#include "precomp.h" #include #include #ifndef DM_POSITION #define DM_POSITION 0x00000020L #endif // // OSI.CPP // OS Isolation layer, NT version // // Copyright(c) Microsoft 1997- // #include #include #include #define MLZ_FILE_ZONE ZONE_CORE // // NT 5.0 app sharing stuff. // typedef BOOL (WINAPI * FN_ENUMDD)(LPVOID, DWORD, LPDISPLAY_DEVICE, DWORD); // // SALEM BUGBUG // This string must be IDENTICAL to that from \ntx.reg, the key which // is installed into the registry for the "Device Description" value // static TCHAR s_szNmDD[] = "Salem sharing driver"; // // OSI_Load() // This handles our process attach. We figure out if this is NT5 or not // void OSI_Load(void) { OSVERSIONINFO osVersion; ZeroMemory(&osVersion, sizeof(osVersion)); osVersion.dwOSVersionInfoSize = sizeof(osVersion); GetVersionEx(&osVersion); ASSERT(osVersion.dwPlatformId == VER_PLATFORM_WIN32_NT); if (osVersion.dwMajorVersion >= 5) g_asNT5 = TRUE; } // // OSI_Unload() // This handles our process detach. We currently do nothing. // void OSI_Unload(void) { return; } // // OSI_InitDriver50() // // Attemps to dynamically load/unload our display driver for NT 5.0. This is // called on the main thread, and if under a service, on the winlogon // thread also. It will only succeed on the input focus desktop. // void OSI_InitDriver50(BOOL fInit) { DWORD iEnum; DISPLAY_DEVICE dd; DEVMODE devmode; FN_ENUMDD pfnEnumDD; DebugEntry(OSI_InitDriver50); ASSERT(g_asNT5); pfnEnumDD = (FN_ENUMDD)GetProcAddress(GetModuleHandle("USER32.DLL"), "EnumDisplayDevicesA"); if (pfnEnumDD != NULL) { ZeroMemory(&dd, sizeof(dd)); dd.cb = sizeof(dd); iEnum = 0; while (pfnEnumDD(NULL, iEnum++, &dd, 0)) { if ((dd.StateFlags & DISPLAY_DEVICE_MIRRORING_DRIVER) && !lstrcmpi((LPCSTR)dd.DeviceString, s_szNmDD)) { LONG lResult; // // There may be multiple monitors, drivers, etc. // We have to actually tell the system what bit depth, // format, etc. our driver wants just like if we were // a real driver. We therefore always ask to get 24bpp // format info, no myriad 16bpp and 32bpp formats to deal // with anymore. // // Also, no more 4bpp not VGA nonsense either--just 8 or 24. // ZeroMemory(&devmode, sizeof(devmode)); devmode.dmSize = sizeof(devmode); devmode.dmFields = DM_POSITION | DM_BITSPERPEL | DM_PELSWIDTH | DM_PELSHEIGHT; if (fInit) { // // Fill in fields to get driver attached. // if (g_usrCaptureBPP <= 8) g_usrCaptureBPP = 8; else g_usrCaptureBPP = 24; devmode.dmBitsPerPel = g_usrCaptureBPP; // devmode.dmPosition is (0, 0), this means "primary" devmode.dmPelsWidth = GetSystemMetrics(SM_CXSCREEN); devmode.dmPelsHeight = GetSystemMetrics(SM_CYSCREEN); } // // This simply changes the state in the registry from // attached to unattached, without the system actually // reflecting the change. If/when we have multiple // listings for our shadow driver, move the CDS(NULL, 0) // call outside the loop, and get rid of the break. // lResult = ChangeDisplaySettingsEx((LPCSTR)dd.DeviceName, &devmode, NULL, CDS_UPDATEREGISTRY | CDS_NORESET, NULL); if (lResult != DISP_CHANGE_SUCCESSFUL) { WARNING_OUT(("ChangeDisplaySettingsEx failed, error %d", lResult)); } else { // // This causes Windows to actually go reread the registry and // update the current display to reflect the attached items, // positions, sizes, and color depths. // ChangeDisplaySettings(NULL, 0); #ifdef _DEBUG if (fInit) { HDC hdc; // // Create a temp DC based on this driver and make sure // the settings matched what we asked for. // hdc = CreateDC(NULL, (LPCSTR)dd.DeviceName, NULL, NULL); if (!hdc) { WARNING_OUT(("OSI_Init: dynamic display driver load failed")); } else { ASSERT(GetDeviceCaps(hdc, HORZRES) == (int)devmode.dmPelsWidth); ASSERT(GetDeviceCaps(hdc, VERTRES) == (int)devmode.dmPelsHeight); ASSERT(GetDeviceCaps(hdc, BITSPIXEL) * GetDeviceCaps(hdc, PLANES) == (int)g_usrCaptureBPP); DeleteDC(hdc); } } #endif // _DEBUG // // Tell MNMHOOK_ the name of our driver so it can talk // to it via ExtEscape. // OSI_SetDriverName(fInit ? (LPCSTR)dd.DeviceName : NULL); } break; } } } DebugExitVOID(OSI_InitDriver50); } // // OSI_Init - see osi.h // void OSI_Init(void) { UINT i; OSI_INIT_REQUEST requestBuffer; DebugEntry(OSI_Init); // // First, setup up pointer to shared data. This data lives here in NT. // #ifdef DEBUG g_imSharedData.cbSize = sizeof(g_imSharedData); #endif g_lpimSharedData = &g_imSharedData; requestBuffer.result = FALSE; requestBuffer.pSharedMemory = NULL; requestBuffer.poaData[0] = NULL; requestBuffer.poaData[1] = NULL; requestBuffer.sbcEnabled = FALSE; for (i = 0; i < SBC_NUM_TILE_SIZES; i++) { ASSERT(!g_asbcShuntBuffers[i]); requestBuffer.psbcTileData[i] = NULL; } // // Do this FIRST. On NT5, only threads on the desktop with input // can succeed at calling ChangeDisplaySettings. So like other things, // we must try to dynamically load/unload our driver on both desks. // // // Create the winlogon desktop event injection helper thread // only if we're started as a service. Note that it will try to // load display at start too. // ASSERT(!g_imNTData.imOtherDesktopThread); if (g_asOptions & AS_SERVICE) { WARNING_OUT(("Starting other desktop thread for SERVICE")); if (!DCS_StartThread(IMOtherDesktopProc)) { WARNING_OUT(( "Failed to create other desktop IM thread")); DC_QUIT; } } // // DO THIS ONLY FOR NT5 // We are going to enumerate all the entries for our shadow driver // (currently only one) and attach each to the actual display. // if (g_asNT5) { OSI_InitDriver50(TRUE); } DC_EXIT_POINT: g_osiInitialized = OSI_FunctionRequest(OSI_ESC_INIT, (LPOSI_ESCAPE_HEADER)&requestBuffer, sizeof(requestBuffer)); if (!g_osiInitialized) { WARNING_OUT(("OSI_ESC_INIT: display driver not present")); } else { if (requestBuffer.result) { g_asCanHost = TRUE; // // Got shared memory pointers; keep them around // g_asSharedMemory = (LPSHM_SHARED_MEMORY)requestBuffer.pSharedMemory; ASSERT(g_asSharedMemory); g_poaData[0] = (LPOA_SHARED_DATA)requestBuffer.poaData[0]; ASSERT(g_poaData[0]); g_poaData[1] = (LPOA_SHARED_DATA)requestBuffer.poaData[1]; ASSERT(g_poaData[1]); g_sbcEnabled = requestBuffer.sbcEnabled; if (g_sbcEnabled) { // // Get shunt buffers // for (i = 0; i < SBC_NUM_TILE_SIZES; i++) { g_asbcShuntBuffers[i] = (LPSBC_SHUNT_BUFFER)requestBuffer.psbcTileData[i]; ASSERT(g_asbcShuntBuffers[i]); TRACE_OUT(("OSI_Init: sbc shunt buffer %d: entries %08d, bytes 0x%08x", i, g_asbcShuntBuffers[i]->numEntries, g_asbcShuntBuffers[i]->numBytes)); } for (i = 0; i < 3; i++) { g_asbcBitMasks[i] = requestBuffer.aBitmasks[i]; } } } } if (g_asCanHost) { ASSERT(g_asMainWindow); } DebugExitVOID(OSI_Init); } // // OSI_Term - see osi.h // void OSI_Term(void) { UINT i; DebugEntry(OSI_Term); // // This can be called on multiple threads: // * The main DCS thread // * The last thread of the process causing us to get a process // detach. // We call it in the latter case also to make sure we cleanup properly. // ASSERT(GetCurrentThreadId() == g_asMainThreadId); // // Kill the other desktop thread if it's around. // if (g_imNTData.imOtherDesktopThread != 0) { ASSERT(g_asOptions & AS_SERVICE); PostThreadMessage(g_imNTData.imOtherDesktopThread, WM_QUIT, 0, 0); while (g_imNTData.imOtherDesktopThread) { WARNING_OUT(("OSI_Term: waiting for other desktop thread to exit")); Sleep(1); } } if (g_osiInitialized) { OSI_TERM_REQUEST requestBuffer; g_osiInitialized = FALSE; // // We call the term routine only if the driver is actually loaded // (as opposed to whether something went wrong when trying to setup // for hosting) so that we will cleanup if something went wrong in // the middle. // OSI_FunctionRequest(OSI_ESC_TERM, (LPOSI_ESCAPE_HEADER)&requestBuffer, sizeof(requestBuffer)); } // // ONLY DO THIS FOR NT5 // We need to undo all the work we did at init time to attach our // driver(s) to the display, and detach them. Again, enumerate the // registry entries and look for ours. // // if (g_asNT5) { OSI_InitDriver50(FALSE); } // Clear our shared memory variables for (i = 0; i < 3; i++) { g_asbcBitMasks[i] = 0; } for (i = 0; i < SBC_NUM_TILE_SIZES; i++) { g_asbcShuntBuffers[i] = NULL; } g_sbcEnabled = FALSE; g_asSharedMemory = NULL; g_poaData[0] = NULL; g_poaData[1] = NULL; g_asCanHost = FALSE; g_lpimSharedData = NULL; DebugExitVOID(OSI_Term); } VOID OSI_RepaintDesktop(void) { DebugEntry(OSI_RepaintDesktop); // If this does not appear to be a window it may be a window on the // winlogon desktop, so we need to get the proxy thread to repaint it if ( g_imNTData.imOtherDesktopThread ) { PostThreadMessage(g_imNTData.imOtherDesktopThread, OSI_WM_DESKTOPREPAINT, 0, 0); } DebugExitVOID(OSI_RepaintDesktop); } VOID OSI_SetGUIEffects(BOOL fOff) { DebugEntry(OSI_SetGUIEffects); if (g_imNTData.imOtherDesktopThread) { PostThreadMessage(g_imNTData.imOtherDesktopThread, OSI_WM_SETGUIEFFECTS, fOff, 0); } DebugExitVOID(OSI_SetGUIEffects); } // // OSI_SetDriverName() // This saves or clears the driver name so in OSI_FunctionRequest we can // create a DC to communicate with our display driver. On NT4.x this is a // display DC; on NT5 this is a direct DC to our driver. // void OSI_SetDriverName(LPCSTR szDriverName) { DebugEntry(OSI_SetDriverName); if (!szDriverName) { // Clear it g_osiDriverName[0] = 0; } else { // Set it ASSERT(!g_osiDriverName[0]); lstrcpy(g_osiDriverName, szDriverName); } DebugExitVOID(OSI_SetDriverName); } // // OSI_FunctionRequest - see osi.h // BOOL OSI_FunctionRequest ( DWORD escapeFn, LPOSI_ESCAPE_HEADER pRequest, DWORD requestLen ) { BOOL rc = FALSE; ULONG iEsc; HDC hdc; DebugEntry(OSI_FunctionRequest); if (!g_osiDriverName[0]) { // NT 4.x case TRACE_OUT(("OSI_FunctionRequest: Creating %s driver DC", s_osiDisplayName)); hdc = CreateDC(s_osiDisplayName, NULL, NULL, NULL); } else { // NT 5 case TRACE_OUT(("OSI_FunctionRequest: Creating %s driver DC", g_osiDriverName)); hdc = CreateDC(NULL, g_osiDriverName, NULL, NULL); } if (!hdc) { ERROR_OUT(("Failed to create DC to talk to driver '%s'", g_osiDriverName)); DC_QUIT; } TRACE_OUT(("OSI_FunctionRequest: Created %s driver DC %08x", g_osiDriverName, hdc)); // // Pass the request on to the display driver. // pRequest->padding = 0; pRequest->identifier = OSI_ESCAPE_IDENTIFIER; pRequest->escapeFn = escapeFn; pRequest->version = DCS_MAKE_VERSION(); if ((escapeFn >= OSI_HET_WO_ESC_FIRST) && (escapeFn <= OSI_HET_WO_ESC_LAST)) { iEsc = WNDOBJ_SETUP; } else { iEsc = OSI_ESC_CODE; } if (0 >= ExtEscape(hdc, iEsc, requestLen, (LPCSTR)pRequest, requestLen, (LPSTR)pRequest)) { WARNING_OUT(("ExtEscape %x code %d failed", iEsc, escapeFn)); } else { rc = TRUE; } DC_EXIT_POINT: if (hdc) { DeleteDC(hdc); } DebugExitDWORD(OSI_FunctionRequest, rc); return(rc); }