The CreateProcessAsUser function creates a new process and its primary thread. The new process then executes a specified executable file. The CreateProcessAsUser function is similar to the CreateProcess function, except that the new process runs in the security context of the user represented by the hToken parameter. By default, the new process is non-interactive, that is, it runs on a desktop that is not visible and cannot receive user input. Also, by default, the new process inherits the environment of the calling process, rather than the environment associated with the specified user.
BOOL CreateProcessAsUser(
HANDLE hToken, |
// handle to a token that represents a logged-on user |
LPCTSTR lpApplicationName, |
// pointer to name of executable module |
LPTSTR lpCommandLine, |
// pointer to command line string |
LPSECURITY_ATTRIBUTES lpProcessAttributes, |
// pointer to process security attributes |
LPSECURITY_ATTRIBUTES lpThreadAttributes, |
// pointer to thread security attributes |
BOOL bInheritHandles, |
// new process inherits handles |
DWORD dwCreationFlags, |
// creation flags |
LPVOID lpEnvironment, |
// pointer to new environment block |
LPCTSTR lpCurrentDirectory, |
// pointer to current directory name |
LPSTARTUPINFO lpStartupInfo, |
// pointer to STARTUPINFO |
LPPROCESS_INFORMATION lpProcessInformation |
// pointer to PROCESS_INFORMATION |
); |
If your process has the SE_TCB_NAME privilege, it can call the LogonUser function to get a primary token that represents a specified user.
Alternatively, you can call the DuplicateTokenEx function to convert an impersonation token into a primary token. This allows a server application that is impersonating a client to create a process that has the security context of the client.
The other parameters of the CreateProcessAsUser function behave just
like the analogous parameters of the CreateProcess
function.
If lpApplicationName is NULL, the first white space-delimited token of the command line specifies the module name. If the filename does not contain an extension, .EXE is assumed. If the filename ends in a period (.) with no extension, or the filename contains a path, .EXE is not appended. If the filename does not contain a directory path, Windows searches for the executable file in the following sequence:
If the process to be created is an MS-DOS -
based or 16-bit Windows-based application, lpCommandLine should be a
full command line in which the first element is the application name. Because
this also works well for Win32-based applications, it is the most robust way
to set lpCommandLine.
Value |
Meaning |
CREATE_DEFAULT_ERROR_MODE | |
The new process does not inherit the error mode of the calling process. Instead, CreateProcessAsUser gives the new process the current default error mode. An application sets the current default error mode by calling SetErrorMode. This flag is particularly useful for multi-threaded shell applications that run with hard errors disabled. The default behavior for CreateProcessAsUser is for the new process to inherit the error mode of the caller. Setting this flag changes that default behavior. | |
CREATE_NEW_CONSOLE | |
The new process has a new console, instead of inheriting the parent’s console. This flag cannot be used with the DETACHED_PROCESS flag. | |
CREATE_NEW_PROCESS_GROUP | |
The new process is the root process of a new process group. The process group includes all processes that are descendants of this root process. The process identifier of the new process group is the same as the process identifier, which is returned in the lpProcessInformation parameter. Process groups are used by the GenerateConsoleCtrlEvent function to enable sending a CTRL+C or CTRL+BREAK signal to a group of console processes. | |
CREATE_SEPARATE_WOW_VDM | |
This flag is only valid only starting a 16-bit Windows program. If set, the new process is run in a private Virtual DOS Machine (VDM). By default, all 16-bit Windows programs are run in a single, shared VDM. The advantage of running separately is that a crash only kills the single VDM; any other programs running in distinct VDMs continue to function normally. Also, 16-bit Windows applications that are run in separate VDMs have separate input queues. That means that if one application hangs momentarily, applications in separate VDMs continue to receive input. | |
CREATE_SUSPENDED | |
The primary thread of the new process is created in a suspended state, and does not run until the ResumeThread function is called. | |
CREATE_UNICODE_ENVIRONMENT | |
If set, the environment block pointed to by lpEnvironment uses Unicode characters. If clear, the environment block uses ANSI characters. | |
DEBUG_PROCESS | |
If set, the calling process is treated as a debugger, and the new process is a process being debugged. The system notifies the debugger of all debug events that occur in the process being debugged. | |
DEBUG_ONLY_THIS_PROCESS | |
If not set and the calling process is being debugged, the new process becomes another process being debugged by the calling process’s debugger. If the calling process is not a process being debugged, no debugging-related actions occur. | |
DETACHED_PROCESS | |
For console processes, the new process does not have access to the console of the parent process. The new process can call the AllocConsole function at a later time to create a new console. This flag cannot be used with the CREATE_NEW_CONSOLE flag. |
The dwCreationFlags parameter also controls the new process’s priority class, which is used in determining the scheduling priorities of the process’s threads. If none of the following priority class flags is specified, the priority class defaults to NORMAL_PRIORITY_CLASS unless the priority class of the creating process is IDLE_PRIORITY_CLASS. In this case the default priority class of the child process is IDLE_PRIORITY_CLASS. One of the following flags can be specified:
Priority |
Meaning |
HIGH_PRIORITY_CLASS |
Indicates a process that performs time-critical tasks that must be executed immediately for it to run correctly. The threads of a high-priority class process preempt the threads of normal-priority or idle-priority class processes. An example is Windows Task List, which must respond quickly when called by the user, regardless of the load on the operating system. Use extreme care when using the high-priority class, because a high-priority class CPU-bound application can use nearly all available cycles. |
IDLE_PRIORITY_CLASS |
Indicates a process whose threads run only when the system is idle and are preempted by the threads of any process running in a higher priority class. An example is a screen saver. The idle priority class is inherited by child processes. |
NORMAL_PRIORITY_CLASS |
Indicates a normal process with no special scheduling needs. |
REALTIME_PRIORITY_CLASS |
Indicates a process that has the highest possible priority. The threads of a real-time priority class process preempt the threads of all other processes, including operating system processes performing important tasks. For example, a real-time process that executes for more than a very brief interval can cause disk caches not to flush or cause the mouse to be unresponsive. |
An environment block consists of a null-terminated block of null-terminated strings. Each string is in the form:
name=value
Because the equal sign is used as a separator, it must not be used in the name of an environment variable.
If an application provides an environment block, rather than passing NULL for this parameter, the current directory information of the system drives is not automatically propagated to the new process. For a discussion of this situation and how to handle it, see the following Remarks section.
An environment block can contain Unicode or ANSI characters. If the environment block pointed to by lpEnvironment contains Unicode characters, the dwCreationFlags field’s CREATE_UNICODE_ENVIRONMENT flag will be set. If the block contains ANSI characters, that flag will be clear.
Note that an ANSI environment block is terminated by two zero bytes: one for
the last string, one more to terminate the block. A Unicode environment block
is terminated by four zero bytes: two for the last string, two more to
terminate the block.
If the function succeeds, the return value is nonzero.
If the function fails, the return value is zero. To get extended error information, call GetLastError.
The CreateProcessAsUser function requires the SE_ASSIGNPRIMARYTOKEN_NAME and SE_INCREASE_QUOTA_NAME privileges. If they are not already enabled, CreateProcessAsUser enables them for the duration of the call.
By default, CreateProcessAsUser creates the new process on a noninteractive window station with a desktop that is not visible and cannot receive user input. To enable user interaction with the new process, you must specify the name of the default interactive window station and desktop, “winsta0\default”, in the lpDesktop member of the STARTUPINFO structure. In addition, before calling CreateProcessAsUser, you must change the discretionary access control list (DACL) of both the default interactive window station and the default desktop. The DACLs for the window station and desktop must grant access to the user represented by the hToken parameter.
CreateProcessAsUser does not load the specified user’s profile into the HKEY_USERS registry key. This means that access to information in the HKEY_CURRENT_USER registry key may not produce results consistent with a normal interactive logon. It is your responsibility to load the user’s registry hive into HKEY_USERS before calling CreateProcessAsUser.
If the lpEnvironment parameter is NULL, the new process inherits the environment of the calling process. CreateProcessAsUser does not automatically modify the environment block to include environment variables specific to the user represented by hToken. For example, the USERNAME and USERDOMAIN variables are inherited from the calling process if lpEnvironment is NULL. It is your responsibility to prepare the environment block for the new process and specify it in lpEnvironment.
CreateProcessAsUser allows you to access the specified directory and executable image in the security context of the caller or the target user. By default, CreateProcessAsUser accesses the directory and executable image in the security context of the caller. In this case, if the caller does not have access to the directory and executable image, the function fails. To access the directory and executable image using the security context of the target user, specify hToken in a call to the ImpersonateLoggedOnUser function before calling CreateProcessAsUser.
The new process and the new thread handles are created with full access rights (PROCESS_ALL_ACCESS and THREAD_ALL_ACCESS). For either handle, if a security descriptor is not provided, the handle can be used in any function that requires an object handle of that type. When a security descriptor is provided, an access check is performed on all subsequent uses of the handle before access is granted. If the access check denies access, the requesting process is not able to use the handle to gain access to the process or thread.
If the lpProcessAttributes parameter is NULL, the default security descriptor for the user referenced in the hToken parameter will be used. This security descriptor may not allow access for the caller, in which case the process may not be opened again once it is run. The handle returned in the PROCESS_INFORMATION structure is valid and will continue to have all access. This is also true for thread attributes.
Handles in PROCESS_INFORMATION must be closed with CloseHandle when they are no longer needed.
The process is assigned a process identifier. The identifier is valid until the process terminates. It can be used to identify the process, or specified in the OpenProcess function to open a handle to the process. The initial thread in the process is also assigned a thread identifier. The identifier is valid until the thread terminates and can be used to uniquely identify the thread within the system. These identifiers are returned in the PROCESS_INFORMATION structure.
When specifying an application name in the lpApplicationName or lpCommandLine strings, it doesn’t matter whether the application name includes the filename extension, with one exception: an MS-DOS - based or Windows-based application whose filename extension is .COM must include the .COM extension.
The calling thread can use the WaitForInputIdle function to wait until the new process has finished its initialization and is waiting for user input with no input pending. This can be useful for synchronization between parent and child processes, because CreateProcessAsUser returns without waiting for the new process to finish its initialization. For example, the creating process would use WaitForInputIdle before trying to find a window associated with the new process.
The preferred way to shut down a process is by using the ExitProcess function, because this function notifies all dynamic-link libraries (DLLs) attached to the process of the approaching termination. Other means of shutting down a process do not notify the attached DLLs. Note that when a thread calls ExitProcess, other threads of the process are terminated without an opportunity to execute any additional code (including the thread termination code of attached DLLs).
ExitProcess, ExitThread, CreateThread, CreateRemoteThread, and a process that is starting (as the result of a call by CreateProcessAsUser) are serialized between each other within a process. Only one of these events can happen at a time. This means the following restrictions hold:
AllocConsole, CloseHandle, CreateProcess, CreateRemoteThread, CreateThread, DuplicateTokenEx, ExitProcess, ExitThread, GenerateConsoleCtrlEvent, GetCommandLine, GetEnvironmentStrings, GetExitCodeProcess, GetFullPathName, GetStartupInfo, GetSystemDirectory, GetWindowsDirectory, ImpersonateLoggedOnUser, LoadModule, LogonUser, OpenProcess, PROCESS_INFORMATION, ResumeThread, SECURITY_ATTRIBUTES, SetConsoleCtrlHandler, SetErrorMode, STARTUPINFO, TerminateProcess, WaitForInputIdle, WinExec