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reactos/win32ss/user/ntuser/desktop.c
George Bișoc aa815e1cfa
[WIN32K:NTUSER] Assign a security descriptor when parsing the desktop object 
The problem ReactOS currently faces is this -- whenever the desktop is being parsed we aren't assigning a security descriptor to it. As a matter of fact when Winlogon tries to assign new security information to the application desktop when a user logs in, Winlogon fails because no prior descriptor has been created for it even though we already do this when initializing security buffers in Winlogon.

With that said, we must assign a descriptor when parsing the desktop as well. This fixes a hack in Winlogon where security assigning of application desktop during a log in is disabled (which we can now enable such code path back).
2022-05-08 20:16:15 +02:00

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/*
* COPYRIGHT: See COPYING in the top level directory
* PROJECT: ReactOS Win32k subsystem
* PURPOSE: Desktops
* FILE: subsystems/win32/win32k/ntuser/desktop.c
* PROGRAMMER: Casper S. Hornstrup (chorns@users.sourceforge.net)
*/
/* INCLUDES ******************************************************************/
#include <win32k.h>
DBG_DEFAULT_CHANNEL(UserDesktop);
#include <reactos/buildno.h>
static NTSTATUS
UserInitializeDesktop(PDESKTOP pdesk, PUNICODE_STRING DesktopName, PWINSTATION_OBJECT pwinsta);
static NTSTATUS
IntMapDesktopView(IN PDESKTOP pdesk);
static NTSTATUS
IntUnmapDesktopView(IN PDESKTOP pdesk);
static VOID
IntFreeDesktopHeap(IN PDESKTOP pdesk);
/* GLOBALS *******************************************************************/
/* These can be changed via CSRSS startup, these are defaults */
DWORD gdwDesktopSectionSize = 512;
DWORD gdwNOIOSectionSize = 128; // A guess, for one or more of the first three system desktops.
/* Currently active desktop */
PDESKTOP gpdeskInputDesktop = NULL;
HDC ScreenDeviceContext = NULL;
PTHREADINFO gptiDesktopThread = NULL;
HCURSOR gDesktopCursor = NULL;
PKEVENT gpDesktopThreadStartedEvent = NULL;
/* OBJECT CALLBACKS **********************************************************/
NTSTATUS
APIENTRY
IntDesktopObjectParse(IN PVOID ParseObject,
IN PVOID ObjectType,
IN OUT PACCESS_STATE AccessState,
IN KPROCESSOR_MODE AccessMode,
IN ULONG Attributes,
IN OUT PUNICODE_STRING CompleteName,
IN OUT PUNICODE_STRING RemainingName,
IN OUT PVOID Context OPTIONAL,
IN PSECURITY_QUALITY_OF_SERVICE SecurityQos OPTIONAL,
OUT PVOID *Object)
{
NTSTATUS Status;
PDESKTOP Desktop;
OBJECT_ATTRIBUTES ObjectAttributes;
PLIST_ENTRY NextEntry, ListHead;
PWINSTATION_OBJECT WinStaObject = (PWINSTATION_OBJECT)ParseObject;
UNICODE_STRING DesktopName;
PBOOLEAN pContext = (PBOOLEAN) Context;
if (pContext)
*pContext = FALSE;
/* Set the list pointers and loop the window station */
ListHead = &WinStaObject->DesktopListHead;
NextEntry = ListHead->Flink;
while (NextEntry != ListHead)
{
/* Get the current desktop */
Desktop = CONTAINING_RECORD(NextEntry, DESKTOP, ListEntry);
/* Get the desktop name */
ASSERT(Desktop->pDeskInfo != NULL);
RtlInitUnicodeString(&DesktopName, Desktop->pDeskInfo->szDesktopName);
/* Compare the name */
if (RtlEqualUnicodeString(RemainingName,
&DesktopName,
(Attributes & OBJ_CASE_INSENSITIVE) != 0))
{
/* We found a match. Did this come from a create? */
if (Context)
{
/* Unless OPEN_IF was given, fail with an error */
if (!(Attributes & OBJ_OPENIF))
{
/* Name collision */
return STATUS_OBJECT_NAME_COLLISION;
}
else
{
/* Otherwise, return with a warning only */
Status = STATUS_OBJECT_NAME_EXISTS;
}
}
else
{
/* This was a real open, so this is OK */
Status = STATUS_SUCCESS;
}
/* Reference the desktop and return it */
ObReferenceObject(Desktop);
*Object = Desktop;
return Status;
}
/* Go to the next desktop */
NextEntry = NextEntry->Flink;
}
/* If we got here but this isn't a create, just fail */
if (!Context) return STATUS_OBJECT_NAME_NOT_FOUND;
/* Create the desktop object */
InitializeObjectAttributes(&ObjectAttributes, RemainingName, 0, NULL, NULL);
Status = ObCreateObject(KernelMode,
ExDesktopObjectType,
&ObjectAttributes,
KernelMode,
NULL,
sizeof(DESKTOP),
0,
0,
(PVOID*)&Desktop);
if (!NT_SUCCESS(Status)) return Status;
/* Assign security to the desktop we have created */
Status = IntAssignDesktopSecurityOnParse(WinStaObject, Desktop, AccessState);
if (!NT_SUCCESS(Status))
{
ObDereferenceObject(Desktop);
return Status;
}
/* Initialize the desktop */
Status = UserInitializeDesktop(Desktop, RemainingName, WinStaObject);
if (!NT_SUCCESS(Status))
{
ObDereferenceObject(Desktop);
return Status;
}
/* Set the desktop object and return success */
*Object = Desktop;
*pContext = TRUE;
return STATUS_SUCCESS;
}
NTSTATUS
NTAPI
IntDesktopObjectDelete(
_In_ PVOID Parameters)
{
PWIN32_DELETEMETHOD_PARAMETERS DeleteParameters = Parameters;
PDESKTOP pdesk = (PDESKTOP)DeleteParameters->Object;
TRACE("Deleting desktop object 0x%p\n", pdesk);
if (pdesk->pDeskInfo &&
pdesk->pDeskInfo->spwnd)
{
ASSERT(pdesk->pDeskInfo->spwnd->spwndChild == NULL);
co_UserDestroyWindow(pdesk->pDeskInfo->spwnd);
}
if (pdesk->spwndMessage)
co_UserDestroyWindow(pdesk->spwndMessage);
/* Remove the desktop from the window station's list of associcated desktops */
RemoveEntryList(&pdesk->ListEntry);
/* Free the heap */
IntFreeDesktopHeap(pdesk);
ObDereferenceObject(pdesk->rpwinstaParent);
return STATUS_SUCCESS;
}
NTSTATUS
NTAPI
IntDesktopOkToClose(
_In_ PVOID Parameters)
{
PWIN32_OKAYTOCLOSEMETHOD_PARAMETERS OkToCloseParameters = Parameters;
PTHREADINFO pti = PsGetCurrentThreadWin32Thread();
if (pti == NULL)
{
/* This happens when we leak desktop handles */
return STATUS_SUCCESS;
}
/* Do not allow the current desktop or the initial desktop to be closed */
if (OkToCloseParameters->Handle == pti->ppi->hdeskStartup ||
OkToCloseParameters->Handle == pti->hdesk)
{
return STATUS_ACCESS_DENIED;
}
return STATUS_SUCCESS;
}
NTSTATUS
NTAPI
IntDesktopObjectOpen(
_In_ PVOID Parameters)
{
NTSTATUS Ret;
PWIN32_OPENMETHOD_PARAMETERS OpenParameters = Parameters;
PPROCESSINFO ppi = PsGetProcessWin32Process(OpenParameters->Process);
if (ppi == NULL)
return STATUS_SUCCESS;
UserEnterExclusive();
Ret = IntMapDesktopView((PDESKTOP)OpenParameters->Object);
UserLeave();
return Ret;
}
NTSTATUS
NTAPI
IntDesktopObjectClose(
_In_ PVOID Parameters)
{
NTSTATUS Ret;
PWIN32_CLOSEMETHOD_PARAMETERS CloseParameters = Parameters;
PPROCESSINFO ppi = PsGetProcessWin32Process(CloseParameters->Process);
if (ppi == NULL)
{
/* This happens when the process leaks desktop handles.
* At this point the PPROCESSINFO is already destroyed */
return STATUS_SUCCESS;
}
UserEnterExclusive();
Ret = IntUnmapDesktopView((PDESKTOP)CloseParameters->Object);
UserLeave();
return Ret;
}
/* PRIVATE FUNCTIONS **********************************************************/
CODE_SEG("INIT")
NTSTATUS
NTAPI
InitDesktopImpl(VOID)
{
GENERIC_MAPPING IntDesktopMapping = { DESKTOP_READ,
DESKTOP_WRITE,
DESKTOP_EXECUTE,
DESKTOP_ALL_ACCESS};
/* Set Desktop Object Attributes */
ExDesktopObjectType->TypeInfo.DefaultNonPagedPoolCharge = sizeof(DESKTOP);
ExDesktopObjectType->TypeInfo.GenericMapping = IntDesktopMapping;
ExDesktopObjectType->TypeInfo.ValidAccessMask = DESKTOP_ALL_ACCESS;
/* Allocate memory for the event structure */
gpDesktopThreadStartedEvent = ExAllocatePoolWithTag(NonPagedPool,
sizeof(KEVENT),
USERTAG_EVENT);
if (!gpDesktopThreadStartedEvent)
{
ERR("Failed to allocate event!\n");
return STATUS_NO_MEMORY;
}
/* Initialize the kernel event */
KeInitializeEvent(gpDesktopThreadStartedEvent,
SynchronizationEvent,
FALSE);
return STATUS_SUCCESS;
}
static NTSTATUS
GetSystemVersionString(OUT PWSTR pwszzVersion,
IN SIZE_T cchDest,
IN BOOLEAN InSafeMode,
IN BOOLEAN AppendNtSystemRoot)
{
NTSTATUS Status;
RTL_OSVERSIONINFOEXW VerInfo;
UNICODE_STRING BuildLabString;
UNICODE_STRING CSDVersionString;
RTL_QUERY_REGISTRY_TABLE VersionConfigurationTable[] =
{
{
NULL,
RTL_QUERY_REGISTRY_DIRECT,
L"BuildLab",
&BuildLabString,
REG_NONE, NULL, 0
},
{
NULL,
RTL_QUERY_REGISTRY_DIRECT,
L"CSDVersion",
&CSDVersionString,
REG_NONE, NULL, 0
},
{0}
};
WCHAR BuildLabBuffer[256];
WCHAR VersionBuffer[256];
PWCHAR EndBuffer;
VerInfo.dwOSVersionInfoSize = sizeof(VerInfo);
/*
* This call is uniquely used to retrieve the current CSD numbers.
* All the rest (major, minor, ...) is either retrieved from the
* SharedUserData structure, or from the registry.
*/
RtlGetVersion((PRTL_OSVERSIONINFOW)&VerInfo);
/*
* - Retrieve the BuildLab string from the registry (set by the kernel).
* - In kernel-mode, szCSDVersion is not initialized. Initialize it
* and query its value from the registry.
*/
RtlZeroMemory(BuildLabBuffer, sizeof(BuildLabBuffer));
RtlInitEmptyUnicodeString(&BuildLabString,
BuildLabBuffer,
sizeof(BuildLabBuffer));
RtlZeroMemory(VerInfo.szCSDVersion, sizeof(VerInfo.szCSDVersion));
RtlInitEmptyUnicodeString(&CSDVersionString,
VerInfo.szCSDVersion,
sizeof(VerInfo.szCSDVersion));
Status = RtlQueryRegistryValues(RTL_REGISTRY_WINDOWS_NT,
L"",
VersionConfigurationTable,
NULL,
NULL);
if (!NT_SUCCESS(Status))
{
/* Indicate nothing is there */
BuildLabString.Length = 0;
CSDVersionString.Length = 0;
}
/* NULL-terminate the strings */
BuildLabString.Buffer[BuildLabString.Length / sizeof(WCHAR)] = UNICODE_NULL;
CSDVersionString.Buffer[CSDVersionString.Length / sizeof(WCHAR)] = UNICODE_NULL;
EndBuffer = VersionBuffer;
if ( /* VerInfo.wServicePackMajor != 0 && */ CSDVersionString.Length)
{
/* Print the version string */
Status = RtlStringCbPrintfExW(VersionBuffer,
sizeof(VersionBuffer),
&EndBuffer,
NULL,
0,
L": %wZ",
&CSDVersionString);
if (!NT_SUCCESS(Status))
{
/* No version, NULL-terminate the string */
*EndBuffer = UNICODE_NULL;
}
}
else
{
/* No version, NULL-terminate the string */
*EndBuffer = UNICODE_NULL;
}
if (InSafeMode)
{
/* String for Safe Mode */
Status = RtlStringCchPrintfW(pwszzVersion,
cchDest,
L"ReactOS Version %S %wZ (NT %u.%u Build %u%s)\n",
KERNEL_VERSION_STR,
&BuildLabString,
SharedUserData->NtMajorVersion,
SharedUserData->NtMinorVersion,
(VerInfo.dwBuildNumber & 0xFFFF),
VersionBuffer);
if (AppendNtSystemRoot && NT_SUCCESS(Status))
{
Status = RtlStringCbPrintfW(VersionBuffer,
sizeof(VersionBuffer),
L" - %s\n",
SharedUserData->NtSystemRoot);
if (NT_SUCCESS(Status))
{
/* Replace the last newline by a NULL, before concatenating */
EndBuffer = wcsrchr(pwszzVersion, L'\n');
if (EndBuffer) *EndBuffer = UNICODE_NULL;
/* The concatenated string has a terminating newline */
Status = RtlStringCchCatW(pwszzVersion,
cchDest,
VersionBuffer);
if (!NT_SUCCESS(Status))
{
/* Concatenation failed, put back the newline */
if (EndBuffer) *EndBuffer = L'\n';
}
}
/* Override any failures as the NtSystemRoot string is optional */
Status = STATUS_SUCCESS;
}
}
else
{
/* Multi-string for Normal Mode */
Status = RtlStringCchPrintfW(pwszzVersion,
cchDest,
L"ReactOS Version %S\n"
L"Build %wZ\n"
L"Reporting NT %u.%u (Build %u%s)\n",
KERNEL_VERSION_STR,
&BuildLabString,
SharedUserData->NtMajorVersion,
SharedUserData->NtMinorVersion,
(VerInfo.dwBuildNumber & 0xFFFF),
VersionBuffer);
if (AppendNtSystemRoot && NT_SUCCESS(Status))
{
Status = RtlStringCbPrintfW(VersionBuffer,
sizeof(VersionBuffer),
L"%s\n",
SharedUserData->NtSystemRoot);
if (NT_SUCCESS(Status))
{
Status = RtlStringCchCatW(pwszzVersion,
cchDest,
VersionBuffer);
}
/* Override any failures as the NtSystemRoot string is optional */
Status = STATUS_SUCCESS;
}
}
if (!NT_SUCCESS(Status))
{
/* Fall-back string */
Status = RtlStringCchPrintfW(pwszzVersion,
cchDest,
L"ReactOS Version %S %wZ\n",
KERNEL_VERSION_STR,
&BuildLabString);
if (!NT_SUCCESS(Status))
{
/* General failure, NULL-terminate the string */
pwszzVersion[0] = UNICODE_NULL;
}
}
/*
* Convert the string separators (newlines) into NULLs
* and NULL-terminate the multi-string.
*/
while (*pwszzVersion)
{
EndBuffer = wcschr(pwszzVersion, L'\n');
if (!EndBuffer) break;
pwszzVersion = EndBuffer;
*pwszzVersion++ = UNICODE_NULL;
}
*pwszzVersion = UNICODE_NULL;
return Status;
}
/*
* IntResolveDesktop
*
* The IntResolveDesktop function attempts to retrieve valid handles to
* a desktop and a window station suitable for the specified process.
* The specified desktop path string is used only as a hint for the resolution.
*
* - If the process is already assigned to a window station and a desktop,
* handles to these objects are returned directly regardless of the specified
* desktop path string. This is what happens when this function is called for
* a process that has been already started and connected to the Win32 USER.
*
* - If the process is being connected to the Win32 USER, or is in a state
* where a window station is assigned to it but no desktop yet, the desktop
* path string is used as a hint for the resolution.
* A specified window station (if any, otherwise "WinSta0" is used as default)
* is tested for existence and accessibility. If the checks are OK a handle
* to it is returned. Otherwise we either fail (the window station does not
* exist) or, in case a default window station was used, we attempt to open
* or create a non-interactive Service-0xXXXX-YYYY$ window station. This is
* typically what happens when a non-interactive process is started while
* the WinSta0 window station was used as the default one.
* A specified desktop (if any, otherwise "Default" is used as default)
* is then tested for existence on the opened window station.
*
* - Rules for the choice of the default window station, when none is specified
* in the desktop path:
*
* 1. By default, a SYSTEM process connects to a non-interactive window
* station, either the Service-0x0-3e7$ (from the SYSTEM LUID) station,
* or one that has been inherited and that is non-interactive.
* Only when the interactive window station WinSta0 is specified that
* the process can connect to it (e.g. the case of interactive services).
*
* 2. An interactive process, i.e. a process whose LUID is the same as the
* one assigned to WinSta0 by Winlogon on user logon, connects by default
* to the WinSta0 window station, unless it has inherited from another
* interactive window station (which must be... none other than WinSta0).
*
* 3. A non-interactive (but not SYSTEM) process connects by default to
* a non-interactive Service-0xXXXX-YYYY$ window station (whose name
* is derived from the process' LUID), or to another non-interactive
* window station that has been inherited.
* Otherwise it may be able connect to the interactive WinSta0 only if
* it has explicit access rights to it.
*
* Parameters
* Process
* The user process object.
*
* DesktopPath
* The desktop path string used as a hint for desktop resolution.
*
* bInherit
* Whether or not the returned handles are inheritable.
*
* phWinSta
* Pointer to a window station handle.
*
* phDesktop
* Pointer to a desktop handle.
*
* Return Value
* Status code.
*/
NTSTATUS
FASTCALL
IntResolveDesktop(
IN PEPROCESS Process,
IN PUNICODE_STRING DesktopPath,
IN BOOL bInherit,
OUT HWINSTA* phWinSta,
OUT HDESK* phDesktop)
{
NTSTATUS Status;
HWINSTA hWinSta = NULL, hWinStaDup = NULL;
HDESK hDesktop = NULL, hDesktopDup = NULL;
PPROCESSINFO ppi;
HANDLE hProcess = NULL;
LUID ProcessLuid;
USHORT StrSize;
SIZE_T MemSize;
PSECURITY_DESCRIPTOR ServiceSD = NULL;
POBJECT_ATTRIBUTES ObjectAttributes = NULL;
PUNICODE_STRING ObjectName;
UNICODE_STRING WinStaName, DesktopName;
const UNICODE_STRING WinSta0Name = RTL_CONSTANT_STRING(L"WinSta0");
PWINSTATION_OBJECT WinStaObject;
HWINSTA hTempWinSta = NULL;
BOOLEAN bUseDefaultWinSta = FALSE;
BOOLEAN bInteractive = FALSE;
BOOLEAN bAccessAllowed = FALSE;
ASSERT(UserIsEnteredExclusive());
ASSERT(phWinSta);
ASSERT(phDesktop);
ASSERT(DesktopPath);
*phWinSta = NULL;
*phDesktop = NULL;
ppi = PsGetProcessWin32Process(Process);
/* ppi is typically NULL for console applications that connect to Win32 USER */
if (!ppi) TRACE("IntResolveDesktop: ppi is NULL!\n");
if (ppi && ppi->hwinsta != NULL && ppi->hdeskStartup != NULL)
{
/*
* If this process is the current one, just return the cached handles.
* Otherwise, open the window station and desktop objects.
*/
if (Process == PsGetCurrentProcess())
{
hWinSta = ppi->hwinsta;
hDesktop = ppi->hdeskStartup;
}
else
{
Status = ObOpenObjectByPointer(ppi->prpwinsta,
0,
NULL,
MAXIMUM_ALLOWED,
ExWindowStationObjectType,
UserMode,
(PHANDLE)&hWinSta);
if (!NT_SUCCESS(Status))
{
ERR("IntResolveDesktop: Could not reference window station 0x%p\n", ppi->prpwinsta);
SetLastNtError(Status);
return Status;
}
Status = ObOpenObjectByPointer(ppi->rpdeskStartup,
0,
NULL,
MAXIMUM_ALLOWED,
ExDesktopObjectType,
UserMode,
(PHANDLE)&hDesktop);
if (!NT_SUCCESS(Status))
{
ERR("IntResolveDesktop: Could not reference desktop 0x%p\n", ppi->rpdeskStartup);
ObCloseHandle(hWinSta, UserMode);
SetLastNtError(Status);
return Status;
}
}
*phWinSta = hWinSta;
*phDesktop = hDesktop;
return STATUS_SUCCESS;
}
/* We will by default use the default window station and desktop */
RtlInitEmptyUnicodeString(&WinStaName, NULL, 0);
RtlInitEmptyUnicodeString(&DesktopName, NULL, 0);
/*
* Parse the desktop path string which can be of the form "WinSta\Desktop"
* or just "Desktop". In the latter case we use the default window station
* on which the process is attached to (or if none, "WinSta0").
*/
if (DesktopPath->Buffer != NULL && DesktopPath->Length > sizeof(WCHAR))
{
DesktopName = *DesktopPath;
/* Find the separator */
while (DesktopName.Length > 0 && *DesktopName.Buffer &&
*DesktopName.Buffer != OBJ_NAME_PATH_SEPARATOR)
{
DesktopName.Buffer++;
DesktopName.Length -= sizeof(WCHAR);
DesktopName.MaximumLength -= sizeof(WCHAR);
}
if (DesktopName.Length > 0)
{
RtlInitEmptyUnicodeString(&WinStaName, DesktopPath->Buffer,
DesktopPath->Length - DesktopName.Length);
// (USHORT)((ULONG_PTR)DesktopName.Buffer - (ULONG_PTR)DesktopPath->Buffer);
WinStaName.Length = WinStaName.MaximumLength;
/* Skip the separator */
DesktopName.Buffer++;
DesktopName.Length -= sizeof(WCHAR);
DesktopName.MaximumLength -= sizeof(WCHAR);
}
else
{
RtlInitEmptyUnicodeString(&WinStaName, NULL, 0);
DesktopName = *DesktopPath;
}
}
TRACE("IntResolveDesktop: WinStaName:'%wZ' ; DesktopName:'%wZ'\n", &WinStaName, &DesktopName);
/* Retrieve the process LUID */
Status = GetProcessLuid(NULL, Process, &ProcessLuid);
if (!NT_SUCCESS(Status))
{
ERR("IntResolveDesktop: Failed to retrieve the process LUID, Status 0x%08lx\n", Status);
SetLastNtError(Status);
return Status;
}
/*
* If this process is not the current one, obtain a temporary handle
* to it so that we can perform handles duplication later.
*/
if (Process != PsGetCurrentProcess())
{
Status = ObOpenObjectByPointer(Process,
OBJ_KERNEL_HANDLE,
NULL,
0,
*PsProcessType,
KernelMode,
&hProcess);
if (!NT_SUCCESS(Status))
{
ERR("IntResolveDesktop: Failed to obtain a handle to process 0x%p, Status 0x%08lx\n", Process, Status);
SetLastNtError(Status);
return Status;
}
ASSERT(hProcess);
}
/*
* If no window station has been specified, search the process handle table
* for inherited window station handles, otherwise use a default one.
*/
if (WinStaName.Buffer == NULL)
{
/*
* We want to find a suitable default window station.
* For applications that can be interactive, i.e. that have allowed
* access to the single interactive window station on the system,
* the default window station is 'WinSta0'.
* For applications that cannot be interactive, i.e. that do not have
* access to 'WinSta0' (e.g. non-interactive services), the default
* window station is 'Service-0xXXXX-YYYY$' (created if needed).
* Precedence will however be taken by any inherited window station
* that possesses the required interactivity property.
*/
bUseDefaultWinSta = TRUE;
/*
* Use the default 'WinSta0' window station. Whether we should
* use 'Service-0xXXXX-YYYY$' instead will be determined later.
*/
// RtlInitUnicodeString(&WinStaName, L"WinSta0");
WinStaName = WinSta0Name;
if (ObFindHandleForObject(Process,
NULL,
ExWindowStationObjectType,
NULL,
(PHANDLE)&hWinSta))
{
TRACE("IntResolveDesktop: Inherited window station is: 0x%p\n", hWinSta);
}
}
/*
* If no desktop has been specified, search the process handle table
* for inherited desktop handles, otherwise use the Default desktop.
* Note that the inherited desktop that we may use, may not belong
* to the window station we will connect to.
*/
if (DesktopName.Buffer == NULL)
{
/* Use a default desktop name */
RtlInitUnicodeString(&DesktopName, L"Default");
if (ObFindHandleForObject(Process,
NULL,
ExDesktopObjectType,
NULL,
(PHANDLE)&hDesktop))
{
TRACE("IntResolveDesktop: Inherited desktop is: 0x%p\n", hDesktop);
}
}
/*
* We are going to open either a window station or a desktop.
* Even if this operation is done from kernel-mode, we should
* "emulate" an opening from user-mode (i.e. using an ObjectAttributes
* allocated in user-mode, with AccessMode == UserMode) for the
* Object Manager to perform proper access validation to the
* window station or desktop.
*/
/*
* Estimate the maximum size needed for the window station name
* and desktop name to be given to ObjectAttributes->ObjectName.
*/
StrSize = 0;
/* Window station name */
MemSize = _scwprintf(L"Service-0x%x-%x$", MAXULONG, MAXULONG) * sizeof(WCHAR);
MemSize = gustrWindowStationsDir.Length + sizeof(OBJ_NAME_PATH_SEPARATOR)
+ max(WinStaName.Length, MemSize) + sizeof(UNICODE_NULL);
if (MemSize > MAXUSHORT)
{
ERR("IntResolveDesktop: Window station name length is too long.\n");
Status = STATUS_NAME_TOO_LONG;
goto Quit;
}
StrSize = max(StrSize, (USHORT)MemSize);
/* Desktop name */
MemSize = max(DesktopName.Length + sizeof(UNICODE_NULL), sizeof(L"Default"));
StrSize = max(StrSize, (USHORT)MemSize);
/* Size for the OBJECT_ATTRIBUTES */
MemSize = ALIGN_UP(sizeof(OBJECT_ATTRIBUTES), sizeof(PVOID));
/* Add the string size */
MemSize += ALIGN_UP(sizeof(UNICODE_STRING), sizeof(PVOID));
MemSize += StrSize;
/* Allocate the memory in user-mode */
Status = ZwAllocateVirtualMemory(ZwCurrentProcess(),
(PVOID*)&ObjectAttributes,
0,
&MemSize,
MEM_COMMIT,
PAGE_READWRITE);
if (!NT_SUCCESS(Status))
{
ERR("ZwAllocateVirtualMemory() failed, Status 0x%08lx\n", Status);
goto Quit;
}
ObjectName = (PUNICODE_STRING)((ULONG_PTR)ObjectAttributes +
ALIGN_UP(sizeof(OBJECT_ATTRIBUTES), sizeof(PVOID)));
RtlInitEmptyUnicodeString(ObjectName,
(PWCHAR)((ULONG_PTR)ObjectName +
ALIGN_UP(sizeof(UNICODE_STRING), sizeof(PVOID))),
StrSize);
/* If we got an inherited window station handle, duplicate and use it */
if (hWinSta)
{
ASSERT(bUseDefaultWinSta);
/* Duplicate the handle if it belongs to another process than the current one */
if (Process != PsGetCurrentProcess())
{
ASSERT(hProcess);
Status = ZwDuplicateObject(hProcess,
hWinSta,
ZwCurrentProcess(),
(PHANDLE)&hWinStaDup,
0,
0,
DUPLICATE_SAME_ACCESS);
if (!NT_SUCCESS(Status))
{
ERR("IntResolveDesktop: Failed to duplicate the window station handle, Status 0x%08lx\n", Status);
/* We will use a default window station */
hWinSta = NULL;
}
else
{
hWinSta = hWinStaDup;
}
}
}
/*
* If we have an inherited window station, check whether
* it is interactive and remember that for later.
*/
if (hWinSta)
{
ASSERT(bUseDefaultWinSta);
/* Reference the inherited window station */
Status = ObReferenceObjectByHandle(hWinSta,
0,
ExWindowStationObjectType,
KernelMode,
(PVOID*)&WinStaObject,
NULL);
if (!NT_SUCCESS(Status))
{
ERR("Failed to reference the inherited window station, Status 0x%08lx\n", Status);
/* We will use a default window station */
if (hWinStaDup)
{
ASSERT(hWinSta == hWinStaDup);
ObCloseHandle(hWinStaDup, UserMode);
hWinStaDup = NULL;
}
hWinSta = NULL;
}
else
{
ERR("Process LUID is: 0x%x-%x, inherited window station LUID is: 0x%x-%x\n",
ProcessLuid.HighPart, ProcessLuid.LowPart,
WinStaObject->luidUser.HighPart, WinStaObject->luidUser.LowPart);
/* Check whether this window station is interactive, and remember it for later */
bInteractive = !(WinStaObject->Flags & WSS_NOIO);
/* Dereference the window station */
ObDereferenceObject(WinStaObject);
}
}
/* Build a valid window station name */
Status = RtlStringCbPrintfW(ObjectName->Buffer,
ObjectName->MaximumLength,
L"%wZ\\%wZ",
&gustrWindowStationsDir,
&WinStaName);
if (!NT_SUCCESS(Status))
{
ERR("Impossible to build a valid window station name, Status 0x%08lx\n", Status);
goto Quit;
}
ObjectName->Length = (USHORT)(wcslen(ObjectName->Buffer) * sizeof(WCHAR));
TRACE("Parsed initial window station: '%wZ'\n", ObjectName);
/* Try to open the window station */
InitializeObjectAttributes(ObjectAttributes,
ObjectName,
OBJ_CASE_INSENSITIVE,
NULL,
NULL);
if (bInherit)
ObjectAttributes->Attributes |= OBJ_INHERIT;
Status = ObOpenObjectByName(ObjectAttributes,
ExWindowStationObjectType,
UserMode,
NULL,
WINSTA_ACCESS_ALL,
NULL,
(PHANDLE)&hTempWinSta);
if (!NT_SUCCESS(Status))
{
ERR("Failed to open the window station '%wZ', Status 0x%08lx\n", ObjectName, Status);
}
else
{
//
// FIXME TODO: Perform a window station access check!!
// If we fail AND bUseDefaultWinSta == FALSE we just quit.
//
/*
* Check whether we are opening the (single) interactive
* window station, and if so, perform an access check.
*/
/* Check whether we are allowed to perform interactions */
if (RtlEqualUnicodeString(&WinStaName, &WinSta0Name, TRUE))
{
LUID SystemLuid = SYSTEM_LUID;
/* Interactive window station: check for user LUID */
WinStaObject = InputWindowStation;
Status = STATUS_ACCESS_DENIED;
// TODO: Check also that we compare wrt. window station WinSta0
// which is the only one that can be interactive on the system.
if (((!bUseDefaultWinSta || bInherit) && RtlEqualLuid(&ProcessLuid, &SystemLuid)) ||
RtlEqualLuid(&ProcessLuid, &WinStaObject->luidUser))
{
/* We are interactive on this window station */
bAccessAllowed = TRUE;
Status = STATUS_SUCCESS;
}
}
else
{
/* Non-interactive window station: we have access since we were able to open it */
bAccessAllowed = TRUE;
Status = STATUS_SUCCESS;
}
}
/* If we failed, bail out if we were not trying to open the default window station */
if (!NT_SUCCESS(Status) && !bUseDefaultWinSta) // if (!bAccessAllowed)
goto Quit;
if (/* bAccessAllowed && */ bInteractive || !bAccessAllowed)
{
/*
* Close WinSta0 if the inherited window station is interactive so that
* we can use it, or we do not have access to the interactive WinSta0.
*/
ObCloseHandle(hTempWinSta, UserMode);
hTempWinSta = NULL;
}
if (bInteractive == bAccessAllowed)
{
/* Keep using the inherited window station */
NOTHING;
}
else // if (bInteractive != bAccessAllowed)
{
/*
* Close the inherited window station, we will either keep using
* the interactive WinSta0, or use Service-0xXXXX-YYYY$.
*/
if (hWinStaDup)
{
ASSERT(hWinSta == hWinStaDup);
ObCloseHandle(hWinStaDup, UserMode);
hWinStaDup = NULL;
}
hWinSta = hTempWinSta; // hTempWinSta is NULL in case bAccessAllowed == FALSE
}
if (bUseDefaultWinSta)
{
if (hWinSta == NULL && !bInteractive)
{
/* Build a valid window station name from the LUID */
Status = RtlStringCbPrintfW(ObjectName->Buffer,
ObjectName->MaximumLength,
L"%wZ\\Service-0x%x-%x$",
&gustrWindowStationsDir,
ProcessLuid.HighPart,
ProcessLuid.LowPart);
if (!NT_SUCCESS(Status))
{
ERR("Impossible to build a valid window station name, Status 0x%08lx\n", Status);
goto Quit;
}
ObjectName->Length = (USHORT)(wcslen(ObjectName->Buffer) * sizeof(WCHAR));
/*
* Set up a security descriptor for the service.
* A service is generally based upon a desktop
* and a window station. The newly created window
* station and desktop will get this security descriptor
* if such objects weren't created before.
*/
Status = IntCreateServiceSecurity(&ServiceSD);
if (!NT_SUCCESS(Status))
{
ERR("Failed to create a security descriptor for default window station, Status 0x%08lx\n", Status);
goto Quit;
}
/*
* Create or open the non-interactive window station.
* NOTE: The non-interactive window station handle is never inheritable.
*/
InitializeObjectAttributes(ObjectAttributes,
ObjectName,
OBJ_CASE_INSENSITIVE | OBJ_OPENIF,
NULL,
ServiceSD);
Status = IntCreateWindowStation(&hWinSta,
ObjectAttributes,
UserMode,
KernelMode,
MAXIMUM_ALLOWED,
0, 0, 0, 0, 0);
if (!NT_SUCCESS(Status))
{
ASSERT(hWinSta == NULL);
ERR("Failed to create or open the non-interactive window station '%wZ', Status 0x%08lx\n",
ObjectName, Status);
goto Quit;
}
//
// FIXME: We might not need to always create or open the "Default"
// desktop on the Service-0xXXXX-YYYY$ window station; we may need
// to use another one....
//
/* Create or open the Default desktop on the window station */
Status = RtlStringCbCopyW(ObjectName->Buffer,
ObjectName->MaximumLength,
L"Default");
if (!NT_SUCCESS(Status))
{
ERR("Impossible to build a valid desktop name, Status 0x%08lx\n", Status);
goto Quit;
}
ObjectName->Length = (USHORT)(wcslen(ObjectName->Buffer) * sizeof(WCHAR));
/*
* NOTE: The non-interactive desktop handle is never inheritable.
* The security descriptor is inherited from the newly created
* window station for the desktop.
*/
InitializeObjectAttributes(ObjectAttributes,
ObjectName,
OBJ_CASE_INSENSITIVE | OBJ_OPENIF,
hWinSta,
NULL);
Status = IntCreateDesktop(&hDesktop,
ObjectAttributes,
UserMode,
NULL,
NULL,
0,
MAXIMUM_ALLOWED);
if (!NT_SUCCESS(Status))
{
ASSERT(hDesktop == NULL);
ERR("Failed to create or open the desktop '%wZ' on window station 0x%p, Status 0x%08lx\n",
ObjectName, hWinSta, Status);
}
goto Quit;
}
/*
if (hWinSta == NULL)
{
Status = STATUS_UNSUCCESSFUL;
goto Quit;
}
*/
}
/*
* If we got an inherited desktop handle, duplicate and use it,
* otherwise open a new desktop.
*/
if (hDesktop != NULL)
{
/* Duplicate the handle if it belongs to another process than the current one */
if (Process != PsGetCurrentProcess())
{
ASSERT(hProcess);
Status = ZwDuplicateObject(hProcess,
hDesktop,
ZwCurrentProcess(),
(PHANDLE)&hDesktopDup,
0,
0,
DUPLICATE_SAME_ACCESS);
if (!NT_SUCCESS(Status))
{
ERR("IntResolveDesktop: Failed to duplicate the desktop handle, Status 0x%08lx\n", Status);
/* We will use a default desktop */
hDesktop = NULL;
}
else
{
hDesktop = hDesktopDup;
}
}
}
if ((hWinSta != NULL) && (hDesktop == NULL))
{
Status = RtlStringCbCopyNW(ObjectName->Buffer,
ObjectName->MaximumLength,
DesktopName.Buffer,
DesktopName.Length);
if (!NT_SUCCESS(Status))
{
ERR("Impossible to build a valid desktop name, Status 0x%08lx\n", Status);
goto Quit;
}
ObjectName->Length = (USHORT)(wcslen(ObjectName->Buffer) * sizeof(WCHAR));
TRACE("Parsed initial desktop: '%wZ'\n", ObjectName);
/* Open the desktop object */
InitializeObjectAttributes(ObjectAttributes,
ObjectName,
OBJ_CASE_INSENSITIVE,
hWinSta,
NULL);
if (bInherit)
ObjectAttributes->Attributes |= OBJ_INHERIT;
Status = ObOpenObjectByName(ObjectAttributes,
ExDesktopObjectType,
UserMode,
NULL,
DESKTOP_ALL_ACCESS,
NULL,
(PHANDLE)&hDesktop);
if (!NT_SUCCESS(Status))
{
ERR("Failed to open the desktop '%wZ' on window station 0x%p, Status 0x%08lx\n",
ObjectName, hWinSta, Status);
goto Quit;
}
}
Quit:
/* Release the object attributes */
if (ObjectAttributes)
{
MemSize = 0;
ZwFreeVirtualMemory(ZwCurrentProcess(),
(PVOID*)&ObjectAttributes,
&MemSize,
MEM_RELEASE);
}
/* Close the temporary process handle */
if (hProcess) // if (Process != PsGetCurrentProcess())
ObCloseHandle(hProcess, KernelMode);
if (NT_SUCCESS(Status))
{
*phWinSta = hWinSta;
*phDesktop = hDesktop;
IntFreeSecurityBuffer(ServiceSD);
return STATUS_SUCCESS;
}
else
{
ERR("IntResolveDesktop(%wZ) failed, Status 0x%08lx\n", DesktopPath, Status);
if (hDesktopDup)
ObCloseHandle(hDesktopDup, UserMode);
if (hWinStaDup)
ObCloseHandle(hWinStaDup, UserMode);
if (hDesktop)
ObCloseHandle(hDesktop, UserMode);
if (hWinSta)
ObCloseHandle(hWinSta, UserMode);
if (ServiceSD)
IntFreeSecurityBuffer(ServiceSD);
SetLastNtError(Status);
return Status;
}
}
/*
* IntValidateDesktopHandle
*
* Validates the desktop handle.
*
* Remarks
* If the function succeeds, the handle remains referenced. If the
* fucntion fails, last error is set.
*/
NTSTATUS FASTCALL
IntValidateDesktopHandle(
HDESK Desktop,
KPROCESSOR_MODE AccessMode,
ACCESS_MASK DesiredAccess,
PDESKTOP *Object)
{
NTSTATUS Status;
Status = ObReferenceObjectByHandle(Desktop,
DesiredAccess,
ExDesktopObjectType,
AccessMode,
(PVOID*)Object,
NULL);
TRACE("IntValidateDesktopHandle: handle:0x%p obj:0x%p access:0x%x Status:0x%lx\n",
Desktop, *Object, DesiredAccess, Status);
if (!NT_SUCCESS(Status))
SetLastNtError(Status);
return Status;
}
PDESKTOP FASTCALL
IntGetActiveDesktop(VOID)
{
return gpdeskInputDesktop;
}
/*
* Returns or creates a handle to the desktop object
*/
HDESK FASTCALL
IntGetDesktopObjectHandle(PDESKTOP DesktopObject)
{
NTSTATUS Status;
HDESK hDesk;
ASSERT(DesktopObject);
if (!ObFindHandleForObject(PsGetCurrentProcess(),
DesktopObject,
ExDesktopObjectType,
NULL,
(PHANDLE)&hDesk))
{
Status = ObOpenObjectByPointer(DesktopObject,
0,
NULL,
0,
ExDesktopObjectType,
UserMode,
(PHANDLE)&hDesk);
if (!NT_SUCCESS(Status))
{
/* Unable to create a handle */
ERR("Unable to create a desktop handle\n");
return NULL;
}
}
else
{
TRACE("Got handle: 0x%p\n", hDesk);
}
return hDesk;
}
PUSER_MESSAGE_QUEUE FASTCALL
IntGetFocusMessageQueue(VOID)
{
PDESKTOP pdo = IntGetActiveDesktop();
if (!pdo)
{
TRACE("No active desktop\n");
return(NULL);
}
return (PUSER_MESSAGE_QUEUE)pdo->ActiveMessageQueue;
}
VOID FASTCALL
IntSetFocusMessageQueue(PUSER_MESSAGE_QUEUE NewQueue)
{
PUSER_MESSAGE_QUEUE Old;
PDESKTOP pdo = IntGetActiveDesktop();
if (!pdo)
{
TRACE("No active desktop\n");
return;
}
if (NewQueue != NULL)
{
if (NewQueue->Desktop != NULL)
{
TRACE("Message Queue already attached to another desktop!\n");
return;
}
IntReferenceMessageQueue(NewQueue);
(void)InterlockedExchangePointer((PVOID*)&NewQueue->Desktop, pdo);
}
Old = (PUSER_MESSAGE_QUEUE)InterlockedExchangePointer((PVOID*)&pdo->ActiveMessageQueue, NewQueue);
if (Old != NULL)
{
(void)InterlockedExchangePointer((PVOID*)&Old->Desktop, 0);
gpqForegroundPrev = Old;
IntDereferenceMessageQueue(Old);
}
// Only one Q can have active foreground even when there are more than one desktop.
if (NewQueue)
{
gpqForeground = pdo->ActiveMessageQueue;
}
else
{
gpqForeground = NULL;
ERR("ptiLastInput is CLEARED!!\n");
ptiLastInput = NULL; // ReactOS hacks... should check for process death.
}
}
PWND FASTCALL
IntGetThreadDesktopWindow(PTHREADINFO pti)
{
if (!pti) pti = PsGetCurrentThreadWin32Thread();
if (pti->pDeskInfo) return pti->pDeskInfo->spwnd;
return NULL;
}
PWND FASTCALL co_GetDesktopWindow(PWND pWnd)
{
if (pWnd->head.rpdesk &&
pWnd->head.rpdesk->pDeskInfo)
return pWnd->head.rpdesk->pDeskInfo->spwnd;
return NULL;
}
HWND FASTCALL IntGetDesktopWindow(VOID)
{
PDESKTOP pdo = IntGetActiveDesktop();
if (!pdo)
{
TRACE("No active desktop\n");
return NULL;
}
return pdo->DesktopWindow;
}
// Win: _GetDesktopWindow
PWND FASTCALL UserGetDesktopWindow(VOID)
{
PDESKTOP pdo = IntGetActiveDesktop();
if (!pdo)
{
TRACE("No active desktop\n");
return NULL;
}
// return pdo->pDeskInfo->spwnd;
return UserGetWindowObject(pdo->DesktopWindow);
}
HWND FASTCALL IntGetMessageWindow(VOID)
{
PDESKTOP pdo = IntGetActiveDesktop();
if (!pdo)
{
TRACE("No active desktop\n");
return NULL;
}
return pdo->spwndMessage->head.h;
}
// Win: _GetMessageWindow
PWND FASTCALL UserGetMessageWindow(VOID)
{
PDESKTOP pdo = IntGetActiveDesktop();
if (!pdo)
{
TRACE("No active desktop\n");
return NULL;
}
return pdo->spwndMessage;
}
HWND FASTCALL IntGetCurrentThreadDesktopWindow(VOID)
{
PTHREADINFO pti = PsGetCurrentThreadWin32Thread();
PDESKTOP pdo = pti->rpdesk;
if (NULL == pdo)
{
ERR("Thread doesn't have a desktop\n");
return NULL;
}
return pdo->DesktopWindow;
}
/* PUBLIC FUNCTIONS ***********************************************************/
BOOL FASTCALL
DesktopWindowProc(PWND Wnd, UINT Msg, WPARAM wParam, LPARAM lParam, LRESULT *lResult)
{
PAINTSTRUCT Ps;
ULONG Value;
//ERR("DesktopWindowProc\n");
*lResult = 0;
switch (Msg)
{
case WM_NCCREATE:
if (!Wnd->fnid)
{
Wnd->fnid = FNID_DESKTOP;
}
*lResult = (LRESULT)TRUE;
return TRUE;
case WM_CREATE:
Value = HandleToULong(PsGetCurrentProcessId());
// Save Process ID
co_UserSetWindowLong(UserHMGetHandle(Wnd), DT_GWL_PROCESSID, Value, FALSE);
Value = HandleToULong(PsGetCurrentThreadId());
// Save Thread ID
co_UserSetWindowLong(UserHMGetHandle(Wnd), DT_GWL_THREADID, Value, FALSE);
case WM_CLOSE:
return TRUE;
case WM_DISPLAYCHANGE:
co_WinPosSetWindowPos(Wnd, 0, 0, 0, LOWORD(lParam), HIWORD(lParam), SWP_NOZORDER | SWP_NOACTIVATE);
return TRUE;
case WM_ERASEBKGND:
IntPaintDesktop((HDC)wParam);
*lResult = 1;
return TRUE;
case WM_PAINT:
{
if (IntBeginPaint(Wnd, &Ps))
{
IntEndPaint(Wnd, &Ps);
}
return TRUE;
}
case WM_SYSCOLORCHANGE:
co_UserRedrawWindow(Wnd, NULL, NULL, RDW_INVALIDATE|RDW_ERASE|RDW_ALLCHILDREN);
return TRUE;
case WM_SETCURSOR:
{
PCURICON_OBJECT pcurOld, pcurNew;
pcurNew = UserGetCurIconObject(gDesktopCursor);
if (!pcurNew)
{
return TRUE;
}
pcurNew->CURSORF_flags |= CURSORF_CURRENT;
pcurOld = UserSetCursor(pcurNew, FALSE);
if (pcurOld)
{
pcurOld->CURSORF_flags &= ~CURSORF_CURRENT;
UserDereferenceObject(pcurOld);
}
return TRUE;
}
case WM_WINDOWPOSCHANGING:
{
PWINDOWPOS pWindowPos = (PWINDOWPOS)lParam;
if ((pWindowPos->flags & SWP_SHOWWINDOW) != 0)
{
HDESK hdesk = UserOpenInputDesktop(0, FALSE, DESKTOP_ALL_ACCESS);
IntSetThreadDesktop(hdesk, FALSE);
}
break;
}
default:
TRACE("DWP calling IDWP Msg %d\n",Msg);
//*lResult = IntDefWindowProc(Wnd, Msg, wParam, lParam, FALSE);
}
return TRUE; /* We are done. Do not do any callbacks to user mode */
}
BOOL FASTCALL
UserMessageWindowProc(PWND pwnd, UINT Msg, WPARAM wParam, LPARAM lParam, LRESULT *lResult)
{
*lResult = 0;
switch(Msg)
{
case WM_NCCREATE:
pwnd->fnid |= FNID_MESSAGEWND;
*lResult = (LRESULT)TRUE;
break;
case WM_DESTROY:
pwnd->fnid |= FNID_DESTROY;
break;
default:
ERR("UMWP calling IDWP\n");
*lResult = IntDefWindowProc(pwnd, Msg, wParam, lParam, FALSE);
}
return TRUE; /* We are done. Do not do any callbacks to user mode */
}
VOID NTAPI DesktopThreadMain(VOID)
{
BOOL Ret;
MSG Msg;
gptiDesktopThread = PsGetCurrentThreadWin32Thread();
UserEnterExclusive();
/* Register system classes. This thread does not belong to any desktop so the
classes will be allocated from the shared heap */
UserRegisterSystemClasses();
KeSetEvent(gpDesktopThreadStartedEvent, IO_NO_INCREMENT, FALSE);
while (TRUE)
{
Ret = co_IntGetPeekMessage(&Msg, 0, 0, 0, PM_REMOVE, TRUE);
if (Ret)
{
IntDispatchMessage(&Msg);
}
}
UserLeave();
}
HDC FASTCALL
UserGetDesktopDC(ULONG DcType, BOOL bAltDc, BOOL ValidatehWnd)
{
PWND DesktopObject = 0;
HDC DesktopHDC = 0;
/* This can be called from GDI/DX, so acquire the USER lock */
UserEnterExclusive();
if (DcType == DCTYPE_DIRECT)
{
DesktopObject = UserGetDesktopWindow();
DesktopHDC = (HDC)UserGetWindowDC(DesktopObject);
}
else
{
PMONITOR pMonitor = UserGetPrimaryMonitor();
DesktopHDC = IntGdiCreateDisplayDC(pMonitor->hDev, DcType, bAltDc);
}
UserLeave();
return DesktopHDC;
}
VOID APIENTRY
UserRedrawDesktop(VOID)
{
PWND Window = NULL;
PREGION Rgn;
Window = UserGetDesktopWindow();
Rgn = IntSysCreateRectpRgnIndirect(&Window->rcWindow);
IntInvalidateWindows(Window,
Rgn,
RDW_FRAME | RDW_ERASE |
RDW_INVALIDATE | RDW_ALLCHILDREN);
REGION_Delete(Rgn);
}
NTSTATUS FASTCALL
co_IntShowDesktop(PDESKTOP Desktop, ULONG Width, ULONG Height, BOOL bRedraw)
{
PWND pwnd = Desktop->pDeskInfo->spwnd;
UINT flags = SWP_NOACTIVATE|SWP_NOZORDER|SWP_SHOWWINDOW;
ASSERT(pwnd);
if (!bRedraw)
flags |= SWP_NOREDRAW;
co_WinPosSetWindowPos(pwnd, NULL, 0, 0, Width, Height, flags);
if (bRedraw)
co_UserRedrawWindow( pwnd, NULL, 0, RDW_UPDATENOW | RDW_ALLCHILDREN | RDW_INVALIDATE );
return STATUS_SUCCESS;
}
NTSTATUS FASTCALL
IntHideDesktop(PDESKTOP Desktop)
{
PWND DesktopWnd;
DesktopWnd = IntGetWindowObject(Desktop->DesktopWindow);
if (! DesktopWnd)
{
return ERROR_INVALID_WINDOW_HANDLE;
}
DesktopWnd->style &= ~WS_VISIBLE;
return STATUS_SUCCESS;
}
static
HWND* FASTCALL
UserBuildShellHookHwndList(PDESKTOP Desktop)
{
ULONG entries=0;
PLIST_ENTRY ListEntry;
PSHELL_HOOK_WINDOW Current;
HWND* list;
/* FIXME: If we save nb elements in desktop, we don't have to loop to find nb entries */
ListEntry = Desktop->ShellHookWindows.Flink;
while (ListEntry != &Desktop->ShellHookWindows)
{
ListEntry = ListEntry->Flink;
entries++;
}
if (!entries) return NULL;
list = ExAllocatePoolWithTag(PagedPool, sizeof(HWND) * (entries + 1), USERTAG_WINDOWLIST); /* alloc one extra for nullterm */
if (list)
{
HWND* cursor = list;
ListEntry = Desktop->ShellHookWindows.Flink;
while (ListEntry != &Desktop->ShellHookWindows)
{
Current = CONTAINING_RECORD(ListEntry, SHELL_HOOK_WINDOW, ListEntry);
ListEntry = ListEntry->Flink;
*cursor++ = Current->hWnd;
}
*cursor = NULL; /* Nullterm list */
}
return list;
}
/*
* Send the Message to the windows registered for ShellHook
* notifications. The lParam contents depend on the Message. See
* MSDN for more details (RegisterShellHookWindow)
*/
VOID co_IntShellHookNotify(WPARAM Message, WPARAM wParam, LPARAM lParam)
{
PDESKTOP Desktop = IntGetActiveDesktop();
HWND* HwndList;
if (!gpsi->uiShellMsg)
{
gpsi->uiShellMsg = IntAddAtom(L"SHELLHOOK");
TRACE("MsgType = %x\n", gpsi->uiShellMsg);
if (!gpsi->uiShellMsg)
ERR("LastError: %x\n", EngGetLastError());
}
if (!Desktop)
{
TRACE("IntShellHookNotify: No desktop!\n");
return;
}
// Allow other devices have a shot at foreground.
if (Message == HSHELL_APPCOMMAND) ptiLastInput = NULL;
// FIXME: System Tray Support.
HwndList = UserBuildShellHookHwndList(Desktop);
if (HwndList)
{
HWND* cursor = HwndList;
for (; *cursor; cursor++)
{
TRACE("Sending notify\n");
UserPostMessage(*cursor,
gpsi->uiShellMsg,
Message,
(Message == HSHELL_LANGUAGE ? lParam : (LPARAM)wParam) );
/* co_IntPostOrSendMessage(*cursor,
gpsi->uiShellMsg,
Message,
(Message == HSHELL_LANGUAGE ? lParam : (LPARAM)wParam) );*/
}
ExFreePoolWithTag(HwndList, USERTAG_WINDOWLIST);
}
if (ISITHOOKED(WH_SHELL))
{
co_HOOK_CallHooks(WH_SHELL, Message, wParam, lParam);
}
}
/*
* Add the window to the ShellHookWindows list. The windows
* on that list get notifications that are important to shell
* type applications.
*
* TODO: Validate the window? I'm not sure if sending these messages to
* an unsuspecting application that is not your own is a nice thing to do.
*/
BOOL IntRegisterShellHookWindow(HWND hWnd)
{
PTHREADINFO pti = PsGetCurrentThreadWin32Thread();
PDESKTOP Desktop = pti->rpdesk;
PSHELL_HOOK_WINDOW Entry;
TRACE("IntRegisterShellHookWindow\n");
/* First deregister the window, so we can be sure it's never twice in the
* list.
*/
IntDeRegisterShellHookWindow(hWnd);
Entry = ExAllocatePoolWithTag(PagedPool,
sizeof(SHELL_HOOK_WINDOW),
TAG_WINSTA);
if (!Entry)
return FALSE;
Entry->hWnd = hWnd;
InsertTailList(&Desktop->ShellHookWindows, &Entry->ListEntry);
return TRUE;
}
/*
* Remove the window from the ShellHookWindows list. The windows
* on that list get notifications that are important to shell
* type applications.
*/
BOOL IntDeRegisterShellHookWindow(HWND hWnd)
{
PTHREADINFO pti = PsGetCurrentThreadWin32Thread();
PDESKTOP Desktop = pti->rpdesk;
PLIST_ENTRY ListEntry;
PSHELL_HOOK_WINDOW Current;
ListEntry = Desktop->ShellHookWindows.Flink;
while (ListEntry != &Desktop->ShellHookWindows)
{
Current = CONTAINING_RECORD(ListEntry, SHELL_HOOK_WINDOW, ListEntry);
ListEntry = ListEntry->Flink;
if (Current->hWnd == hWnd)
{
RemoveEntryList(&Current->ListEntry);
ExFreePoolWithTag(Current, TAG_WINSTA);
return TRUE;
}
}
return FALSE;
}
static VOID
IntFreeDesktopHeap(IN OUT PDESKTOP Desktop)
{
/* FIXME: Disable until unmapping works in mm */
#if 0
if (Desktop->pheapDesktop != NULL)
{
MmUnmapViewInSessionSpace(Desktop->pheapDesktop);
Desktop->pheapDesktop = NULL;
}
if (Desktop->hsectionDesktop != NULL)
{
ObDereferenceObject(Desktop->hsectionDesktop);
Desktop->hsectionDesktop = NULL;
}
#endif
}
BOOL FASTCALL
IntPaintDesktop(HDC hDC)
{
static WCHAR s_wszSafeMode[] = L"Safe Mode"; // FIXME: Localize!
RECTL Rect;
HBRUSH DesktopBrush, PreviousBrush;
HWND hWndDesktop;
BOOL doPatBlt = TRUE;
PWND WndDesktop;
BOOLEAN InSafeMode;
if (GdiGetClipBox(hDC, &Rect) == ERROR)
return FALSE;
hWndDesktop = IntGetDesktopWindow(); // rpdesk->DesktopWindow;
WndDesktop = UserGetWindowObject(hWndDesktop); // rpdesk->pDeskInfo->spwnd;
if (!WndDesktop)
return FALSE;
/* Retrieve the current SafeMode state */
InSafeMode = (UserGetSystemMetrics(SM_CLEANBOOT) != 0); // gpsi->aiSysMet[SM_CLEANBOOT];
if (!InSafeMode)
{
DesktopBrush = (HBRUSH)WndDesktop->pcls->hbrBackground;
/*
* Paint desktop background
*/
if (gspv.hbmWallpaper != NULL)
{
SIZE sz;
int x, y;
int scaledWidth, scaledHeight;
int wallpaperX, wallpaperY, wallpaperWidth, wallpaperHeight;
HDC hWallpaperDC;
sz.cx = WndDesktop->rcWindow.right - WndDesktop->rcWindow.left;
sz.cy = WndDesktop->rcWindow.bottom - WndDesktop->rcWindow.top;
if (gspv.WallpaperMode == wmFit ||
gspv.WallpaperMode == wmFill)
{
int scaleNum, scaleDen;
// Precision improvement over ((sz.cx / gspv.cxWallpaper) > (sz.cy / gspv.cyWallpaper))
if ((sz.cx * gspv.cyWallpaper) > (sz.cy * gspv.cxWallpaper))
{
if (gspv.WallpaperMode == wmFit)
{
scaleNum = sz.cy;
scaleDen = gspv.cyWallpaper;
}
else
{
scaleNum = sz.cx;
scaleDen = gspv.cxWallpaper;
}
}
else
{
if (gspv.WallpaperMode == wmFit)
{
scaleNum = sz.cx;
scaleDen = gspv.cxWallpaper;
}
else
{
scaleNum = sz.cy;
scaleDen = gspv.cyWallpaper;
}
}
scaledWidth = EngMulDiv(gspv.cxWallpaper, scaleNum, scaleDen);
scaledHeight = EngMulDiv(gspv.cyWallpaper, scaleNum, scaleDen);
if (gspv.WallpaperMode == wmFill)
{
wallpaperX = (((scaledWidth - sz.cx) * gspv.cxWallpaper) / (2 * scaledWidth));
wallpaperY = (((scaledHeight - sz.cy) * gspv.cyWallpaper) / (2 * scaledHeight));
wallpaperWidth = (sz.cx * gspv.cxWallpaper) / scaledWidth;
wallpaperHeight = (sz.cy * gspv.cyWallpaper) / scaledHeight;
}
}
if (gspv.WallpaperMode == wmStretch ||
gspv.WallpaperMode == wmTile ||
gspv.WallpaperMode == wmFill)
{
x = 0;
y = 0;
}
else if (gspv.WallpaperMode == wmFit)
{
x = (sz.cx - scaledWidth) / 2;
y = (sz.cy - scaledHeight) / 2;
}
else
{
/* Find the upper left corner, can be negative if the bitmap is bigger than the screen */
x = (sz.cx / 2) - (gspv.cxWallpaper / 2);
y = (sz.cy / 2) - (gspv.cyWallpaper / 2);
}
hWallpaperDC = NtGdiCreateCompatibleDC(hDC);
if (hWallpaperDC != NULL)
{
HBITMAP hOldBitmap;
/* Fill in the area that the bitmap is not going to cover */
if (x > 0 || y > 0)
{
/* FIXME: Clip out the bitmap
can be replaced with "NtGdiPatBlt(hDC, x, y, gspv.cxWallpaper, gspv.cyWallpaper, PATCOPY | DSTINVERT);"
once we support DSTINVERT */
PreviousBrush = NtGdiSelectBrush(hDC, DesktopBrush);
NtGdiPatBlt(hDC, Rect.left, Rect.top, Rect.right, Rect.bottom, PATCOPY);
NtGdiSelectBrush(hDC, PreviousBrush);
}
/* Do not fill the background after it is painted no matter the size of the picture */
doPatBlt = FALSE;
hOldBitmap = NtGdiSelectBitmap(hWallpaperDC, gspv.hbmWallpaper);
if (gspv.WallpaperMode == wmStretch)
{
if (Rect.right && Rect.bottom)
NtGdiStretchBlt(hDC,
x,
y,
sz.cx,
sz.cy,
hWallpaperDC,
0,
0,
gspv.cxWallpaper,
gspv.cyWallpaper,
SRCCOPY,
0);
}
else if (gspv.WallpaperMode == wmTile)
{
/* Paint the bitmap across the screen then down */
for (y = 0; y < Rect.bottom; y += gspv.cyWallpaper)
{
for (x = 0; x < Rect.right; x += gspv.cxWallpaper)
{
NtGdiBitBlt(hDC,
x,
y,
gspv.cxWallpaper,
gspv.cyWallpaper,
hWallpaperDC,
0,
0,
SRCCOPY,
0,
0);
}
}
}
else if (gspv.WallpaperMode == wmFit)
{
if (Rect.right && Rect.bottom)
{
NtGdiStretchBlt(hDC,
x,
y,
scaledWidth,
scaledHeight,
hWallpaperDC,
0,
0,
gspv.cxWallpaper,
gspv.cyWallpaper,
SRCCOPY,
0);
}
}
else if (gspv.WallpaperMode == wmFill)
{
if (Rect.right && Rect.bottom)
{
NtGdiStretchBlt(hDC,
x,
y,
sz.cx,
sz.cy,
hWallpaperDC,
wallpaperX,
wallpaperY,
wallpaperWidth,
wallpaperHeight,
SRCCOPY,
0);
}
}
else
{
NtGdiBitBlt(hDC,
x,
y,
gspv.cxWallpaper,
gspv.cyWallpaper,
hWallpaperDC,
0,
0,
SRCCOPY,
0,
0);
}
NtGdiSelectBitmap(hWallpaperDC, hOldBitmap);
NtGdiDeleteObjectApp(hWallpaperDC);
}
}
}
else
{
/* Black desktop background in Safe Mode */
DesktopBrush = StockObjects[BLACK_BRUSH];
}
/* Background is set to none, clear the screen */
if (doPatBlt)
{
PreviousBrush = NtGdiSelectBrush(hDC, DesktopBrush);
NtGdiPatBlt(hDC, Rect.left, Rect.top, Rect.right, Rect.bottom, PATCOPY);
NtGdiSelectBrush(hDC, PreviousBrush);
}
/*
* Display the system version on the desktop background
*/
if (InSafeMode || g_AlwaysDisplayVersion || g_PaintDesktopVersion)
{
NTSTATUS Status;
static WCHAR wszzVersion[1024] = L"\0";
/* Only used in normal mode */
// We expect at most 4 strings (3 for version, 1 for optional NtSystemRoot)
static POLYTEXTW VerStrs[4] = {{0},{0},{0},{0}};
INT i = 0;
SIZE_T len;
HFONT hFont1 = NULL, hFont2 = NULL, hOldFont = NULL;
COLORREF crText, color_old;
UINT align_old;
INT mode_old;
PDC pdc;
if (!UserSystemParametersInfo(SPI_GETWORKAREA, 0, &Rect, 0))
{
Rect.left = Rect.top = 0;
Rect.right = UserGetSystemMetrics(SM_CXSCREEN);
Rect.bottom = UserGetSystemMetrics(SM_CYSCREEN);
}
else
{
RECTL_vOffsetRect(&Rect, -Rect.left, -Rect.top);
}
/*
* Set up the fonts (otherwise use default ones)
*/
/* Font for the principal version string */
hFont1 = GreCreateFontIndirectW(&gspv.ncm.lfCaptionFont);
/* Font for the secondary version strings */
hFont2 = GreCreateFontIndirectW(&gspv.ncm.lfMenuFont);
if (hFont1)
hOldFont = NtGdiSelectFont(hDC, hFont1);
if (gspv.hbmWallpaper == NULL)
{
/* Retrieve the brush fill colour */
// TODO: The following code constitutes "GreGetBrushColor".
PreviousBrush = NtGdiSelectBrush(hDC, DesktopBrush);
pdc = DC_LockDc(hDC);
if (pdc)
{
crText = pdc->eboFill.ulRGBColor;
DC_UnlockDc(pdc);
}
else
{
crText = RGB(0, 0, 0);
}
NtGdiSelectBrush(hDC, PreviousBrush);
/* Adjust text colour according to the brush */
if (GetRValue(crText) + GetGValue(crText) + GetBValue(crText) > 128 * 3)
crText = RGB(0, 0, 0);
else
crText = RGB(255, 255, 255);
}
else
{
/* Always use white when the text is displayed on top of a wallpaper */
crText = RGB(255, 255, 255);
}
color_old = IntGdiSetTextColor(hDC, crText);
align_old = IntGdiSetTextAlign(hDC, TA_RIGHT);
mode_old = IntGdiSetBkMode(hDC, TRANSPARENT);
/* Display the system version information */
if (!*wszzVersion)
{
Status = GetSystemVersionString(wszzVersion,
ARRAYSIZE(wszzVersion),
InSafeMode,
g_AlwaysDisplayVersion);
if (!InSafeMode && NT_SUCCESS(Status) && *wszzVersion)
{
PWCHAR pstr = wszzVersion;
for (i = 0; (i < ARRAYSIZE(VerStrs)) && *pstr; ++i)
{
VerStrs[i].n = lstrlenW(pstr);
VerStrs[i].lpstr = pstr;
pstr += (VerStrs[i].n + 1);
}
}
}
else
{
Status = STATUS_SUCCESS;
}
if (NT_SUCCESS(Status) && *wszzVersion)
{
if (!InSafeMode)
{
SIZE Size = {0, 0};
LONG TotalHeight = 0;
/* Normal Mode: multiple version information text separated by newlines */
IntGdiSetTextAlign(hDC, TA_RIGHT | TA_BOTTOM);
/* Compute the heights of the strings */
if (hFont1) NtGdiSelectFont(hDC, hFont1);
for (i = 0; i < ARRAYSIZE(VerStrs); ++i)
{
if (!VerStrs[i].lpstr || !*VerStrs[i].lpstr || (VerStrs[i].n == 0))
break;
GreGetTextExtentW(hDC, VerStrs[i].lpstr, VerStrs[i].n, &Size, 1);
VerStrs[i].y = Size.cy; // Store the string height
TotalHeight += Size.cy;
/* While the first string was using hFont1, all the others use hFont2 */
if (hFont2) NtGdiSelectFont(hDC, hFont2);
}
/* The total height must not exceed the screen height */
TotalHeight = min(TotalHeight, Rect.bottom);
/* Display the strings */
if (hFont1) NtGdiSelectFont(hDC, hFont1);
for (i = 0; i < ARRAYSIZE(VerStrs); ++i)
{
if (!VerStrs[i].lpstr || !*VerStrs[i].lpstr || (VerStrs[i].n == 0))
break;
TotalHeight -= VerStrs[i].y;
GreExtTextOutW(hDC,
Rect.right - 5,
Rect.bottom - TotalHeight - 5,
0, NULL,
VerStrs[i].lpstr,
VerStrs[i].n,
NULL, 0);
/* While the first string was using hFont1, all the others use hFont2 */
if (hFont2) NtGdiSelectFont(hDC, hFont2);
}
}
else
{
if (hFont1) NtGdiSelectFont(hDC, hFont1);
/* Safe Mode: single version information text in top center */
len = wcslen(wszzVersion);
IntGdiSetTextAlign(hDC, TA_CENTER | TA_TOP);
GreExtTextOutW(hDC, (Rect.right + Rect.left)/2, Rect.top + 3, 0, NULL, wszzVersion, len, NULL, 0);
}
}
if (InSafeMode)
{
if (hFont1) NtGdiSelectFont(hDC, hFont1);
/* Print Safe Mode text in corners */
len = wcslen(s_wszSafeMode);
IntGdiSetTextAlign(hDC, TA_LEFT | TA_TOP);
GreExtTextOutW(hDC, Rect.left, Rect.top + 3, 0, NULL, s_wszSafeMode, len, NULL, 0);
IntGdiSetTextAlign(hDC, TA_RIGHT | TA_TOP);
GreExtTextOutW(hDC, Rect.right, Rect.top + 3, 0, NULL, s_wszSafeMode, len, NULL, 0);
IntGdiSetTextAlign(hDC, TA_LEFT | TA_BOTTOM);
GreExtTextOutW(hDC, Rect.left, Rect.bottom - 5, 0, NULL, s_wszSafeMode, len, NULL, 0);
IntGdiSetTextAlign(hDC, TA_RIGHT | TA_BOTTOM);
GreExtTextOutW(hDC, Rect.right, Rect.bottom - 5, 0, NULL, s_wszSafeMode, len, NULL, 0);
}
IntGdiSetBkMode(hDC, mode_old);
IntGdiSetTextAlign(hDC, align_old);
IntGdiSetTextColor(hDC, color_old);
if (hFont2)
GreDeleteObject(hFont2);
if (hFont1)
{
NtGdiSelectFont(hDC, hOldFont);
GreDeleteObject(hFont1);
}
}
return TRUE;
}
static NTSTATUS
UserInitializeDesktop(PDESKTOP pdesk, PUNICODE_STRING DesktopName, PWINSTATION_OBJECT pwinsta)
{
PVOID DesktopHeapSystemBase = NULL;
ULONG_PTR HeapSize = gdwDesktopSectionSize * 1024;
SIZE_T DesktopInfoSize;
ULONG i;
TRACE("UserInitializeDesktop desktop 0x%p with name %wZ\n", pdesk, DesktopName);
RtlZeroMemory(pdesk, sizeof(DESKTOP));
/* Link the desktop with the parent window station */
ObReferenceObject(pwinsta);
pdesk->rpwinstaParent = pwinsta;
InsertTailList(&pwinsta->DesktopListHead, &pdesk->ListEntry);
/* Create the desktop heap */
pdesk->hsectionDesktop = NULL;
pdesk->pheapDesktop = UserCreateHeap(&pdesk->hsectionDesktop,
&DesktopHeapSystemBase,
HeapSize);
if (pdesk->pheapDesktop == NULL)
{
ERR("Failed to create desktop heap!\n");
return STATUS_NO_MEMORY;
}
/* Create DESKTOPINFO */
DesktopInfoSize = sizeof(DESKTOPINFO) + DesktopName->Length + sizeof(WCHAR);
pdesk->pDeskInfo = RtlAllocateHeap(pdesk->pheapDesktop,
HEAP_NO_SERIALIZE | HEAP_ZERO_MEMORY,
DesktopInfoSize);
if (pdesk->pDeskInfo == NULL)
{
ERR("Failed to create the DESKTOP structure!\n");
return STATUS_NO_MEMORY;
}
/* Initialize the DESKTOPINFO */
pdesk->pDeskInfo->pvDesktopBase = DesktopHeapSystemBase;
pdesk->pDeskInfo->pvDesktopLimit = (PVOID)((ULONG_PTR)DesktopHeapSystemBase + HeapSize);
RtlCopyMemory(pdesk->pDeskInfo->szDesktopName,
DesktopName->Buffer,
DesktopName->Length + sizeof(WCHAR));
for (i = 0; i < NB_HOOKS; i++)
{
InitializeListHead(&pdesk->pDeskInfo->aphkStart[i]);
}
InitializeListHead(&pdesk->ShellHookWindows);
InitializeListHead(&pdesk->PtiList);
return STATUS_SUCCESS;
}
/* SYSCALLS *******************************************************************/
/*
* NtUserCreateDesktop
*
* Creates a new desktop.
*
* Parameters
* poaAttribs
* Object Attributes.
*
* lpszDesktopDevice
* Name of the device.
*
* pDeviceMode
* Device Mode.
*
* dwFlags
* Interaction flags.
*
* dwDesiredAccess
* Requested type of access.
*
*
* Return Value
* If the function succeeds, the return value is a handle to the newly
* created desktop. If the specified desktop already exists, the function
* succeeds and returns a handle to the existing desktop. When you are
* finished using the handle, call the CloseDesktop function to close it.
* If the function fails, the return value is NULL.
*
* Status
* @implemented
*/
NTSTATUS
FASTCALL
IntCreateDesktop(
OUT HDESK* phDesktop,
IN POBJECT_ATTRIBUTES ObjectAttributes,
IN KPROCESSOR_MODE AccessMode,
IN PUNICODE_STRING lpszDesktopDevice OPTIONAL,
IN LPDEVMODEW lpdmw OPTIONAL,
IN DWORD dwFlags,
IN ACCESS_MASK dwDesiredAccess)
{
NTSTATUS Status;
PDESKTOP pdesk = NULL;
HDESK hDesk;
BOOLEAN Context = FALSE;
UNICODE_STRING ClassName;
LARGE_STRING WindowName;
BOOL NoHooks = FALSE;
PWND pWnd = NULL;
CREATESTRUCTW Cs;
PTHREADINFO ptiCurrent;
PCLS pcls;
TRACE("Enter IntCreateDesktop\n");
ASSERT(UserIsEnteredExclusive());
ASSERT(phDesktop);
*phDesktop = NULL;
ptiCurrent = PsGetCurrentThreadWin32Thread();
ASSERT(ptiCurrent);
ASSERT(gptiDesktopThread);
/* Turn off hooks when calling any CreateWindowEx from inside win32k */
NoHooks = (ptiCurrent->TIF_flags & TIF_DISABLEHOOKS);
ptiCurrent->TIF_flags |= TIF_DISABLEHOOKS;
ptiCurrent->pClientInfo->dwTIFlags = ptiCurrent->TIF_flags;
/*
* Try to open already existing desktop
*/
Status = ObOpenObjectByName(ObjectAttributes,
ExDesktopObjectType,
AccessMode,
NULL,
dwDesiredAccess,
(PVOID)&Context,
(PHANDLE)&hDesk);
if (!NT_SUCCESS(Status))
{
ERR("ObOpenObjectByName failed to open/create desktop\n");
goto Quit;
}
/* In case the object was not created (eg if it existed), return now */
if (Context == FALSE)
{
TRACE("IntCreateDesktop opened desktop '%wZ'\n", ObjectAttributes->ObjectName);
Status = STATUS_SUCCESS;
goto Quit;
}
/* Reference the desktop */
Status = ObReferenceObjectByHandle(hDesk,
0,
ExDesktopObjectType,
KernelMode,
(PVOID*)&pdesk,
NULL);
if (!NT_SUCCESS(Status))
{
ERR("Failed to reference desktop object\n");
goto Quit;
}
/* Get the desktop window class. The thread desktop does not belong to any desktop
* so the classes created there (including the desktop class) are allocated in the shared heap
* It would cause problems if we used a class that belongs to the caller
*/
ClassName.Buffer = WC_DESKTOP;
ClassName.Length = 0;
pcls = IntGetAndReferenceClass(&ClassName, 0, TRUE);
if (pcls == NULL)
{
ASSERT(FALSE);
Status = STATUS_UNSUCCESSFUL;
goto Quit;
}
RtlZeroMemory(&WindowName, sizeof(WindowName));
RtlZeroMemory(&Cs, sizeof(Cs));
Cs.x = UserGetSystemMetrics(SM_XVIRTUALSCREEN),
Cs.y = UserGetSystemMetrics(SM_YVIRTUALSCREEN),
Cs.cx = UserGetSystemMetrics(SM_CXVIRTUALSCREEN),
Cs.cy = UserGetSystemMetrics(SM_CYVIRTUALSCREEN),
Cs.style = WS_POPUP|WS_CLIPCHILDREN;
Cs.hInstance = hModClient; // hModuleWin; // Server side winproc!
Cs.lpszName = (LPCWSTR) &WindowName;
Cs.lpszClass = (LPCWSTR) &ClassName;
/* Use IntCreateWindow instead of co_UserCreateWindowEx because the later expects a thread with a desktop */
pWnd = IntCreateWindow(&Cs, &WindowName, pcls, NULL, NULL, NULL, pdesk, WINVER);
if (pWnd == NULL)
{
ERR("Failed to create desktop window for the new desktop\n");
Status = STATUS_UNSUCCESSFUL;
goto Quit;
}
pdesk->dwSessionId = PsGetCurrentProcessSessionId();
pdesk->DesktopWindow = pWnd->head.h;
pdesk->pDeskInfo->spwnd = pWnd;
pWnd->fnid = FNID_DESKTOP;
ClassName.Buffer = MAKEINTATOM(gpsi->atomSysClass[ICLS_HWNDMESSAGE]);
ClassName.Length = 0;
pcls = IntGetAndReferenceClass(&ClassName, 0, TRUE);
if (pcls == NULL)
{
ASSERT(FALSE);
Status = STATUS_UNSUCCESSFUL;
goto Quit;
}
RtlZeroMemory(&WindowName, sizeof(WindowName));
RtlZeroMemory(&Cs, sizeof(Cs));
Cs.cx = Cs.cy = 100;
Cs.style = WS_POPUP|WS_CLIPCHILDREN;
Cs.hInstance = hModClient; // hModuleWin; // Server side winproc!
Cs.lpszName = (LPCWSTR)&WindowName;
Cs.lpszClass = (LPCWSTR)&ClassName;
pWnd = IntCreateWindow(&Cs, &WindowName, pcls, NULL, NULL, NULL, pdesk, WINVER);
if (pWnd == NULL)
{
ERR("Failed to create message window for the new desktop\n");
Status = STATUS_UNSUCCESSFUL;
goto Quit;
}
pdesk->spwndMessage = pWnd;
pWnd->fnid = FNID_MESSAGEWND;
/* Now...
if !(WinStaObject->Flags & WSF_NOIO) is (not set) for desktop input output mode (see wiki)
Create Tooltip. Saved in DesktopObject->spwndTooltip.
Tooltip dwExStyle: WS_EX_TOOLWINDOW|WS_EX_TOPMOST
hWndParent are spwndMessage. Use hModuleWin for server side winproc!
The rest is same as message window.
http://msdn.microsoft.com/en-us/library/bb760250(VS.85).aspx
*/
Status = STATUS_SUCCESS;
Quit:
if (pdesk != NULL)
{
ObDereferenceObject(pdesk);
}
if (!NT_SUCCESS(Status) && hDesk != NULL)
{
ObCloseHandle(hDesk, AccessMode);
hDesk = NULL;
}
if (!NoHooks)
{
ptiCurrent->TIF_flags &= ~TIF_DISABLEHOOKS;
ptiCurrent->pClientInfo->dwTIFlags = ptiCurrent->TIF_flags;
}
TRACE("Leave IntCreateDesktop, Status 0x%08lx\n", Status);
if (NT_SUCCESS(Status))
*phDesktop = hDesk;
else
SetLastNtError(Status);
return Status;
}
HDESK APIENTRY
NtUserCreateDesktop(
POBJECT_ATTRIBUTES ObjectAttributes,
PUNICODE_STRING lpszDesktopDevice,
LPDEVMODEW lpdmw,
DWORD dwFlags,
ACCESS_MASK dwDesiredAccess)
{
NTSTATUS Status;
HDESK hDesk;
DECLARE_RETURN(HDESK);
TRACE("Enter NtUserCreateDesktop\n");
UserEnterExclusive();
Status = IntCreateDesktop(&hDesk,
ObjectAttributes,
UserMode,
lpszDesktopDevice,
lpdmw,
dwFlags,
dwDesiredAccess);
if (!NT_SUCCESS(Status))
{
ERR("IntCreateDesktop failed, Status 0x%08lx\n", Status);
// SetLastNtError(Status);
RETURN(NULL);
}
RETURN(hDesk);
CLEANUP:
TRACE("Leave NtUserCreateDesktop, ret=0x%p\n", _ret_);
UserLeave();
END_CLEANUP;
}
/*
* NtUserOpenDesktop
*
* Opens an existing desktop.
*
* Parameters
* lpszDesktopName
* Name of the existing desktop.
*
* dwFlags
* Interaction flags.
*
* dwDesiredAccess
* Requested type of access.
*
* Return Value
* Handle to the desktop or zero on failure.
*
* Status
* @implemented
*/
HDESK APIENTRY
NtUserOpenDesktop(
POBJECT_ATTRIBUTES ObjectAttributes,
DWORD dwFlags,
ACCESS_MASK dwDesiredAccess)
{
NTSTATUS Status;
HDESK Desktop;
Status = ObOpenObjectByName(
ObjectAttributes,
ExDesktopObjectType,
UserMode,
NULL,
dwDesiredAccess,
NULL,
(HANDLE*)&Desktop);
if (!NT_SUCCESS(Status))
{
ERR("Failed to open desktop\n");
SetLastNtError(Status);
return NULL;
}
TRACE("Opened desktop %S with handle 0x%p\n", ObjectAttributes->ObjectName->Buffer, Desktop);
return Desktop;
}
HDESK UserOpenInputDesktop(DWORD dwFlags,
BOOL fInherit,
ACCESS_MASK dwDesiredAccess)
{
PTHREADINFO pti = PsGetCurrentThreadWin32Thread();
NTSTATUS Status;
ULONG HandleAttributes = 0;
HDESK hdesk = NULL;
if (!gpdeskInputDesktop)
{
return NULL;
}
if (pti->ppi->prpwinsta != InputWindowStation)
{
ERR("Tried to open input desktop from non interactive winsta!\n");
EngSetLastError(ERROR_INVALID_FUNCTION);
return NULL;
}
if (fInherit) HandleAttributes = OBJ_INHERIT;
/* Create a new handle to the object */
Status = ObOpenObjectByPointer(
gpdeskInputDesktop,
HandleAttributes,
NULL,
dwDesiredAccess,
ExDesktopObjectType,
UserMode,
(PHANDLE)&hdesk);
if (!NT_SUCCESS(Status))
{
ERR("Failed to open input desktop object\n");
SetLastNtError(Status);
}
return hdesk;
}
/*
* NtUserOpenInputDesktop
*
* Opens the input (interactive) desktop.
*
* Parameters
* dwFlags
* Interaction flags.
*
* fInherit
* Inheritance option.
*
* dwDesiredAccess
* Requested type of access.
*
* Return Value
* Handle to the input desktop or zero on failure.
*
* Status
* @implemented
*/
HDESK APIENTRY
NtUserOpenInputDesktop(
DWORD dwFlags,
BOOL fInherit,
ACCESS_MASK dwDesiredAccess)
{
HDESK hdesk;
UserEnterExclusive();
TRACE("Enter NtUserOpenInputDesktop gpdeskInputDesktop 0x%p\n", gpdeskInputDesktop);
hdesk = UserOpenInputDesktop(dwFlags, fInherit, dwDesiredAccess);
TRACE("NtUserOpenInputDesktop returning 0x%p\n", hdesk);
UserLeave();
return hdesk;
}
/*
* NtUserCloseDesktop
*
* Closes a desktop handle.
*
* Parameters
* hDesktop
* Handle to the desktop.
*
* Return Value
* Status
*
* Remarks
* The desktop handle can be created with NtUserCreateDesktop or
* NtUserOpenDesktop. This function will fail if any thread in the calling
* process is using the specified desktop handle or if the handle refers
* to the initial desktop of the calling process.
*
* Status
* @implemented
*/
BOOL APIENTRY
NtUserCloseDesktop(HDESK hDesktop)
{
PDESKTOP pdesk;
NTSTATUS Status;
DECLARE_RETURN(BOOL);
TRACE("NtUserCloseDesktop(0x%p) called\n", hDesktop);
UserEnterExclusive();
if (hDesktop == gptiCurrent->hdesk || hDesktop == gptiCurrent->ppi->hdeskStartup)
{
ERR("Attempted to close thread desktop\n");
EngSetLastError(ERROR_BUSY);
RETURN(FALSE);
}
Status = IntValidateDesktopHandle(hDesktop, UserMode, 0, &pdesk);
if (!NT_SUCCESS(Status))
{
ERR("Validation of desktop handle 0x%p failed\n", hDesktop);
RETURN(FALSE);
}
ObDereferenceObject(pdesk);
Status = ObCloseHandle(hDesktop, UserMode);
if (!NT_SUCCESS(Status))
{
ERR("Failed to close desktop handle 0x%p\n", hDesktop);
SetLastNtError(Status);
RETURN(FALSE);
}
RETURN(TRUE);
CLEANUP:
TRACE("Leave NtUserCloseDesktop, ret=%i\n", _ret_);
UserLeave();
END_CLEANUP;
}
/*
* NtUserPaintDesktop
*
* The NtUserPaintDesktop function fills the clipping region in the
* specified device context with the desktop pattern or wallpaper. The
* function is provided primarily for shell desktops.
*
* Parameters
* hDC
* Handle to the device context.
*
* Status
* @implemented
*/
BOOL APIENTRY
NtUserPaintDesktop(HDC hDC)
{
BOOL Ret;
UserEnterExclusive();
TRACE("Enter NtUserPaintDesktop\n");
Ret = IntPaintDesktop(hDC);
TRACE("Leave NtUserPaintDesktop, ret=%i\n", Ret);
UserLeave();
return Ret;
}
/*
* NtUserResolveDesktop
*
* The NtUserResolveDesktop function attempts to retrieve valid handles to
* a desktop and a window station suitable for the specified process.
* The specified desktop path string is used only as a hint for the resolution.
*
* See the description of IntResolveDesktop for more details.
*
* Parameters
* ProcessHandle
* Handle to a user process.
*
* DesktopPath
* The desktop path string used as a hint for desktop resolution.
*
* bInherit
* Whether or not the returned handles are inheritable.
*
* phWinSta
* Pointer to a window station handle.
*
* Return Value
* Handle to the desktop (direct return value) and
* handle to the associated window station (by pointer).
* NULL in case of failure.
*
* Remarks
* Callable by CSRSS only.
*
* Status
* @implemented
*/
HDESK
NTAPI
NtUserResolveDesktop(
IN HANDLE ProcessHandle,
IN PUNICODE_STRING DesktopPath,
IN BOOL bInherit,
OUT HWINSTA* phWinSta)
{
NTSTATUS Status;
PEPROCESS Process;
HWINSTA hWinSta = NULL;
HDESK hDesktop = NULL;
UNICODE_STRING CapturedDesktopPath;
/* Allow only the Console Server to perform this operation (via CSRSS) */
if (PsGetCurrentProcess() != gpepCSRSS)
return NULL;
/* Get the process object the user handle was referencing */
Status = ObReferenceObjectByHandle(ProcessHandle,
PROCESS_QUERY_INFORMATION,
*PsProcessType,
UserMode,
(PVOID*)&Process,
NULL);
if (!NT_SUCCESS(Status))
return NULL;
UserEnterExclusive();
_SEH2_TRY
{
/* Probe the handle pointer */
// ProbeForWriteHandle
ProbeForWrite(phWinSta, sizeof(HWINSTA), sizeof(HWINSTA));
}
_SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER)
{
Status = _SEH2_GetExceptionCode();
_SEH2_YIELD(goto Quit);
}
_SEH2_END;
/* Capture the user desktop path string */
Status = ProbeAndCaptureUnicodeString(&CapturedDesktopPath,
UserMode,
DesktopPath);
if (!NT_SUCCESS(Status))
goto Quit;
/* Call the internal function */
Status = IntResolveDesktop(Process,
&CapturedDesktopPath,
bInherit,
&hWinSta,
&hDesktop);
if (!NT_SUCCESS(Status))
{
ERR("IntResolveDesktop failed, Status 0x%08lx\n", Status);
hWinSta = NULL;
hDesktop = NULL;
}
_SEH2_TRY
{
/* Return the window station handle */
*phWinSta = hWinSta;
}
_SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER)
{
Status = _SEH2_GetExceptionCode();
/* We failed, close the opened desktop and window station */
if (hDesktop) ObCloseHandle(hDesktop, UserMode);
hDesktop = NULL;
if (hWinSta) ObCloseHandle(hWinSta, UserMode);
}
_SEH2_END;
/* Free the captured string */
ReleaseCapturedUnicodeString(&CapturedDesktopPath, UserMode);
Quit:
UserLeave();
/* Dereference the process object */
ObDereferenceObject(Process);
/* Return the desktop handle */
return hDesktop;
}
/*
* NtUserSwitchDesktop
*
* Sets the current input (interactive) desktop.
*
* Parameters
* hDesktop
* Handle to desktop.
*
* Return Value
* Status
*
* Status
* @unimplemented
*/
BOOL APIENTRY
NtUserSwitchDesktop(HDESK hdesk)
{
PDESKTOP pdesk;
NTSTATUS Status;
BOOL bRedrawDesktop;
DECLARE_RETURN(BOOL);
UserEnterExclusive();
TRACE("Enter NtUserSwitchDesktop(0x%p)\n", hdesk);
Status = IntValidateDesktopHandle(hdesk, UserMode, 0, &pdesk);
if (!NT_SUCCESS(Status))
{
ERR("Validation of desktop handle 0x%p failed\n", hdesk);
RETURN(FALSE);
}
if (PsGetCurrentProcessSessionId() != pdesk->rpwinstaParent->dwSessionId)
{
ObDereferenceObject(pdesk);
ERR("NtUserSwitchDesktop called for a desktop of a different session\n");
RETURN(FALSE);
}
if (pdesk == gpdeskInputDesktop)
{
ObDereferenceObject(pdesk);
WARN("NtUserSwitchDesktop called for active desktop\n");
RETURN(TRUE);
}
/*
* Don't allow applications switch the desktop if it's locked, unless the caller
* is the logon application itself
*/
if ((pdesk->rpwinstaParent->Flags & WSS_LOCKED) &&
gpidLogon != PsGetCurrentProcessId())
{
ObDereferenceObject(pdesk);
ERR("Switching desktop 0x%p denied because the window station is locked!\n", hdesk);
RETURN(FALSE);
}
if (pdesk->rpwinstaParent != InputWindowStation)
{
ObDereferenceObject(pdesk);
ERR("Switching desktop 0x%p denied because desktop doesn't belong to the interactive winsta!\n", hdesk);
RETURN(FALSE);
}
/* FIXME: Fail if the process is associated with a secured
desktop such as Winlogon or Screen-Saver */
/* FIXME: Connect to input device */
TRACE("Switching from desktop 0x%p to 0x%p\n", gpdeskInputDesktop, pdesk);
bRedrawDesktop = FALSE;
/* The first time SwitchDesktop is called, gpdeskInputDesktop is NULL */
if (gpdeskInputDesktop != NULL)
{
if ((gpdeskInputDesktop->pDeskInfo->spwnd->style & WS_VISIBLE) == WS_VISIBLE)
bRedrawDesktop = TRUE;
/* Hide the previous desktop window */
IntHideDesktop(gpdeskInputDesktop);
}
/* Set the active desktop in the desktop's window station. */
InputWindowStation->ActiveDesktop = pdesk;
/* Set the global state. */
gpdeskInputDesktop = pdesk;
/* Show the new desktop window */
co_IntShowDesktop(pdesk, UserGetSystemMetrics(SM_CXSCREEN), UserGetSystemMetrics(SM_CYSCREEN), bRedrawDesktop);
TRACE("SwitchDesktop gpdeskInputDesktop 0x%p\n", gpdeskInputDesktop);
ObDereferenceObject(pdesk);
RETURN(TRUE);
CLEANUP:
TRACE("Leave NtUserSwitchDesktop, ret=%i\n", _ret_);
UserLeave();
END_CLEANUP;
}
/*
* NtUserGetThreadDesktop
*
* Status
* @implemented
*/
HDESK APIENTRY
NtUserGetThreadDesktop(DWORD dwThreadId, HDESK hConsoleDesktop)
{
HDESK hDesk;
NTSTATUS Status;
PTHREADINFO pti;
PEPROCESS Process;
PDESKTOP DesktopObject;
OBJECT_HANDLE_INFORMATION HandleInformation;
UserEnterExclusive();
TRACE("Enter NtUserGetThreadDesktop\n");
if (!dwThreadId)
{
EngSetLastError(ERROR_INVALID_PARAMETER);
hDesk = NULL;
goto Quit;
}
/* Validate the Win32 thread and retrieve its information */
pti = IntTID2PTI(UlongToHandle(dwThreadId));
if (pti)
{
/* Get the desktop handle of the thread */
hDesk = pti->hdesk;
Process = pti->ppi->peProcess;
}
else if (hConsoleDesktop)
{
/*
* The thread may belong to a console, so attempt to use the provided
* console desktop handle as a fallback. Otherwise this means that the
* thread is either not Win32 or invalid.
*/
hDesk = hConsoleDesktop;
Process = gpepCSRSS;
}
else
{
EngSetLastError(ERROR_INVALID_PARAMETER);
hDesk = NULL;
goto Quit;
}
if (!hDesk)
{
ERR("Desktop information of thread 0x%x broken!?\n", dwThreadId);
goto Quit;
}
if (Process == PsGetCurrentProcess())
{
/*
* Just return the handle, since we queried the desktop handle
* of a thread running in the same context.
*/
goto Quit;
}
/*
* We could just use the cached rpdesk instead of looking up the handle,
* but it may actually be safer to validate the desktop and get a temporary
* reference to it so that it does not disappear under us (e.g. when the
* desktop is being destroyed) during the operation.
*/
/*
* Switch into the context of the thread we are trying to get
* the desktop from, so we can use the handle.
*/
KeAttachProcess(&Process->Pcb);
Status = ObReferenceObjectByHandle(hDesk,
0,
ExDesktopObjectType,
UserMode,
(PVOID*)&DesktopObject,
&HandleInformation);
KeDetachProcess();
if (NT_SUCCESS(Status))
{
/*
* Lookup our handle table if we can find a handle to the desktop object.
* If not, create one.
* QUESTION: Do we really need to create a handle in case it doesn't exist??
*/
hDesk = IntGetDesktopObjectHandle(DesktopObject);
/* All done, we got a valid handle to the desktop */
ObDereferenceObject(DesktopObject);
}
else
{
/* The handle could not be found, there is nothing to get... */
hDesk = NULL;
}
if (!hDesk)
{
ERR("Could not retrieve or access desktop for thread 0x%x\n", dwThreadId);
EngSetLastError(ERROR_ACCESS_DENIED);
}
Quit:
TRACE("Leave NtUserGetThreadDesktop, hDesk = 0x%p\n", hDesk);
UserLeave();
return hDesk;
}
static NTSTATUS
IntUnmapDesktopView(IN PDESKTOP pdesk)
{
PPROCESSINFO ppi;
PW32HEAP_USER_MAPPING HeapMapping, *PrevLink;
NTSTATUS Status = STATUS_SUCCESS;
TRACE("IntUnmapDesktopView called for desktop object %p\n", pdesk);
ppi = PsGetCurrentProcessWin32Process();
/*
* Unmap if we're the last thread using the desktop.
* Start the search at the next mapping: skip the first entry
* as it must be the global user heap mapping.
*/
PrevLink = &ppi->HeapMappings.Next;
HeapMapping = *PrevLink;
while (HeapMapping != NULL)
{
if (HeapMapping->KernelMapping == (PVOID)pdesk->pheapDesktop)
{
if (--HeapMapping->Count == 0)
{
*PrevLink = HeapMapping->Next;
TRACE("ppi 0x%p unmapped heap of desktop 0x%p\n", ppi, pdesk);
Status = MmUnmapViewOfSection(PsGetCurrentProcess(),
HeapMapping->UserMapping);
ObDereferenceObject(pdesk);
UserHeapFree(HeapMapping);
break;
}
}
PrevLink = &HeapMapping->Next;
HeapMapping = HeapMapping->Next;
}
return Status;
}
static NTSTATUS
IntMapDesktopView(IN PDESKTOP pdesk)
{
PPROCESSINFO ppi;
PW32HEAP_USER_MAPPING HeapMapping, *PrevLink;
PVOID UserBase = NULL;
SIZE_T ViewSize = 0;
LARGE_INTEGER Offset;
NTSTATUS Status;
TRACE("IntMapDesktopView called for desktop object 0x%p\n", pdesk);
ppi = PsGetCurrentProcessWin32Process();
/*
* Find out if another thread already mapped the desktop heap.
* Start the search at the next mapping: skip the first entry
* as it must be the global user heap mapping.
*/
PrevLink = &ppi->HeapMappings.Next;
HeapMapping = *PrevLink;
while (HeapMapping != NULL)
{
if (HeapMapping->KernelMapping == (PVOID)pdesk->pheapDesktop)
{
HeapMapping->Count++;
return STATUS_SUCCESS;
}
PrevLink = &HeapMapping->Next;
HeapMapping = HeapMapping->Next;
}
/* We're the first, map the heap */
Offset.QuadPart = 0;
Status = MmMapViewOfSection(pdesk->hsectionDesktop,
PsGetCurrentProcess(),
&UserBase,
0,
0,
&Offset,
&ViewSize,
ViewUnmap,
SEC_NO_CHANGE,
PAGE_EXECUTE_READ); /* Would prefer PAGE_READONLY, but thanks to RTL heaps... */
if (!NT_SUCCESS(Status))
{
ERR("Failed to map desktop\n");
return Status;
}
TRACE("ppi 0x%p mapped heap of desktop 0x%p\n", ppi, pdesk);
/* Add the mapping */
HeapMapping = UserHeapAlloc(sizeof(*HeapMapping));
if (HeapMapping == NULL)
{
MmUnmapViewOfSection(PsGetCurrentProcess(), UserBase);
ERR("UserHeapAlloc() failed!\n");
return STATUS_NO_MEMORY;
}
HeapMapping->Next = NULL;
HeapMapping->KernelMapping = (PVOID)pdesk->pheapDesktop;
HeapMapping->UserMapping = UserBase;
HeapMapping->Limit = ViewSize;
HeapMapping->Count = 1;
*PrevLink = HeapMapping;
ObReferenceObject(pdesk);
return STATUS_SUCCESS;
}
BOOL
IntSetThreadDesktop(IN HDESK hDesktop,
IN BOOL FreeOnFailure)
{
PDESKTOP pdesk = NULL, pdeskOld;
PTHREADINFO pti;
NTSTATUS Status;
PCLIENTTHREADINFO pctiOld, pctiNew = NULL;
PCLIENTINFO pci;
ASSERT(NtCurrentTeb());
TRACE("IntSetThreadDesktop hDesktop:0x%p, FOF:%i\n",hDesktop, FreeOnFailure);
pti = PsGetCurrentThreadWin32Thread();
pci = pti->pClientInfo;
/* If the caller gave us a desktop, ensure it is valid */
if (hDesktop != NULL)
{
/* Validate the new desktop. */
Status = IntValidateDesktopHandle(hDesktop, UserMode, 0, &pdesk);
if (!NT_SUCCESS(Status))
{
ERR("Validation of desktop handle 0x%p failed\n", hDesktop);
return FALSE;
}
if (pti->rpdesk == pdesk)
{
/* Nothing to do */
ObDereferenceObject(pdesk);
return TRUE;
}
}
/* Make sure that we don't own any window in the current desktop */
if (!IsListEmpty(&pti->WindowListHead))
{
if (pdesk)
ObDereferenceObject(pdesk);
ERR("Attempted to change thread desktop although the thread has windows!\n");
EngSetLastError(ERROR_BUSY);
return FALSE;
}
/* Desktop is being re-set so clear out foreground. */
if (pti->rpdesk != pdesk && pti->MessageQueue == gpqForeground)
{
// Like above, there shouldn't be any windows, hooks or anything active on this threads desktop!
IntSetFocusMessageQueue(NULL);
}
/* Before doing the switch, map the new desktop heap and allocate the new pcti */
if (pdesk != NULL)
{
Status = IntMapDesktopView(pdesk);
if (!NT_SUCCESS(Status))
{
ERR("Failed to map desktop heap!\n");
ObDereferenceObject(pdesk);
SetLastNtError(Status);
return FALSE;
}
pctiNew = DesktopHeapAlloc(pdesk, sizeof(CLIENTTHREADINFO));
if (pctiNew == NULL)
{
ERR("Failed to allocate new pcti\n");
IntUnmapDesktopView(pdesk);
ObDereferenceObject(pdesk);
EngSetLastError(ERROR_NOT_ENOUGH_MEMORY);
return FALSE;
}
}
/*
* Processes, in particular Winlogon.exe, that manage window stations
* (especially the interactive WinSta0 window station) and desktops,
* may not be able to connect at startup to a window station and have
* an associated desktop as well, if none exists on the system already.
* Because creating a new window station does not affect the window station
* associated to the process, and because neither by associating a window
* station to the process nor creating a new desktop on it does associate
* a startup desktop to that process, the process has to actually assigns
* one of its threads to a desktop so that it gets automatically an assigned
* startup desktop.
*
* This is what actually happens for Winlogon.exe, which is started without
* any window station and desktop. By creating the first (and therefore
* interactive) WinSta0 window station, then assigning WinSta0 to itself
* and creating the Default desktop on it, and then assigning this desktop
* to its main thread, Winlogon.exe basically does the similar steps that
* would have been done automatically at its startup if there were already
* an existing WinSta0 window station and Default desktop.
*
* Of course all this must not be done if we are a SYSTEM or CSRSS thread.
*/
// if (pti->ppi->peProcess != gpepCSRSS)
if (!(pti->TIF_flags & (TIF_SYSTEMTHREAD | TIF_CSRSSTHREAD)) &&
pti->ppi->rpdeskStartup == NULL && hDesktop != NULL)
{
ERR("The process 0x%p '%s' didn't have an assigned startup desktop before, assigning it now!\n",
pti->ppi->peProcess, pti->ppi->peProcess->ImageFileName);
pti->ppi->hdeskStartup = hDesktop;
pti->ppi->rpdeskStartup = pdesk;
}
/* free all classes or move them to the shared heap */
if (pti->rpdesk != NULL)
{
if (!IntCheckProcessDesktopClasses(pti->rpdesk, FreeOnFailure))
{
ERR("Failed to move process classes to shared heap!\n");
if (pdesk)
{
DesktopHeapFree(pdesk, pctiNew);
IntUnmapDesktopView(pdesk);
ObDereferenceObject(pdesk);
}
return FALSE;
}
}
pdeskOld = pti->rpdesk;
if (pti->pcti != &pti->cti)
pctiOld = pti->pcti;
else
pctiOld = NULL;
/* do the switch */
if (pdesk != NULL)
{
pti->rpdesk = pdesk;
pti->hdesk = hDesktop;
pti->pDeskInfo = pti->rpdesk->pDeskInfo;
pti->pcti = pctiNew;
pci->ulClientDelta = DesktopHeapGetUserDelta();
pci->pDeskInfo = (PVOID)((ULONG_PTR)pti->pDeskInfo - pci->ulClientDelta);
pci->pClientThreadInfo = (PVOID)((ULONG_PTR)pti->pcti - pci->ulClientDelta);
/* initialize the new pcti */
if (pctiOld != NULL)
{
RtlCopyMemory(pctiNew, pctiOld, sizeof(CLIENTTHREADINFO));
}
else
{
RtlZeroMemory(pctiNew, sizeof(CLIENTTHREADINFO));
pci->fsHooks = pti->fsHooks;
pci->dwTIFlags = pti->TIF_flags;
}
}
else
{
pti->rpdesk = NULL;
pti->hdesk = NULL;
pti->pDeskInfo = NULL;
pti->pcti = &pti->cti; // Always point inside so there will be no crash when posting or sending msg's!
pci->ulClientDelta = 0;
pci->pDeskInfo = NULL;
pci->pClientThreadInfo = NULL;
}
/* clean up the old desktop */
if (pdeskOld != NULL)
{
RemoveEntryList(&pti->PtiLink);
if (pctiOld) DesktopHeapFree(pdeskOld, pctiOld);
IntUnmapDesktopView(pdeskOld);
ObDereferenceObject(pdeskOld);
}
if (pdesk)
{
InsertTailList(&pdesk->PtiList, &pti->PtiLink);
}
TRACE("IntSetThreadDesktop: pti 0x%p ppi 0x%p switched from object 0x%p to 0x%p\n", pti, pti->ppi, pdeskOld, pdesk);
return TRUE;
}
/*
* NtUserSetThreadDesktop
*
* Status
* @implemented
*/
BOOL APIENTRY
NtUserSetThreadDesktop(HDESK hDesktop)
{
BOOL ret = FALSE;
UserEnterExclusive();
// FIXME: IntSetThreadDesktop validates the desktop handle, it should happen
// here too and set the NT error level. Q. Is it necessary to have the validation
// in IntSetThreadDesktop? Is it needed there too?
if (hDesktop || (!hDesktop && PsGetCurrentProcess() == gpepCSRSS))
ret = IntSetThreadDesktop(hDesktop, FALSE);
UserLeave();
return ret;
}
/* EOF */
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