Beispiele für die HWREQCHK-API
Hinweis
Einige Informationen beziehen sich auf ein Vorabrelease-Produkt, das vor der kommerziellen Freigabe wesentlich geändert werden kann. Microsoft übernimmt hinsichtlich der hier bereitgestellten Informationen keine Gewährleistungen, seien sie ausdrücklich oder konkludent.
Wichtig
Das in diesem Thema beschriebene Feature ist in Vorabversionen der Windows Insider Preview verfügbar. Die früheste Version, in der diese Features angezeigt werden, ist Windows Insider Preview, Version 10.0.25289.
In diesen Beispielen für die HWREQCHK-API wird veranschaulicht, wie sie genutzt werden kann, um Informationen über ein Hardwaregerät und dessen festgelegte Windows-Upgradeberechtigung für bestimmte Versionen von Windows 11 oder höher abzurufen.
Beispiel für die GetHardwareRequirementSystemInfo-API
Im folgenden Beispiel wird veranschaulicht, wie Sie die Gerätesysteminformationen abrufen, indem Sie GetHardwareRequirementSystemInfo aufrufen. Dabei handelt es sich um die gleichen Informationen, die von der Evaluierungs-Engine für Windows-Hardwareanforderungen verwendet werden. Der Kontext besteht darin, dass es von einem Tool "Kann ich upgraden?" verwendet werden kann, um die Gerätesysteminformationen zu melden, die in die true - oder false -Antwort der EvaluateHardwareRequirement-Funktion eingeschlossen wurden.
#include <windows.h>
#include <objbase.h>
#include <wil/resource.h>
#include <hwreqchkapi.h>
#define PRINT_TRUE_FALSE(cond) (cond ? L"TRUE" : L"FALSE")
HRESULT
GetHardwareRequirementSystemInfoExample()
/*++
Routine Description:
Get the Hardware Requirements System Info that is used to evaluate against the requirements
Example:
Demonstrates GetHardwareRequirementSystemInfo API
Arguments:
N/A
Return Value:
HRESULT - S_OK or a FAILED HRESULT if unsuccessful getting the defined list of hardware requirements
--*/
{
HWREQCHK_DEVICE_HARDWARE_SYSINFO sysinfo{};
HRESULT result = GetHardwareRequirementSystemInfo(&sysinfo);
if (SUCCEEDED(result))
{
wprintf(L" SSE2 Processor Support: %ls\n", PRINT_TRUE_FALSE(sysinfo.SSE2ProcessorSupport));
wprintf(L" NX Processor Support: %ls\n", PRINT_TRUE_FALSE(sysinfo.NXProcessorSupport));
wprintf(L" PrefetchW Support: %ls\n", PRINT_TRUE_FALSE(sysinfo.PrefetchWSupport));
wprintf(L" CompareExchange128 Support: %ls\n",
PRINT_TRUE_FALSE(sysinfo.CompareExchange128Support));
wprintf(L" LahfSahf Support: %ls\n", PRINT_TRUE_FALSE(sysinfo.LahfSahfSupport));
wprintf(L" CPU Core Count: %lu\n", sysinfo.CpuCoreCount);
wprintf(L" SecureBoot Capable: %ls\n", PRINT_TRUE_FALSE(sysinfo.SecureBootCapable));
wprintf(L" TPM Version: %lu\n", sysinfo.TpmVersion );
wprintf(L" CPU Mhz: %lu\n", sysinfo.CpuMhz);
wprintf(L" RamMB: %lu\n", sysinfo.RamMB);
wprintf(L" SystemDiskSizeMB: %lu\n", sysinfo.SystemDiskSizeMB);
wprintf(L" Architecture: %lu\n", sysinfo.Architecture);
wprintf(L" CPU Vendor: %lu\n", sysinfo.CpuVendor );
wprintf(L" CPU Family: %lu\n", sysinfo.CpuFamily);
wprintf(L" CPU Model: %lu\n", sysinfo.CpuModel);
wprintf(L" CPU Stepping: %lu\n", sysinfo.CpuStepping);
wprintf(L" ArmV81 Processor Support: %ls\n", PRINT_TRUE_FALSE(sysinfo.ArmV81ProcessorSupport));
wprintf(L" Platform: %lu\n", sysinfo.Platform );
wprintf(L" IsServer: %ls\n", PRINT_TRUE_FALSE(sysinfo.IsServer ));
wprintf(L" Lockdown Mode: %lu\n", sysinfo.LockdownMode);
wprintf(L" Product OS: %lu\n", sysinfo.ProductOS );
wprintf(L" Product Name: %ls\n", sysinfo.ProductName);
wprintf(L" Processor Name: %ls\n", sysinfo.ProcessorName);
}
else
{
wprintf(L"Failed calling GetHardwareRequirementSystemInfo. Error:0x%.8x\n", result);
}
return result;
}
Beispiel für die EvaluateHardwareRequirement-API
In diesem Beispiel wird die Verwendung von EvaluateHardwareRequirement veranschaulicht. Dies ist die Funktion, die Gerätehardwaresystemeigenschaften abfragt, um sie anhand der definierten Hardwareanforderungen auszuwerten. Die Beispielmethode EvaluateHardwareRequirementExample akzeptiert eine HWREQCHK_DEVICE_HARDWARE_REQUIREMENT-Struktur , die die Informationen darüber enthält, anhand welcher Hardwareanforderung ausgewertet werden soll. In den anderen Beispielen werden verschiedene Möglichkeiten veranschaulicht, wie Entwickler den Inhalt der -Struktur ausfüllen können, um zu bestimmen, welche Anforderung sie bewerten möchten.
#include <windows.h>
#include <objbase.h>
#include <wil/resource.h>
#include <hwreqchkapi.h>
HRESULT
EvaluateHardwareRequirementExample(
_In_ const HWREQCHK_DEVICE_HARDWARE_REQUIREMENT& deviceHardwareRequirement)
/*++
Routine Description:
Evaluate the specific hardware requirement using the information supplied in the HWREQCHK_DEVICE_HARDWARE_REQUIREMENT structure
Example:
Demonstrates EvaluateHardwareRequirement API
Arguments:
deviceHardwareRequirement - Specifies the specific device hardware requirement structure that is used to invoke the EvaluateHardwareRequirement API
Return Value:
HRESULT - S_OK or a Failed HRESULT if unsuccessful invoking the EvaluateHardwareRequirement API
--*/
{
//
// Automatically free HWREQCHK_DEVICE_HARDWARE_EVALUATION (via CoTaskMemFree)
// objects when it goes out of scope. See WIL (https://github.com/Microsoft/wil/wiki).
//
wil::unique_cotaskmem_array_ptr<HWREQCHK_DEVICE_HARDWARE_EVALUATION>
deviceHardwareRequirementEvaluations;
BOOL evaluationResult = FALSE;
static const std::map<const std::wstring, const std::wstring> constraintRuleMapping =
{
{ L"SSE2ProcessorSupport", L"Processor must support the SSE2 instruction set"} ,
{ L"NXProcessorSupport", L"Processor must support data execution prevention" },
{ L"CompareExchange128", L"Processor must support the CMPXCHG16B instruction also referred to as CompareExchange128" },
{ L"LahfSahfSupport", L"Processor must support the LAHF and SAHF instructions" },
{ L"PrefetchWSupport", L"Processor must support the PrefetchW instructions" },
{ L"CpuCores", L"The minimum number of CPU cores that must exist on the device" },
{ L"CpuFms", L"TPM must be version 2.0 exactly(no higher, no lower)" },
{ L"Tpm", L"TPM must be version 2.0 exactly" },
{ L"UefiSecureBoot", L"Secure boot must be supported on the device"},
{ L"Memory", L"The minimum amount of memory in MB that must exist on the device" },
{ L"IotMemory", L"The minimum amount of memory in MB that must exist on the device" },
{ L"ServerMemory", L"The minimum amount of memory in MB that must exist on the device" },
{ L"SystemDriveSize", L"The minimum amout of total system disk size" },
{ L"IotSystemDriveSize", L"The minimum amout of total system disk size" },
{ L"CpuFms", L"The CPU must be a supported Family, Model and Stepping (FMS) processor signature" },
{ L"BlockedByHomeSkuSModeStateSV", L"SMode must be disabled unless the OS SKU is a 'Home'SKU" }
};
HRESULT result = EvaluateHardwareRequirement(
&deviceHardwareRequirement,
&evaluationResult,
&deviceHardwareRequirementEvaluations,
deviceHardwareRequirementEvaluations.size_address<ULONG>());
if (FAILED(result))
{
wprintf(L"The requirement failed the EvaluateHardwareRequirement API. Error:0x%.8x\n", result);
}
else
{
//
// On Success, the 'evaluationResult' variable will either be TRUE (evaluation succeeded)
// or it will be FALSE (evaluation failed).
//
if (evaluationResult != FALSE)
{
wprintf(L"The hardware requirement evaluation succeeded. The device does meet the hardware requirements\n");
}
else
{
wprintf(L"The hardware requirement evaluation did not pass. The device does not meet the hardware requirements.\n");
}
// Loop through each constraint evaluation performed
for (const auto& deviceHardwareRequirementEvaluation : deviceHardwareRequirementEvaluations)
{
auto findConstraint = constraintRuleMapping.find(deviceHardwareRequirementEvaluation.RuleName);
std::wstring constraintDescription = L"Constraint Not Found";
if (findConstraint != constraintRuleMapping.end())
{
constraintDescription = findConstraint->second;
}
// Display the Rules that were evaluated as part of the requirements.
// NOTE: RuleName is a non-localized value coming from the internally defined JSON contents.
wprintf(L"\tConstraint Name: %-64ls Succeeded: %-8ls\n\t\tDescription: %ls\n",
deviceHardwareRequirementEvaluation.RuleName,
deviceHardwareRequirementEvaluation.Succeeded ? L"TRUE" : L"FALSE",
constraintDescription.c_str());
}
if (evaluationResult == FALSE)
{
// The device failed to meet the hardware requirements, dump the system
// info by calling the other example GetHardwareRequirementSystemInfoExample,
// which calls the API GetHardwareRequirementSystemInfo and dumps the contents.
GetHardwareRequirementSystemInfoExample();
}
}
return result;
}
Beispiel für die GetLatestHardwareRequirement-API
Im folgenden Beispiel wird die Verwendung von GetLatestHardwareRequirement veranschaulicht. Es ist die Funktion, die die neueste Hardwareanforderung für einen bestimmten HWREQCHK_PRODUCT_TYPE-Enumerationswert abfragt und zurückgibt. Wenn der Aufruf erfolgreich ist, wird der Inhalt der HWREQCHK_DEVICE_HARDWARE_REQUIREMENT-Struktur an das obige EvaluateHardwareRequirement-Beispiel übergeben.
#include <windows.h>
#include <objbase.h>
#include <wil/resource.h>
#include <hwreqchkapi.h>
HRESULT
GetLatestHardwareRequirementExample(
_In_ HWREQCHK_PRODUCT_TYPE productType)
/*++
Routine Description:
Get the latest hardware requirement defined and then use
the information supplied in the HWREQCHK_DEVICE_HARDWARE_REQUIREMENT
to evaluate hardware requirements against it.
Example:
Demonstrates the use of the GetLatestHardwareRequirement API. If successful, the
EvaluateHardwareRequirementExample method is invoked to ‘evaluate’
the latest hardware requirement.
Arguments:
productType - A valid HWREQCHK_PRODUCT_TYPE enumeration value to get the latest hardware requirement
Return Value:
HRESULT - S_OK or a FAILED HRESULT if unsuccessful getting the defined list of hardware requirements
--*/
{
HWREQCHK_DEVICE_HARDWARE_REQUIREMENT deviceHardwareRequirement {};
// Get the currently defined latest hardware requirement for the product type value
// specified in the productEnum variable.
HRESULT result = GetLatestHardwareRequirement(productType, &deviceHardwareRequirement);
if (FAILED(result))
{
wprintf(L"The call to GetLatestHardwareRequirement failed. Error:0x%.8x\n", result);
}
else
{
//
// Use the default hardware requirement returned from the GetLatestHardwareRequirement API
// to verify the hardware device requirements for the latest defined OS
// by calling the EvaluateHardwareRequirementExample method.
//
result = EvaluateHardwareRequirementExample(deviceHardwareRequirement);
}
return result;
}
Beispiel für die GetHardwareRequirements-API
In diesem Beispiel wird die Verwendung von GetHardwareRequirements veranschaulicht, um die gesamte Liste der Hardwareanforderungen abzurufen, die definiert sind und anhand derer ausgewertet werden können. Im Beispiel werden alle verfügbaren Anforderungen aufgelistet, bis eine bestimmte Anforderung gefunden wird, die mit den Argumenten übereinstimmt, die für die Beispielmethode bereitgestellt werden.
#include <windows.h>
#include <objbase.h>
#include <wil/resource.h>
#include <hwreqchkapi.h>
HRESULT
GetHardwareRequirementsExample(
_In_ HWREQCHK_TARGET_RELEASE targetRelease,
_In_ HWREQCHK_PRODUCT_TYPE productType)
/*++
Routine Description:
Gets all of the defined hardware requirements and evaluates one or more of the requirements
Example:
Demonstrates the use of the GetHardwareRequirements API. If successful and a
match is found for the supplied requirement & product enum arguments, then the
EvaluateHardwareRequirementExample method is invoked to ‘evaluate’
the hardware requirement.
Arguments:
targetRelease - A valid HWREQCHK_TARGET_RELEASE enumeration value
used to filter the list of returned requirement(s)
productType – A valid HWREQCHK_PRODUCT_TYPE enumeration value
used to filter the list of returned requirement(s)
Return Value:
HRESULT - S_OK or a FAILED HRESULT if unsuccessful getting the
defined list of hardware requirements
--*/
{
const HRESULT errNotFound = HRESULT_FROM_WIN32(ERROR_NOT_FOUND);
//
// Automatically free HWREQCHK_DEVICE_HARDWARE_REQUIREMENT (via CoTaskMemFree)
// objects when it goes out of scope. See WIL (https://github.com/Microsoft/wil/wiki).
//
wil::unique_cotaskmem_array_ptr<HWREQCHK_DEVICE_HARDWARE_REQUIREMENT> deviceHardwareRequirements;
// Get the currently defined hardware requirements
HRESULT result = GetHardwareRequirements(
&deviceHardwareRequirements,
deviceHardwareRequirements.size_address<ULONG>());
if (FAILED(result))
{
wprintf(L"The call to GetHardwareRequirements failed. Error:0x%.8x\n", result);
}
else
{
for (const auto& deviceHardwareRequirement : deviceHardwareRequirements)
{
result = errNotFound;
// Look for a requirement matching the TargetRelease and ProductType enumeration values
if (deviceHardwareRequirement.TargetRelease == targetRelease &&
deviceHardwareRequirement.ProductType == productType)
{
// We found a match. Now evaluate the requirement by
// calling the EvaluateHardwareRequirementExample method
result = EvaluateHardwareRequirementExample(deviceHardwareRequirement);
if (FAILED(result))
{
wprintf(L"Error invoking the example method EvaluateHardwareRequirementExample\n");
}
break ;
}
}
}
if (result == errNotFound )
{
wprintf(L"Unable to locate a matching target-release '%d' and product-type '%d'\n",
targetRelease, producttype);
}
return result;
}