#include #include #include #include #include #include #include "resource.h" #include "migtask.h" #include "migwiz.h" #include "migwnprc.h" #include "migutil.h" #include "miginf.h" #include "migeng.h" extern "C" { #include "cablib.h" } #define MAX_LOADSTRING 1024 extern BOOL g_fUberCancel; CCABHANDLE g_hCabHandle = NULL; #define S_MIGWIZCAB TEXT("migwiz.cab") #define S_TOOLDISK TEXT("DSK%05X") #define S_DONOTCOMPRESS TEXT("NO_COMPRESS") #define S_DONOTFAIL TEXT("NO_FAIL") typedef struct { HWND hwndProgress; HWND hwndPropSheet; BOOL fSource; BOOL* pfHasUserCancelled; } PROGRESSCALLBACKSTRUCT; #define PHASEWIDTH_S_BEGINGAP 200 #define PHASEWIDTH_S_ENDGAP 200 #define PHASEWIDTH_S_QUEUE_HIGHPRIORITY 200 #define PHASEWIDTH_S_ESTIMATE_HIGHPRIORITY 200 #define PHASEWIDTH_S_GATHER_HIGHPRIORITY 400 #define PHASEWIDTH_S_QUEUE_GATHER 800 #define PHASEWIDTH_S_ESTIMATE_GATHER 800 #define PHASEWIDTH_S_GATHER_GATHER 2400 #define PHASEWIDTH_S_ANALYSIS 200 #define PHASEWIDTH_S_TRANSPORT 5000 #define PHASEWIDTH_S_TOTAL (PHASEWIDTH_S_BEGINGAP + PHASEWIDTH_S_QUEUE_HIGHPRIORITY \ + PHASEWIDTH_S_ESTIMATE_HIGHPRIORITY + PHASEWIDTH_S_GATHER_HIGHPRIORITY \ + PHASEWIDTH_S_QUEUE_GATHER + PHASEWIDTH_S_ESTIMATE_GATHER \ + PHASEWIDTH_S_GATHER_GATHER + PHASEWIDTH_S_ANALYSIS \ + PHASEWIDTH_S_TRANSPORT + PHASEWIDTH_S_ENDGAP) #define PHASEWIDTH_D_BEGINGAP 150 #define PHASEWIDTH_D_ENDGAP 150 #define PHASEWIDTH_D_TRANSPORT 2000 #define PHASEWIDTH_D_QUEUE_HIGHPRIORITY 50 #define PHASEWIDTH_D_ESTIMATE_HIGHPRIORITY 50 #define PHASEWIDTH_D_GATHER_HIGHPRIORITY 100 #define PHASEWIDTH_D_QUEUE_GATHER 50 #define PHASEWIDTH_D_ESTIMATE_GATHER 50 #define PHASEWIDTH_D_GATHER_GATHER 100 #define PHASEWIDTH_D_ANALYSIS 500 #define PHASEWIDTH_D_APPLY 5000 #define PHASEWIDTH_D_TOTAL (PHASEWIDTH_D_BEGINGAP + PHASEWIDTH_D_TRANSPORT \ + PHASEWIDTH_D_QUEUE_HIGHPRIORITY + PHASEWIDTH_D_ESTIMATE_HIGHPRIORITY \ + PHASEWIDTH_D_GATHER_HIGHPRIORITY + PHASEWIDTH_D_QUEUE_GATHER \ + PHASEWIDTH_D_ESTIMATE_GATHER + PHASEWIDTH_D_GATHER_GATHER \ + PHASEWIDTH_D_ANALYSIS + PHASEWIDTH_D_APPLY \ + PHASEWIDTH_D_ENDGAP) VOID WINAPI ProgressCallback (MIG_PROGRESSPHASE Phase, MIG_PROGRESSSTATE State, UINT uiWorkDone, UINT uiTotalWork, ULONG_PTR pArg) { PROGRESSCALLBACKSTRUCT* ppcs = (PROGRESSCALLBACKSTRUCT*)pArg; if (!g_fUberCancel) { INT iWork = 0; INT iPhaseWidth = 0; INT iTotal = ppcs->fSource ? PHASEWIDTH_S_TOTAL : PHASEWIDTH_D_TOTAL; if (ppcs->fSource) { switch (Phase) { case MIG_HIGHPRIORITYQUEUE_PHASE: iWork = PHASEWIDTH_S_BEGINGAP; iPhaseWidth = PHASEWIDTH_S_QUEUE_HIGHPRIORITY; break; case MIG_HIGHPRIORITYESTIMATE_PHASE: iWork = PHASEWIDTH_S_BEGINGAP + PHASEWIDTH_S_QUEUE_HIGHPRIORITY; iPhaseWidth = PHASEWIDTH_S_ESTIMATE_HIGHPRIORITY; break; case MIG_HIGHPRIORITYGATHER_PHASE: iWork = PHASEWIDTH_S_BEGINGAP + PHASEWIDTH_S_QUEUE_HIGHPRIORITY \ + PHASEWIDTH_S_ESTIMATE_HIGHPRIORITY; iPhaseWidth = PHASEWIDTH_S_GATHER_HIGHPRIORITY; break; case MIG_GATHERQUEUE_PHASE: iWork = PHASEWIDTH_S_BEGINGAP + PHASEWIDTH_S_QUEUE_HIGHPRIORITY \ + PHASEWIDTH_S_ESTIMATE_HIGHPRIORITY + PHASEWIDTH_S_GATHER_HIGHPRIORITY; iPhaseWidth = PHASEWIDTH_S_QUEUE_GATHER; break; case MIG_GATHERESTIMATE_PHASE: iWork = PHASEWIDTH_S_BEGINGAP + PHASEWIDTH_S_QUEUE_HIGHPRIORITY \ + PHASEWIDTH_S_ESTIMATE_HIGHPRIORITY + PHASEWIDTH_S_GATHER_HIGHPRIORITY \ + PHASEWIDTH_S_QUEUE_GATHER; iPhaseWidth = PHASEWIDTH_S_ESTIMATE_GATHER; break; case MIG_GATHER_PHASE: iWork = PHASEWIDTH_S_BEGINGAP + PHASEWIDTH_S_QUEUE_HIGHPRIORITY \ + PHASEWIDTH_S_ESTIMATE_HIGHPRIORITY + PHASEWIDTH_S_GATHER_HIGHPRIORITY \ + PHASEWIDTH_S_QUEUE_GATHER + PHASEWIDTH_S_ESTIMATE_GATHER; iPhaseWidth = PHASEWIDTH_S_GATHER_GATHER; break; case MIG_ANALYSIS_PHASE: iWork = PHASEWIDTH_S_BEGINGAP + PHASEWIDTH_S_QUEUE_HIGHPRIORITY \ + PHASEWIDTH_S_ESTIMATE_HIGHPRIORITY + PHASEWIDTH_S_GATHER_HIGHPRIORITY \ + PHASEWIDTH_S_QUEUE_GATHER + PHASEWIDTH_S_ESTIMATE_GATHER \ + PHASEWIDTH_S_GATHER_GATHER; iPhaseWidth = PHASEWIDTH_S_ANALYSIS; break; case MIG_TRANSPORT_PHASE: iWork = PHASEWIDTH_S_BEGINGAP + PHASEWIDTH_S_QUEUE_HIGHPRIORITY \ + PHASEWIDTH_S_ESTIMATE_HIGHPRIORITY + PHASEWIDTH_S_GATHER_HIGHPRIORITY \ + PHASEWIDTH_S_QUEUE_GATHER + PHASEWIDTH_S_ESTIMATE_GATHER \ + PHASEWIDTH_S_GATHER_GATHER + PHASEWIDTH_S_ANALYSIS; iPhaseWidth = PHASEWIDTH_S_TRANSPORT; break; } } else { switch (Phase) { case MIG_TRANSPORT_PHASE: iWork = PHASEWIDTH_D_BEGINGAP; iPhaseWidth = PHASEWIDTH_D_TRANSPORT; break; case MIG_HIGHPRIORITYQUEUE_PHASE: iWork = PHASEWIDTH_D_BEGINGAP + PHASEWIDTH_D_TRANSPORT; iPhaseWidth = PHASEWIDTH_D_QUEUE_HIGHPRIORITY; break; case MIG_HIGHPRIORITYESTIMATE_PHASE: iWork = PHASEWIDTH_D_BEGINGAP + PHASEWIDTH_D_TRANSPORT \ +PHASEWIDTH_D_QUEUE_HIGHPRIORITY; iPhaseWidth = PHASEWIDTH_D_ESTIMATE_HIGHPRIORITY; break; case MIG_HIGHPRIORITYGATHER_PHASE: iWork = PHASEWIDTH_D_BEGINGAP + PHASEWIDTH_D_TRANSPORT \ + PHASEWIDTH_D_QUEUE_HIGHPRIORITY + PHASEWIDTH_D_ESTIMATE_HIGHPRIORITY; iPhaseWidth = PHASEWIDTH_D_GATHER_HIGHPRIORITY; break; case MIG_GATHERQUEUE_PHASE: iWork = PHASEWIDTH_D_BEGINGAP + PHASEWIDTH_D_TRANSPORT \ + PHASEWIDTH_D_QUEUE_HIGHPRIORITY + PHASEWIDTH_D_ESTIMATE_HIGHPRIORITY \ + PHASEWIDTH_D_GATHER_HIGHPRIORITY; iPhaseWidth = PHASEWIDTH_D_QUEUE_GATHER; break; case MIG_GATHERESTIMATE_PHASE: iWork = PHASEWIDTH_D_BEGINGAP + PHASEWIDTH_D_TRANSPORT \ + PHASEWIDTH_D_QUEUE_HIGHPRIORITY + PHASEWIDTH_D_ESTIMATE_HIGHPRIORITY \ + PHASEWIDTH_D_GATHER_HIGHPRIORITY + PHASEWIDTH_D_QUEUE_GATHER; iPhaseWidth = PHASEWIDTH_D_ESTIMATE_GATHER; break; case MIG_GATHER_PHASE: iWork = PHASEWIDTH_D_BEGINGAP + PHASEWIDTH_D_TRANSPORT \ + PHASEWIDTH_D_QUEUE_HIGHPRIORITY + PHASEWIDTH_D_ESTIMATE_HIGHPRIORITY \ + PHASEWIDTH_D_GATHER_HIGHPRIORITY + PHASEWIDTH_D_QUEUE_GATHER \ + PHASEWIDTH_D_ESTIMATE_GATHER; iPhaseWidth = PHASEWIDTH_D_GATHER_GATHER; break; case MIG_ANALYSIS_PHASE: iWork = PHASEWIDTH_D_BEGINGAP + PHASEWIDTH_D_TRANSPORT \ + PHASEWIDTH_D_QUEUE_HIGHPRIORITY + PHASEWIDTH_D_ESTIMATE_HIGHPRIORITY \ + PHASEWIDTH_D_GATHER_HIGHPRIORITY + PHASEWIDTH_D_QUEUE_GATHER \ + PHASEWIDTH_D_ESTIMATE_GATHER + PHASEWIDTH_D_GATHER_GATHER; iPhaseWidth = PHASEWIDTH_D_ANALYSIS; break; case MIG_APPLY_PHASE: iWork = PHASEWIDTH_D_BEGINGAP + PHASEWIDTH_D_TRANSPORT \ + PHASEWIDTH_D_QUEUE_HIGHPRIORITY + PHASEWIDTH_D_ESTIMATE_HIGHPRIORITY \ + PHASEWIDTH_D_GATHER_HIGHPRIORITY + PHASEWIDTH_D_QUEUE_GATHER \ + PHASEWIDTH_D_ESTIMATE_GATHER + PHASEWIDTH_D_GATHER_GATHER \ + PHASEWIDTH_D_ANALYSIS; iPhaseWidth = PHASEWIDTH_D_APPLY; break; } } if (State == MIG_END_PHASE) { iWork += iPhaseWidth; } else if (uiTotalWork && uiWorkDone) { iWork += (iPhaseWidth * uiWorkDone) / uiTotalWork; } SendMessage(ppcs->hwndProgress, PBM_SETRANGE, 0, MAKELPARAM(0, iTotal)); SendMessage(ppcs->hwndProgress, PBM_SETPOS, iWork, 0); } } VOID WINAPI pFillProgressBar (ULONG_PTR pArg) { PROGRESSCALLBACKSTRUCT* ppcs = (PROGRESSCALLBACKSTRUCT*)pArg; if (!g_fUberCancel) { INT iWork = ppcs->fSource ? PHASEWIDTH_S_TOTAL : PHASEWIDTH_D_TOTAL; INT iTotal = ppcs->fSource ? PHASEWIDTH_S_TOTAL : PHASEWIDTH_D_TOTAL; SendMessage(ppcs->hwndProgress, PBM_SETRANGE, 0, MAKELPARAM(0, iTotal)); SendMessage(ppcs->hwndProgress, PBM_SETPOS, iWork, 0); } } ////////////////////////////////////////////////////////// // prepare data HRESULT _DoCopy(LPTSTR tszTransportPath, HWND hwndProgress, HWND hwndPropSheet, BOOL* pfHasUserCancelled) { HRESULT hr = E_OUTOFMEMORY; PROGRESSCALLBACKSTRUCT* ppcs = (PROGRESSCALLBACKSTRUCT*)CoTaskMemAlloc(sizeof(PROGRESSCALLBACKSTRUCT)); if (ppcs) { ppcs->hwndProgress = hwndProgress; ppcs->hwndPropSheet = hwndPropSheet; ppcs->fSource = TRUE; ppcs->pfHasUserCancelled = pfHasUserCancelled; hr = Engine_RegisterProgressBarCallback (ProgressCallback, (ULONG_PTR)ppcs); } if (SUCCEEDED(hr)) { // start the transport hr = Engine_StartTransport (TRUE, tszTransportPath, NULL, NULL); // start non-network transport if (SUCCEEDED(hr)) { hr = Engine_Execute(TRUE); } if (SUCCEEDED(hr)) { Engine_Terminate(); } } if (ppcs) { pFillProgressBar ((ULONG_PTR)ppcs); } return hr; } ////////////////////////////////////////////////////////// // apply data HRESULT _DoApply(LPTSTR tszTransportPath, HWND hwndProgress, HWND hwndPropSheet, BOOL* pfHasUserCancelled, PROGRESSBARFN pAltProgressFunction, ULONG_PTR puAltProgressParam) { HRESULT hr; PROGRESSCALLBACKSTRUCT* ppcs = NULL; BOOL imageIsValid = FALSE, imageExists = FALSE; if (NULL != pAltProgressFunction) { hr = Engine_RegisterProgressBarCallback(pAltProgressFunction, puAltProgressParam); } else { hr = E_OUTOFMEMORY; ppcs = (PROGRESSCALLBACKSTRUCT*)CoTaskMemAlloc(sizeof(PROGRESSCALLBACKSTRUCT)); if (ppcs) { ppcs->hwndProgress = hwndProgress; ppcs->hwndPropSheet = hwndPropSheet; ppcs->fSource = FALSE; ppcs->pfHasUserCancelled = pfHasUserCancelled; hr = Engine_RegisterProgressBarCallback(ProgressCallback, (ULONG_PTR)ppcs); } } if (SUCCEEDED(hr)) { if (tszTransportPath) // if not network { hr = Engine_StartTransport(FALSE, tszTransportPath, &imageIsValid, &imageExists); // start non-network transport } else { // it's network imageIsValid = TRUE; imageExists = TRUE; } if (SUCCEEDED(hr) && imageIsValid && imageExists) { hr = Engine_Execute(FALSE); if (SUCCEEDED(hr)) { Engine_Terminate(); } } } if (ppcs) { pFillProgressBar ((ULONG_PTR)ppcs); } return hr; } ////////////////////////////////////////////////////////// // create tool disk data BOOL _CopyFileToDisk(LPCTSTR pctszSrcFname, LPCTSTR pctszSrcPath, LPCTSTR pctszDestPath, LPCTSTR pctszDestFname, HINSTANCE hInstance, HWND hwndParent, BOOL fCompress, BOOL fFailOnError) { TCHAR tszSysDir[MAX_PATH]; TCHAR tszFnameSrc[MAX_PATH]; TCHAR tszFnameDest[MAX_PATH]; UINT uFnameTchars; BOOL fCopySuccess = FALSE; if (pctszDestFname == NULL || *pctszDestFname == NULL) { pctszDestFname = pctszSrcFname; } uFnameTchars = lstrlen (pctszSrcFname) + 1; // Build Source path+filename StrCpyN(tszFnameSrc, pctszSrcPath, ARRAYSIZE(tszFnameSrc) - uFnameTchars); PathAppend(tszFnameSrc, pctszSrcFname); if (!fCompress) { // Build Dest path+filename StrCpyN(tszFnameDest, pctszDestPath, ARRAYSIZE(tszFnameDest) - uFnameTchars); PathAppend(tszFnameDest, pctszDestFname); } // if source file does not exist, try using the system directory (case is shfolder.dll) if (0xFFFFFFFF == GetFileAttributes (tszFnameSrc)) { GetSystemDirectory (tszSysDir, ARRAYSIZE(tszSysDir)); StrCpyN(tszFnameSrc, tszSysDir, ARRAYSIZE(tszFnameSrc) - uFnameTchars); PathAppend(tszFnameSrc, pctszSrcFname); } if (fCompress) { // Add to migwiz.cab fCopySuccess = CabAddFileToCabinet( g_hCabHandle, tszFnameSrc, pctszDestFname ); } else { // do the actual copy fCopySuccess = CopyFile(tszFnameSrc, tszFnameDest, FALSE); } if (fFailOnError) { return fCopySuccess; } return TRUE; } VOID pDisplayCopyError ( HWND hwndParent, HINSTANCE hInstance, DWORD Error ) { UINT resId; TCHAR szMigrationWizardTitle[MAX_LOADSTRING]; LoadString(hInstance, IDS_MIGWIZTITLE, szMigrationWizardTitle, ARRAYSIZE(szMigrationWizardTitle)); if (hwndParent) // Stand-alone wizard mode { TCHAR szErrDiskLoad[MAX_LOADSTRING]; resId = IDS_ERRORDISK; if (Error == ERROR_WRITE_PROTECT) { resId = IDS_ENGERR_WRITEPROTECT; } if (Error == ERROR_NOT_READY) { resId = IDS_ENGERR_NOTREADY; } if (Error == ERROR_DISK_FULL) { resId = IDS_ENGERR_FULL; } LoadString(hInstance, resId, szErrDiskLoad, ARRAYSIZE(szErrDiskLoad)); _ExclusiveMessageBox(hwndParent, szErrDiskLoad, szMigrationWizardTitle, MB_OK); } } HRESULT _CopyInfToDisk(LPCTSTR pctszDestPath, LPCTSTR pctszSourcePath, LPCTSTR pctszInfPath, PMESSAGECALLBACK2 progressCallback, LPVOID lpparam, HWND hwndProgressBar, HWND hwndParent, HINSTANCE hInstance, BOOL* pfHasUserCancelled, DWORD* pfError) { HRESULT hr = S_OK; TCHAR szCabPath [MAX_PATH]; if (pfError) { *pfError = ERROR_SUCCESS; } __try { // copy the actual files over OpenAppInf((LPTSTR)pctszInfPath); if (INVALID_HANDLE_VALUE != g_hMigWizInf) { INFCONTEXT context; LONG cLinesProcessed = 0; LONG cLines = SetupGetLineCount(g_hMigWizInf, TEXT("CopyFiles")) + 1; // Last one is for closing the CAB if (SetupFindFirstLine(g_hMigWizInf, TEXT("CopyFiles"), NULL, &context)) { if (!pctszDestPath) { hr = E_FAIL; __leave; } if (_tcslen(pctszDestPath) + _tcslen(S_MIGWIZCAB) + 1 >= MAX_PATH) { hr = E_FAIL; __leave; } // Delete the existing CAB that might be on the disk StrCpy (szCabPath, pctszDestPath); StrCat (szCabPath, S_MIGWIZCAB); SetFileAttributes (szCabPath, FILE_ATTRIBUTE_NORMAL); if (!DeleteFile (szCabPath)) { if (GetLastError () != ERROR_FILE_NOT_FOUND) { if (pfError) { *pfError = GetLastError (); } hr = E_FAIL; __leave; } } g_hCabHandle = CabCreateCabinet( pctszDestPath, S_MIGWIZCAB, S_TOOLDISK, IsmGetTempFile, 0 ); if (g_hCabHandle) { do { TCHAR szFname[MAX_PATH]; if (*pfHasUserCancelled) { hr = E_ABORT; __leave; } if (SetupGetStringField(&context, 1, szFname, ARRAYSIZE(szFname), NULL)) { TCHAR szDestFname[MAX_PATH] = TEXT(""); BOOL fCompress = TRUE; BOOL fFailOnError = TRUE; if (SetupGetStringField(&context, 2, szDestFname, ARRAYSIZE(szDestFname), NULL)) { if (!StrCmpI(szDestFname, S_DONOTCOMPRESS)) { fCompress = FALSE; *szDestFname = 0; } else if (!StrCmpI(szDestFname, S_DONOTFAIL)) { fFailOnError = FALSE; *szDestFname = 0; } else { TCHAR szCompress[MAX_PATH]; if (SetupGetStringField(&context, 3, szCompress, ARRAYSIZE(szCompress), NULL)) { if (!StrCmpI(szCompress, S_DONOTCOMPRESS)) { fCompress = FALSE; *szCompress = 0; } else if (!StrCmpI(szDestFname, S_DONOTFAIL)) { fFailOnError = FALSE; *szCompress = 0; } } } } if (!_CopyFileToDisk(szFname, pctszSourcePath, pctszDestPath, szDestFname, hInstance, hwndParent, fCompress, fFailOnError)) { if (pfError) { *pfError = GetLastError (); } hr = E_FAIL; } cLinesProcessed++; if (hwndProgressBar) // Stand-alone wizard mode { SendMessage(hwndProgressBar, PBM_SETRANGE, 0, MAKELPARAM(0, cLines)); SendMessage(hwndProgressBar, PBM_SETPOS, cLinesProcessed, 0); } if (progressCallback) // OOBE mode { progressCallback(lpparam, cLinesProcessed, cLines); } } } while (SetupFindNextLine(&context, &context)); if (*pfHasUserCancelled) { hr = E_ABORT; __leave; } if (!CabFlushAndCloseCabinet(g_hCabHandle)) { if (pfError) { *pfError = GetLastError (); } hr = E_FAIL; __leave; }; if (*pfHasUserCancelled) { hr = E_ABORT; __leave; } // Now that the CAB is complete, show the progress bar as finished if (hwndProgressBar) // Stand-alone wizard mode { SendMessage(hwndProgressBar, PBM_SETRANGE, 0, MAKELPARAM(0, cLines)); SendMessage(hwndProgressBar, PBM_SETPOS, cLines, 0); } if (progressCallback) // OOBE mode { progressCallback(lpparam, cLines, cLines); } } else { if (pfError) { *pfError = GetLastError (); } hr = E_FAIL; __leave; } } } else { if (pfError) { *pfError = ERROR_INTERNAL_ERROR; } hr = E_FAIL; __leave; } } __finally { } if (hwndParent) { if (!SUCCEEDED(hr) && (hr != E_ABORT)) { pDisplayCopyError (hwndParent, hInstance, *pfError); SendMessage(hwndParent, WM_USER_CANCELLED, 0, 0); } else { SendMessage(hwndParent, WM_USER_FINISHED, 0, 0); } } return hr; }