;
};
struct record_systemenclosure
{
const WCHAR *caption;
const struct array *chassistypes;
const WCHAR *description;
int lockpresent;
const WCHAR *manufacturer;
const WCHAR *name;
const WCHAR *tag;
};
struct record_videocontroller
{
const WCHAR *adapter_dactype;
UINT32 adapter_ram;
UINT16 availability;
const WCHAR *caption;
UINT32 config_errorcode;
UINT32 current_bitsperpixel;
UINT32 current_horizontalres;
UINT32 current_refreshrate;
UINT16 current_scanmode;
UINT32 current_verticalres;
const WCHAR *description;
const WCHAR *device_id;
const WCHAR *driverdate;
const WCHAR *driverversion;
const WCHAR *installeddriver;
const WCHAR *name;
const WCHAR *pnpdevice_id;
const WCHAR *status;
UINT16 videoarchitecture;
UINT16 videomemorytype;
const WCHAR *videomodedescription;
const WCHAR *videoprocessor;
};
#include "poppack.h"
static const struct record_baseboard data_baseboard[] =
{
{ baseboard_manufacturerW, baseboard_tagW, baseboard_tagW, baseboard_tagW, baseboard_serialnumberW, baseboard_versionW }
};
static const struct record_bios data_bios[] =
{
{ bios_descriptionW, NULL, bios_manufacturerW, bios_nameW, bios_releasedateW, bios_serialnumberW,
bios_smbiosbiosversionW, 1, 0, bios_versionW }
};
static const struct record_param data_param[] =
{
{ class_processW, method_getownerW, -1, param_returnvalueW, CIM_UINT32, VT_I4 },
{ class_processW, method_getownerW, -1, param_userW, CIM_STRING },
{ class_processW, method_getownerW, -1, param_domainW, CIM_STRING },
{ class_serviceW, method_pauseserviceW, -1, param_returnvalueW, CIM_UINT32, VT_I4 },
{ class_serviceW, method_resumeserviceW, -1, param_returnvalueW, CIM_UINT32, VT_I4 },
{ class_serviceW, method_startserviceW, -1, param_returnvalueW, CIM_UINT32, VT_I4 },
{ class_serviceW, method_stopserviceW, -1, param_returnvalueW, CIM_UINT32, VT_I4 },
{ class_stdregprovW, method_createkeyW, 1, param_defkeyW, CIM_SINT32, 0, 0x80000002 },
{ class_stdregprovW, method_createkeyW, 1, param_subkeynameW, CIM_STRING },
{ class_stdregprovW, method_createkeyW, -1, param_returnvalueW, CIM_UINT32, VT_I4 },
{ class_stdregprovW, method_enumkeyW, 1, param_defkeyW, CIM_SINT32, 0, 0x80000002 },
{ class_stdregprovW, method_enumkeyW, 1, param_subkeynameW, CIM_STRING },
{ class_stdregprovW, method_enumkeyW, -1, param_returnvalueW, CIM_UINT32, VT_I4 },
{ class_stdregprovW, method_enumkeyW, -1, param_namesW, CIM_STRING|CIM_FLAG_ARRAY },
{ class_stdregprovW, method_enumvaluesW, 1, param_defkeyW, CIM_SINT32, 0, 0x80000002 },
{ class_stdregprovW, method_enumvaluesW, 1, param_subkeynameW, CIM_STRING },
{ class_stdregprovW, method_enumvaluesW, -1, param_returnvalueW, CIM_UINT32, VT_I4 },
{ class_stdregprovW, method_enumvaluesW, -1, param_namesW, CIM_STRING|CIM_FLAG_ARRAY },
{ class_stdregprovW, method_enumvaluesW, -1, param_typesW, CIM_SINT32|CIM_FLAG_ARRAY },
{ class_stdregprovW, method_getstringvalueW, 1, param_defkeyW, CIM_SINT32, 0, 0x80000002 },
{ class_stdregprovW, method_getstringvalueW, 1, param_subkeynameW, CIM_STRING },
{ class_stdregprovW, method_getstringvalueW, 1, param_valuenameW, CIM_STRING },
{ class_stdregprovW, method_getstringvalueW, -1, param_returnvalueW, CIM_UINT32, VT_I4 },
{ class_stdregprovW, method_getstringvalueW, -1, param_valueW, CIM_STRING },
{ class_systemsecurityW, method_getsdW, -1, param_returnvalueW, CIM_UINT32, VT_I4 },
{ class_systemsecurityW, method_getsdW, -1, param_sdW, CIM_UINT8|CIM_FLAG_ARRAY },
{ class_systemsecurityW, method_setsdW, 1, param_sdW, CIM_UINT8|CIM_FLAG_ARRAY },
{ class_systemsecurityW, method_setsdW, -1, param_returnvalueW, CIM_UINT32, VT_I4 },
};
#define FLAVOR_ID (WBEM_FLAVOR_FLAG_PROPAGATE_TO_INSTANCE | WBEM_FLAVOR_NOT_OVERRIDABLE |\
WBEM_FLAVOR_ORIGIN_PROPAGATED)
static const struct record_physicalmedia data_physicalmedia[] =
{
{ diskdrive_serialW, physicalmedia_tagW }
};
static const struct record_qualifier data_qualifier[] =
{
{ class_process_getowner_outW, param_userW, CIM_SINT32, FLAVOR_ID, prop_idW, 0 },
{ class_process_getowner_outW, param_domainW, CIM_SINT32, FLAVOR_ID, prop_idW, 1 }
};
static const struct record_sounddevice data_sounddevice[] =
{
{ sounddevice_productnameW, sounddevice_productnameW, 3 /* enabled */ }
};
static const struct record_stdregprov data_stdregprov[] =
{
{ reg_create_key, reg_enum_key, reg_enum_values, reg_get_stringvalue }
};
static UINT16 systemenclosure_chassistypes[] =
{
1,
};
static const struct array systemenclosure_chassistypes_array =
{
ARRAY_SIZE(systemenclosure_chassistypes),
&systemenclosure_chassistypes
};
static const struct record_systemenclosure data_systemenclosure[] =
{
{
systemenclosure_systemenclosureW,
&systemenclosure_chassistypes_array,
systemenclosure_systemenclosureW,
FALSE,
systemenclosure_manufacturerW,
systemenclosure_systemenclosureW,
systemenclosure_tagW,
}
};
static const struct record_systemsecurity data_systemsecurity[] =
{
{ security_get_sd, security_set_sd }
};
/* check if row matches condition and update status */
static BOOL match_row( const struct table *table, UINT row, const struct expr *cond, enum fill_status *status )
{
LONGLONG val;
UINT type;
if (!cond)
{
*status = FILL_STATUS_UNFILTERED;
return TRUE;
}
if (eval_cond( table, row, cond, &val, &type ) != S_OK)
{
*status = FILL_STATUS_FAILED;
return FALSE;
}
*status = FILL_STATUS_FILTERED;
return val != 0;
}
static BOOL resize_table( struct table *table, UINT row_count, UINT row_size )
{
if (!table->num_rows_allocated)
{
if (!(table->data = heap_alloc( row_count * row_size ))) return FALSE;
table->num_rows_allocated = row_count;
return TRUE;
}
if (row_count > table->num_rows_allocated)
{
BYTE *data;
UINT count = max( row_count, table->num_rows_allocated * 2 );
if (!(data = heap_realloc( table->data, count * row_size ))) return FALSE;
table->data = data;
table->num_rows_allocated = count;
}
return TRUE;
}
static enum fill_status fill_cdromdrive( struct table *table, const struct expr *cond )
{
static const WCHAR fmtW[] = {'%','c',':',0};
WCHAR drive[3], root[] = {'A',':','\\',0};
struct record_cdromdrive *rec;
UINT i, row = 0, offset = 0;
DWORD drives = GetLogicalDrives();
enum fill_status status = FILL_STATUS_UNFILTERED;
if (!resize_table( table, 1, sizeof(*rec) )) return FILL_STATUS_FAILED;
for (i = 0; i < 26; i++)
{
if (drives & (1 << i))
{
root[0] = 'A' + i;
if (GetDriveTypeW( root ) != DRIVE_CDROM)
continue;
if (!resize_table( table, row + 1, sizeof(*rec) )) return FILL_STATUS_FAILED;
rec = (struct record_cdromdrive *)(table->data + offset);
rec->device_id = cdromdrive_pnpdeviceidW;
sprintfW( drive, fmtW, 'A' + i );
rec->drive = heap_strdupW( drive );
rec->mediatype = cdromdrive_mediatypeW;
rec->name = cdromdrive_nameW;
rec->pnpdevice_id = cdromdrive_pnpdeviceidW;
if (!match_row( table, row, cond, &status ))
{
free_row_values( table, row );
continue;
}
offset += sizeof(*rec);
row++;
}
}
TRACE("created %u rows\n", row);
table->num_rows = row;
return status;
}
static UINT get_processor_count(void)
{
SYSTEM_BASIC_INFORMATION info;
if (NtQuerySystemInformation( SystemBasicInformation, &info, sizeof(info), NULL )) return 1;
return info.NumberOfProcessors;
}
static UINT get_logical_processor_count( UINT *num_physical, UINT *num_packages )
{
SYSTEM_LOGICAL_PROCESSOR_INFORMATION_EX *buf, *entry;
UINT core_relation_count = 0, package_relation_count = 0;
NTSTATUS status;
ULONG len, offset = 0;
BOOL smt_enabled = FALSE;
DWORD all = RelationAll;
if (num_packages) *num_packages = 1;
status = NtQuerySystemInformationEx( SystemLogicalProcessorInformationEx, &all, sizeof(all), NULL, 0, &len );
if (status != STATUS_INFO_LENGTH_MISMATCH) return get_processor_count();
if (!(buf = heap_alloc( len ))) return get_processor_count();
status = NtQuerySystemInformationEx( SystemLogicalProcessorInformationEx, &all, sizeof(all), buf, len, NULL );
if (status != STATUS_SUCCESS)
{
heap_free( buf );
return get_processor_count();
}
while (offset < len)
{
entry = (SYSTEM_LOGICAL_PROCESSOR_INFORMATION_EX *)((char *)buf + offset);
if (entry->Relationship == RelationProcessorCore)
{
core_relation_count++;
if (entry->u.Processor.Flags & LTP_PC_SMT) smt_enabled = TRUE;
}
else if (entry->Relationship == RelationProcessorPackage)
{
package_relation_count++;
}
offset += entry->Size;
}
heap_free( buf );
if (num_physical) *num_physical = core_relation_count;
if (num_packages) *num_packages = package_relation_count;
return smt_enabled ? core_relation_count * 2 : core_relation_count;
}
static UINT64 get_total_physical_memory(void)
{
MEMORYSTATUSEX status;
status.dwLength = sizeof(status);
if (!GlobalMemoryStatusEx( &status )) return 1024 * 1024 * 1024;
return status.ullTotalPhys;
}
static UINT64 get_available_physical_memory(void)
{
MEMORYSTATUSEX status;
status.dwLength = sizeof(status);
if (!GlobalMemoryStatusEx( &status )) return 1024 * 1024 * 1024;
return status.ullAvailPhys;
}
static WCHAR *get_computername(void)
{
WCHAR *ret;
DWORD size = MAX_COMPUTERNAME_LENGTH + 1;
if (!(ret = heap_alloc( size * sizeof(WCHAR) ))) return NULL;
GetComputerNameW( ret, &size );
return ret;
}
static WCHAR *get_username(void)
{
WCHAR *ret;
DWORD compsize, usersize;
DWORD size;
compsize = 0;
GetComputerNameW( NULL, &compsize );
usersize = 0;
GetUserNameW( NULL, &usersize );
size = compsize + usersize; /* two null terminators account for the \ */
if (!(ret = heap_alloc( size * sizeof(WCHAR) ))) return NULL;
GetComputerNameW( ret, &compsize );
ret[compsize] = '\\';
GetUserNameW( ret + compsize + 1, &usersize );
return ret;
}
static enum fill_status fill_compsys( struct table *table, const struct expr *cond )
{
struct record_computersystem *rec;
enum fill_status status = FILL_STATUS_UNFILTERED;
UINT row = 0;
if (!resize_table( table, 1, sizeof(*rec) )) return FILL_STATUS_FAILED;
rec = (struct record_computersystem *)table->data;
rec->description = compsys_descriptionW;
rec->domain = compsys_domainW;
rec->domainrole = 0; /* standalone workstation */
rec->manufacturer = compsys_manufacturerW;
rec->model = compsys_modelW;
rec->name = get_computername();
rec->num_logical_processors = get_logical_processor_count( NULL, &rec->num_processors );
rec->total_physical_memory = get_total_physical_memory();
rec->username = get_username();
if (!match_row( table, row, cond, &status )) free_row_values( table, row );
else row++;
TRACE("created %u rows\n", row);
table->num_rows = row;
return status;
}
static WCHAR *get_compsysproduct_uuid(void)
{
#ifdef __APPLE__
unsigned char uuid[16];
const struct timespec timeout = {1, 0};
if (!gethostuuid( uuid, &timeout ))
{
static const WCHAR fmtW[] =
{'%','0','2','X','%','0','2','X','%','0','2','X','%','0','2','X','-','%','0','2','X','%','0','2','X','-',
'%','0','2','X','%','0','2','X','-','%','0','2','X','%','0','2','X','-','%','0','2','X','%','0','2','X',
'%','0','2','X','%','0','2','X','%','0','2','X','%','0','2','X',0};
WCHAR *ret = heap_alloc( 37 * sizeof(WCHAR) );
if (!ret) return NULL;
sprintfW( ret, fmtW, uuid[0], uuid[1], uuid[2], uuid[3], uuid[4], uuid[5], uuid[6], uuid[7],
uuid[8], uuid[9], uuid[10], uuid[11], uuid[12], uuid[13], uuid[14], uuid[15] );
return ret;
}
#endif
#ifdef __linux__
int file;
if ((file = open( "/var/lib/dbus/machine-id", O_RDONLY )) != -1)
{
unsigned char buf[32];
if (read( file, buf, sizeof(buf) ) == sizeof(buf))
{
unsigned int i, j;
WCHAR *ret, *p;
close( file );
if (!(p = ret = heap_alloc( 37 * sizeof(WCHAR) ))) return NULL;
for (i = 0, j = 0; i < 8; i++) p[i] = toupperW( buf[j++] );
p[8] = '-';
for (i = 9; i < 13; i++) p[i] = toupperW( buf[j++] );
p[13] = '-';
for (i = 14; i < 18; i++) p[i] = toupperW( buf[j++] );
p[18] = '-';
for (i = 19; i < 23; i++) p[i] = toupperW( buf[j++] );
p[23] = '-';
for (i = 24; i < 36; i++) p[i] = toupperW( buf[j++] );
ret[i] = 0;
return ret;
}
close( file );
}
#endif
return heap_strdupW( compsysproduct_uuidW );
}
static enum fill_status fill_compsysproduct( struct table *table, const struct expr *cond )
{
struct record_computersystemproduct *rec;
enum fill_status status = FILL_STATUS_UNFILTERED;
UINT row = 0;
if (!resize_table( table, 1, sizeof(*rec) )) return FILL_STATUS_FAILED;
rec = (struct record_computersystemproduct *)table->data;
rec->identifyingnumber = compsysproduct_identifyingnumberW;
rec->name = compsysproduct_nameW;
rec->skunumber = NULL;
rec->uuid = get_compsysproduct_uuid();
rec->vendor = compsysproduct_vendorW;
rec->version = compsysproduct_versionW;
if (!match_row( table, row, cond, &status )) free_row_values( table, row );
else row++;
TRACE("created %u rows\n", row);
table->num_rows = row;
return status;
}
struct dirstack
{
WCHAR **dirs;
UINT *len_dirs;
UINT num_dirs;
UINT num_allocated;
};
static struct dirstack *alloc_dirstack( UINT size )
{
struct dirstack *dirstack;
if (!(dirstack = heap_alloc( sizeof(*dirstack) ))) return NULL;
if (!(dirstack->dirs = heap_alloc( sizeof(WCHAR *) * size )))
{
heap_free( dirstack );
return NULL;
}
if (!(dirstack->len_dirs = heap_alloc( sizeof(UINT) * size )))
{
heap_free( dirstack->dirs );
heap_free( dirstack );
return NULL;
}
dirstack->num_dirs = 0;
dirstack->num_allocated = size;
return dirstack;
}
static void clear_dirstack( struct dirstack *dirstack )
{
UINT i;
for (i = 0; i < dirstack->num_dirs; i++) heap_free( dirstack->dirs[i] );
dirstack->num_dirs = 0;
}
static void free_dirstack( struct dirstack *dirstack )
{
clear_dirstack( dirstack );
heap_free( dirstack->dirs );
heap_free( dirstack->len_dirs );
heap_free( dirstack );
}
static BOOL push_dir( struct dirstack *dirstack, WCHAR *dir, UINT len )
{
UINT size, i = dirstack->num_dirs;
if (!dir) return FALSE;
if (i == dirstack->num_allocated)
{
WCHAR **tmp;
UINT *len_tmp;
size = dirstack->num_allocated * 2;
if (!(tmp = heap_realloc( dirstack->dirs, size * sizeof(WCHAR *) ))) return FALSE;
dirstack->dirs = tmp;
if (!(len_tmp = heap_realloc( dirstack->len_dirs, size * sizeof(UINT) ))) return FALSE;
dirstack->len_dirs = len_tmp;
dirstack->num_allocated = size;
}
dirstack->dirs[i] = dir;
dirstack->len_dirs[i] = len;
dirstack->num_dirs++;
return TRUE;
}
static WCHAR *pop_dir( struct dirstack *dirstack, UINT *len )
{
if (!dirstack->num_dirs)
{
*len = 0;
return NULL;
}
dirstack->num_dirs--;
*len = dirstack->len_dirs[dirstack->num_dirs];
return dirstack->dirs[dirstack->num_dirs];
}
static const WCHAR *peek_dir( struct dirstack *dirstack )
{
if (!dirstack->num_dirs) return NULL;
return dirstack->dirs[dirstack->num_dirs - 1];
}
static WCHAR *build_glob( WCHAR drive, const WCHAR *path, UINT len )
{
UINT i = 0;
WCHAR *ret;
if (!(ret = heap_alloc( (len + 6) * sizeof(WCHAR) ))) return NULL;
ret[i++] = drive;
ret[i++] = ':';
ret[i++] = '\\';
if (path && len)
{
memcpy( ret + i, path, len * sizeof(WCHAR) );
i += len;
ret[i++] = '\\';
}
ret[i++] = '*';
ret[i] = 0;
return ret;
}
static WCHAR *build_name( WCHAR drive, const WCHAR *path )
{
UINT i = 0, len = 0;
const WCHAR *p;
WCHAR *ret;
for (p = path; *p; p++)
{
if (*p == '\\') len += 2;
else len++;
};
if (!(ret = heap_alloc( (len + 5) * sizeof(WCHAR) ))) return NULL;
ret[i++] = drive;
ret[i++] = ':';
ret[i++] = '\\';
ret[i++] = '\\';
for (p = path; *p; p++)
{
if (*p != '\\') ret[i++] = *p;
else
{
ret[i++] = '\\';
ret[i++] = '\\';
}
}
ret[i] = 0;
return ret;
}
static WCHAR *build_dirname( const WCHAR *path, UINT *ret_len )
{
const WCHAR *p = path, *start;
UINT len, i;
WCHAR *ret;
if (!isalphaW( p[0] ) || p[1] != ':' || p[2] != '\\' || p[3] != '\\' || !p[4]) return NULL;
start = path + 4;
len = strlenW( start );
p = start + len - 1;
if (*p == '\\') return NULL;
while (p >= start && *p != '\\') { len--; p--; };
while (p >= start && *p == '\\') { len--; p--; };
if (!(ret = heap_alloc( (len + 1) * sizeof(WCHAR) ))) return NULL;
for (i = 0, p = start; p < start + len; p++)
{
if (p[0] == '\\' && p[1] == '\\')
{
ret[i++] = '\\';
p++;
}
else ret[i++] = *p;
}
ret[i] = 0;
*ret_len = i;
return ret;
}
static BOOL seen_dir( struct dirstack *dirstack, const WCHAR *path )
{
UINT i;
for (i = 0; i < dirstack->num_dirs; i++) if (!strcmpW( dirstack->dirs[i], path )) return TRUE;
return FALSE;
}
/* optimize queries of the form WHERE Name='...' [OR Name='...']* */
static UINT seed_dirs( struct dirstack *dirstack, const struct expr *cond, WCHAR root, UINT *count )
{
const struct expr *left, *right;
if (!cond || cond->type != EXPR_COMPLEX) return *count = 0;
left = cond->u.expr.left;
right = cond->u.expr.right;
if (cond->u.expr.op == OP_EQ)
{
UINT len;
WCHAR *path;
const WCHAR *str = NULL;
if (left->type == EXPR_PROPVAL && right->type == EXPR_SVAL &&
!strcmpW( left->u.propval->name, prop_nameW ) &&
toupperW( right->u.sval[0] ) == toupperW( root ))
{
str = right->u.sval;
}
else if (left->type == EXPR_SVAL && right->type == EXPR_PROPVAL &&
!strcmpW( right->u.propval->name, prop_nameW ) &&
toupperW( left->u.sval[0] ) == toupperW( root ))
{
str = left->u.sval;
}
if (str && (path = build_dirname( str, &len )))
{
if (seen_dir( dirstack, path ))
{
heap_free( path );
return ++*count;
}
else if (push_dir( dirstack, path, len )) return ++*count;
heap_free( path );
return *count = 0;
}
}
else if (cond->u.expr.op == OP_OR)
{
UINT left_count = 0, right_count = 0;
if (!(seed_dirs( dirstack, left, root, &left_count ))) return *count = 0;
if (!(seed_dirs( dirstack, right, root, &right_count ))) return *count = 0;
return *count += left_count + right_count;
}
return *count = 0;
}
static WCHAR *append_path( const WCHAR *path, const WCHAR *segment, UINT *len )
{
UINT len_path = 0, len_segment = strlenW( segment );
WCHAR *ret;
*len = 0;
if (path) len_path = strlenW( path );
if (!(ret = heap_alloc( (len_path + len_segment + 2) * sizeof(WCHAR) ))) return NULL;
if (path && len_path)
{
memcpy( ret, path, len_path * sizeof(WCHAR) );
ret[len_path] = '\\';
*len += len_path + 1;
}
memcpy( ret + *len, segment, len_segment * sizeof(WCHAR) );
*len += len_segment;
ret[*len] = 0;
return ret;
}
static WCHAR *get_file_version( const WCHAR *filename )
{
static const WCHAR slashW[] = {'\\',0}, fmtW[] = {'%','u','.','%','u','.','%','u','.','%','u',0};
VS_FIXEDFILEINFO *info;
DWORD size;
void *block;
WCHAR *ret;
if (!(ret = heap_alloc( (4 * 5 + ARRAY_SIZE( fmtW )) * sizeof(WCHAR) ))) return NULL;
if (!(size = GetFileVersionInfoSizeW( filename, NULL )) || !(block = heap_alloc( size )))
{
heap_free( ret );
return NULL;
}
if (!GetFileVersionInfoW( filename, 0, size, block ) ||
!VerQueryValueW( block, slashW, (void **)&info, &size ))
{
heap_free( block );
heap_free( ret );
return NULL;
}
sprintfW( ret, fmtW, info->dwFileVersionMS >> 16, info->dwFileVersionMS & 0xffff,
info->dwFileVersionLS >> 16, info->dwFileVersionLS & 0xffff );
heap_free( block );
return ret;
}
static enum fill_status fill_datafile( struct table *table, const struct expr *cond )
{
static const WCHAR dotW[] = {'.',0}, dotdotW[] = {'.','.',0};
struct record_datafile *rec;
UINT i, len, row = 0, offset = 0, num_expected_rows;
WCHAR *glob = NULL, *path = NULL, *new_path, root[] = {'A',':','\\',0};
DWORD drives = GetLogicalDrives();
WIN32_FIND_DATAW data;
HANDLE handle;
struct dirstack *dirstack;
enum fill_status status = FILL_STATUS_UNFILTERED;
if (!resize_table( table, 8, sizeof(*rec) )) return FILL_STATUS_FAILED;
dirstack = alloc_dirstack(2);
for (i = 0; i < 26; i++)
{
if (!(drives & (1 << i))) continue;
root[0] = 'A' + i;
if (GetDriveTypeW( root ) != DRIVE_FIXED) continue;
num_expected_rows = 0;
if (!seed_dirs( dirstack, cond, root[0], &num_expected_rows )) clear_dirstack( dirstack );
for (;;)
{
heap_free( glob );
heap_free( path );
path = pop_dir( dirstack, &len );
if (!(glob = build_glob( root[0], path, len )))
{
status = FILL_STATUS_FAILED;
goto done;
}
if ((handle = FindFirstFileW( glob, &data )) != INVALID_HANDLE_VALUE)
{
do
{
if (!resize_table( table, row + 1, sizeof(*rec) ))
{
status = FILL_STATUS_FAILED;
FindClose( handle );
goto done;
}
if (!strcmpW( data.cFileName, dotW ) || !strcmpW( data.cFileName, dotdotW )) continue;
new_path = append_path( path, data.cFileName, &len );
if (data.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY)
{
if (push_dir( dirstack, new_path, len )) continue;
heap_free( new_path );
FindClose( handle );
status = FILL_STATUS_FAILED;
goto done;
}
rec = (struct record_datafile *)(table->data + offset);
rec->name = build_name( root[0], new_path );
rec->version = get_file_version( rec->name );
if (!match_row( table, row, cond, &status ))
{
free_row_values( table, row );
continue;
}
else if (num_expected_rows && row == num_expected_rows - 1)
{
row++;
FindClose( handle );
status = FILL_STATUS_FILTERED;
goto done;
}
offset += sizeof(*rec);
row++;
}
while (FindNextFileW( handle, &data ));
FindClose( handle );
}
if (!peek_dir( dirstack )) break;
}
}
done:
free_dirstack( dirstack );
heap_free( glob );
heap_free( path );
TRACE("created %u rows\n", row);
table->num_rows = row;
return status;
}
static UINT32 get_pixelsperxlogicalinch(void)
{
HDC hdc = GetDC( NULL );
UINT32 ret;
if (!hdc) return 96;
ret = GetDeviceCaps( hdc, LOGPIXELSX );
ReleaseDC( NULL, hdc );
return ret;
}
static enum fill_status fill_desktopmonitor( struct table *table, const struct expr *cond )
{
struct record_desktopmonitor *rec;
enum fill_status status = FILL_STATUS_UNFILTERED;
UINT row = 0;
if (!resize_table( table, 1, sizeof(*rec) )) return FILL_STATUS_FAILED;
rec = (struct record_desktopmonitor *)table->data;
rec->pixelsperxlogicalinch = get_pixelsperxlogicalinch();
if (match_row( table, row, cond, &status )) row++;
TRACE("created %u rows\n", row);
table->num_rows = row;
return status;
}
static enum fill_status fill_directory( struct table *table, const struct expr *cond )
{
static const WCHAR dotW[] = {'.',0}, dotdotW[] = {'.','.',0};
struct record_directory *rec;
UINT i, len, row = 0, offset = 0, num_expected_rows;
WCHAR *glob = NULL, *path = NULL, *new_path, root[] = {'A',':','\\',0};
DWORD drives = GetLogicalDrives();
WIN32_FIND_DATAW data;
HANDLE handle;
struct dirstack *dirstack;
enum fill_status status = FILL_STATUS_UNFILTERED;
if (!resize_table( table, 4, sizeof(*rec) )) return FILL_STATUS_FAILED;
dirstack = alloc_dirstack(2);
for (i = 0; i < 26; i++)
{
if (!(drives & (1 << i))) continue;
root[0] = 'A' + i;
if (GetDriveTypeW( root ) != DRIVE_FIXED) continue;
num_expected_rows = 0;
if (!seed_dirs( dirstack, cond, root[0], &num_expected_rows )) clear_dirstack( dirstack );
for (;;)
{
heap_free( glob );
heap_free( path );
path = pop_dir( dirstack, &len );
if (!(glob = build_glob( root[0], path, len )))
{
status = FILL_STATUS_FAILED;
goto done;
}
if ((handle = FindFirstFileW( glob, &data )) != INVALID_HANDLE_VALUE)
{
do
{
if (!resize_table( table, row + 1, sizeof(*rec) ))
{
FindClose( handle );
status = FILL_STATUS_FAILED;
goto done;
}
if (!(data.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY) ||
!strcmpW( data.cFileName, dotW ) || !strcmpW( data.cFileName, dotdotW ))
continue;
new_path = append_path( path, data.cFileName, &len );
if (!(push_dir( dirstack, new_path, len )))
{
heap_free( new_path );
FindClose( handle );
status = FILL_STATUS_FAILED;
goto done;
}
rec = (struct record_directory *)(table->data + offset);
rec->accessmask = FILE_ALL_ACCESS;
rec->name = build_name( root[0], new_path );
if (!match_row( table, row, cond, &status ))
{
free_row_values( table, row );
continue;
}
else if (num_expected_rows && row == num_expected_rows - 1)
{
row++;
FindClose( handle );
status = FILL_STATUS_FILTERED;
goto done;
}
offset += sizeof(*rec);
row++;
}
while (FindNextFileW( handle, &data ));
FindClose( handle );
}
if (!peek_dir( dirstack )) break;
}
}
done:
free_dirstack( dirstack );
heap_free( glob );
heap_free( path );
TRACE("created %u rows\n", row);
table->num_rows = row;
return status;
}
static UINT64 get_freespace( const WCHAR *dir, UINT64 *disksize )
{
WCHAR root[] = {'\\','\\','.','\\','A',':',0};
ULARGE_INTEGER free;
DISK_GEOMETRY_EX info;
HANDLE handle;
DWORD bytes_returned;
free.QuadPart = 512 * 1024 * 1024;
GetDiskFreeSpaceExW( dir, NULL, NULL, &free );
root[4] = dir[0];
handle = CreateFileW( root, GENERIC_READ, FILE_SHARE_READ|FILE_SHARE_WRITE, NULL, OPEN_EXISTING, 0, 0 );
if (handle != INVALID_HANDLE_VALUE)
{
if (DeviceIoControl( handle, IOCTL_DISK_GET_DRIVE_GEOMETRY_EX, NULL, 0, &info, sizeof(info), &bytes_returned, NULL ))
*disksize = info.DiskSize.QuadPart;
CloseHandle( handle );
}
return free.QuadPart;
}
static enum fill_status fill_diskdrive( struct table *table, const struct expr *cond )
{
static const WCHAR fmtW[] =
{'\\','\\','\\','\\','.','\\','\\','P','H','Y','S','I','C','A','L','D','R','I','V','E','%','u',0};
WCHAR device_id[ARRAY_SIZE( fmtW ) + 10], root[] = {'A',':','\\',0};
struct record_diskdrive *rec;
UINT i, row = 0, offset = 0, index = 0, type;
UINT64 size = 1024 * 1024 * 1024;
DWORD drives = GetLogicalDrives();
enum fill_status status = FILL_STATUS_UNFILTERED;
if (!resize_table( table, 2, sizeof(*rec) )) return FILL_STATUS_FAILED;
for (i = 0; i < 26; i++)
{
if (drives & (1 << i))
{
root[0] = 'A' + i;
type = GetDriveTypeW( root );
if (type != DRIVE_FIXED && type != DRIVE_REMOVABLE)
continue;
if (!resize_table( table, row + 1, sizeof(*rec) )) return FILL_STATUS_FAILED;
rec = (struct record_diskdrive *)(table->data + offset);
sprintfW( device_id, fmtW, index );
rec->device_id = heap_strdupW( device_id );
rec->index = index;
rec->interfacetype = diskdrive_interfacetypeW;
rec->manufacturer = diskdrive_manufacturerW;
if (type == DRIVE_FIXED)
rec->mediatype = diskdrive_mediatype_fixedW;
else
rec->mediatype = diskdrive_mediatype_removableW;
rec->model = diskdrive_modelW;
rec->pnpdevice_id = diskdrive_pnpdeviceidW;
rec->serialnumber = diskdrive_serialW;
get_freespace( root, &size );
rec->size = size;
if (!match_row( table, row, cond, &status ))
{
free_row_values( table, row );
continue;
}
offset += sizeof(*rec);
index++;
row++;
}
}
TRACE("created %u rows\n", row);
table->num_rows = row;
return status;
}
static WCHAR *get_filesystem( const WCHAR *root )
{
static const WCHAR ntfsW[] = {'N','T','F','S',0};
WCHAR buffer[MAX_PATH + 1];
if (GetVolumeInformationW( root, NULL, 0, NULL, NULL, NULL, buffer, MAX_PATH + 1 ))
return heap_strdupW( buffer );
return heap_strdupW( ntfsW );
}
static enum fill_status fill_diskpartition( struct table *table, const struct expr *cond )
{
static const WCHAR fmtW[] =
{'D','i','s','k',' ','#','%','u',',',' ','P','a','r','t','i','t','i','o','n',' ','#','0',0};
WCHAR device_id[32], root[] = {'A',':','\\',0};
struct record_diskpartition *rec;
UINT i, row = 0, offset = 0, type, index = 0;
UINT64 size = 1024 * 1024 * 1024;
DWORD drives = GetLogicalDrives();
enum fill_status status = FILL_STATUS_UNFILTERED;
if (!resize_table( table, 4, sizeof(*rec) )) return FILL_STATUS_FAILED;
for (i = 0; i < 26; i++)
{
if (drives & (1 << i))
{
root[0] = 'A' + i;
type = GetDriveTypeW( root );
if (type != DRIVE_FIXED && type != DRIVE_REMOVABLE)
continue;
if (!resize_table( table, row + 1, sizeof(*rec) )) return FILL_STATUS_FAILED;
rec = (struct record_diskpartition *)(table->data + offset);
rec->bootable = (i == 2) ? -1 : 0;
rec->bootpartition = (i == 2) ? -1 : 0;
sprintfW( device_id, fmtW, index );
rec->device_id = heap_strdupW( device_id );
rec->diskindex = index;
rec->index = 0;
rec->pnpdevice_id = heap_strdupW( device_id );
get_freespace( root, &size );
rec->size = size;
rec->startingoffset = 0;
rec->type = get_filesystem( root );
if (!match_row( table, row, cond, &status ))
{
free_row_values( table, row );
continue;
}
offset += sizeof(*rec);
row++;
index++;
}
}
TRACE("created %u rows\n", row);
table->num_rows = row;
return status;
}
static WCHAR *get_ip4_string( DWORD addr )
{
static const WCHAR fmtW[] = {'%','u','.','%','u','.','%','u','.','%','u',0};
WCHAR *ret;
if (!(ret = heap_alloc( sizeof("ddd.ddd.ddd.ddd") * sizeof(WCHAR) ))) return NULL;
sprintfW( ret, fmtW, (addr >> 24) & 0xff, (addr >> 16) & 0xff, (addr >> 8) & 0xff, addr & 0xff );
return ret;
}
static enum fill_status fill_ip4routetable( struct table *table, const struct expr *cond )
{
struct record_ip4routetable *rec;
UINT i, row = 0, offset = 0, size = 0;
MIB_IPFORWARDTABLE *forwards;
enum fill_status status = FILL_STATUS_UNFILTERED;
if (GetIpForwardTable( NULL, &size, TRUE ) != ERROR_INSUFFICIENT_BUFFER) return FILL_STATUS_FAILED;
if (!(forwards = heap_alloc( size ))) return FILL_STATUS_FAILED;
if (GetIpForwardTable( forwards, &size, TRUE ))
{
heap_free( forwards );
return FILL_STATUS_FAILED;
}
if (!resize_table( table, max(forwards->dwNumEntries, 1), sizeof(*rec) ))
{
heap_free( forwards );
return FILL_STATUS_FAILED;
}
for (i = 0; i < forwards->dwNumEntries; i++)
{
rec = (struct record_ip4routetable *)(table->data + offset);
rec->destination = get_ip4_string( ntohl(forwards->table[i].dwForwardDest) );
rec->interfaceindex = forwards->table[i].dwForwardIfIndex;
rec->nexthop = get_ip4_string( ntohl(forwards->table[i].dwForwardNextHop) );
if (!match_row( table, row, cond, &status ))
{
free_row_values( table, row );
continue;
}
offset += sizeof(*rec);
row++;
}
TRACE("created %u rows\n", row);
table->num_rows = row;
heap_free( forwards );
return status;
}
static WCHAR *get_volumename( const WCHAR *root )
{
WCHAR buf[MAX_PATH + 1] = {0};
GetVolumeInformationW( root, buf, ARRAY_SIZE( buf ), NULL, NULL, NULL, NULL, 0 );
return heap_strdupW( buf );
}
static WCHAR *get_volumeserialnumber( const WCHAR *root )
{
static const WCHAR fmtW[] = {'%','0','8','X',0};
DWORD serial = 0;
WCHAR buffer[9];
GetVolumeInformationW( root, NULL, 0, &serial, NULL, NULL, NULL, 0 );
sprintfW( buffer, fmtW, serial );
return heap_strdupW( buffer );
}
static enum fill_status fill_logicaldisk( struct table *table, const struct expr *cond )
{
static const WCHAR fmtW[] = {'%','c',':',0};
WCHAR device_id[3], root[] = {'A',':','\\',0};
struct record_logicaldisk *rec;
UINT i, row = 0, offset = 0, type;
UINT64 size = 1024 * 1024 * 1024;
DWORD drives = GetLogicalDrives();
enum fill_status status = FILL_STATUS_UNFILTERED;
if (!resize_table( table, 4, sizeof(*rec) )) return FILL_STATUS_FAILED;
for (i = 0; i < 26; i++)
{
if (drives & (1 << i))
{
root[0] = 'A' + i;
type = GetDriveTypeW( root );
if (type != DRIVE_FIXED && type != DRIVE_CDROM && type != DRIVE_REMOVABLE)
continue;
if (!resize_table( table, row + 1, sizeof(*rec) )) return FILL_STATUS_FAILED;
rec = (struct record_logicaldisk *)(table->data + offset);
sprintfW( device_id, fmtW, 'A' + i );
rec->device_id = heap_strdupW( device_id );
rec->drivetype = type;
rec->filesystem = get_filesystem( root );
rec->freespace = get_freespace( root, &size );
rec->name = heap_strdupW( device_id );
rec->size = size;
rec->volumename = get_volumename( root );
rec->volumeserialnumber = get_volumeserialnumber( root );
if (!match_row( table, row, cond, &status ))
{
free_row_values( table, row );
continue;
}
offset += sizeof(*rec);
row++;
}
}
TRACE("created %u rows\n", row);
table->num_rows = row;
return status;
}
static UINT16 get_connection_status( IF_OPER_STATUS status )
{
switch (status)
{
case IfOperStatusDown:
return 0; /* Disconnected */
case IfOperStatusUp:
return 2; /* Connected */
default:
ERR("unhandled status %u\n", status);
break;
}
return 0;
}
static WCHAR *get_mac_address( const BYTE *addr, DWORD len )
{
static const WCHAR fmtW[] =
{'%','0','2','x',':','%','0','2','x',':','%','0','2','x',':',
'%','0','2','x',':','%','0','2','x',':','%','0','2','x',0};
WCHAR *ret;
if (len != 6 || !(ret = heap_alloc( 18 * sizeof(WCHAR) ))) return NULL;
sprintfW( ret, fmtW, addr[0], addr[1], addr[2], addr[3], addr[4], addr[5] );
return ret;
}
static const WCHAR *get_adaptertype( DWORD type, int *id, int *physical )
{
static const WCHAR ethernetW[] = {'E','t','h','e','r','n','e','t',' ','8','0','2','.','3',0};
static const WCHAR wirelessW[] = {'W','i','r','e','l','e','s','s',0};
static const WCHAR firewireW[] = {'1','3','9','4',0};
static const WCHAR tunnelW[] = {'T','u','n','n','e','l',0};
switch (type)
{
case IF_TYPE_ETHERNET_CSMACD:
*id = 0;
*physical = -1;
return ethernetW;
case IF_TYPE_IEEE80211:
*id = 9;
*physical = -1;
return wirelessW;
case IF_TYPE_IEEE1394:
*id = 13;
*physical = -1;
return firewireW;
case IF_TYPE_TUNNEL:
*id = 15;
*physical = 0;
return tunnelW;
default:
*id = -1;
*physical = 0;
return NULL;
}
}
static enum fill_status fill_networkadapter( struct table *table, const struct expr *cond )
{
static const WCHAR fmtW[] = {'%','u',0};
WCHAR device_id[11];
struct record_networkadapter *rec;
IP_ADAPTER_ADDRESSES *aa, *buffer;
UINT row = 0, offset = 0, count = 0;
DWORD size = 0, ret;
int adaptertypeid, physical;
enum fill_status status = FILL_STATUS_UNFILTERED;
ret = GetAdaptersAddresses( WS_AF_UNSPEC, 0, NULL, NULL, &size );
if (ret != ERROR_BUFFER_OVERFLOW) return FILL_STATUS_FAILED;
if (!(buffer = heap_alloc( size ))) return FILL_STATUS_FAILED;
if (GetAdaptersAddresses( WS_AF_UNSPEC, 0, NULL, buffer, &size ))
{
heap_free( buffer );
return FILL_STATUS_FAILED;
}
for (aa = buffer; aa; aa = aa->Next)
{
if (aa->IfType != IF_TYPE_SOFTWARE_LOOPBACK) count++;
}
if (!resize_table( table, count, sizeof(*rec) ))
{
heap_free( buffer );
return FILL_STATUS_FAILED;
}
for (aa = buffer; aa; aa = aa->Next)
{
if (aa->IfType == IF_TYPE_SOFTWARE_LOOPBACK) continue;
rec = (struct record_networkadapter *)(table->data + offset);
sprintfW( device_id, fmtW, aa->u.s.IfIndex );
rec->adaptertype = get_adaptertype( aa->IfType, &adaptertypeid, &physical );
rec->adaptertypeid = adaptertypeid;
rec->description = heap_strdupW( aa->Description );
rec->device_id = heap_strdupW( device_id );
rec->index = aa->u.s.IfIndex;
rec->interface_index = aa->u.s.IfIndex;
rec->mac_address = get_mac_address( aa->PhysicalAddress, aa->PhysicalAddressLength );
rec->manufacturer = compsys_manufacturerW;
rec->name = heap_strdupW( aa->FriendlyName );
rec->netconnection_status = get_connection_status( aa->OperStatus );
rec->physicaladapter = physical;
rec->pnpdevice_id = networkadapter_pnpdeviceidW;
rec->speed = 1000000;
if (!match_row( table, row, cond, &status ))
{
free_row_values( table, row );
continue;
}
offset += sizeof(*rec);
row++;
}
TRACE("created %u rows\n", row);
table->num_rows = row;
heap_free( buffer );
return status;
}
static WCHAR *get_dnshostname( IP_ADAPTER_UNICAST_ADDRESS *addr )
{
const SOCKET_ADDRESS *sa = &addr->Address;
WCHAR buf[WS_NI_MAXHOST];
if (!addr) return NULL;
if (GetNameInfoW( sa->lpSockaddr, sa->iSockaddrLength, buf, ARRAY_SIZE( buf ), NULL,
0, WS_NI_NAMEREQD )) return NULL;
return heap_strdupW( buf );
}
static struct array *get_defaultipgateway( IP_ADAPTER_GATEWAY_ADDRESS *list )
{
IP_ADAPTER_GATEWAY_ADDRESS *gateway;
struct array *ret;
ULONG buflen, i = 0, count = 0;
WCHAR **ptr, buf[54]; /* max IPv6 address length */
if (!list) return NULL;
for (gateway = list; gateway; gateway = gateway->Next) count++;
if (!(ret = heap_alloc( sizeof(*ret) ))) return NULL;
if (!(ptr = heap_alloc( sizeof(*ptr) * count )))
{
heap_free( ret );
return NULL;
}
for (gateway = list; gateway; gateway = gateway->Next)
{
buflen = ARRAY_SIZE( buf );
if (WSAAddressToStringW( gateway->Address.lpSockaddr, gateway->Address.iSockaddrLength,
NULL, buf, &buflen) || !(ptr[i++] = heap_strdupW( buf )))
{
for (; i > 0; i--) heap_free( ptr[i - 1] );
heap_free( ptr );
heap_free( ret );
return NULL;
}
}
ret->count = count;
ret->ptr = ptr;
return ret;
}
static struct array *get_dnsserversearchorder( IP_ADAPTER_DNS_SERVER_ADDRESS *list )
{
IP_ADAPTER_DNS_SERVER_ADDRESS *server;
struct array *ret;
ULONG buflen, i = 0, count = 0;
WCHAR **ptr, *p, buf[54]; /* max IPv6 address length */
if (!list) return NULL;
for (server = list; server; server = server->Next) count++;
if (!(ret = heap_alloc( sizeof(*ret) ))) return NULL;
if (!(ptr = heap_alloc( sizeof(*ptr) * count )))
{
heap_free( ret );
return NULL;
}
for (server = list; server; server = server->Next)
{
buflen = ARRAY_SIZE( buf );
if (WSAAddressToStringW( server->Address.lpSockaddr, server->Address.iSockaddrLength,
NULL, buf, &buflen) || !(ptr[i++] = heap_strdupW( buf )))
{
for (; i > 0; i--) heap_free( ptr[i - 1] );
heap_free( ptr );
heap_free( ret );
return NULL;
}
if ((p = strrchrW( ptr[i - 1], ':' ))) *p = 0;
}
ret->count = count;
ret->ptr = ptr;
return ret;
}
static struct array *get_ipaddress( IP_ADAPTER_UNICAST_ADDRESS_LH *list )
{
IP_ADAPTER_UNICAST_ADDRESS_LH *address;
struct array *ret;
ULONG buflen, i = 0, count = 0;
WCHAR **ptr, buf[54]; /* max IPv6 address length */
if (!list) return NULL;
for (address = list; address; address = address->Next) count++;
if (!(ret = heap_alloc( sizeof(*ret) ))) return NULL;
if (!(ptr = heap_alloc( sizeof(*ptr) * count )))
{
heap_free( ret );
return NULL;
}
for (address = list; address; address = address->Next)
{
buflen = ARRAY_SIZE( buf );
if (WSAAddressToStringW( address->Address.lpSockaddr, address->Address.iSockaddrLength,
NULL, buf, &buflen) || !(ptr[i++] = heap_strdupW( buf )))
{
for (; i > 0; i--) heap_free( ptr[i - 1] );
heap_free( ptr );
heap_free( ret );
return NULL;
}
}
ret->count = count;
ret->ptr = ptr;
return ret;
}
static struct array *get_ipsubnet( IP_ADAPTER_UNICAST_ADDRESS_LH *list )
{
IP_ADAPTER_UNICAST_ADDRESS_LH *address;
struct array *ret;
ULONG i = 0, count = 0;
WCHAR **ptr;
if (!list) return NULL;
for (address = list; address; address = address->Next) count++;
if (!(ret = heap_alloc( sizeof(*ret) ))) return NULL;
if (!(ptr = heap_alloc( sizeof(*ptr) * count )))
{
heap_free( ret );
return NULL;
}
for (address = list; address; address = address->Next)
{
if (address->Address.lpSockaddr->sa_family == WS_AF_INET)
{
WCHAR buf[INET_ADDRSTRLEN];
SOCKADDR_IN addr;
ULONG buflen = ARRAY_SIZE( buf );
memset( &addr, 0, sizeof(addr) );
addr.sin_family = WS_AF_INET;
if (ConvertLengthToIpv4Mask( address->OnLinkPrefixLength, &addr.sin_addr.S_un.S_addr ) != NO_ERROR
|| WSAAddressToStringW( (SOCKADDR*)&addr, sizeof(addr), NULL, buf, &buflen))
ptr[i] = NULL;
else
ptr[i] = heap_strdupW( buf );
}
else
{
static const WCHAR fmtW[] = {'%','u',0};
WCHAR buf[11];
sprintfW(buf, fmtW, address->OnLinkPrefixLength);
ptr[i] = heap_strdupW( buf );
}
if (!ptr[i++])
{
for (; i > 0; i--) heap_free( ptr[i - 1] );
heap_free( ptr );
heap_free( ret );
return NULL;
}
}
ret->count = count;
ret->ptr = ptr;
return ret;
}
static WCHAR *get_settingid( UINT32 index )
{
GUID guid;
WCHAR *ret, *str;
memset( &guid, 0, sizeof(guid) );
guid.Data1 = index;
UuidToStringW( &guid, &str );
ret = heap_strdupW( str );
RpcStringFreeW( &str );
return ret;
}
static enum fill_status fill_networkadapterconfig( struct table *table, const struct expr *cond )
{
struct record_networkadapterconfig *rec;
IP_ADAPTER_ADDRESSES *aa, *buffer;
UINT row = 0, offset = 0, count = 0;
DWORD size = 0, ret;
enum fill_status status = FILL_STATUS_UNFILTERED;
ret = GetAdaptersAddresses( WS_AF_UNSPEC, GAA_FLAG_INCLUDE_ALL_GATEWAYS, NULL, NULL, &size );
if (ret != ERROR_BUFFER_OVERFLOW) return FILL_STATUS_FAILED;
if (!(buffer = heap_alloc( size ))) return FILL_STATUS_FAILED;
if (GetAdaptersAddresses( WS_AF_UNSPEC, GAA_FLAG_INCLUDE_ALL_GATEWAYS, NULL, buffer, &size ))
{
heap_free( buffer );
return FILL_STATUS_FAILED;
}
for (aa = buffer; aa; aa = aa->Next)
{
if (aa->IfType != IF_TYPE_SOFTWARE_LOOPBACK) count++;
}
if (!resize_table( table, count, sizeof(*rec) ))
{
heap_free( buffer );
return FILL_STATUS_FAILED;
}
for (aa = buffer; aa; aa = aa->Next)
{
if (aa->IfType == IF_TYPE_SOFTWARE_LOOPBACK) continue;
rec = (struct record_networkadapterconfig *)(table->data + offset);
rec->defaultipgateway = get_defaultipgateway( aa->FirstGatewayAddress );
rec->description = heap_strdupW( aa->Description );
rec->dhcpenabled = -1;
rec->dnshostname = get_dnshostname( aa->FirstUnicastAddress );
rec->dnsserversearchorder = get_dnsserversearchorder( aa->FirstDnsServerAddress );
rec->index = aa->u.s.IfIndex;
rec->ipaddress = get_ipaddress( aa->FirstUnicastAddress );
rec->ipconnectionmetric = 20;
rec->ipenabled = -1;
rec->ipsubnet = get_ipsubnet( aa->FirstUnicastAddress );
rec->mac_address = get_mac_address( aa->PhysicalAddress, aa->PhysicalAddressLength );
rec->settingid = get_settingid( rec->index );
if (!match_row( table, row, cond, &status ))
{
free_row_values( table, row );
continue;
}
offset += sizeof(*rec);
row++;
}
TRACE("created %u rows\n", row);
table->num_rows = row;
heap_free( buffer );
return status;
}
static enum fill_status fill_physicalmemory( struct table *table, const struct expr *cond )
{
static const WCHAR dimm0W[] = {'D','I','M','M',' ','0',0};
struct record_physicalmemory *rec;
enum fill_status status = FILL_STATUS_UNFILTERED;
UINT row = 0;
if (!resize_table( table, 1, sizeof(*rec) )) return FILL_STATUS_FAILED;
rec = (struct record_physicalmemory *)table->data;
rec->capacity = get_total_physical_memory();
rec->devicelocator = heap_strdupW( dimm0W );
rec->memorytype = 9; /* RAM */
if (!match_row( table, row, cond, &status )) free_row_values( table, row );
else row++;
TRACE("created %u rows\n", row);
table->num_rows = row;
return status;
}
static enum fill_status fill_pnpentity( struct table *table, const struct expr *cond )
{
struct record_pnpentity *rec;
enum fill_status status = FILL_STATUS_UNFILTERED;
HDEVINFO device_info_set;
SP_DEVINFO_DATA devinfo = {0};
DWORD idx;
device_info_set = SetupDiGetClassDevsW( NULL, NULL, NULL, DIGCF_ALLCLASSES|DIGCF_PRESENT );
devinfo.cbSize = sizeof(devinfo);
idx = 0;
while (SetupDiEnumDeviceInfo( device_info_set, idx++, &devinfo ))
{
/* noop */
}
resize_table( table, idx, sizeof(*rec) );
table->num_rows = 0;
rec = (struct record_pnpentity *)table->data;
idx = 0;
while (SetupDiEnumDeviceInfo( device_info_set, idx++, &devinfo ))
{
WCHAR device_id[MAX_PATH];
if (SetupDiGetDeviceInstanceIdW( device_info_set, &devinfo, device_id,
ARRAY_SIZE(device_id), NULL ))
{
rec->device_id = heap_strdupW( device_id );
table->num_rows++;
if (!match_row( table, table->num_rows - 1, cond, &status ))
{
free_row_values( table, table->num_rows - 1 );
table->num_rows--;
}
else
rec++;
}
}
SetupDiDestroyDeviceInfoList( device_info_set );
return status;
}
static enum fill_status fill_printer( struct table *table, const struct expr *cond )
{
static const WCHAR fmtW[] = {'P','r','i','n','t','e','r','%','d',0};
struct record_printer *rec;
enum fill_status status = FILL_STATUS_UNFILTERED;
PRINTER_INFO_2W *info;
DWORD i, offset = 0, count = 0, size = 0, num_rows = 0;
WCHAR id[20];
EnumPrintersW( PRINTER_ENUM_LOCAL, NULL, 2, NULL, 0, &size, &count );
if (GetLastError() != ERROR_INSUFFICIENT_BUFFER) return FILL_STATUS_FAILED;
if (!(info = heap_alloc( size ))) return FILL_STATUS_FAILED;
if (!EnumPrintersW( PRINTER_ENUM_LOCAL, NULL, 2, (BYTE *)info, size, &size, &count ))
{
heap_free( info );
return FILL_STATUS_FAILED;
}
if (!resize_table( table, count, sizeof(*rec) ))
{
heap_free( info );
return FILL_STATUS_FAILED;
}
for (i = 0; i < count; i++)
{
rec = (struct record_printer *)(table->data + offset);
rec->attributes = info[i].Attributes;
sprintfW( id, fmtW, i );
rec->device_id = heap_strdupW( id );
rec->drivername = heap_strdupW( info[i].pDriverName );
rec->horizontalresolution = info[i].pDevMode->u1.s1.dmPrintQuality;
rec->local = -1;
rec->location = heap_strdupW( info[i].pLocation );
rec->name = heap_strdupW( info[i].pPrinterName );
rec->network = 0;
rec->portname = heap_strdupW( info[i].pPortName );
if (!match_row( table, i, cond, &status ))
{
free_row_values( table, i );
continue;
}
offset += sizeof(*rec);
num_rows++;
}
TRACE("created %u rows\n", num_rows);
table->num_rows = num_rows;
heap_free( info );
return status;
}
static WCHAR *get_cmdline( DWORD process_id )
{
if (process_id == GetCurrentProcessId()) return heap_strdupW( GetCommandLineW() );
return NULL; /* FIXME handle different process case */
}
static enum fill_status fill_process( struct table *table, const struct expr *cond )
{
static const WCHAR fmtW[] = {'%','u',0};
WCHAR handle[11];
struct record_process *rec;
PROCESSENTRY32W entry;
HANDLE snap;
enum fill_status status = FILL_STATUS_FAILED;
UINT row = 0, offset = 0;
snap = CreateToolhelp32Snapshot( TH32CS_SNAPPROCESS, 0 );
if (snap == INVALID_HANDLE_VALUE) return FILL_STATUS_FAILED;
entry.dwSize = sizeof(entry);
if (!Process32FirstW( snap, &entry )) goto done;
if (!resize_table( table, 8, sizeof(*rec) )) goto done;
do
{
if (!resize_table( table, row + 1, sizeof(*rec) )) goto done;
rec = (struct record_process *)(table->data + offset);
rec->caption = heap_strdupW( entry.szExeFile );
rec->commandline = get_cmdline( entry.th32ProcessID );
rec->description = heap_strdupW( entry.szExeFile );
sprintfW( handle, fmtW, entry.th32ProcessID );
rec->handle = heap_strdupW( handle );
rec->name = heap_strdupW( entry.szExeFile );
rec->process_id = entry.th32ProcessID;
rec->pprocess_id = entry.th32ParentProcessID;
rec->thread_count = entry.cntThreads;
rec->workingsetsize = 0;
rec->get_owner = process_get_owner;
if (!match_row( table, row, cond, &status ))
{
free_row_values( table, row );
continue;
}
offset += sizeof(*rec);
row++;
} while (Process32NextW( snap, &entry ));
TRACE("created %u rows\n", row);
table->num_rows = row;
status = FILL_STATUS_UNFILTERED;
done:
CloseHandle( snap );
return status;
}
extern void do_cpuid( unsigned int ax, unsigned int *p );
#if defined(_MSC_VER)
void do_cpuid( unsigned int ax, unsigned int *p )
{
__cpuid( p, ax );
}
#elif defined(__i386__)
__ASM_GLOBAL_FUNC( do_cpuid,
"pushl %esi\n\t"
"pushl %ebx\n\t"
"movl 12(%esp),%eax\n\t"
"movl 16(%esp),%esi\n\t"
"cpuid\n\t"
"movl %eax,(%esi)\n\t"
"movl %ebx,4(%esi)\n\t"
"movl %ecx,8(%esi)\n\t"
"movl %edx,12(%esi)\n\t"
"popl %ebx\n\t"
"popl %esi\n\t"
"ret" )
#elif defined(__x86_64__)
__ASM_GLOBAL_FUNC( do_cpuid,
"pushq %rbx\n\t"
"movl %edi,%eax\n\t"
"cpuid\n\t"
"movl %eax,(%rsi)\n\t"
"movl %ebx,4(%rsi)\n\t"
"movl %ecx,8(%rsi)\n\t"
"movl %edx,12(%rsi)\n\t"
"popq %rbx\n\t"
"ret" )
#else
void do_cpuid( unsigned int ax, unsigned int *p )
{
FIXME("\n");
}
#endif
static unsigned int get_processor_model( unsigned int reg0, unsigned int *stepping, unsigned int *family )
{
unsigned int model, family_id = (reg0 & (0x0f << 8)) >> 8;
model = (reg0 & (0x0f << 4)) >> 4;
if (family_id == 6 || family_id == 15) model |= (reg0 & (0x0f << 16)) >> 12;
if (family)
{
*family = family_id;
if (family_id == 15) *family += (reg0 & (0xff << 20)) >> 20;
}
*stepping = reg0 & 0x0f;
return model;
}
static void regs_to_str( unsigned int *regs, unsigned int len, WCHAR *buffer )
{
unsigned int i;
unsigned char *p = (unsigned char *)regs;
for (i = 0; i < len; i++) { buffer[i] = *p++; }
buffer[i] = 0;
}
static void get_processor_manufacturer( WCHAR *manufacturer )
{
unsigned int tmp, regs[4] = {0, 0, 0, 0};
do_cpuid( 0, regs );
tmp = regs[2]; /* swap edx and ecx */
regs[2] = regs[3];
regs[3] = tmp;
regs_to_str( regs + 1, 12, manufacturer );
}
static const WCHAR *get_osarchitecture(void)
{
SYSTEM_INFO info;
GetNativeSystemInfo( &info );
if (info.u.s.wProcessorArchitecture == PROCESSOR_ARCHITECTURE_AMD64) return os_64bitW;
return os_32bitW;
}
static void get_processor_caption( WCHAR *caption )
{
static const WCHAR fmtW[] =
{'%','s',' ','F','a','m','i','l','y',' ','%','u',' ',
'M','o','d','e','l',' ','%','u',' ','S','t','e','p','p','i','n','g',' ','%','u',0};
static const WCHAR x86W[] = {'x','8','6',0};
static const WCHAR intel64W[] = {'I','n','t','e','l','6','4',0};
static const WCHAR amd64W[] = {'A','M','D','6','4',0};
static const WCHAR authenticamdW[] = {'A','u','t','h','e','n','t','i','c','A','M','D',0};
const WCHAR *arch;
WCHAR manufacturer[13];
unsigned int regs[4] = {0, 0, 0, 0}, family, model, stepping;
get_processor_manufacturer( manufacturer );
if (get_osarchitecture() == os_32bitW) arch = x86W;
else if (!strcmpW( manufacturer, authenticamdW )) arch = amd64W;
else arch = intel64W;
do_cpuid( 1, regs );
model = get_processor_model( regs[0], &stepping, &family );
sprintfW( caption, fmtW, arch, family, model, stepping );
}
static void get_processor_version( WCHAR *version )
{
static const WCHAR fmtW[] =
{'M','o','d','e','l',' ','%','u',',',' ','S','t','e','p','p','i','n','g',' ','%','u',0};
unsigned int regs[4] = {0, 0, 0, 0}, model, stepping;
do_cpuid( 1, regs );
model = get_processor_model( regs[0], &stepping, NULL );
sprintfW( version, fmtW, model, stepping );
}
static UINT16 get_processor_revision(void)
{
unsigned int regs[4] = {0, 0, 0, 0};
do_cpuid( 1, regs );
return regs[0];
}
static void get_processor_id( WCHAR *processor_id )
{
static const WCHAR fmtW[] = {'%','0','8','X','%','0','8','X',0};
unsigned int regs[4] = {0, 0, 0, 0};
do_cpuid( 1, regs );
sprintfW( processor_id, fmtW, regs[3], regs[0] );
}
static void get_processor_name( WCHAR *name )
{
unsigned int regs[4] = {0, 0, 0, 0};
int i;
do_cpuid( 0x80000000, regs );
if (regs[0] >= 0x80000004)
{
do_cpuid( 0x80000002, regs );
regs_to_str( regs, 16, name );
do_cpuid( 0x80000003, regs );
regs_to_str( regs, 16, name + 16 );
do_cpuid( 0x80000004, regs );
regs_to_str( regs, 16, name + 32 );
}
for (i = strlenW(name) - 1; i >= 0 && name[i] == ' '; i--) name[i] = 0;
}
static UINT get_processor_currentclockspeed( UINT index )
{
PROCESSOR_POWER_INFORMATION *info;
UINT ret = 1000, size = get_processor_count() * sizeof(PROCESSOR_POWER_INFORMATION);
NTSTATUS status;
if ((info = heap_alloc( size )))
{
status = NtPowerInformation( ProcessorInformation, NULL, 0, info, size );
if (!status) ret = info[index].CurrentMhz;
heap_free( info );
}
return ret;
}
static UINT get_processor_maxclockspeed( UINT index )
{
PROCESSOR_POWER_INFORMATION *info;
UINT ret = 1000, size = get_processor_count() * sizeof(PROCESSOR_POWER_INFORMATION);
NTSTATUS status;
if ((info = heap_alloc( size )))
{
status = NtPowerInformation( ProcessorInformation, NULL, 0, info, size );
if (!status) ret = info[index].MaxMhz;
heap_free( info );
}
return ret;
}
static enum fill_status fill_processor( struct table *table, const struct expr *cond )
{
static const WCHAR fmtW[] = {'C','P','U','%','u',0};
WCHAR caption[100], device_id[14], processor_id[17], manufacturer[13], name[49] = {0}, version[50];
struct record_processor *rec;
UINT i, offset = 0, num_rows = 0, num_logical, num_physical, num_packages;
enum fill_status status = FILL_STATUS_UNFILTERED;
num_logical = get_logical_processor_count( &num_physical, &num_packages );
if (!resize_table( table, num_packages, sizeof(*rec) )) return FILL_STATUS_FAILED;
get_processor_caption( caption );
get_processor_id( processor_id );
get_processor_manufacturer( manufacturer );
get_processor_name( name );
get_processor_version( version );
for (i = 0; i < num_packages; i++)
{
rec = (struct record_processor *)(table->data + offset);
rec->addresswidth = get_osarchitecture() == os_32bitW ? 32 : 64;
rec->architecture = get_osarchitecture() == os_32bitW ? 0 : 9;
rec->caption = heap_strdupW( caption );
rec->cpu_status = 1; /* CPU Enabled */
rec->currentclockspeed = get_processor_currentclockspeed( i );
rec->datawidth = get_osarchitecture() == os_32bitW ? 32 : 64;
rec->description = heap_strdupW( caption );
sprintfW( device_id, fmtW, i );
rec->device_id = heap_strdupW( device_id );
rec->family = 2; /* Unknown */
rec->level = 15;
rec->manufacturer = heap_strdupW( manufacturer );
rec->maxclockspeed = get_processor_maxclockspeed( i );
rec->name = heap_strdupW( name );
rec->num_cores = num_physical / num_packages;
rec->num_logical_processors = num_logical / num_packages;
rec->processor_id = heap_strdupW( processor_id );
rec->processortype = 3; /* central processor */
rec->revision = get_processor_revision();
rec->unique_id = NULL;
rec->version = heap_strdupW( version );
if (!match_row( table, i, cond, &status ))
{
free_row_values( table, i );
continue;
}
offset += sizeof(*rec);
num_rows++;
}
TRACE("created %u rows\n", num_rows);
table->num_rows = num_rows;
return status;
}
static WCHAR *get_lastbootuptime(void)
{
static const WCHAR fmtW[] =
{'%','0','4','u','%','0','2','u','%','0','2','u','%','0','2','u','%','0','2','u','%','0','2','u',
'.','%','0','6','u','+','0','0','0',0};
SYSTEM_TIMEOFDAY_INFORMATION ti;
TIME_FIELDS tf;
WCHAR *ret;
if (!(ret = heap_alloc( 26 * sizeof(WCHAR) ))) return NULL;
NtQuerySystemInformation( SystemTimeOfDayInformation, &ti, sizeof(ti), NULL );
RtlTimeToTimeFields( &ti.liKeBootTime, &tf );
sprintfW( ret, fmtW, tf.Year, tf.Month, tf.Day, tf.Hour, tf.Minute, tf.Second, tf.Milliseconds * 1000 );
return ret;
}
static WCHAR *get_localdatetime(void)
{
static const WCHAR fmtW[] =
{'%','0','4','u','%','0','2','u','%','0','2','u','%','0','2','u','%','0','2','u','%','0','2','u',
'.','%','0','6','u','%','+','0','3','d',0};
TIME_ZONE_INFORMATION tzi;
SYSTEMTIME st;
WCHAR *ret;
DWORD Status;
LONG Bias;
Status = GetTimeZoneInformation(&tzi);
if(Status == TIME_ZONE_ID_INVALID) return NULL;
Bias = tzi.Bias;
if(Status == TIME_ZONE_ID_DAYLIGHT)
Bias+= tzi.DaylightBias;
else
Bias+= tzi.StandardBias;
if (!(ret = heap_alloc( 26 * sizeof(WCHAR) ))) return NULL;
GetLocalTime(&st);
sprintfW( ret, fmtW, st.wYear, st.wMonth, st.wDay, st.wHour, st.wMinute, st.wSecond, st.wMilliseconds * 1000, -Bias);
return ret;
}
static WCHAR *get_systemdirectory(void)
{
void *redir;
WCHAR *ret;
if (!(ret = heap_alloc( MAX_PATH * sizeof(WCHAR) ))) return NULL;
Wow64DisableWow64FsRedirection( &redir );
GetSystemDirectoryW( ret, MAX_PATH );
Wow64RevertWow64FsRedirection( redir );
return ret;
}
static WCHAR *get_systemdrive(void)
{
WCHAR *ret = heap_alloc( 3 * sizeof(WCHAR) ); /* "c:" */
if (ret && GetEnvironmentVariableW( prop_systemdriveW, ret, 3 )) return ret;
heap_free( ret );
return NULL;
}
static WCHAR *get_codeset(void)
{
static const WCHAR fmtW[] = {'%','u',0};
WCHAR *ret = heap_alloc( 11 * sizeof(WCHAR) );
if (ret) sprintfW( ret, fmtW, GetACP() );
return ret;
}
static WCHAR *get_countrycode(void)
{
WCHAR *ret = heap_alloc( 6 * sizeof(WCHAR) );
if (ret) GetLocaleInfoW( LOCALE_SYSTEM_DEFAULT, LOCALE_ICOUNTRY, ret, 6 );
return ret;
}
static WCHAR *get_locale(void)
{
WCHAR *ret = heap_alloc( 5 * sizeof(WCHAR) );
if (ret) GetLocaleInfoW( LOCALE_SYSTEM_DEFAULT, LOCALE_ILANGUAGE, ret, 5 );
return ret;
}
static WCHAR *get_osbuildnumber( OSVERSIONINFOEXW *ver )
{
static const WCHAR fmtW[] = {'%','u',0};
WCHAR *ret = heap_alloc( 11 * sizeof(WCHAR) );
if (ret) sprintfW( ret, fmtW, ver->dwBuildNumber );
return ret;
}
static WCHAR *get_oscaption( OSVERSIONINFOEXW *ver )
{
static const WCHAR windowsW[] =
{'M','i','c','r','o','s','o','f','t',' ','W','i','n','d','o','w','s',' '};
static const WCHAR win2000W[] =
{'2','0','0','0',' ','P','r','o','f','e','s','s','i','o','n','a','l',0};
static const WCHAR win2003W[] =
{'S','e','r','v','e','r',' ','2','0','0','3',' ','S','t','a','n','d','a','r','d',' ','E','d','i','t','i','o','n',0};
static const WCHAR winxpW[] =
{'X','P',' ','P','r','o','f','e','s','s','i','o','n','a','l',0};
static const WCHAR winxp64W[] =
{'X','P',' ','P','r','o','f','e','s','s','i','o','n','a','l',' ','x','6','4',' ','E','d','i','t','i','o','n',0};
static const WCHAR vistaW[] =
{'V','i','s','t','a',' ','U','l','t','i','m','a','t','e',0};
static const WCHAR win2008W[] =
{'S','e','r','v','e','r',' ','2','0','0','8',' ','S','t','a','n','d','a','r','d',0};
static const WCHAR win7W[] =
{'7',' ','P','r','o','f','e','s','s','i','o','n','a','l',0};
static const WCHAR win2008r2W[] =
{'S','e','r','v','e','r',' ','2','0','0','8',' ','R','2',' ','S','t','a','n','d','a','r','d',0};
static const WCHAR win8W[] =
{'8',' ','P','r','o',0};
static const WCHAR win81W[] =
{'8','.','1',' ','P','r','o',0};
static const WCHAR win10W[] =
{'1','0',' ','P','r','o',0};
int len = ARRAY_SIZE( windowsW );
WCHAR *ret;
if (!(ret = heap_alloc( len * sizeof(WCHAR) + sizeof(win2003W) ))) return NULL;
memcpy( ret, windowsW, sizeof(windowsW) );
if (ver->dwMajorVersion == 10 && ver->dwMinorVersion == 0) memcpy( ret + len, win10W, sizeof(win10W) );
else if (ver->dwMajorVersion == 6 && ver->dwMinorVersion == 3) memcpy( ret + len, win8W, sizeof(win8W) );
else if (ver->dwMajorVersion == 6 && ver->dwMinorVersion == 2) memcpy( ret + len, win81W, sizeof(win81W) );
else if (ver->dwMajorVersion == 6 && ver->dwMinorVersion == 1)
{
if (ver->wProductType == VER_NT_WORKSTATION) memcpy( ret + len, win7W, sizeof(win7W) );
else memcpy( ret + len, win2008r2W, sizeof(win2008r2W) );
}
else if (ver->dwMajorVersion == 6 && ver->dwMinorVersion == 0)
{
if (ver->wProductType == VER_NT_WORKSTATION) memcpy( ret + len, vistaW, sizeof(vistaW) );
else memcpy( ret + len, win2008W, sizeof(win2008W) );
}
else if (ver->dwMajorVersion == 5 && ver->dwMinorVersion == 2)
{
if (ver->wProductType == VER_NT_WORKSTATION) memcpy( ret + len, winxp64W, sizeof(winxp64W) );
else memcpy( ret + len, win2003W, sizeof(win2003W) );
}
else if (ver->dwMajorVersion == 5 && ver->dwMinorVersion == 1) memcpy( ret + len, winxpW, sizeof(winxpW) );
else memcpy( ret + len, win2000W, sizeof(win2000W) );
return ret;
}
static WCHAR *get_osname( const WCHAR *caption )
{
static const WCHAR partitionW[] =
{'|','C',':','\\','W','I','N','D','O','W','S','|','\\','D','e','v','i','c','e','\\',
'H','a','r','d','d','i','s','k','0','\\','P','a','r','t','i','t','i','o','n','1',0};
int len = strlenW( caption );
WCHAR *ret;
if (!(ret = heap_alloc( len * sizeof(WCHAR) + sizeof(partitionW) ))) return NULL;
memcpy( ret, caption, len * sizeof(WCHAR) );
memcpy( ret + len, partitionW, sizeof(partitionW) );
return ret;
}
static WCHAR *get_osversion( OSVERSIONINFOEXW *ver )
{
static const WCHAR fmtW[] = {'%','u','.','%','u','.','%','u',0};
WCHAR *ret = heap_alloc( 33 * sizeof(WCHAR) );
if (ret) sprintfW( ret, fmtW, ver->dwMajorVersion, ver->dwMinorVersion, ver->dwBuildNumber );
return ret;
}
static DWORD get_operatingsystemsku(void)
{
DWORD ret = PRODUCT_UNDEFINED;
GetProductInfo( 6, 0, 0, 0, &ret );
return ret;
}
static enum fill_status fill_os( struct table *table, const struct expr *cond )
{
struct record_operatingsystem *rec;
enum fill_status status = FILL_STATUS_UNFILTERED;
OSVERSIONINFOEXW ver;
UINT row = 0;
if (!resize_table( table, 1, sizeof(*rec) )) return FILL_STATUS_FAILED;
ver.dwOSVersionInfoSize = sizeof(ver);
GetVersionExW( (OSVERSIONINFOW *)&ver );
rec = (struct record_operatingsystem *)table->data;
rec->buildnumber = get_osbuildnumber( &ver );
rec->caption = get_oscaption( &ver );
rec->codeset = get_codeset();
rec->countrycode = get_countrycode();
rec->csdversion = ver.szCSDVersion[0] ? heap_strdupW( ver.szCSDVersion ) : NULL;
rec->freephysicalmemory = get_available_physical_memory() / 1024;
rec->installdate = os_installdateW;
rec->lastbootuptime = get_lastbootuptime();
rec->localdatetime = get_localdatetime();
rec->locale = get_locale();
rec->name = get_osname( rec->caption );
rec->operatingsystemsku = get_operatingsystemsku();
rec->osarchitecture = get_osarchitecture();
rec->oslanguage = GetSystemDefaultLangID();
rec->osproductsuite = 2461140; /* Windows XP Professional */
rec->ostype = 18; /* WINNT */
rec->primary = -1;
rec->serialnumber = os_serialnumberW;
rec->servicepackmajor = ver.wServicePackMajor;
rec->servicepackminor = ver.wServicePackMinor;
rec->suitemask = 272; /* Single User + Terminal */
rec->systemdirectory = get_systemdirectory();
rec->systemdrive = get_systemdrive();
rec->totalvirtualmemorysize = get_total_physical_memory() / 1024;
rec->totalvisiblememorysize = rec->totalvirtualmemorysize;
rec->version = get_osversion( &ver );
if (!match_row( table, row, cond, &status )) free_row_values( table, row );
else row++;
TRACE("created %u rows\n", row);
table->num_rows = row;
return status;
}
static const WCHAR *get_service_type( DWORD type )
{
static const WCHAR filesystem_driverW[] =
{'F','i','l','e',' ','S','y','s','t','e','m',' ','D','r','i','v','e','r',0};
static const WCHAR kernel_driverW[] =
{'K','e','r','n','e','l',' ','D','r','i','v','e','r',0};
static const WCHAR own_processW[] =
{'O','w','n',' ','P','r','o','c','e','s','s',0};
static const WCHAR share_processW[] =
{'S','h','a','r','e',' ','P','r','o','c','e','s','s',0};
if (type & SERVICE_KERNEL_DRIVER) return kernel_driverW;
else if (type & SERVICE_FILE_SYSTEM_DRIVER) return filesystem_driverW;
else if (type & SERVICE_WIN32_OWN_PROCESS) return own_processW;
else if (type & SERVICE_WIN32_SHARE_PROCESS) return share_processW;
else ERR("unhandled type 0x%08x\n", type);
return NULL;
}
static const WCHAR *get_service_state( DWORD state )
{
static const WCHAR runningW[] =
{'R','u','n','n','i','n','g',0};
static const WCHAR start_pendingW[] =
{'S','t','a','r','t',' ','P','e','n','d','i','n','g',0};
static const WCHAR stop_pendingW[] =
{'S','t','o','p',' ','P','e','n','d','i','n','g',0};
static const WCHAR stoppedW[] =
{'S','t','o','p','p','e','d',0};
static const WCHAR unknownW[] =
{'U','n','k','n','o','w','n',0};
switch (state)
{
case SERVICE_STOPPED: return stoppedW;
case SERVICE_START_PENDING: return start_pendingW;
case SERVICE_STOP_PENDING: return stop_pendingW;
case SERVICE_RUNNING: return runningW;
default:
ERR("unknown state %u\n", state);
return unknownW;
}
}
static const WCHAR *get_service_startmode( DWORD mode )
{
static const WCHAR bootW[] = {'B','o','o','t',0};
static const WCHAR systemW[] = {'S','y','s','t','e','m',0};
static const WCHAR autoW[] = {'A','u','t','o',0};
static const WCHAR manualW[] = {'M','a','n','u','a','l',0};
static const WCHAR disabledW[] = {'D','i','s','a','b','l','e','d',0};
static const WCHAR unknownW[] = {'U','n','k','n','o','w','n',0};
switch (mode)
{
case SERVICE_BOOT_START: return bootW;
case SERVICE_SYSTEM_START: return systemW;
case SERVICE_AUTO_START: return autoW;
case SERVICE_DEMAND_START: return manualW;
case SERVICE_DISABLED: return disabledW;
default:
ERR("unknown mode 0x%x\n", mode);
return unknownW;
}
}
static QUERY_SERVICE_CONFIGW *query_service_config( SC_HANDLE manager, const WCHAR *name )
{
QUERY_SERVICE_CONFIGW *config = NULL;
SC_HANDLE service;
DWORD size;
if (!(service = OpenServiceW( manager, name, SERVICE_QUERY_CONFIG ))) return NULL;
QueryServiceConfigW( service, NULL, 0, &size );
if (GetLastError() != ERROR_INSUFFICIENT_BUFFER) goto done;
if (!(config = heap_alloc( size ))) goto done;
if (QueryServiceConfigW( service, config, size, &size )) goto done;
heap_free( config );
config = NULL;
done:
CloseServiceHandle( service );
return config;
}
static enum fill_status fill_service( struct table *table, const struct expr *cond )
{
struct record_service *rec;
SC_HANDLE manager;
ENUM_SERVICE_STATUS_PROCESSW *tmp, *services = NULL;
SERVICE_STATUS_PROCESS *status;
WCHAR sysnameW[MAX_COMPUTERNAME_LENGTH + 1];
DWORD len = ARRAY_SIZE( sysnameW );
UINT i, row = 0, offset = 0, size = 256, needed, count;
enum fill_status fill_status = FILL_STATUS_FAILED;
BOOL ret;
if (!(manager = OpenSCManagerW( NULL, NULL, SC_MANAGER_ENUMERATE_SERVICE ))) return FILL_STATUS_FAILED;
if (!(services = heap_alloc( size ))) goto done;
ret = EnumServicesStatusExW( manager, SC_ENUM_PROCESS_INFO, SERVICE_TYPE_ALL,
SERVICE_STATE_ALL, (BYTE *)services, size, &needed,
&count, NULL, NULL );
if (!ret)
{
if (GetLastError() != ERROR_MORE_DATA) goto done;
size = needed;
if (!(tmp = heap_realloc( services, size ))) goto done;
services = tmp;
ret = EnumServicesStatusExW( manager, SC_ENUM_PROCESS_INFO, SERVICE_TYPE_ALL,
SERVICE_STATE_ALL, (BYTE *)services, size, &needed,
&count, NULL, NULL );
if (!ret) goto done;
}
if (!resize_table( table, count, sizeof(*rec) )) goto done;
GetComputerNameW( sysnameW, &len );
fill_status = FILL_STATUS_UNFILTERED;
for (i = 0; i < count; i++)
{
QUERY_SERVICE_CONFIGW *config;
if (!(config = query_service_config( manager, services[i].lpServiceName ))) continue;
status = &services[i].ServiceStatusProcess;
rec = (struct record_service *)(table->data + offset);
rec->accept_pause = (status->dwControlsAccepted & SERVICE_ACCEPT_PAUSE_CONTINUE) ? -1 : 0;
rec->accept_stop = (status->dwControlsAccepted & SERVICE_ACCEPT_STOP) ? -1 : 0;
rec->displayname = heap_strdupW( services[i].lpDisplayName );
rec->name = heap_strdupW( services[i].lpServiceName );
rec->process_id = status->dwProcessId;
rec->servicetype = get_service_type( status->dwServiceType );
rec->startmode = get_service_startmode( config->dwStartType );
rec->state = get_service_state( status->dwCurrentState );
rec->systemname = heap_strdupW( sysnameW );
rec->pause_service = service_pause_service;
rec->resume_service = service_resume_service;
rec->start_service = service_start_service;
rec->stop_service = service_stop_service;
heap_free( config );
if (!match_row( table, row, cond, &fill_status ))
{
free_row_values( table, row );
continue;
}
offset += sizeof(*rec);
row++;
}
TRACE("created %u rows\n", row);
table->num_rows = row;
done:
CloseServiceHandle( manager );
heap_free( services );
return fill_status;
}
2015-02-13 13:40:36 +01:00
static WCHAR *get_accountname( LSA_TRANSLATED_NAME *name )
{
if (!name || !name->Name.Buffer) return NULL;
return heap_strdupW( name->Name.Buffer );
}
static struct array *get_binaryrepresentation( PSID sid, UINT len )
2015-02-13 13:40:36 +01:00
{
struct array *array = heap_alloc( sizeof(struct array) );
if (array)
{
UINT8 *ret = heap_alloc( len );
if (ret)
{
memcpy( ret, sid, len );
array->count = len;
array->ptr = ret;
return array;
}
heap_free( array );
}
return NULL;
2015-02-13 13:40:36 +01:00
}
static WCHAR *get_referenceddomainname( LSA_REFERENCED_DOMAIN_LIST *domain )
{
if (!domain || !domain->Domains || !domain->Domains->Name.Buffer) return NULL;
return heap_strdupW( domain->Domains->Name.Buffer );
}
static const WCHAR *find_sid_str( const struct expr *cond )
{
const struct expr *left, *right;
const WCHAR *ret = NULL;
if (!cond || cond->type != EXPR_COMPLEX || cond->u.expr.op != OP_EQ) return NULL;
left = cond->u.expr.left;
right = cond->u.expr.right;
if (left->type == EXPR_PROPVAL && right->type == EXPR_SVAL && !strcmpiW( left->u.propval->name, prop_sidW ))
{
ret = right->u.sval;
}
else if (left->type == EXPR_SVAL && right->type == EXPR_PROPVAL && !strcmpiW( right->u.propval->name, prop_sidW ))
{
ret = left->u.sval;
}
return ret;
}
static enum fill_status fill_sid( struct table *table, const struct expr *cond )
{
PSID sid;
LSA_REFERENCED_DOMAIN_LIST *domain;
LSA_TRANSLATED_NAME *name;
LSA_HANDLE handle;
LSA_OBJECT_ATTRIBUTES attrs;
const WCHAR *str;
struct record_sid *rec;
UINT len;
if (!(str = find_sid_str( cond ))) return FILL_STATUS_FAILED;
if (!resize_table( table, 1, sizeof(*rec) )) return FILL_STATUS_FAILED;
if (!ConvertStringSidToSidW( str, &sid )) return FILL_STATUS_FAILED;
len = GetLengthSid( sid );
memset( &attrs, 0, sizeof(attrs) );
attrs.Length = sizeof(attrs);
if (LsaOpenPolicy( NULL, &attrs, POLICY_ALL_ACCESS, &handle ))
{
LocalFree( sid );
return FILL_STATUS_FAILED;
}
if (LsaLookupSids( handle, 1, &sid, &domain, &name ))
{
LocalFree( sid );
LsaClose( handle );
return FILL_STATUS_FAILED;
}
rec = (struct record_sid *)table->data;
rec->accountname = get_accountname( name );
rec->binaryrepresentation = get_binaryrepresentation( sid, len );
rec->referenceddomainname = get_referenceddomainname( domain );
rec->sid = heap_strdupW( str );
rec->sidlength = len;
TRACE("created 1 row\n");
table->num_rows = 1;
LsaFreeMemory( domain );
LsaFreeMemory( name );
LocalFree( sid );
LsaClose( handle );
return FILL_STATUS_FILTERED;
}
static UINT32 get_bits_per_pixel( UINT *hres, UINT *vres )
{
HDC hdc = GetDC( NULL );
UINT32 ret;
if (!hdc) return 32;
ret = GetDeviceCaps( hdc, BITSPIXEL );
*hres = GetDeviceCaps( hdc, HORZRES );
*vres = GetDeviceCaps( hdc, VERTRES );
ReleaseDC( NULL, hdc );
return ret;
}
static WCHAR *get_pnpdeviceid( DXGI_ADAPTER_DESC *desc )
{
static const WCHAR fmtW[] =
{'P','C','I','\\','V','E','N','_','%','0','4','X','&','D','E','V','_','%','0','4','X',
'&','S','U','B','S','Y','S','_','%','0','8','X','&','R','E','V','_','%','0','2','X','\\',
'0','&','D','E','A','D','B','E','E','F','&','0','&','D','E','A','D',0};
WCHAR *ret;
if (!(ret = heap_alloc( sizeof(fmtW) + 2 * sizeof(WCHAR) ))) return NULL;
sprintfW( ret, fmtW, desc->VendorId, desc->DeviceId, desc->SubSysId, desc->Revision );
return ret;
}
#define HW_VENDOR_AMD 0x1002
#define HW_VENDOR_NVIDIA 0x10de
#define HW_VENDOR_VMWARE 0x15ad
#define HW_VENDOR_INTEL 0x8086
static const WCHAR *get_installeddriver( UINT vendorid )
{
static const WCHAR driver_amdW[] = {'a','t','i','c','f','x','3','2','.','d','l','l',0};
static const WCHAR driver_intelW[] = {'i','g','d','u','m','d','i','m','3','2','.','d','l','l',0};
static const WCHAR driver_nvidiaW[] = {'n','v','d','3','d','u','m','.','d','l','l',0};
static const WCHAR driver_wineW[] = {'w','i','n','e','.','d','l','l',0};
/* FIXME: wined3d has a better table, but we cannot access this information through dxgi */
if (vendorid == HW_VENDOR_AMD)
return driver_amdW;
else if (vendorid == HW_VENDOR_NVIDIA)
return driver_nvidiaW;
else if (vendorid == HW_VENDOR_INTEL)
return driver_intelW;
return driver_wineW;
}
static enum fill_status fill_videocontroller( struct table *table, const struct expr *cond )
{
static const WCHAR fmtW[] = {'%','u',' ','x',' ','%','u',' ','x',' ','%','I','6','4','u',' ','c','o','l','o','r','s',0};
struct record_videocontroller *rec;
HRESULT hr;
IDXGIFactory *factory = NULL;
IDXGIAdapter *adapter = NULL;
DXGI_ADAPTER_DESC desc;
UINT row = 0, hres = 1024, vres = 768, vidmem = 512 * 1024 * 1024;
const WCHAR *name = videocontroller_deviceidW;
enum fill_status status = FILL_STATUS_UNFILTERED;
WCHAR mode[44];
if (!resize_table( table, 1, sizeof(*rec) )) return FILL_STATUS_FAILED;
2013-05-09 10:50:28 +02:00
memset (&desc, 0, sizeof(desc));
hr = CreateDXGIFactory( &IID_IDXGIFactory, (void **)&factory );
if (FAILED(hr)) goto done;
hr = IDXGIFactory_EnumAdapters( factory, 0, &adapter );
if (FAILED(hr)) goto done;
hr = IDXGIAdapter_GetDesc( adapter, &desc );
if (SUCCEEDED(hr))
{
vidmem = desc.DedicatedVideoMemory;
name = desc.Description;
}
done:
rec = (struct record_videocontroller *)table->data;
rec->adapter_dactype = videocontroller_dactypeW;
rec->adapter_ram = vidmem;
rec->availability = 3; /* Running or Full Power */
rec->config_errorcode = 0; /* no error */
rec->caption = heap_strdupW( name );
rec->current_bitsperpixel = get_bits_per_pixel( &hres, &vres );
rec->current_horizontalres = hres;
rec->current_refreshrate = 0; /* default refresh rate */
rec->current_scanmode = 2; /* Unknown */
rec->current_verticalres = vres;
rec->description = heap_strdupW( name );
rec->device_id = videocontroller_deviceidW;
rec->driverdate = videocontroller_driverdateW;
rec->driverversion = videocontroller_driverversionW;
rec->installeddriver = get_installeddriver( desc.VendorId );
rec->name = heap_strdupW( name );
rec->pnpdevice_id = get_pnpdeviceid( &desc );
rec->status = videocontroller_statusW;
rec->videoarchitecture = 2; /* Unknown */
rec->videomemorytype = 2; /* Unknown */
wsprintfW( mode, fmtW, hres, vres, (UINT64)1 << rec->current_bitsperpixel );
rec->videomodedescription = heap_strdupW( mode );
rec->videoprocessor = heap_strdupW( name );
if (!match_row( table, row, cond, &status )) free_row_values( table, row );
else row++;
TRACE("created %u rows\n", row);
table->num_rows = row;
if (adapter) IDXGIAdapter_Release( adapter );
if (factory) IDXGIFactory_Release( factory );
return status;
}
static struct table builtin_classes[] =
{
{ class_baseboardW, ARRAY_SIZE(col_baseboard), col_baseboard, ARRAY_SIZE(data_baseboard), 0, (BYTE *)data_baseboard },
{ class_biosW, ARRAY_SIZE(col_bios), col_bios, ARRAY_SIZE(data_bios), 0, (BYTE *)data_bios },
{ class_cdromdriveW, ARRAY_SIZE(col_cdromdrive), col_cdromdrive, 0, 0, NULL, fill_cdromdrive },
{ class_compsysW, ARRAY_SIZE(col_compsys), col_compsys, 0, 0, NULL, fill_compsys },
{ class_compsysproductW, ARRAY_SIZE(col_compsysproduct), col_compsysproduct, 0, 0, NULL, fill_compsysproduct },
{ class_datafileW, ARRAY_SIZE(col_datafile), col_datafile, 0, 0, NULL, fill_datafile },
{ class_desktopmonitorW, ARRAY_SIZE(col_desktopmonitor), col_desktopmonitor, 0, 0, NULL, fill_desktopmonitor },
{ class_directoryW, ARRAY_SIZE(col_directory), col_directory, 0, 0, NULL, fill_directory },
{ class_diskdriveW, ARRAY_SIZE(col_diskdrive), col_diskdrive, 0, 0, NULL, fill_diskdrive },
{ class_diskpartitionW, ARRAY_SIZE(col_diskpartition), col_diskpartition, 0, 0, NULL, fill_diskpartition },
{ class_ip4routetableW, ARRAY_SIZE(col_ip4routetable), col_ip4routetable, 0, 0, NULL, fill_ip4routetable },
{ class_logicaldiskW, ARRAY_SIZE(col_logicaldisk), col_logicaldisk, 0, 0, NULL, fill_logicaldisk },
{ class_logicaldisk2W, ARRAY_SIZE(col_logicaldisk), col_logicaldisk, 0, 0, NULL, fill_logicaldisk },
{ class_networkadapterW, ARRAY_SIZE(col_networkadapter), col_networkadapter, 0, 0, NULL, fill_networkadapter },
{ class_networkadapterconfigW, ARRAY_SIZE(col_networkadapterconfig), col_networkadapterconfig, 0, 0, NULL, fill_networkadapterconfig },
{ class_osW, ARRAY_SIZE(col_os), col_os, 0, 0, NULL, fill_os },
{ class_paramsW, ARRAY_SIZE(col_param), col_param, ARRAY_SIZE(data_param), 0, (BYTE *)data_param },
{ class_physicalmediaW, ARRAY_SIZE(col_physicalmedia), col_physicalmedia, ARRAY_SIZE(data_physicalmedia), 0, (BYTE *)data_physicalmedia },
{ class_physicalmemoryW, ARRAY_SIZE(col_physicalmemory), col_physicalmemory, 0, 0, NULL, fill_physicalmemory },
{ class_pnpentityW, ARRAY_SIZE(col_pnpentity), col_pnpentity, 0, 0, NULL, fill_pnpentity },
{ class_printerW, ARRAY_SIZE(col_printer), col_printer, 0, 0, NULL, fill_printer },
{ class_processW, ARRAY_SIZE(col_process), col_process, 0, 0, NULL, fill_process },
{ class_processorW, ARRAY_SIZE(col_processor), col_processor, 0, 0, NULL, fill_processor },
{ class_processor2W, ARRAY_SIZE(col_processor), col_processor, 0, 0, NULL, fill_processor },
{ class_qualifiersW, ARRAY_SIZE(col_qualifier), col_qualifier, ARRAY_SIZE(data_qualifier), 0, (BYTE *)data_qualifier },
{ class_serviceW, ARRAY_SIZE(col_service), col_service, 0, 0, NULL, fill_service },
{ class_sidW, ARRAY_SIZE(col_sid), col_sid, 0, 0, NULL, fill_sid },
{ class_sounddeviceW, ARRAY_SIZE(col_sounddevice), col_sounddevice, ARRAY_SIZE(data_sounddevice), 0, (BYTE *)data_sounddevice },
{ class_stdregprovW, ARRAY_SIZE(col_stdregprov), col_stdregprov, ARRAY_SIZE(data_stdregprov), 0, (BYTE *)data_stdregprov },
{ class_systemsecurityW, ARRAY_SIZE(col_systemsecurity), col_systemsecurity, ARRAY_SIZE(data_systemsecurity), 0, (BYTE *)data_systemsecurity },
{ class_systemenclosureW, ARRAY_SIZE(col_systemenclosure), col_systemenclosure, ARRAY_SIZE(data_systemenclosure), 0, (BYTE *)data_systemenclosure },
{ class_videocontrollerW, ARRAY_SIZE(col_videocontroller), col_videocontroller, 0, 0, NULL, fill_videocontroller }
};
void init_table_list( void )
{
static struct list tables = LIST_INIT( tables );
UINT i;
for (i = 0; i < ARRAY_SIZE(builtin_classes); i++) list_add_tail( &tables, &builtin_classes[i].entry );
table_list = &tables;
}