The problem is that Windows security (aka "UAC") is getting in your way. There's special handling of administrator roles and your user will not actually have these roles until he is elevated. Admin roles are "ghosted" in a sense: present but unavailable for permission checks or even to (easily) test for presence. See the note at:
http://msdn.microsoft.com/en-us/library/46ks97y7.aspx
Here's a series that talks about the issue, with example code that does the necessary workarounds:
I solved a similar problem in an ASP.NET app by building my own UAC prompt and using the name & password to call the Win32 Logon API. You might be lucky enough to be in a .NET desktop app, in which case you can use regular elevation requests.
Here's some C# code to check admin permissions without elevating.
public const UInt32 TOKEN_DUPLICATE = 0x0002;
public const UInt32 TOKEN_IMPERSONATE = 0x0004;
public const UInt32 TOKEN_QUERY = 0x0008;
public enum TOKEN_ELEVATION_TYPE
{
TokenElevationTypeDefault = 1,
TokenElevationTypeFull,
TokenElevationTypeLimited
}
public enum TOKEN_INFORMATION_CLASS
{
TokenUser = 1,
TokenGroups,
TokenPrivileges,
TokenOwner,
TokenPrimaryGroup,
TokenDefaultDacl,
TokenSource,
TokenType,
TokenImpersonationLevel,
TokenStatistics,
TokenRestrictedSids,
TokenSessionId,
TokenGroupsAndPrivileges,
TokenSessionReference,
TokenSandBoxInert,
TokenAuditPolicy,
TokenOrigin,
TokenElevationType,
TokenLinkedToken,
TokenElevation,
TokenHasRestrictions,
TokenAccessInformation,
TokenVirtualizationAllowed,
TokenVirtualizationEnabled,
TokenIntegrityLevel,
TokenUIAccess,
TokenMandatoryPolicy,
TokenLogonSid,
MaxTokenInfoClass // MaxTokenInfoClass should always be the last enum
}
public enum SECURITY_IMPERSONATION_LEVEL
{
SecurityAnonymous,
SecurityIdentification,
SecurityImpersonation,
SecurityDelegation
}
public static bool IsAdmin()
{
var identity = WindowsIdentity.GetCurrent();
return (null != identity && new WindowsPrincipal(identity).IsInRole(WindowsBuiltInRole.Administrator));
}
/// <summary>
/// The function checks whether the primary access token of the process belongs
/// to user account that is a member of the local Administrators group, even if
/// it currently is not elevated.
/// </summary>
/// <returns>
/// Returns true if the primary access token of the process belongs to user
/// account that is a member of the local Administrators group. Returns false
/// if the token does not.
/// </returns>
public static bool CanBeAdmin()
{
bool fInAdminGroup = false;
IntPtr hToken = IntPtr.Zero;
IntPtr hTokenToCheck = IntPtr.Zero;
IntPtr pElevationType = IntPtr.Zero;
IntPtr pLinkedToken = IntPtr.Zero;
int cbSize = 0;
if (IsAdmin())
return true;
try
{
// Check the token for this user
hToken = WindowsIdentity.GetCurrent().Token;
// Determine whether system is running Windows Vista or later operating
// systems (major version >= 6) because they support linked tokens, but
// previous versions (major version < 6) do not.
if (Environment.OSVersion.Version.Major >= 6)
{
// Running Windows Vista or later (major version >= 6).
// Determine token type: limited, elevated, or default.
// Allocate a buffer for the elevation type information.
cbSize = sizeof(TOKEN_ELEVATION_TYPE);
pElevationType = Marshal.AllocHGlobal(cbSize);
if (pElevationType == IntPtr.Zero)
{
throw new Win32Exception(Marshal.GetLastWin32Error());
}
// Retrieve token elevation type information.
if (!GetTokenInformation(hToken,
TOKEN_INFORMATION_CLASS.TokenElevationType, pElevationType, cbSize, out cbSize))
{
throw new Win32Exception(Marshal.GetLastWin32Error());
}
// Marshal the TOKEN_ELEVATION_TYPE enum from native to .NET.
TOKEN_ELEVATION_TYPE elevType = (TOKEN_ELEVATION_TYPE)Marshal.ReadInt32(pElevationType);
// If limited, get the linked elevated token for further check.
if (elevType == TOKEN_ELEVATION_TYPE.TokenElevationTypeLimited)
{
// Allocate a buffer for the linked token.
cbSize = IntPtr.Size;
pLinkedToken = Marshal.AllocHGlobal(cbSize);
if (pLinkedToken == IntPtr.Zero)
{
throw new Win32Exception(Marshal.GetLastWin32Error());
}
// Get the linked token.
if (!GetTokenInformation(hToken,
TOKEN_INFORMATION_CLASS.TokenLinkedToken, pLinkedToken,
cbSize, out cbSize))
{
throw new Win32Exception(Marshal.GetLastWin32Error());
}
// Marshal the linked token value from native to .NET.
hTokenToCheck = Marshal.ReadIntPtr(pLinkedToken);
}
}
// CheckTokenMembership requires an impersonation token. If we just got
// a linked token, it already is an impersonation token. If we did not
// get a linked token, duplicate the original into an impersonation
// token for CheckTokenMembership.
if (hTokenToCheck == IntPtr.Zero)
{
if (!DuplicateToken(hToken, (int)SECURITY_IMPERSONATION_LEVEL.SecurityIdentification, ref hTokenToCheck))
{
throw new Win32Exception(Marshal.GetLastWin32Error());
}
}
// Check if the token to be checked contains admin SID.
WindowsIdentity id = new WindowsIdentity(hTokenToCheck);
WindowsPrincipal principal = new WindowsPrincipal(id);
fInAdminGroup = principal.IsInRole(WindowsBuiltInRole.Administrator);
}
catch
{
return false;
}
finally
{
// Centralized cleanup for all allocated resources.
if (pElevationType != IntPtr.Zero)
{
Marshal.FreeHGlobal(pElevationType);
pElevationType = IntPtr.Zero;
}
if (pLinkedToken != IntPtr.Zero)
{
Marshal.FreeHGlobal(pLinkedToken);
pLinkedToken = IntPtr.Zero;
}
}
return fInAdminGroup;
}
It's adapted from an article I found online somewhere, sorry, lost the attribution.