static HRESULT EnumerateAltStreams( const NFind::CFileInfo &fi, const NWildcard::CCensorNode &curNode, int phyParent, int logParent, const FString &fullPath, const UStringVector &addArchivePrefix, // prefix from curNode CDirItems &dirItems) { NFind::CStreamEnumerator enumerator(fullPath); for (;;) { NFind::CStreamInfo si; bool found; if (!enumerator.Next(si, found)) { return dirItems.AddError(fullPath + FTEXT(":*")); // , (DWORD)E_FAIL } if (!found) return S_OK; if (si.IsMainStream()) continue; UStringVector addArchivePrefixNew = addArchivePrefix; UString reducedName = si.GetReducedName(); addArchivePrefixNew.Back() += reducedName; if (curNode.CheckPathToRoot(false, addArchivePrefixNew, true)) continue; NFind::CFileInfo fi2 = fi; fi2.Name += us2fs(reducedName); fi2.Size = si.Size; fi2.Attrib &= ~FILE_ATTRIBUTE_DIRECTORY; fi2.IsAltStream = true; dirItems.AddDirFileInfo(phyParent, logParent, -1, fi2); } }
static HRESULT EnumerateForItem( NFind::CFileInfo &fi, const NWildcard::CCensorNode &curNode, int phyParent, int logParent, const FString &phyPrefix, const UStringVector &addArchivePrefix, // prefix from curNode CDirItems &dirItems, bool enterToSubFolders) { const UString name = fs2us(fi.Name); bool enterToSubFolders2 = enterToSubFolders; UStringVector addArchivePrefixNew = addArchivePrefix; addArchivePrefixNew.Add(name); { UStringVector addArchivePrefixNewTemp(addArchivePrefixNew); if (curNode.CheckPathToRoot(false, addArchivePrefixNewTemp, !fi.IsDir())) return S_OK; } int dirItemIndex = -1; bool addAllSubStreams = false; if (curNode.CheckPathToRoot(true, addArchivePrefixNew, !fi.IsDir())) { int secureIndex = -1; #ifdef _USE_SECURITY_CODE if (dirItems.ReadSecure) { RINOK(dirItems.AddSecurityItem(phyPrefix + fi.Name, secureIndex)); } #endif dirItemIndex = dirItems.Items.Size(); dirItems.AddDirFileInfo(phyParent, logParent, secureIndex, fi); if (fi.IsDir()) enterToSubFolders2 = true; addAllSubStreams = true; } #ifndef UNDER_CE if (dirItems.ScanAltStreams) { RINOK(EnumerateAltStreams(fi, curNode, phyParent, logParent, phyPrefix + fi.Name, addArchivePrefixNew, addAllSubStreams, dirItems)); } if (dirItemIndex >= 0) { CDirItem &dirItem = dirItems.Items[dirItemIndex]; RINOK(dirItems.SetLinkInfo(dirItem, fi, phyPrefix)); if (dirItem.ReparseData.Size() != 0) return S_OK; } #endif if (!fi.IsDir()) return S_OK; const NWildcard::CCensorNode *nextNode = 0; if (addArchivePrefix.IsEmpty()) { int index = curNode.FindSubNode(name); if (index >= 0) nextNode = &curNode.SubNodes[index]; } if (!enterToSubFolders2 && nextNode == 0) return S_OK; addArchivePrefixNew = addArchivePrefix; if (nextNode == 0) { nextNode = &curNode; addArchivePrefixNew.Add(name); } return EnumerateDirItems_Spec( *nextNode, phyParent, logParent, fi.Name, phyPrefix, addArchivePrefixNew, dirItems, enterToSubFolders2); }
static HRESULT EnumerateDirItems( const NWildcard::CCensorNode &curNode, const UString &diskPrefix, // full disk path prefix const UString &archivePrefix, // prefix from root const UStringVector &addArchivePrefix, // prefix from curNode CObjectVector<CDirItem> &dirItems, bool enterToSubFolders, IEnumDirItemCallback *callback, UStringVector &errorPaths, CRecordVector<DWORD> &errorCodes) { if (!enterToSubFolders) if (curNode.NeedCheckSubDirs()) enterToSubFolders = true; if (callback) RINOK(callback->CheckBreak()); // try direct_names case at first if (addArchivePrefix.IsEmpty() && !enterToSubFolders) { // check that all names are direct int i; for (i = 0; i < curNode.IncludeItems.Size(); i++) { const NWildcard::CItem &item = curNode.IncludeItems[i]; if (item.Recursive || item.PathParts.Size() != 1) break; const UString &name = item.PathParts.Front(); if (name.IsEmpty() || DoesNameContainWildCard(name)) break; } if (i == curNode.IncludeItems.Size()) { // all names are direct (no wildcards) // so we don't need file_system's dir enumerator CRecordVector<bool> needEnterVector; for (i = 0; i < curNode.IncludeItems.Size(); i++) { const NWildcard::CItem &item = curNode.IncludeItems[i]; const UString &name = item.PathParts.Front(); const UString fullPath = diskPrefix + name; NFind::CFileInfoW fileInfo; if (!NFind::FindFile(fullPath, fileInfo)) { errorCodes.Add(::GetLastError()); errorPaths.Add(fullPath); continue; } bool isDir = fileInfo.IsDirectory(); if (isDir && !item.ForDir || !isDir && !item.ForFile) { errorCodes.Add((DWORD)E_FAIL); errorPaths.Add(fullPath); continue; } const UString realName = fileInfo.getFileName(); const UString realDiskPath = diskPrefix + realName; { UStringVector pathParts; pathParts.Add(fileInfo.getFileName()); if (curNode.CheckPathToRoot(false, pathParts, !isDir)) continue; } AddDirFileInfo(archivePrefix, realDiskPath, fileInfo, dirItems); if (!isDir) continue; UStringVector addArchivePrefixNew; const NWildcard::CCensorNode *nextNode = 0; int index = curNode.FindSubNode(name); if (index >= 0) { for (int t = needEnterVector.Size(); t <= index; t++) needEnterVector.Add(true); needEnterVector[index] = false; nextNode = &curNode.SubNodes[index]; } else { nextNode = &curNode; addArchivePrefixNew.Add(name); // don't change it to realName. It's for shortnames support } RINOK(EnumerateDirItems(*nextNode, realDiskPath + wchar_t(kDirDelimiter), archivePrefix + realName + wchar_t(kDirDelimiter), addArchivePrefixNew, dirItems, true, callback, errorPaths, errorCodes)); } for (i = 0; i < curNode.SubNodes.Size(); i++) { if (i < needEnterVector.Size()) if (!needEnterVector[i]) continue; const NWildcard::CCensorNode &nextNode = curNode.SubNodes[i]; const UString fullPath = diskPrefix + nextNode.Name; NFind::CFileInfoW fileInfo; if (!NFind::FindFile(fullPath, fileInfo)) { if (!nextNode.AreThereIncludeItems()) continue; errorCodes.Add(::GetLastError()); errorPaths.Add(fullPath); continue; } if (!fileInfo.IsDirectory()) { errorCodes.Add((DWORD)E_FAIL); errorPaths.Add(fullPath); continue; } RINOK(EnumerateDirItems(nextNode, diskPrefix + fileInfo.getFileName() + wchar_t(kDirDelimiter), archivePrefix + fileInfo.getFileName() + wchar_t(kDirDelimiter), UStringVector(), dirItems, false, callback, errorPaths, errorCodes)); } return S_OK; } } NFind::CEnumeratorW enumerator(diskPrefix + wchar_t(kAnyStringWildcard)); for (;;) { NFind::CFileInfoW fileInfo; bool found; if (!enumerator.Next(fileInfo, found)) { errorCodes.Add(::GetLastError()); errorPaths.Add(diskPrefix); break; } if (!found) break; if (callback) RINOK(callback->CheckBreak()); const UString &name = fileInfo.getFileName(); bool enterToSubFolders2 = enterToSubFolders; UStringVector addArchivePrefixNew = addArchivePrefix; addArchivePrefixNew.Add(name); { UStringVector addArchivePrefixNewTemp(addArchivePrefixNew); if (curNode.CheckPathToRoot(false, addArchivePrefixNewTemp, !fileInfo.IsDirectory())) continue; } if (curNode.CheckPathToRoot(true, addArchivePrefixNew, !fileInfo.IsDirectory())) { AddDirFileInfo(archivePrefix, diskPrefix + name, fileInfo, dirItems); if (fileInfo.IsDirectory()) enterToSubFolders2 = true; } if (!fileInfo.IsDirectory()) continue; const NWildcard::CCensorNode *nextNode = 0; if (addArchivePrefix.IsEmpty()) { int index = curNode.FindSubNode(name); if (index >= 0) nextNode = &curNode.SubNodes[index]; } if (!enterToSubFolders2 && nextNode == 0) continue; addArchivePrefixNew = addArchivePrefix; if (nextNode == 0) { nextNode = &curNode; addArchivePrefixNew.Add(name); } RINOK(EnumerateDirItems(*nextNode, diskPrefix + name + wchar_t(kDirDelimiter), archivePrefix + name + wchar_t(kDirDelimiter), addArchivePrefixNew, dirItems, enterToSubFolders2, callback, errorPaths, errorCodes)); } return S_OK; }
static HRESULT EnumerateDirItems(const NWildcard::CCensorNode &curNode, int phyParent, int logParent, const FString &phyPrefix, const UStringVector &addArchivePrefix, // prefix from curNode CDirItems &dirItems, bool enterToSubFolders, IEnumDirItemCallback *callback, FStringVector &errorPaths, CRecordVector<DWORD> &errorCodes) { if (!enterToSubFolders) if (curNode.NeedCheckSubDirs()) enterToSubFolders = true; if (callback) RINOK(callback->ScanProgress(dirItems.GetNumFolders(), dirItems.Items.Size(), fs2us(phyPrefix))); // try direct_names case at first if (addArchivePrefix.IsEmpty() && !enterToSubFolders) { // check that all names are direct int i; for (i = 0; i < curNode.IncludeItems.Size(); i++) { const NWildcard::CItem &item = curNode.IncludeItems[i]; if (item.Recursive || item.PathParts.Size() != 1) break; const UString &name = item.PathParts.Front(); if (name.IsEmpty() || DoesNameContainWildCard(name)) break; } if (i == curNode.IncludeItems.Size()) { // all names are direct (no wildcards) // so we don't need file_system's dir enumerator CRecordVector<bool> needEnterVector; for (i = 0; i < curNode.IncludeItems.Size(); i++) { const NWildcard::CItem &item = curNode.IncludeItems[i]; const UString &name = item.PathParts.Front(); const FString fullPath = phyPrefix + us2fs(name); NFind::CFileInfo fi; if (!fi.Find(fullPath)) { errorCodes.Add(::GetLastError()); errorPaths.Add(fullPath); continue; } bool isDir = fi.IsDir(); if (isDir && !item.ForDir || !isDir && !item.ForFile) { errorCodes.Add((DWORD)E_FAIL); errorPaths.Add(fullPath); continue; } { UStringVector pathParts; pathParts.Add(fs2us(fi.Name)); if (curNode.CheckPathToRoot(false, pathParts, !isDir)) continue; } AddDirFileInfo(phyParent, logParent, fi, dirItems.Items); if (!isDir) continue; UStringVector addArchivePrefixNew; const NWildcard::CCensorNode *nextNode = 0; int index = curNode.FindSubNode(name); if (index >= 0) { for (int t = needEnterVector.Size(); t <= index; t++) needEnterVector.Add(true); needEnterVector[index] = false; nextNode = &curNode.SubNodes[index]; } else { nextNode = &curNode; addArchivePrefixNew.Add(name); // don't change it to fi.Name. It's for shortnames support } RINOK(EnumerateDirItems_Spec(*nextNode, phyParent, logParent, fi.Name, phyPrefix, addArchivePrefixNew, dirItems, true, callback, errorPaths, errorCodes)); } for (i = 0; i < curNode.SubNodes.Size(); i++) { if (i < needEnterVector.Size()) if (!needEnterVector[i]) continue; const NWildcard::CCensorNode &nextNode = curNode.SubNodes[i]; const FString fullPath = phyPrefix + us2fs(nextNode.Name); NFind::CFileInfo fi; if (!fi.Find(fullPath)) { if (!nextNode.AreThereIncludeItems()) continue; errorCodes.Add(::GetLastError()); errorPaths.Add(fullPath); continue; } if (!fi.IsDir()) { errorCodes.Add((DWORD)E_FAIL); errorPaths.Add(fullPath); continue; } RINOK(EnumerateDirItems_Spec(nextNode, phyParent, logParent, fi.Name, phyPrefix, UStringVector(), dirItems, false, callback, errorPaths, errorCodes)); } return S_OK; } } NFind::CEnumerator enumerator(phyPrefix + FCHAR_ANY_MASK); for (int ttt = 0; ; ttt++) { NFind::CFileInfo fi; bool found; if (!enumerator.Next(fi, found)) { errorCodes.Add(::GetLastError()); errorPaths.Add(phyPrefix); break; } if (!found) break; if (callback && (ttt & 0xFF) == 0xFF) RINOK(callback->ScanProgress(dirItems.GetNumFolders(), dirItems.Items.Size(), fs2us(phyPrefix))); const UString &name = fs2us(fi.Name); bool enterToSubFolders2 = enterToSubFolders; UStringVector addArchivePrefixNew = addArchivePrefix; addArchivePrefixNew.Add(name); { UStringVector addArchivePrefixNewTemp(addArchivePrefixNew); if (curNode.CheckPathToRoot(false, addArchivePrefixNewTemp, !fi.IsDir())) continue; } if (curNode.CheckPathToRoot(true, addArchivePrefixNew, !fi.IsDir())) { AddDirFileInfo(phyParent, logParent, fi, dirItems.Items); if (fi.IsDir()) enterToSubFolders2 = true; } if (!fi.IsDir()) continue; const NWildcard::CCensorNode *nextNode = 0; if (addArchivePrefix.IsEmpty()) { int index = curNode.FindSubNode(name); if (index >= 0) nextNode = &curNode.SubNodes[index]; } if (!enterToSubFolders2 && nextNode == 0) continue; addArchivePrefixNew = addArchivePrefix; if (nextNode == 0) { nextNode = &curNode; addArchivePrefixNew.Add(name); } RINOK(EnumerateDirItems_Spec(*nextNode, phyParent, logParent, fi.Name, phyPrefix, addArchivePrefixNew, dirItems, enterToSubFolders2, callback, errorPaths, errorCodes)); } return S_OK; }