My app runs as requestedExecutionLevel set to highestAvailable.
How do I run a process unelevated?
I tried the following but it didn't work:
Process.Start(new ProcessStartInfo {FileName = "foo.exe", Verb = "open"})
I have tried the following trust levels to start my process using Win32 API but none of them work correctly:
0
1260: This program is blocked by group policy. For more information, contact your system administrator.
0x1000
The application was unable to start correctly (0xc0000142). Click OK to close the application.
0x10000
Process starts then hangs
0x20000
All options are not available
0x40000
Runs as admin
If I run tskill foo from my elevated app, it restarts foo with correct privileges.
What I need is a solution in which I don't have to specify the trust level. The process should start with the correct trust level automatically just like the tskill tool restarts foo.exe in the correct trust level. The user selects and runs foo.exe and so it can be anything.
If I can get the trust level of a process somehow, I can do this easily since foo.exe runs when my app can capture its trust level.
The Win32 Security Management functions provide the capability to create a restricted token with normal user rights; with the token, you can call CreateProcessAsUser to run the process with that token. Below is a proof of concept that runs cmd.exe as a normal user, regardless of whether the process is run in an elevated context.
// Initialize variables.
IntPtr hSaferLevel, hToken;
STARTUPINFO si = default(STARTUPINFO);
SECURITY_ATTRIBUTES processAttributes = default(SECURITY_ATTRIBUTES);
SECURITY_ATTRIBUTES threadAttributes = default(SECURITY_ATTRIBUTES);
PROCESS_INFORMATION pi;
si.cb = Marshal.SizeOf(si);
// The process to start (for demonstration, cmd.exe)
string ProcessName = Path.Combine(
Environment.GetFolderPath(Environment.SpecialFolder.System),
"cmd.exe");
// Create the restricted token info
if (!SaferCreateLevel(
SaferScopes.User,
SaferLevels.NormalUser, // Program will execute as a normal user
1, // required
out hSaferLevel,
IntPtr.Zero))
throw new Win32Exception(Marshal.GetLastWin32Error());
// From the level create a token
if (!SaferComputeTokenFromLevel(
hSaferLevel,
IntPtr.Zero,
out hToken,
SaferComputeTokenFlags.None,
IntPtr.Zero))
throw new Win32Exception(Marshal.GetLastWin32Error());
// Run the process with the restricted token
if (!CreateProcessAsUser(
hToken,
ProcessName,
null, ref processAttributes, ref threadAttributes,
true, 0, IntPtr.Zero, null,
ref si, out pi))
throw new Win32Exception(Marshal.GetLastWin32Error());
// Cleanup
if (!CloseHandle(pi.hProcess))
throw new Win32Exception(Marshal.GetLastWin32Error());
if (!CloseHandle(pi.hThread))
throw new Win32Exception(Marshal.GetLastWin32Error());
if (!SaferCloseLevel(hSaferLevel))
throw new Win32Exception(Marshal.GetLastWin32Error());
This approach makes use the following Win32 functions:
SaferIdentifyLevelto indicate the identity level (limited, normal, or elevated). Setting thelevelIdtoSAFER_LEVELID_NORMALUSER(0x20000) provides the normal user level.SaferComputeTokenFromLevelcreates a token for the provided level. PassingNULLto the InAccessToken parameter uses the identity of the current thread.CreateProcessAsUsercreates the process with the provided token. Since the session is already interactive, most of the parameters can be kept at default values. (The third parameter,lpCommandLinecan be provided as a string to specify the command line.)CloseHandle(Kernel32) andSaferCloseLevelto free allocated memory.
Finally, the P/Invoke code is below (copied mostly from pinvoke.net):
[Flags]
public enum SaferLevels : uint
{
Disallowed = 0,
Untrusted = 0x1000,
Constrained = 0x10000,
NormalUser = 0x20000,
FullyTrusted = 0x40000
}
[Flags]
public enum SaferComputeTokenFlags : uint
{
None = 0x0,
NullIfEqual = 0x1,
CompareOnly = 0x2,
MakeIntert = 0x4,
WantFlags = 0x8
}
[Flags]
public enum SaferScopes : uint
{
Machine = 1,
User = 2
}
[StructLayout(LayoutKind.Sequential)]
public struct SECURITY_ATTRIBUTES
{
public int nLength;
public IntPtr lpSecurityDescriptor;
public int bInheritHandle;
}
[StructLayout(LayoutKind.Sequential, CharSet = CharSet.Unicode)]
struct STARTUPINFO
{
public Int32 cb;
public string lpReserved;
public string lpDesktop;
public string lpTitle;
public Int32 dwX;
public Int32 dwY;
public Int32 dwXSize;
public Int32 dwYSize;
public Int32 dwXCountChars;
public Int32 dwYCountChars;
public Int32 dwFillAttribute;
public Int32 dwFlags;
public Int16 wShowWindow;
public Int16 cbReserved2;
public IntPtr lpReserved2;
public IntPtr hStdInput;
public IntPtr hStdOutput;
public IntPtr hStdError;
}
[StructLayout(LayoutKind.Sequential)]
internal struct PROCESS_INFORMATION
{
public IntPtr hProcess;
public IntPtr hThread;
public int dwProcessId;
public int dwThreadId;
}
[DllImport("advapi32", SetLastError = true, CallingConvention = CallingConvention.StdCall)]
public static extern bool SaferComputeTokenFromLevel(IntPtr LevelHandle, IntPtr InAccessToken, out IntPtr OutAccessToken, int dwFlags, IntPtr lpReserved);
[DllImport("advapi32.dll", SetLastError = true, CharSet = CharSet.Auto)]
static extern bool CreateProcessAsUser(
IntPtr hToken,
string lpApplicationName,
string lpCommandLine,
ref SECURITY_ATTRIBUTES lpProcessAttributes,
ref SECURITY_ATTRIBUTES lpThreadAttributes,
bool bInheritHandles,
uint dwCreationFlags,
IntPtr lpEnvironment,
string lpCurrentDirectory,
ref STARTUPINFO lpStartupInfo,
out PROCESS_INFORMATION lpProcessInformation);
[DllImport("advapi32", SetLastError = true, CallingConvention = CallingConvention.StdCall)]
public static extern bool SaferCreateLevel(
SaferScopes dwScopeId,
SaferLevels dwLevelId,
int OpenFlags,
out IntPtr pLevelHandle,
IntPtr lpReserved);
[DllImport("advapi32", SetLastError = true, CallingConvention = CallingConvention.StdCall)]
public static extern bool SaferCloseLevel(
IntPtr pLevelHandle);
[DllImport("advapi32", SetLastError = true, CallingConvention = CallingConvention.StdCall)]
public static extern bool SaferComputeTokenFromLevel(
IntPtr levelHandle,
IntPtr inAccessToken,
out IntPtr outAccessToken,
SaferComputeTokenFlags dwFlags,
IntPtr lpReserved
);
[DllImport("kernel32.dll", SetLastError = true)]
[return: MarshalAs(UnmanagedType.Bool)]
static extern bool CloseHandle(IntPtr hObject);
I had best results by cloning Explorer's token as follows:
var shellWnd = WinAPI.GetShellWindow();
if (shellWnd == IntPtr.Zero)
throw new Exception("Could not find shell window");
uint shellProcessId;
WinAPI.GetWindowThreadProcessId(shellWnd, out shellProcessId);
var hShellProcess = WinAPI.OpenProcess(0x00000400 /* QueryInformation */, false, shellProcessId);
var hShellToken = IntPtr.Zero;
if (!WinAPI.OpenProcessToken(hShellProcess, 2 /* TOKEN_DUPLICATE */, out hShellToken))
throw new Win32Exception();
uint tokenAccess = 8 /*TOKEN_QUERY*/ | 1 /*TOKEN_ASSIGN_PRIMARY*/ | 2 /*TOKEN_DUPLICATE*/ | 0x80 /*TOKEN_ADJUST_DEFAULT*/ | 0x100 /*TOKEN_ADJUST_SESSIONID*/;
var hToken = IntPtr.Zero;
WinAPI.DuplicateTokenEx(hShellToken, tokenAccess, IntPtr.Zero, 2 /* SecurityImpersonation */, 1 /* TokenPrimary */, out hToken);
var pi = new WinAPI.PROCESS_INFORMATION();
var si = new WinAPI.STARTUPINFO();
si.cb = Marshal.SizeOf(si);
if (!WinAPI.CreateProcessWithTokenW(hToken, 0, null, cmdArgs, 0, IntPtr.Zero, null, ref si, out pi))
throw new Win32Exception();
Alternative approach
Originally I went with drf's excellent answer, but expanded it somewhat. If the above (clone Explorer's token) is not to your liking, keep reading but see a gotcha at the very end.
When using drf's method as described, the process is started without administrative access, but it still has a high integrity level. A typical un-elevated process has a medium integrity level.
Try this: use Process Hacker to see the properties of the process started this way; you will see that PH considers the process to be elevated even though it doesn't have administrative access. Add an Integrity column and you'll see it's "High".
The fix is reasonably simple: after using SaferComputeTokenFromLevel, we need to change the token integrity level to Medium. The code to do this might look something like this (converted from MSDN sample):
// Get the Medium Integrity SID
if (!WinAPI.ConvertStringSidToSid("S-1-16-8192", out pMediumIntegritySid))
throw new Win32Exception();
// Construct a structure describing the token integrity level
var TIL = new TOKEN_MANDATORY_LABEL();
TIL.Label.Attributes = 0x00000020 /* SE_GROUP_INTEGRITY */;
TIL.Label.Sid = pMediumIntegritySid;
pTIL = Marshal.AllocHGlobal(Marshal.SizeOf<TOKEN_MANDATORY_LABEL>());
Marshal.StructureToPtr(TIL, pTIL, false);
// Modify the token
if (!WinAPI.SetTokenInformation(hToken, 25 /* TokenIntegrityLevel */, pTIL,
(uint) Marshal.SizeOf<TOKEN_MANDATORY_LABEL>()
+ WinAPI.GetLengthSid(pMediumIntegritySid)))
throw new Win32Exception();
Alas, this still doesn't really solve the problem completely. The process won't have administrative access; it won't have a high integrity, but it will still have a token that's marked as "elevated".
Whether this is a problem for you or not I don't know, but it may have been why I ended up cloning Explorer's token in the end, as described at the start of this answer.
Here is my full source code (modified drf's answer), in all its P/Invoke glory:
var hSaferLevel = IntPtr.Zero;
var hToken = IntPtr.Zero;
var pMediumIntegritySid = IntPtr.Zero;
var pTIL = IntPtr.Zero;
var pi = new WinAPI.PROCESS_INFORMATION();
try
{
var si = new WinAPI.STARTUPINFO();
si.cb = Marshal.SizeOf(si);
var processAttributes = new WinAPI.SECURITY_ATTRIBUTES();
var threadAttributes = new WinAPI.SECURITY_ATTRIBUTES();
var args = CommandRunner.ArgsToCommandLine(Args);
if (!WinAPI.SaferCreateLevel(WinAPI.SaferScopes.User, WinAPI.SaferLevels.NormalUser, 1, out hSaferLevel, IntPtr.Zero))
throw new Win32Exception();
if (!WinAPI.SaferComputeTokenFromLevel(hSaferLevel, IntPtr.Zero, out hToken, WinAPI.SaferComputeTokenFlags.None, IntPtr.Zero))
throw new Win32Exception();
if (!WinAPI.ConvertStringSidToSid("S-1-16-8192", out pMediumIntegritySid))
throw new Win32Exception();
var TIL = new TOKEN_MANDATORY_LABEL();
TIL.Label.Attributes = 0x00000020 /* SE_GROUP_INTEGRITY */;
TIL.Label.Sid = pMediumIntegritySid;
pTIL = Marshal.AllocHGlobal(Marshal.SizeOf<TOKEN_MANDATORY_LABEL>());
Marshal.StructureToPtr(TIL, pTIL, false);
if (!WinAPI.SetTokenInformation(hToken, 25 /* TokenIntegrityLevel */, pTIL, (uint) Marshal.SizeOf<TOKEN_MANDATORY_LABEL>() + WinAPI.GetLengthSid(pMediumIntegritySid)))
throw new Win32Exception();
if (!WinAPI.CreateProcessAsUser(hToken, null, commandLine, ref processAttributes, ref threadAttributes, true, 0, IntPtr.Zero, null, ref si, out pi))
throw new Win32Exception();
}
finally
{
if (hToken != IntPtr.Zero && !WinAPI.CloseHandle(hToken))
throw new Win32Exception();
if (pMediumIntegritySid != IntPtr.Zero && WinAPI.LocalFree(pMediumIntegritySid) != IntPtr.Zero)
throw new Win32Exception();
if (pTIL != IntPtr.Zero)
Marshal.FreeHGlobal(pTIL);
if (pi.hProcess != IntPtr.Zero && !WinAPI.CloseHandle(pi.hProcess))
throw new Win32Exception();
if (pi.hThread != IntPtr.Zero && !WinAPI.CloseHandle(pi.hThread))
throw new Win32Exception();
}
And here are the P/Invoke definitions you'll need in addition to those listed in drf's answer:
[DllImport("advapi32.dll", SetLastError = true)]
public static extern Boolean SetTokenInformation(IntPtr TokenHandle, int TokenInformationClass,
IntPtr TokenInformation, UInt32 TokenInformationLength);
[DllImport("kernel32.dll", SetLastError = true)]
[return: MarshalAs(UnmanagedType.Bool)]
public static extern bool CloseHandle(IntPtr hObject);
[DllImport("advapi32.dll")]
public static extern uint GetLengthSid(IntPtr pSid);
[DllImport("advapi32.dll", SetLastError = true)]
public static extern bool ConvertStringSidToSid(
string StringSid,
out IntPtr ptrSid);
[DllImport("kernel32.dll", SetLastError = true)]
public static extern IntPtr LocalFree(IntPtr hMem);
来源:https://stackoverflow.com/questions/17765568/how-to-start-a-process-unelevated