reactos/dll/cpl/sysdm/smbios.c
Timo Kreuzer e4930be4ff [REACTOS] Use the ISO C and C++ conformant names: _wcsicmp, _stricmp
Stop using non-conforming wcsicmp, stricmp, strcasecmp
2024-10-20 14:12:25 +03:00

883 lines
25 KiB
C

/*
* PROJECT: ReactOS System Control Panel Applet
* LICENSE: GPL - See COPYING in the top level directory
* FILE: dll/cpl/sysdm/smbios.c
* PURPOSE: Retrieve device or motherboard name identifier from DMI/SMBIOS
* COPYRIGHT: Copyright 2018-2020 Stanislav Motylkov <x86corez@gmail.com>
*
*/
#include "precomp.h"
#include <udmihelp.h>
typedef struct GENERIC_NAME
{
PCWSTR pwName;
BOOL bCaseSensitive;
BOOL bRemove;
} GENERIC_NAME;
typedef struct VENDOR_LONG_NAME
{
PCWSTR pwLongName;
PCWSTR pwShortName;
} VENDOR_LONG_NAME;
typedef struct REDUNDANT_WORD
{
PCWSTR pwStr;
BOOL bReplaceFirstWord;
} REDUNDANT_WORD;
static
BOOL
IsPunctuation(
_In_ WCHAR chr)
{
return (chr <= L' ' || chr == L'.' || chr == L',');
}
static
BOOL IsDigitStrA(PCHAR DmiString)
{
PCHAR c = DmiString;
if (!c)
{
return FALSE;
}
while (*c)
{
if (*c >= '0' && *c <= '9')
{
c++;
}
else
{
return FALSE;
}
}
return TRUE;
}
/*
* Trim redundant characters
*/
static
VOID
TrimPunctuation(
_Inout_ PWSTR pStr)
{
SIZE_T Length;
UINT i = 0;
if (!pStr)
return;
Length = wcslen(pStr);
if (Length == 0)
return;
/* Trim leading characters */
while (i < Length && IsPunctuation(pStr[i]))
{
i++;
}
if (i > 0)
{
Length -= i;
memmove(pStr, pStr + i, (Length + 1) * sizeof(WCHAR));
}
/* Trim trailing characters */
while (Length && IsPunctuation(pStr[Length-1]))
{
pStr[Length-1] = L'\0';
--Length;
}
}
/*
* Case insensitive variant of wcsstr
*/
static
wchar_t * wcsistr(const wchar_t *s, const wchar_t *b)
{
wchar_t *x;
wchar_t *y;
wchar_t *c;
x = (wchar_t *)s;
while (*x)
{
if (towlower(*x) == towlower(*b))
{
y = x;
c = (wchar_t *)b;
while (*y && *c && towlower(*y) == towlower(*c))
{
c++;
y++;
}
if (!*c)
return x;
}
x++;
}
return NULL;
}
static
wchar_t * wcsistr_plus(const wchar_t *s, wchar_t *b)
{
wchar_t * result = wcsistr(s, b);
UINT len = wcslen(b);
// workarounds
if (!result && b[len - 1] == L' ' && wcschr(s, L',') != NULL)
{
b[len - 1] = L',';
result = wcsistr(s, b);
b[len - 1] = L' ';
if (!result)
{
b[0] = L',';
result = wcsistr(s, b);
b[0] = L' ';
}
}
if (!result && b[len - 1] == L' ' && wcschr(s, L'(') != NULL)
{
b[len - 1] = L'(';
result = wcsistr(s, b);
b[len - 1] = L' ';
}
if (!result && b[len - 1] == L' ' && wcschr(s, L'_') != NULL)
{
b[0] = L'_';
result = wcsistr(s, b);
b[0] = L' ';
}
if (!result && b[0] == L' ' && b[len - 1] == L' ' && wcschr(s, L')') != NULL)
{
b[0] = L')';
result = wcsistr(s, b);
if (!result && wcschr(s, L'.'))
{
b[len - 1] = L'.';
result = wcsistr(s, b);
b[len - 1] = L' ';
}
b[0] = L' ';
}
return result;
}
/*
* Replaces full word with another shorter word
*/
static
VOID wcsrep(
_Inout_ PWSTR pwStr,
_In_ PCWSTR pwFind,
_In_ PCWSTR pwReplace,
_In_ BOOL bReplaceFirstWord)
{
PWSTR pwsStr, pwsFind, pwsReplace, pwsBuf = NULL;
SIZE_T lenStr;
SIZE_T lenFind;
SIZE_T lenReplace;
if (!pwStr || !pwFind || !pwReplace ||
wcslen(pwStr) == 0 ||
wcslen(pwFind) == 0 ||
wcslen(pwFind) < wcslen(pwReplace))
{
return;
}
lenStr = wcslen(pwStr) + 2 + 1;
lenFind = wcslen(pwFind) + 2 + 1;
lenReplace = wcslen(pwReplace) + 2 + 1;
pwsStr = HeapAlloc(GetProcessHeap(), 0, lenStr * sizeof(WCHAR));
if (!pwsStr)
{
return;
}
StringCchCopyW(pwsStr, lenStr, L" ");
StringCchCatW(pwsStr, lenStr, pwStr);
StringCchCatW(pwsStr, lenStr, L" ");
pwsFind = HeapAlloc(GetProcessHeap(), 0, lenFind * sizeof(WCHAR));
if (!pwsFind)
{
goto freeStr;
}
StringCchCopyW(pwsFind, lenFind, L" ");
StringCchCatW(pwsFind, lenFind, pwFind);
StringCchCatW(pwsFind, lenFind, L" ");
if (!(pwsBuf = wcsistr_plus(pwsStr, pwsFind)))
{
goto freeFind;
}
if (!bReplaceFirstWord && pwsBuf - pwsStr < 2)
{
goto freeFind;
}
pwsReplace = HeapAlloc(GetProcessHeap(), 0, lenReplace * sizeof(WCHAR));
if (!pwsReplace)
{
goto freeFind;
}
StringCchCopyW(pwsReplace, lenReplace, L" ");
StringCchCatW(pwsReplace, lenReplace, pwReplace);
StringCchCatW(pwsReplace, lenReplace, L" ");
do
{
// replace substring
memmove(pwsBuf, pwsReplace, (lenReplace - 1) * sizeof(WCHAR));
// shift characters
memmove(pwsBuf + lenReplace - (wcslen(pwReplace) > 0 ? 1 : 2), pwsBuf + lenFind - 1, (lenStr - lenFind - (pwsBuf - pwsStr) + 1) * sizeof(WCHAR));
}
while ((pwsBuf = wcsistr_plus(pwsStr, pwsFind)) != NULL);
TrimDmiStringW(pwsStr);
StringCchCopyW(pwStr, wcslen(pwStr), pwsStr);
HeapFree(GetProcessHeap(), 0, pwsReplace);
freeFind:
HeapFree(GetProcessHeap(), 0, pwsFind);
freeStr:
HeapFree(GetProcessHeap(), 0, pwsStr);
}
static
BOOL IsGenericSystemName(PCWSTR ven, PCWSTR dev, BOOL * bRemove)
{
static const GENERIC_NAME Vendors[] =
{
// some ASUS boards
{ L"To Be Filled By O.E.M.", FALSE, TRUE },
{ L"To Be Filled By O.E.M", FALSE, TRUE },
{ L"System manufacturer", FALSE, TRUE },
// some Gigabyte boards
{ L"Default string", TRUE, TRUE },
{ L"LTD Delovoy Office", TRUE, FALSE },
{ L"Motherboard by ZOTAC", TRUE, FALSE },
// various boards
{ L"Type2 - Board Manufacturer", TRUE, TRUE },
{ L"Type2 - Board Vendor Name1", TRUE, TRUE },
{ L"BASE_BOARD_MANUFACTURER", TRUE, TRUE },
{ L"$(DEFAULT_STRING)", TRUE, TRUE },
{ L"DEPO Computers", TRUE, FALSE },
{ L"-", TRUE, TRUE },
{ L"N/A", TRUE, TRUE },
{ L"OEM", TRUE, TRUE },
{ L"O.E.M", TRUE, TRUE },
{ L"empty", TRUE, TRUE },
{ L"insyde", TRUE, FALSE },
{ L"Unknow", TRUE, TRUE },
{ L"Not Applicable", TRUE, TRUE },
// distinguish between Oracle and older VirtualBox releases (Sun, etc.)
{ L"innotek GmbH", TRUE, FALSE },
};
static const GENERIC_NAME Devices[] =
{
// some ASUS boards
{ L"To Be Filled By O.E.M.", FALSE, TRUE },
{ L"To Be Filled By O.E.M", FALSE, TRUE },
{ L"All Series", TRUE, TRUE },
{ L"System Product Name", TRUE, TRUE },
{ L"System Name", TRUE, TRUE },
// some Gigabyte boards
{ L"Default string", TRUE, TRUE },
// some MSI boards
{ L"Please change product name", TRUE, TRUE },
// some Intel boards
{ L"Computer", TRUE, TRUE },
{ L"ChiefRiver Platform", TRUE, FALSE },
{ L"OakTrail Platform", TRUE, FALSE },
{ L"SharkBay Platform", TRUE, FALSE },
{ L"HuronRiver Platform", TRUE, FALSE },
{ L"SandyBridge Platform", TRUE, FALSE },
{ L"Broadwell Platform", TRUE, FALSE },
{ L"Kabylake Platform", TRUE, FALSE },
{ L"Sabine Platform", TRUE, FALSE },
// various boards
{ L"Base Board Product Name", TRUE, TRUE },
{ L"Base Board Version", TRUE, TRUE },
{ L"Type2 - Board Product Name1", TRUE, TRUE },
{ L"Type2 - Board Product Name", TRUE, TRUE },
{ L"Type2 - Board Version", TRUE, TRUE },
{ L"MODEL_NAME", TRUE, TRUE },
{ L"$(DEFAULT_STRING)", TRUE, TRUE },
{ L"*", TRUE, TRUE },
{ L"T", TRUE, TRUE },
{ L"GEG", TRUE, TRUE },
{ L"N/A", TRUE, TRUE },
{ L"---", TRUE, TRUE },
{ L"OEM", TRUE, TRUE },
{ L"INVA", TRUE, TRUE },
{ L"O.E.M", TRUE, TRUE },
{ L"empty", TRUE, TRUE },
{ L"DNSNB", TRUE, FALSE },
{ L"12345", TRUE, FALSE },
{ L"``````", TRUE, TRUE },
{ L"Uknown", TRUE, TRUE },
{ L"Desktop", FALSE, TRUE },
{ L"Invalid", FALSE, TRUE },
{ L"Reserved", TRUE, TRUE },
{ L"Not Applicable", TRUE, TRUE },
{ L"HaierComputer", TRUE, FALSE },
{ L"DEPO Computers", TRUE, FALSE },
{ L"InsydeH2O EFI BIOS", TRUE, TRUE },
{ L"HP All-in-One", TRUE, FALSE },
{ L"MP Server", TRUE, FALSE },
{ L"0000000000", TRUE, TRUE },
// some Foxconn boards
{ L"Aquarius Pro, Std, Elt Series", TRUE, FALSE },
// some ASUS server boards
{ L"Aquarius Server", TRUE, FALSE },
{ L"Aquarius Server G2", TRUE, FALSE },
// some Supermicro server boards
{ L"Super Server", TRUE, FALSE },
// some Positivo devices
{ L"POSITIVO MOBILE", FALSE, FALSE },
};
BOOL bMatch;
UINT i;
if (bRemove)
{
*bRemove = FALSE;
}
for (i = 0; i < _countof(Vendors); i++)
{
if (!ven)
{
break;
}
if (Vendors[i].bCaseSensitive)
{
bMatch = !wcscmp(ven, Vendors[i].pwName);
}
else
{
bMatch = !_wcsicmp(ven, Vendors[i].pwName);
}
if (bMatch)
{
if (bRemove)
{
*bRemove = Vendors[i].bRemove;
}
return TRUE;
}
}
for (i = 0; i < _countof(Devices); i++)
{
if (!dev)
{
break;
}
if (Devices[i].bCaseSensitive)
{
bMatch = !wcscmp(dev, Devices[i].pwName);
}
else
{
bMatch = !_wcsicmp(dev, Devices[i].pwName);
}
if (bMatch)
{
if (bRemove)
{
*bRemove = Devices[i].bRemove;
}
return TRUE;
}
}
return FALSE;
}
static
void AppendSystemFamily(PWSTR pBuf, SIZE_T cchBuf, PCHAR * DmiStrings, PWSTR dev)
{
static const PCSTR KnownFamilies[] =
{
"Eee PC", // ASUS
"ThinkPad", // Lenovo
"IdeaPad", // Lenovo
"IdeaCentre", // Lenovo
};
static const PCWSTR Aliases[] =
{
NULL,
NULL,
NULL,
L"IdeaCenter",
};
UINT i;
WCHAR wideStr[128];
for (i = 0; i < _countof(KnownFamilies); i++)
{
StringCchPrintfW(wideStr, _countof(wideStr), L"%S", KnownFamilies[i]);
if (wcsistr(dev, wideStr) == NULL &&
(!Aliases[i] || wcsistr(dev, Aliases[i]) == NULL) &&
DmiStrings[SYS_FAMILY] != NULL &&
!_stricmp(DmiStrings[SYS_FAMILY], KnownFamilies[i]))
{
if (wcslen(pBuf) > 0 && wcslen(dev) > 0)
{
StringCchCatW(pBuf, cchBuf, L" ");
}
StringCchCatW(pBuf, cchBuf, wideStr);
}
}
}
static
BOOL TrimNonPrintable(PCHAR DmiString)
{
PCHAR c = DmiString;
if (!c)
{
return FALSE;
}
while (*c)
{
if (*c >= 0x20 && *c <= 0x7e)
{
c++;
}
else
{
*c = 0;
return TRUE;
}
}
return FALSE;
}
/* TrimNonPrintable function wrapper. It does special preprocessing
* so the function returns FALSE in some corner cases, making the parser
* use system strings anyway (instead of board strings). */
static
BOOL TrimNonPrintableProd(PCHAR DmiString)
{
PCHAR c;
if (!DmiString)
{
return FALSE;
}
/* Special handling for HP with broken revision */
c = strstr(DmiString, "(\xFF\xFF");
if (c > DmiString)
{
*c = 0;
}
return TrimNonPrintable(DmiString);
}
BOOL GetSystemName(PWSTR pBuf, SIZE_T cchBuf)
{
static const VENDOR_LONG_NAME LongNames[] =
{
{ L"ASUSTeK", L"ASUS" },
{ L"First International Computer", L"FIC" },
{ L"Hewlett-Packard", L"HP" },
{ L"MICRO-STAR", L"MSI" },
{ L"SGI.COM", L"SGI" },
{ L"Silicon Graphics International", L"SGI" },
{ L"Intel(R) Client Systems", L"Intel" },
{ L"InformationComputerSystems", L"ICS" },
{ L"Bernecker + Rainer Industrie-Elektronik", L"Bernecker & Rainer" },
{ L"CHUWI INNOVATION AND TECHNOLOGY", L"CHUWI" },
{ L"CHUWI INNOVATION LIMITED", L"CHUWI" },
{ L"CHUWI INNOVATION LIMITED", L"CHUWI" },
{ L"http://www.abit.com.tw/", L"ABIT" },
{ L"http:\\\\www.abit.com.tw", L"ABIT" },
{ L"www.abit.com.tw", L"ABIT" },
{ L"CASPER BILGISAYAR SISTEMLERI A.S", L"Casper" },
{ L"Colorful Technology And Development", L"Colorful" },
{ L"Colorful Yu Gong Technology And Development", L"Colorful Yu Gong" },
{ L"HaierComputer", L"Haier" },
{ L"Haier Information Technology (Shen Zhen)", L"Haier" },
{ L"HASEECOMPUTERS", L"Hasee" },
{ L"HELIOS BUSINESS COMPUTER", L"HELIOS" },
{ L"Shanghai Zongzhi InfoTech", L"Zongzhi" },
{ L"TSING HUA TONGFANG CO.,LTD", L"TSINGHUA TONGFANG" },
{ L"Yeston Digital Technology Co.,LTD", L"Yeston" },
};
static const REDUNDANT_WORD RedundantWords[] =
{
{ L"Corporation", FALSE },
{ L"Communication", FALSE },
{ L"Computer", FALSE },
{ L"Computers", FALSE },
{ L"Group", FALSE },
{ L"Cloud", FALSE },
{ L"Center", FALSE },
{ L"Systems", FALSE },
{ L"Microsystems", FALSE },
{ L"Infosystems", FALSE },
{ L"Digital", FALSE },
{ L"Electronics", FALSE },
{ L"Electric", FALSE },
{ L"Elektronik", FALSE },
{ L"Software", FALSE },
{ L"Foundation", FALSE },
{ L"International", FALSE },
{ L"Interantonal", FALSE }, // on purpose (some MSI boards)
{ L"INTERANTIONAL", FALSE }, // on purpose (some MSI boards)
{ L"Industrial", FALSE },
{ L"Industrie", FALSE },
{ L"Information", FALSE },
{ L"Informatica", FALSE },
{ L"Produkte", FALSE },
{ L"Technology", FALSE },
{ L"Tecohnology", FALSE }, // on purpose (some Gigabyte boards)
{ L"Technologies", FALSE },
{ L"Tecnologia", FALSE },
{ L"Limited", FALSE },
{ L"Int", FALSE },
{ L"Inc", FALSE },
{ L"Co", FALSE },
{ L"Corp", FALSE },
{ L"Crop", FALSE },
{ L"LLC", FALSE },
{ L"Ltd", FALSE },
{ L"LTDA", FALSE },
{ L"GmbH", FALSE },
{ L"S.p.A", FALSE },
{ L"A.S.", FALSE },
{ L"S.A", FALSE },
{ L"S.A.S", FALSE },
{ L"S/A", FALSE },
{ L"SA", FALSE },
{ L"SAS", FALSE },
{ L"BV", FALSE },
{ L"AG", FALSE },
{ L"OOO", TRUE },
{ L"CJSC", FALSE },
{ L"INT'L", FALSE },
{ L"INTL", FALSE },
{ L"plc", FALSE },
};
PVOID SMBiosBuf;
PCHAR DmiStrings[ID_STRINGS_MAX] = { 0 };
WCHAR ven[512], dev[512];
CHAR tmpstr[512];
BOOL bTrimProduct, bTrimFamily, bGenericName, bRemove;
UINT i;
PWCHAR j;
SMBiosBuf = LoadSMBiosData(DmiStrings);
if (!SMBiosBuf)
{
return FALSE;
}
TrimNonPrintable(DmiStrings[SYS_VENDOR]);
bTrimProduct = TrimNonPrintableProd(DmiStrings[SYS_PRODUCT]);
TrimNonPrintable(DmiStrings[SYS_VERSION]);
bTrimFamily = TrimNonPrintable(DmiStrings[SYS_FAMILY]);
TrimNonPrintable(DmiStrings[BOARD_VENDOR]);
TrimNonPrintable(DmiStrings[BOARD_NAME]);
TrimNonPrintable(DmiStrings[BOARD_VERSION]);
if (bTrimProduct)
{
if (DmiStrings[SYS_FAMILY] && !bTrimFamily)
{
DmiStrings[SYS_PRODUCT] = DmiStrings[SYS_FAMILY];
bTrimProduct = FALSE;
}
}
GetSMBiosStringW(DmiStrings[SYS_VENDOR], ven, _countof(ven), TRUE);
GetSMBiosStringW(DmiStrings[SYS_PRODUCT], dev, _countof(dev), TRUE);
bGenericName = IsGenericSystemName(ven, dev, NULL) || bTrimProduct;
if (wcslen(dev) == 0 ||
!wcscmp(dev, ven) ||
bGenericName)
{
BOOL bGenericVen = FALSE, bRemoveVen = FALSE, bGenericDev = (wcslen(dev) == 0 || !wcscmp(dev, ven) || bTrimProduct);
if (bGenericName && IsGenericSystemName(ven, NULL, &bRemove))
{
if (bRemove)
{
*ven = 0;
}
bGenericVen = TRUE;
bRemoveVen = bRemove;
}
if (bGenericName && IsGenericSystemName(NULL, dev, &bRemove))
{
if (bRemove)
{
*dev = 0;
}
bGenericDev = TRUE;
}
// system strings are unusable, use board strings
if (DmiStrings[BOARD_VENDOR] != NULL || !bGenericName)
{
if ((DmiStrings[BOARD_VENDOR] &&
strlen(DmiStrings[BOARD_VENDOR]) >= 2 &&
strstr(DmiStrings[BOARD_VENDOR], " ") != DmiStrings[BOARD_VENDOR]) ||
bGenericVen)
{
GetSMBiosStringW(DmiStrings[BOARD_VENDOR], ven, _countof(ven), TRUE);
}
GetSMBiosStringW(DmiStrings[BOARD_NAME], dev, _countof(dev), TRUE);
if (IsGenericSystemName(ven, NULL, &bRemove) && bRemove)
{
*ven = 0;
if (bGenericVen && !bRemoveVen)
{
GetSMBiosStringW(DmiStrings[SYS_VENDOR], ven, _countof(ven), TRUE);
}
}
if (IsGenericSystemName(NULL, dev, &bRemove) && bRemove)
{
*dev = 0;
if (!bGenericDev)
{
GetSMBiosStringW(DmiStrings[SYS_PRODUCT], dev, _countof(dev), TRUE);
}
}
if (wcslen(dev) == 0 &&
DmiStrings[SYS_VERSION] != NULL)
{
GetSMBiosStringW(DmiStrings[SYS_VERSION], dev, _countof(dev), TRUE);
if (IsGenericSystemName(NULL, dev, &bRemove) && bRemove)
{
*dev = 0;
}
}
if (wcslen(dev) == 0 &&
DmiStrings[BOARD_VERSION] != NULL)
{
GetSMBiosStringW(DmiStrings[BOARD_VERSION], dev, _countof(dev), TRUE);
if (IsGenericSystemName(NULL, dev, &bRemove) && bRemove)
{
*dev = 0;
}
}
}
else if (DmiStrings[BOARD_NAME] != NULL)
{
GetSMBiosStringW(DmiStrings[BOARD_NAME], dev, _countof(dev), TRUE);
if (IsGenericSystemName(NULL, dev, &bRemove) && bRemove)
{
*dev = 0;
}
}
if (wcslen(ven) == 0 && wcslen(dev) == 0)
{
// board strings are empty, use BIOS vendor string
GetSMBiosStringW(DmiStrings[BIOS_VENDOR], ven, _countof(ven), TRUE);
}
}
else
{
if (wcslen(ven) < 2)
{
GetSMBiosStringW(DmiStrings[BOARD_VENDOR], ven, _countof(ven), TRUE);
if (IsGenericSystemName(ven, NULL, &bRemove) && bRemove)
{
*ven = 0;
}
}
}
// workaround for LORD ELECTRONICS
if (((j = wcsstr(ven, L" ")) != NULL) && (j - ven > 2))
{
i = j - ven;
if (!wcsncmp(ven + wcslen(ven) - i, ven, i))
{
ven[wcslen(ven) - i] = L'\0';
}
}
// make vendor strings shorter
for (i = 0; i < _countof(LongNames); i++)
{
if (wcsstr(dev, LongNames[i].pwLongName) == dev)
{
// swap ven and dev
StringCchCopyW(pBuf, cchBuf, ven);
StringCchCopyW(ven, _countof(ven), dev);
StringCchCopyW(dev, _countof(dev), pBuf);
}
wcsrep(ven, LongNames[i].pwLongName, LongNames[i].pwShortName, TRUE);
}
// remove redundant words
for (i = 0; i < _countof(RedundantWords); i++)
{
wcsrep(ven, RedundantWords[i].pwStr, L"", RedundantWords[i].bReplaceFirstWord);
}
for (i = 0; i < _countof(RedundantWords); i++)
{
StringCchCopyW(pBuf, cchBuf, RedundantWords[i].pwStr);
StringCchCatW(pBuf, cchBuf, L".");
wcsrep(ven, pBuf, L"", RedundantWords[i].bReplaceFirstWord);
}
// workaround for LENOVO notebooks
if (!_wcsicmp(ven, L"LENOVO"))
{
StringCchCopyW(ven, _countof(ven), L"Lenovo");
if (DmiStrings[SYS_VERSION] != NULL)
{
if (!strncmp(DmiStrings[SYS_VERSION], "ThinkPad ", 11))
{
DmiStrings[SYS_VERSION][8] = L'\0';
}
if (wcslen(dev) > 0 &&
(!strcmp(DmiStrings[SYS_VERSION], "IdeaCentre") ||
!strcmp(DmiStrings[SYS_VERSION], "ThinkPad")))
{
DmiStrings[SYS_FAMILY] = DmiStrings[SYS_VERSION];
DmiStrings[SYS_VERSION] = NULL;
}
else
{
StringCchCopyA(tmpstr, _countof(tmpstr), DmiStrings[SYS_VERSION]);
_strupr(tmpstr);
}
}
if (DmiStrings[SYS_VERSION] != NULL &&
strcmp(tmpstr, " ") &&
strcmp(tmpstr, "LENOVO") &&
strstr(tmpstr, "LENOVO ") == NULL &&
strstr(tmpstr, "LENOVO PRODUCT") == NULL &&
strstr(tmpstr, "LENOVOPRODUCT") == NULL &&
strstr(tmpstr, "INVALID") == NULL &&
strncmp(tmpstr, " ", 3) &&
(strlen(tmpstr) >= 3 || !IsDigitStrA(tmpstr)) &&
strstr(DmiStrings[SYS_VERSION], "Rev ") == NULL &&
strstr(DmiStrings[SYS_VERSION], "1.") == NULL &&
wcsistr(dev, L"System ") == NULL && // includes System x and ThinkSystem
wcsistr(dev, L"IdeaPad ") == NULL &&
wcsistr(dev, L"ThinkServer ") == NULL)
{
GetSMBiosStringW(DmiStrings[SYS_VERSION], dev, _countof(dev), TRUE);
}
if (wcsstr(dev, L"Lenovo-") == dev)
{
// replace "-" with space
dev[6] = L' ';
}
if (!wcscmp(dev, L"Lenovo"))
{
GetSMBiosStringW(DmiStrings[BOARD_NAME], dev, _countof(dev), TRUE);
}
}
if (!wcscmp(ven, L"IBM") &&
DmiStrings[SYS_VERSION] != NULL &&
(strstr(DmiStrings[SYS_VERSION], "ThinkPad ") != NULL ||
strstr(DmiStrings[SYS_VERSION], "ThinkCentre ") != NULL))
{
GetSMBiosStringW(DmiStrings[SYS_VERSION], dev, _countof(dev), TRUE);
}
// workaround for DEXP
if (!wcscmp(ven, L"DEXP"))
{
if (DmiStrings[SYS_PRODUCT] != NULL &&
DmiStrings[SYS_VERSION] != NULL &&
(!_stricmp(DmiStrings[SYS_PRODUCT], "Tablet PC") ||
!_stricmp(DmiStrings[SYS_PRODUCT], "Notebook") ||
!_stricmp(DmiStrings[SYS_PRODUCT], "Decktop")))
{
GetSMBiosStringW(DmiStrings[SYS_VERSION], dev, _countof(dev), TRUE);
}
}
// workaround for Razer Blade
if (!wcscmp(ven, L"Razer") && !wcscmp(dev, L"Blade"))
{
if (DmiStrings[SYS_VERSION] != NULL)
{
StringCchCopyW(ven, _countof(ven), L"Razer Blade");
GetSMBiosStringW(DmiStrings[SYS_VERSION], dev, _countof(dev), TRUE);
}
}
// workaround for MSI motherboards
if (!wcscmp(ven, L"MSI") &&
wcsstr(dev, L"MS-") != NULL &&
DmiStrings[BOARD_NAME] != NULL &&
strstr(DmiStrings[BOARD_NAME], "(MS-") != NULL)
{
GetSMBiosStringW(DmiStrings[BOARD_NAME], dev, _countof(dev), TRUE);
}
if (wcslen(ven) == 0 &&
wcsstr(dev, L"MS-") == dev)
{
StringCchCopyW(ven, _countof(ven), L"MSI");
}
// trim redundant characters
TrimPunctuation(ven);
TrimPunctuation(dev);
if (wcsistr(dev, ven) == dev ||
(!wcscmp(ven, L"ASUS") && wcsstr(dev, L"ASUS") != NULL) ||
(!wcscmp(ven, L"HP") && wcsstr(dev, L" by HP") != NULL) ||
(!wcscmp(ven, L"INTEL") && wcsstr(dev, L" INTEL") != NULL))
{
// device string contains vendor string, use second only
StringCchCopyW(pBuf, cchBuf, dev);
}
else
{
if (wcslen(ven) > 0 && wcslen(dev) > 0 && (j = wcschr(dev, L' ')))
{
// check if vendor string ends with first word of device string
i = j - dev;
if (wcslen(ven) > i && !_wcsnicmp(ven + wcslen(ven) - i, dev, i))
{
ven[wcslen(ven) - i] = L'\0';
TrimPunctuation(ven);
}
}
StringCchCopyW(pBuf, cchBuf, ven);
AppendSystemFamily(pBuf, cchBuf, DmiStrings, dev);
if (wcslen(pBuf) > 0 && wcslen(dev) > 0)
{
StringCchCatW(pBuf, cchBuf, L" ");
}
StringCchCatW(pBuf, cchBuf, dev);
}
FreeSMBiosData(SMBiosBuf);
return (wcslen(pBuf) > 0);
}