/* * Implementation of the Microsoft Installer (msi.dll) * * Copyright 2008 James Hawkins * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA */ #include #include #define COBJMACROS #include "windef.h" #include "winerror.h" #include "wine/debug.h" #include "fdi.h" #include "msipriv.h" #include "winuser.h" #include "winreg.h" #include "shlwapi.h" #include "objidl.h" #include "resource.h" WINE_DEFAULT_DEBUG_CHANNEL(msi); static BOOL source_matches_volume(MSIMEDIAINFO *mi, LPCWSTR source_root) { WCHAR volume_name[MAX_PATH + 1], root[MAX_PATH + 1]; const WCHAR *p; int len, len2; lstrcpyW(root, source_root); PathStripToRootW(root); PathAddBackslashW(root); if (!GetVolumeInformationW(root, volume_name, MAX_PATH + 1, NULL, NULL, NULL, NULL, 0)) { WARN( "failed to get volume information for %s (%lu)\n", debugstr_w(root), GetLastError() ); return FALSE; } len = lstrlenW( volume_name ); len2 = lstrlenW( mi->volume_label ); if (len2 > len) return FALSE; p = volume_name + len - len2; return !wcsicmp( mi->volume_label, p ); } static UINT change_media(MSIPACKAGE *package, MSIMEDIAINFO *mi) { MSIRECORD *record; LPWSTR source_dir; UINT r = IDRETRY; source_dir = msi_dup_property(package->db, L"SourceDir"); record = MSI_CreateRecord(2); while (r == IDRETRY && !source_matches_volume(mi, source_dir)) { MSI_RecordSetStringW(record, 0, NULL); MSI_RecordSetInteger(record, 1, MSIERR_CABNOTFOUND); MSI_RecordSetStringW(record, 2, mi->disk_prompt); r = MSI_ProcessMessage(package, INSTALLMESSAGE_ERROR | MB_RETRYCANCEL, record); } msiobj_release(&record->hdr); free(source_dir); return r == IDRETRY ? ERROR_SUCCESS : ERROR_INSTALL_SOURCE_ABSENT; } static MSICABINETSTREAM *get_cabinet_stream( MSIPACKAGE *package, UINT disk_id ) { MSICABINETSTREAM *cab; LIST_FOR_EACH_ENTRY( cab, &package->cabinet_streams, MSICABINETSTREAM, entry ) { if (cab->disk_id == disk_id) return cab; } return NULL; } static void * CDECL cabinet_alloc(ULONG cb) { return malloc(cb); } static void CDECL cabinet_free(void *pv) { free(pv); } static INT_PTR CDECL cabinet_open(char *pszFile, int oflag, int pmode) { DWORD dwAccess = 0; DWORD dwShareMode = 0; DWORD dwCreateDisposition = OPEN_EXISTING; switch (oflag & _O_ACCMODE) { case _O_RDONLY: dwAccess = GENERIC_READ; dwShareMode = FILE_SHARE_READ | FILE_SHARE_DELETE; break; case _O_WRONLY: dwAccess = GENERIC_WRITE; dwShareMode = FILE_SHARE_READ | FILE_SHARE_WRITE | FILE_SHARE_DELETE; break; case _O_RDWR: dwAccess = GENERIC_READ | GENERIC_WRITE; dwShareMode = FILE_SHARE_READ | FILE_SHARE_WRITE | FILE_SHARE_DELETE; break; } if ((oflag & (_O_CREAT | _O_EXCL)) == (_O_CREAT | _O_EXCL)) dwCreateDisposition = CREATE_NEW; else if (oflag & _O_CREAT) dwCreateDisposition = CREATE_ALWAYS; return (INT_PTR)CreateFileA(pszFile, dwAccess, dwShareMode, NULL, dwCreateDisposition, 0, NULL); } static UINT CDECL cabinet_read(INT_PTR hf, void *pv, UINT cb) { HANDLE handle = (HANDLE)hf; DWORD read; if (ReadFile(handle, pv, cb, &read, NULL)) return read; return 0; } static UINT CDECL cabinet_write(INT_PTR hf, void *pv, UINT cb) { HANDLE handle = (HANDLE)hf; DWORD written; if (WriteFile(handle, pv, cb, &written, NULL)) return written; return 0; } static int CDECL cabinet_close(INT_PTR hf) { HANDLE handle = (HANDLE)hf; return CloseHandle(handle) ? 0 : -1; } static LONG CDECL cabinet_seek(INT_PTR hf, LONG dist, int seektype) { HANDLE handle = (HANDLE)hf; /* flags are compatible and so are passed straight through */ return SetFilePointer(handle, dist, NULL, seektype); } struct package_disk { MSIPACKAGE *package; UINT id; }; static struct package_disk package_disk; static INT_PTR CDECL cabinet_open_stream( char *pszFile, int oflag, int pmode ) { MSICABINETSTREAM *cab; IStream *stream; if (!(cab = get_cabinet_stream( package_disk.package, package_disk.id ))) { WARN("failed to get cabinet stream\n"); return -1; } if (cab->storage == package_disk.package->db->storage) { UINT r = msi_get_stream( package_disk.package->db, cab->stream + 1, &stream ); if (r != ERROR_SUCCESS) { WARN("failed to get stream %u\n", r); return -1; } } else /* patch storage */ { HRESULT hr; WCHAR *encoded; if (!(encoded = encode_streamname( FALSE, cab->stream + 1 ))) { WARN("failed to encode stream name\n"); return -1; } hr = IStorage_OpenStream( cab->storage, encoded, NULL, STGM_READ|STGM_SHARE_EXCLUSIVE, 0, &stream ); free( encoded ); if (FAILED(hr)) { WARN( "failed to open stream %#lx\n", hr ); return -1; } } return (INT_PTR)stream; } static UINT CDECL cabinet_read_stream( INT_PTR hf, void *pv, UINT cb ) { IStream *stm = (IStream *)hf; DWORD read; HRESULT hr; hr = IStream_Read( stm, pv, cb, &read ); if (hr == S_OK || hr == S_FALSE) return read; return 0; } static int CDECL cabinet_close_stream( INT_PTR hf ) { IStream *stm = (IStream *)hf; IStream_Release( stm ); return 0; } static LONG CDECL cabinet_seek_stream( INT_PTR hf, LONG dist, int seektype ) { IStream *stm = (IStream *)hf; LARGE_INTEGER move; ULARGE_INTEGER newpos; HRESULT hr; move.QuadPart = dist; hr = IStream_Seek( stm, move, seektype, &newpos ); if (SUCCEEDED(hr)) { if (newpos.QuadPart <= MAXLONG) return newpos.QuadPart; ERR("Too big!\n"); } return -1; } static UINT media_get_disk_info(MSIPACKAGE *package, MSIMEDIAINFO *mi) { MSIRECORD *row; row = MSI_QueryGetRecord(package->db, L"SELECT * FROM `Media` WHERE `DiskId` = %d", mi->disk_id); if (!row) { TRACE("Unable to query row\n"); return ERROR_FUNCTION_FAILED; } mi->disk_prompt = wcsdup(MSI_RecordGetString(row, 3)); mi->cabinet = wcsdup(MSI_RecordGetString(row, 4)); mi->volume_label = wcsdup(MSI_RecordGetString(row, 5)); msiobj_release(&row->hdr); return ERROR_SUCCESS; } static INT_PTR cabinet_partial_file(FDINOTIFICATIONTYPE fdint, PFDINOTIFICATION pfdin) { MSICABDATA *data = pfdin->pv; data->mi->is_continuous = FALSE; return 0; } static WCHAR *get_cabinet_filename(MSIMEDIAINFO *mi) { int len; WCHAR *ret; len = lstrlenW(mi->sourcedir) + lstrlenW(mi->cabinet) + 1; if (!(ret = malloc(len * sizeof(WCHAR)))) return NULL; lstrcpyW(ret, mi->sourcedir); lstrcatW(ret, mi->cabinet); return ret; } static INT_PTR cabinet_next_cabinet(FDINOTIFICATIONTYPE fdint, PFDINOTIFICATION pfdin) { MSICABDATA *data = pfdin->pv; MSIMEDIAINFO *mi = data->mi; LPWSTR cabinet_file = NULL, cab = strdupAtoW(pfdin->psz1); INT_PTR res = -1; UINT rc; free(mi->disk_prompt); free(mi->cabinet); free(mi->volume_label); mi->disk_prompt = NULL; mi->cabinet = NULL; mi->volume_label = NULL; mi->disk_id++; mi->is_continuous = TRUE; rc = media_get_disk_info(data->package, mi); if (rc != ERROR_SUCCESS) { ERR("Failed to get next cabinet information: %d\n", rc); goto done; } if (wcsicmp( mi->cabinet, cab )) { char *next_cab; ULONG length; WARN("Continuous cabinet %s does not match the next cabinet %s in the media table => use latter one\n", debugstr_w(cab), debugstr_w(mi->cabinet)); /* Use cabinet name from the media table */ next_cab = strdupWtoA(mi->cabinet); /* Modify path to cabinet file with full filename (psz3 points to a 256 bytes buffer that can be modified contrary to psz1 and psz2) */ length = strlen(pfdin->psz3) + 1 + strlen(next_cab) + 1; if (length > 256) { WARN( "cannot update next cabinet filename with a string size %lu > 256\n", length ); free(next_cab); goto done; } else { strcat(pfdin->psz3, "\\"); strcat(pfdin->psz3, next_cab); } /* Path psz3 and cabinet psz1 are concatenated by FDI so just reset psz1 */ *pfdin->psz1 = 0; free(next_cab); } if (!(cabinet_file = get_cabinet_filename(mi))) goto done; TRACE("Searching for %s\n", debugstr_w(cabinet_file)); res = 0; if (GetFileAttributesW(cabinet_file) == INVALID_FILE_ATTRIBUTES) { if (change_media(data->package, mi) != ERROR_SUCCESS) res = -1; } done: free(cab); free(cabinet_file); return res; } static INT_PTR cabinet_next_cabinet_stream( FDINOTIFICATIONTYPE fdint, PFDINOTIFICATION pfdin ) { MSICABDATA *data = pfdin->pv; MSIMEDIAINFO *mi = data->mi; UINT rc; free( mi->disk_prompt ); free( mi->cabinet ); free( mi->volume_label ); mi->disk_prompt = NULL; mi->cabinet = NULL; mi->volume_label = NULL; mi->disk_id++; mi->is_continuous = TRUE; rc = media_get_disk_info( data->package, mi ); if (rc != ERROR_SUCCESS) { ERR("Failed to get next cabinet information: %u\n", rc); return -1; } package_disk.id = mi->disk_id; TRACE("next cabinet is %s disk id %u\n", debugstr_w(mi->cabinet), mi->disk_id); return 0; } static INT_PTR cabinet_copy_file(FDINOTIFICATIONTYPE fdint, PFDINOTIFICATION pfdin) { MSICABDATA *data = pfdin->pv; HANDLE handle = 0; LPWSTR path = NULL; DWORD attrs; data->curfile = strdupAtoW(pfdin->psz1); if (!data->cb(data->package, data->curfile, MSICABEXTRACT_BEGINEXTRACT, &path, &attrs, data->user)) { /* We're not extracting this file, so free the filename. */ free(data->curfile); data->curfile = NULL; goto done; } TRACE("extracting %s -> %s\n", debugstr_w(data->curfile), debugstr_w(path)); attrs = attrs & (FILE_ATTRIBUTE_READONLY|FILE_ATTRIBUTE_HIDDEN|FILE_ATTRIBUTE_SYSTEM); if (!attrs) attrs = FILE_ATTRIBUTE_NORMAL; handle = msi_create_file( data->package, path, GENERIC_READ | GENERIC_WRITE, 0, CREATE_ALWAYS, attrs ); if (handle == INVALID_HANDLE_VALUE) { DWORD err = GetLastError(); DWORD attrs2 = msi_get_file_attributes( data->package, path ); if (attrs2 == INVALID_FILE_ATTRIBUTES) { ERR( "failed to create %s (error %lu)\n", debugstr_w(path), err ); goto done; } else if (err == ERROR_ACCESS_DENIED && (attrs2 & FILE_ATTRIBUTE_READONLY)) { TRACE("removing read-only attribute on %s\n", debugstr_w(path)); msi_set_file_attributes( data->package, path, attrs2 & ~FILE_ATTRIBUTE_READONLY ); handle = msi_create_file( data->package, path, GENERIC_READ | GENERIC_WRITE, 0, CREATE_ALWAYS, attrs ); if (handle != INVALID_HANDLE_VALUE) goto done; err = GetLastError(); } if (err == ERROR_SHARING_VIOLATION || err == ERROR_USER_MAPPED_FILE) { WCHAR *tmpfileW, *tmppathW, *p; DWORD len; TRACE("file in use, scheduling rename operation\n"); if (!(tmppathW = wcsdup(path))) return ERROR_OUTOFMEMORY; if ((p = wcsrchr(tmppathW, '\\'))) *p = 0; len = lstrlenW( tmppathW ) + 16; if (!(tmpfileW = malloc(len * sizeof(WCHAR)))) { free( tmppathW ); return ERROR_OUTOFMEMORY; } if (!msi_get_temp_file_name( data->package, tmppathW, L"msi", tmpfileW )) tmpfileW[0] = 0; free( tmppathW ); handle = msi_create_file( data->package, tmpfileW, GENERIC_READ | GENERIC_WRITE, 0, CREATE_ALWAYS, attrs ); if (handle != INVALID_HANDLE_VALUE && msi_move_file( data->package, path, NULL, MOVEFILE_DELAY_UNTIL_REBOOT ) && msi_move_file( data->package, tmpfileW, path, MOVEFILE_DELAY_UNTIL_REBOOT )) { data->package->need_reboot_at_end = 1; } else { WARN( "failed to schedule rename operation %s (error %lu)\n", debugstr_w(path), GetLastError() ); msi_delete_file( data->package, tmpfileW ); } free(tmpfileW); } else WARN( "failed to create %s (error %lu)\n", debugstr_w(path), err ); } done: free(path); return (INT_PTR)handle; } static INT_PTR cabinet_close_file_info(FDINOTIFICATIONTYPE fdint, PFDINOTIFICATION pfdin) { MSICABDATA *data = pfdin->pv; FILETIME ft; FILETIME ftLocal; HANDLE handle = (HANDLE)pfdin->hf; data->mi->is_continuous = FALSE; if (!DosDateTimeToFileTime(pfdin->date, pfdin->time, &ft)) { CloseHandle(handle); return -1; } if (!LocalFileTimeToFileTime(&ft, &ftLocal)) { CloseHandle(handle); return -1; } if (!SetFileTime(handle, &ftLocal, 0, &ftLocal)) { CloseHandle(handle); return -1; } CloseHandle(handle); data->cb(data->package, data->curfile, MSICABEXTRACT_FILEEXTRACTED, NULL, NULL, data->user); free(data->curfile); data->curfile = NULL; return 1; } static INT_PTR CDECL cabinet_notify(FDINOTIFICATIONTYPE fdint, PFDINOTIFICATION pfdin) { switch (fdint) { case fdintPARTIAL_FILE: return cabinet_partial_file(fdint, pfdin); case fdintNEXT_CABINET: return cabinet_next_cabinet(fdint, pfdin); case fdintCOPY_FILE: return cabinet_copy_file(fdint, pfdin); case fdintCLOSE_FILE_INFO: return cabinet_close_file_info(fdint, pfdin); default: return 0; } } static INT_PTR CDECL cabinet_notify_stream( FDINOTIFICATIONTYPE fdint, PFDINOTIFICATION pfdin ) { switch (fdint) { case fdintPARTIAL_FILE: return cabinet_partial_file( fdint, pfdin ); case fdintNEXT_CABINET: return cabinet_next_cabinet_stream( fdint, pfdin ); case fdintCOPY_FILE: return cabinet_copy_file( fdint, pfdin ); case fdintCLOSE_FILE_INFO: return cabinet_close_file_info( fdint, pfdin ); case fdintCABINET_INFO: return 0; default: ERR("Unexpected notification %d\n", fdint); return 0; } } static BOOL extract_cabinet( MSIPACKAGE* package, MSIMEDIAINFO *mi, LPVOID data ) { LPSTR cabinet, cab_path = NULL; HFDI hfdi; ERF erf; BOOL ret = FALSE; TRACE("extracting %s disk id %u\n", debugstr_w(mi->cabinet), mi->disk_id); hfdi = FDICreate( cabinet_alloc, cabinet_free, cabinet_open, cabinet_read, cabinet_write, cabinet_close, cabinet_seek, 0, &erf ); if (!hfdi) { ERR("FDICreate failed\n"); return FALSE; } cabinet = strdupWtoA( mi->cabinet ); if (!cabinet) goto done; cab_path = strdupWtoA( mi->sourcedir ); if (!cab_path) goto done; ret = FDICopy( hfdi, cabinet, cab_path, 0, cabinet_notify, NULL, data ); if (!ret) ERR("FDICopy failed\n"); done: FDIDestroy( hfdi ); free( cabinet ); free( cab_path ); if (ret) mi->is_extracted = TRUE; return ret; } static BOOL extract_cabinet_stream( MSIPACKAGE *package, MSIMEDIAINFO *mi, LPVOID data ) { static char filename[] = {'<','S','T','R','E','A','M','>',0}; HFDI hfdi; ERF erf; BOOL ret = FALSE; TRACE("extracting %s disk id %u\n", debugstr_w(mi->cabinet), mi->disk_id); hfdi = FDICreate( cabinet_alloc, cabinet_free, cabinet_open_stream, cabinet_read_stream, cabinet_write, cabinet_close_stream, cabinet_seek_stream, 0, &erf ); if (!hfdi) { ERR("FDICreate failed\n"); return FALSE; } package_disk.package = package; package_disk.id = mi->disk_id; ret = FDICopy( hfdi, filename, NULL, 0, cabinet_notify_stream, NULL, data ); if (!ret) ERR("FDICopy failed\n"); FDIDestroy( hfdi ); if (ret) mi->is_extracted = TRUE; return ret; } /*********************************************************************** * msi_cabextract * * Extract files from a cabinet file or stream. */ BOOL msi_cabextract(MSIPACKAGE* package, MSIMEDIAINFO *mi, LPVOID data) { if (mi->cabinet[0] == '#') { return extract_cabinet_stream( package, mi, data ); } return extract_cabinet( package, mi, data ); } void msi_free_media_info(MSIMEDIAINFO *mi) { free(mi->disk_prompt); free(mi->cabinet); free(mi->volume_label); free(mi->last_volume); free(mi); } static UINT get_drive_type(const WCHAR *path) { WCHAR root[MAX_PATH + 1]; lstrcpyW(root, path); PathStripToRootW(root); PathAddBackslashW(root); return GetDriveTypeW(root); } static WCHAR *get_base_url( MSIDATABASE *db ) { WCHAR *p, *ret = NULL, *orig_db = msi_dup_property( db, L"OriginalDatabase" ); if (UrlIsW( orig_db, URLIS_URL ) && (ret = wcsdup( orig_db )) && (p = wcsrchr( ret, '/' ))) p[1] = 0; free( orig_db ); return ret; } UINT msi_load_media_info(MSIPACKAGE *package, UINT Sequence, MSIMEDIAINFO *mi) { MSIRECORD *row; WCHAR *source_dir, *source, *base_url = NULL; DWORD options; if (Sequence <= mi->last_sequence) /* already loaded */ return ERROR_SUCCESS; row = MSI_QueryGetRecord(package->db, L"SELECT * FROM `Media` WHERE `LastSequence` >= %d ORDER BY `DiskId`", Sequence); if (!row) { TRACE("Unable to query row\n"); return ERROR_FUNCTION_FAILED; } mi->is_extracted = FALSE; mi->disk_id = MSI_RecordGetInteger(row, 1); mi->last_sequence = MSI_RecordGetInteger(row, 2); free(mi->disk_prompt); mi->disk_prompt = wcsdup(MSI_RecordGetString(row, 3)); free(mi->cabinet); mi->cabinet = wcsdup(MSI_RecordGetString(row, 4)); free(mi->volume_label); mi->volume_label = wcsdup(MSI_RecordGetString(row, 5)); msiobj_release(&row->hdr); msi_set_sourcedir_props(package, FALSE); source_dir = msi_dup_property(package->db, L"SourceDir"); lstrcpyW(mi->sourcedir, source_dir); PathAddBackslashW(mi->sourcedir); mi->type = get_drive_type(source_dir); options = MSICODE_PRODUCT; if (mi->type == DRIVE_CDROM || mi->type == DRIVE_REMOVABLE) { source = source_dir; options |= MSISOURCETYPE_MEDIA; } else if ((base_url = get_base_url(package->db))) { source = base_url; options |= MSISOURCETYPE_URL; } else { source = mi->sourcedir; options |= MSISOURCETYPE_NETWORK; } msi_package_add_media_disk(package, package->Context, MSICODE_PRODUCT, mi->disk_id, mi->volume_label, mi->disk_prompt); msi_package_add_info(package, package->Context, options, INSTALLPROPERTY_LASTUSEDSOURCEW, source); TRACE("sequence %u -> cabinet %s disk id %u\n", Sequence, debugstr_w(mi->cabinet), mi->disk_id); free(base_url); free(source_dir); return ERROR_SUCCESS; } /* FIXME: search URL sources as well */ static UINT find_published_source(MSIPACKAGE *package, MSIMEDIAINFO *mi) { WCHAR source[MAX_PATH]; WCHAR volume[MAX_PATH]; WCHAR prompt[MAX_PATH]; DWORD volumesz, promptsz; DWORD index, size, id; WCHAR last_type[2]; UINT r; size = 2; r = MsiSourceListGetInfoW(package->ProductCode, NULL, package->Context, MSICODE_PRODUCT, INSTALLPROPERTY_LASTUSEDTYPEW, last_type, &size); if (r != ERROR_SUCCESS) return r; size = MAX_PATH; r = MsiSourceListGetInfoW(package->ProductCode, NULL, package->Context, MSICODE_PRODUCT, INSTALLPROPERTY_LASTUSEDSOURCEW, source, &size); if (r != ERROR_SUCCESS) return r; if (last_type[0] == 'n') { WCHAR cabinet_file[MAX_PATH]; BOOL check_all = FALSE; while(TRUE) { index = 0; volumesz = MAX_PATH; while (MsiSourceListEnumSourcesW(package->ProductCode, NULL, package->Context, MSISOURCETYPE_NETWORK, index++, volume, &volumesz) == ERROR_SUCCESS) { if (check_all || !wcsnicmp(source, volume, lstrlenW(source))) { lstrcpyW(cabinet_file, volume); PathAddBackslashW(cabinet_file); lstrcatW(cabinet_file, mi->cabinet); if (GetFileAttributesW(cabinet_file) == INVALID_FILE_ATTRIBUTES) { volumesz = MAX_PATH; if(!check_all) break; continue; } lstrcpyW(mi->sourcedir, volume); PathAddBackslashW(mi->sourcedir); TRACE("Found network source %s\n", debugstr_w(mi->sourcedir)); return ERROR_SUCCESS; } } if (!check_all) check_all = TRUE; else break; } } index = 0; volumesz = MAX_PATH; promptsz = MAX_PATH; while (MsiSourceListEnumMediaDisksW(package->ProductCode, NULL, package->Context, MSICODE_PRODUCT, index++, &id, volume, &volumesz, prompt, &promptsz) == ERROR_SUCCESS) { mi->disk_id = id; free( mi->volume_label ); if (!(mi->volume_label = malloc( ++volumesz * sizeof(WCHAR) ))) return ERROR_OUTOFMEMORY; lstrcpyW( mi->volume_label, volume ); free( mi->disk_prompt ); if (!(mi->disk_prompt = malloc( ++promptsz * sizeof(WCHAR) ))) return ERROR_OUTOFMEMORY; lstrcpyW( mi->disk_prompt, prompt ); if (source_matches_volume(mi, source)) { /* FIXME: what about SourceDir */ lstrcpyW(mi->sourcedir, source); PathAddBackslashW(mi->sourcedir); TRACE("Found disk source %s\n", debugstr_w(mi->sourcedir)); return ERROR_SUCCESS; } } return ERROR_FUNCTION_FAILED; } UINT ready_media( MSIPACKAGE *package, BOOL compressed, MSIMEDIAINFO *mi ) { UINT rc; WCHAR *cabinet_file = NULL; /* media info for continuous cabinet is already loaded */ if (mi->is_continuous) return ERROR_SUCCESS; if (mi->cabinet) { WCHAR *base_url; /* cabinet is internal, no checks needed */ if (mi->cabinet[0] == '#') return ERROR_SUCCESS; if (!(cabinet_file = get_cabinet_filename( mi ))) return ERROR_OUTOFMEMORY; /* package should be downloaded */ if (compressed && GetFileAttributesW( cabinet_file ) == INVALID_FILE_ATTRIBUTES && (base_url = get_base_url( package->db ))) { WCHAR temppath[MAX_PATH], *p, *url; free( cabinet_file ); if (!(url = realloc( base_url, (wcslen( base_url ) + wcslen( mi->cabinet ) + 1) * sizeof(WCHAR) ))) { free( base_url ); return ERROR_OUTOFMEMORY; } lstrcatW( url, mi->cabinet ); if ((rc = msi_download_file( url, temppath )) != ERROR_SUCCESS) { ERR("failed to download %s (%u)\n", debugstr_w(url), rc); free( url ); return rc; } if ((p = wcsrchr( temppath, '\\' ))) *p = 0; lstrcpyW( mi->sourcedir, temppath ); PathAddBackslashW( mi->sourcedir ); free( mi->cabinet ); mi->cabinet = wcsdup( p + 1 ); free( url ); return ERROR_SUCCESS; } } /* check volume matches, change media if not */ if (mi->volume_label) { /* assume first volume is in the drive */ if (mi->last_volume && wcsicmp( mi->last_volume, mi->volume_label )) { WCHAR *source = msi_dup_property( package->db, L"SourceDir" ); BOOL match = source_matches_volume( mi, source ); free( source ); if (!match && (mi->type == DRIVE_CDROM || mi->type == DRIVE_REMOVABLE)) { if ((rc = change_media( package, mi )) != ERROR_SUCCESS) { free( cabinet_file ); return rc; } } } free(mi->last_volume); mi->last_volume = wcsdup(mi->volume_label); } if (mi->cabinet) { if (compressed && GetFileAttributesW( cabinet_file ) == INVALID_FILE_ATTRIBUTES) { if ((rc = find_published_source( package, mi )) != ERROR_SUCCESS) { ERR("cabinet not found: %s\n", debugstr_w(cabinet_file)); free( cabinet_file ); return ERROR_INSTALL_FAILURE; } } } free( cabinet_file ); return ERROR_SUCCESS; } UINT msi_add_cabinet_stream( MSIPACKAGE *package, UINT disk_id, IStorage *storage, const WCHAR *name ) { MSICABINETSTREAM *cab, *item; TRACE("%p, %u, %p, %s\n", package, disk_id, storage, debugstr_w(name)); LIST_FOR_EACH_ENTRY( item, &package->cabinet_streams, MSICABINETSTREAM, entry ) { if (item->disk_id == disk_id) { TRACE("duplicate disk id %u\n", disk_id); return ERROR_FUNCTION_FAILED; } } if (!(cab = malloc( sizeof(*cab) ))) return ERROR_OUTOFMEMORY; if (!(cab->stream = malloc( (wcslen( name ) + 1) * sizeof(WCHAR) ))) { free( cab ); return ERROR_OUTOFMEMORY; } lstrcpyW( cab->stream, name ); cab->disk_id = disk_id; cab->storage = storage; IStorage_AddRef( storage ); list_add_tail( &package->cabinet_streams, &cab->entry ); return ERROR_SUCCESS; }