/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #include "mozilla/DebugOnly.h" #include "mozilla/Util.h" #include "nsCOMPtr.h" #include "nsAutoPtr.h" #include "nsMemory.h" #include "nsLocalFile.h" #include "nsIDirectoryEnumerator.h" #include "nsNativeCharsetUtils.h" #include "nsISimpleEnumerator.h" #include "nsIComponentManager.h" #include "prio.h" #include "private/pprio.h" // To get PR_ImportFile #include "prprf.h" #include "prmem.h" #include "nsHashKeys.h" #include "nsXPIDLString.h" #include "nsReadableUtils.h" #include #include #include #include #include "shellapi.h" #include "shlguid.h" #include #include #include #include #include "nsXPIDLString.h" #include "prproces.h" #include "mozilla/Mutex.h" #include "SpecialSystemDirectory.h" #include "nsTraceRefcntImpl.h" #include "nsXPCOMCIDInternal.h" #include "nsThreadUtils.h" using namespace mozilla; #define CHECK_mWorkingPath() \ PR_BEGIN_MACRO \ if (mWorkingPath.IsEmpty()) \ return NS_ERROR_NOT_INITIALIZED; \ PR_END_MACRO // CopyFileEx only supports unbuffered I/O in Windows Vista and above #ifndef COPY_FILE_NO_BUFFERING #define COPY_FILE_NO_BUFFERING 0x00001000 #endif #ifndef FILE_ATTRIBUTE_NOT_CONTENT_INDEXED #define FILE_ATTRIBUTE_NOT_CONTENT_INDEXED 0x00002000 #endif #ifndef DRIVE_REMOTE #define DRIVE_REMOTE 4 #endif /** * A runnable to dispatch back to the main thread when * AsyncLocalFileWinOperation completes. */ class AsyncLocalFileWinDone : public nsRunnable { public: AsyncLocalFileWinDone() : mWorkerThread(do_GetCurrentThread()) { // Objects of this type must only be created on worker threads MOZ_ASSERT(!NS_IsMainThread()); } NS_IMETHOD Run() { // This event shuts down the worker thread and so must be main thread. MOZ_ASSERT(NS_IsMainThread()); // If we don't destroy the thread when we're done with it, it will hang // around forever... and that is bad! mWorkerThread->Shutdown(); return NS_OK; } private: nsCOMPtr mWorkerThread; }; /** * A runnable to dispatch from the main thread when an async operation should * be performed. */ class AsyncLocalFileWinOperation : public nsRunnable { public: enum FileOp { RevealOp, LaunchOp }; AsyncLocalFileWinOperation(AsyncLocalFileWinOperation::FileOp aOperation, const nsAString &aResolvedPath) : mOperation(aOperation), mResolvedPath(aResolvedPath) { } NS_IMETHOD Run() { MOZ_ASSERT(!NS_IsMainThread(), "AsyncLocalFileWinOperation should not be run on the main thread!"); CoInitialize(NULL); switch(mOperation) { case RevealOp: { Reveal(); } break; case LaunchOp: { Launch(); } break; } CoUninitialize(); // Send the result back to the main thread so that it can shutdown nsCOMPtr resultrunnable = new AsyncLocalFileWinDone(); NS_DispatchToMainThread(resultrunnable); return NS_OK; } private: // Reveals the path in explorer. nsresult Reveal() { DWORD attributes = GetFileAttributesW(mResolvedPath.get()); if (INVALID_FILE_ATTRIBUTES == attributes) { return NS_ERROR_FILE_INVALID_PATH; } HRESULT hr; if (attributes & FILE_ATTRIBUTE_DIRECTORY) { // We have a directory so we should open the directory itself. ITEMIDLIST *dir = ILCreateFromPathW(mResolvedPath.get()); if (!dir) { return NS_ERROR_FAILURE; } const ITEMIDLIST* selection[] = { dir }; UINT count = ArrayLength(selection); //Perform the open of the directory. hr = SHOpenFolderAndSelectItems(dir, count, selection, 0); CoTaskMemFree(dir); } else { int32_t len = mResolvedPath.Length(); // We don't currently handle UNC long paths of the form \\?\ anywhere so // this should be fine. if (len > MAX_PATH) { return NS_ERROR_FILE_INVALID_PATH; } WCHAR parentDirectoryPath[MAX_PATH + 1] = { 0 }; wcsncpy(parentDirectoryPath, mResolvedPath.get(), MAX_PATH); PathRemoveFileSpecW(parentDirectoryPath); // We have a file so we should open the parent directory. ITEMIDLIST *dir = ILCreateFromPathW(parentDirectoryPath); if (!dir) { return NS_ERROR_FAILURE; } // Set the item in the directory to select to the file we want to reveal. ITEMIDLIST *item = ILCreateFromPathW(mResolvedPath.get()); if (!item) { CoTaskMemFree(dir); return NS_ERROR_FAILURE; } const ITEMIDLIST* selection[] = { item }; UINT count = ArrayLength(selection); //Perform the selection of the file. hr = SHOpenFolderAndSelectItems(dir, count, selection, 0); CoTaskMemFree(dir); CoTaskMemFree(item); } return SUCCEEDED(hr) ? NS_OK : NS_ERROR_FAILURE; } // Launches the default shell operation for the file path nsresult Launch() { // use the app registry name to launch a shell execute.... SHELLEXECUTEINFOW seinfo; memset(&seinfo, 0, sizeof(seinfo)); seinfo.cbSize = sizeof(SHELLEXECUTEINFOW); seinfo.fMask = 0; seinfo.hwnd = NULL; seinfo.lpVerb = NULL; seinfo.lpFile = mResolvedPath.get(); seinfo.lpParameters = NULL; seinfo.lpDirectory = NULL; seinfo.nShow = SW_SHOWNORMAL; // Use the directory of the file we're launching as the working // directory. That way if we have a self extracting EXE it won't // suggest to extract to the install directory. WCHAR workingDirectory[MAX_PATH + 1] = { L'\0' }; wcsncpy(workingDirectory, mResolvedPath.get(), MAX_PATH); if (PathRemoveFileSpecW(workingDirectory)) { seinfo.lpDirectory = workingDirectory; } else { NS_WARNING("Could not set working directory for launched file."); } if (ShellExecuteExW(&seinfo)) { return NS_OK; } DWORD r = GetLastError(); // if the file has no association, we launch windows' // "what do you want to do" dialog if (r == SE_ERR_NOASSOC) { nsAutoString shellArg; shellArg.Assign(NS_LITERAL_STRING("shell32.dll,OpenAs_RunDLL ") + mResolvedPath); seinfo.lpFile = L"RUNDLL32.EXE"; seinfo.lpParameters = shellArg.get(); if (ShellExecuteExW(&seinfo)) return NS_OK; r = GetLastError(); } if (r < 32) { switch (r) { case 0: case SE_ERR_OOM: return NS_ERROR_OUT_OF_MEMORY; case ERROR_FILE_NOT_FOUND: return NS_ERROR_FILE_NOT_FOUND; case ERROR_PATH_NOT_FOUND: return NS_ERROR_FILE_UNRECOGNIZED_PATH; case ERROR_BAD_FORMAT: return NS_ERROR_FILE_CORRUPTED; case SE_ERR_ACCESSDENIED: return NS_ERROR_FILE_ACCESS_DENIED; case SE_ERR_ASSOCINCOMPLETE: case SE_ERR_NOASSOC: return NS_ERROR_UNEXPECTED; case SE_ERR_DDEBUSY: case SE_ERR_DDEFAIL: case SE_ERR_DDETIMEOUT: return NS_ERROR_NOT_AVAILABLE; case SE_ERR_DLLNOTFOUND: return NS_ERROR_FAILURE; case SE_ERR_SHARE: return NS_ERROR_FILE_IS_LOCKED; default: return NS_ERROR_FILE_EXECUTION_FAILED; } } return NS_OK; } // Stores the operation that will be performed on the thread AsyncLocalFileWinOperation::FileOp mOperation; // Stores the path to perform the operation on nsString mResolvedPath; }; class nsDriveEnumerator : public nsISimpleEnumerator { public: nsDriveEnumerator(); virtual ~nsDriveEnumerator(); NS_DECL_ISUPPORTS NS_DECL_NSISIMPLEENUMERATOR nsresult Init(); private: /* mDrives stores the null-separated drive names. * Init sets them. * HasMoreElements checks mStartOfCurrentDrive. * GetNext advances mStartOfCurrentDrive. */ nsString mDrives; nsAString::const_iterator mStartOfCurrentDrive; nsAString::const_iterator mEndOfDrivesString; }; //---------------------------------------------------------------------------- // short cut resolver //---------------------------------------------------------------------------- class ShortcutResolver { public: ShortcutResolver(); // nonvirtual since we're not subclassed ~ShortcutResolver(); nsresult Init(); nsresult Resolve(const WCHAR* in, WCHAR* out); nsresult SetShortcut(bool updateExisting, const WCHAR* shortcutPath, const WCHAR* targetPath, const WCHAR* workingDir, const WCHAR* args, const WCHAR* description, const WCHAR* iconFile, int32_t iconIndex); private: Mutex mLock; nsRefPtr mPersistFile; nsRefPtr mShellLink; }; ShortcutResolver::ShortcutResolver() : mLock("ShortcutResolver.mLock") { CoInitialize(NULL); } ShortcutResolver::~ShortcutResolver() { CoUninitialize(); } nsresult ShortcutResolver::Init() { // Get a pointer to the IPersistFile interface. if (FAILED(CoCreateInstance(CLSID_ShellLink, NULL, CLSCTX_INPROC_SERVER, IID_IShellLinkW, getter_AddRefs(mShellLink))) || FAILED(mShellLink->QueryInterface(IID_IPersistFile, getter_AddRefs(mPersistFile)))) { mShellLink = nullptr; return NS_ERROR_FAILURE; } return NS_OK; } // |out| must be an allocated buffer of size MAX_PATH nsresult ShortcutResolver::Resolve(const WCHAR* in, WCHAR* out) { if (!mShellLink) return NS_ERROR_FAILURE; MutexAutoLock lock(mLock); if (FAILED(mPersistFile->Load(in, STGM_READ)) || FAILED(mShellLink->Resolve(nullptr, SLR_NO_UI)) || FAILED(mShellLink->GetPath(out, MAX_PATH, NULL, SLGP_UNCPRIORITY))) return NS_ERROR_FAILURE; return NS_OK; } nsresult ShortcutResolver::SetShortcut(bool updateExisting, const WCHAR* shortcutPath, const WCHAR* targetPath, const WCHAR* workingDir, const WCHAR* args, const WCHAR* description, const WCHAR* iconPath, int32_t iconIndex) { if (!mShellLink) { return NS_ERROR_FAILURE; } if (!shortcutPath) { return NS_ERROR_FAILURE; } MutexAutoLock lock(mLock); if (updateExisting) { if (FAILED(mPersistFile->Load(shortcutPath, STGM_READWRITE))) { return NS_ERROR_FAILURE; } } else { if (!targetPath) { return NS_ERROR_FILE_TARGET_DOES_NOT_EXIST; } // Since we reuse our IPersistFile, we have to clear out any values that // may be left over from previous calls to SetShortcut. if (FAILED(mShellLink->SetWorkingDirectory(L"")) || FAILED(mShellLink->SetArguments(L"")) || FAILED(mShellLink->SetDescription(L"")) || FAILED(mShellLink->SetIconLocation(L"", 0))) { return NS_ERROR_FAILURE; } } if (targetPath && FAILED(mShellLink->SetPath(targetPath))) { return NS_ERROR_FAILURE; } if (workingDir && FAILED(mShellLink->SetWorkingDirectory(workingDir))) { return NS_ERROR_FAILURE; } if (args && FAILED(mShellLink->SetArguments(args))) { return NS_ERROR_FAILURE; } if (description && FAILED(mShellLink->SetDescription(description))) { return NS_ERROR_FAILURE; } if (iconPath && FAILED(mShellLink->SetIconLocation(iconPath, iconIndex))) { return NS_ERROR_FAILURE; } if (FAILED(mPersistFile->Save(shortcutPath, TRUE))) { // Second argument indicates whether the file path specified in the // first argument should become the "current working file" for this // IPersistFile return NS_ERROR_FAILURE; } return NS_OK; } static ShortcutResolver * gResolver = nullptr; static nsresult NS_CreateShortcutResolver() { gResolver = new ShortcutResolver(); if (!gResolver) return NS_ERROR_OUT_OF_MEMORY; return gResolver->Init(); } static void NS_DestroyShortcutResolver() { delete gResolver; gResolver = nullptr; } //----------------------------------------------------------------------------- // static helper functions //----------------------------------------------------------------------------- // certainly not all the error that can be // encountered, but many of them common ones static nsresult ConvertWinError(DWORD winErr) { nsresult rv; switch (winErr) { case ERROR_FILE_NOT_FOUND: case ERROR_PATH_NOT_FOUND: case ERROR_INVALID_DRIVE: rv = NS_ERROR_FILE_NOT_FOUND; break; case ERROR_ACCESS_DENIED: case ERROR_NOT_SAME_DEVICE: rv = NS_ERROR_FILE_ACCESS_DENIED; break; case ERROR_SHARING_VIOLATION: // CreateFile without sharing flags case ERROR_LOCK_VIOLATION: // LockFile, LockFileEx rv = NS_ERROR_FILE_IS_LOCKED; break; case ERROR_NOT_ENOUGH_MEMORY: case ERROR_INVALID_BLOCK: case ERROR_INVALID_HANDLE: case ERROR_ARENA_TRASHED: rv = NS_ERROR_OUT_OF_MEMORY; break; case ERROR_CURRENT_DIRECTORY: rv = NS_ERROR_FILE_DIR_NOT_EMPTY; break; case ERROR_WRITE_PROTECT: rv = NS_ERROR_FILE_READ_ONLY; break; case ERROR_HANDLE_DISK_FULL: rv = NS_ERROR_FILE_TOO_BIG; break; case ERROR_FILE_EXISTS: case ERROR_ALREADY_EXISTS: case ERROR_CANNOT_MAKE: rv = NS_ERROR_FILE_ALREADY_EXISTS; break; case ERROR_FILENAME_EXCED_RANGE: rv = NS_ERROR_FILE_NAME_TOO_LONG; break; case ERROR_DIRECTORY: rv = NS_ERROR_FILE_NOT_DIRECTORY; break; case 0: rv = NS_OK; break; default: rv = NS_ERROR_FAILURE; break; } return rv; } // as suggested in the MSDN documentation on SetFilePointer static __int64 MyFileSeek64(HANDLE aHandle, __int64 aDistance, DWORD aMoveMethod) { LARGE_INTEGER li; li.QuadPart = aDistance; li.LowPart = SetFilePointer(aHandle, li.LowPart, &li.HighPart, aMoveMethod); if (li.LowPart == INVALID_SET_FILE_POINTER && GetLastError() != NO_ERROR) { li.QuadPart = -1; } return li.QuadPart; } static bool IsShortcutPath(const nsAString &path) { // Under Windows, the shortcuts are just files with a ".lnk" extension. // Note also that we don't resolve links in the middle of paths. // i.e. "c:\foo.lnk\bar.txt" is invalid. NS_ABORT_IF_FALSE(!path.IsEmpty(), "don't pass an empty string"); int32_t len = path.Length(); return len >= 4 && (StringTail(path, 4).LowerCaseEqualsASCII(".lnk")); } //----------------------------------------------------------------------------- // We need the following three definitions to make |OpenFile| convert a file // handle to an NSPR file descriptor correctly when |O_APPEND| flag is // specified. It is defined in a private header of NSPR (primpl.h) we can't // include. As a temporary workaround until we decide how to extend // |PR_ImportFile|, we define it here. Currently, |_PR_HAVE_PEEK_BUFFER| // and |PR_STRICT_ADDR_LEN| are not defined for the 'w95'-dependent portion // of NSPR so that fields of |PRFilePrivate| #ifdef'd by them are not copied. // Similarly, |_MDFileDesc| is taken from nsprpub/pr/include/md/_win95.h. // In an unlikely case we switch to 'NT'-dependent NSPR AND this temporary // workaround last beyond the switch, |PRFilePrivate| and |_MDFileDesc| // need to be changed to match the definitions for WinNT. //----------------------------------------------------------------------------- typedef enum { _PR_TRI_TRUE = 1, _PR_TRI_FALSE = 0, _PR_TRI_UNKNOWN = -1 } _PRTriStateBool; struct _MDFileDesc { PROsfd osfd; }; struct PRFilePrivate { int32_t state; bool nonblocking; _PRTriStateBool inheritable; PRFileDesc *next; int lockCount; /* 0: not locked * -1: a native lockfile call is in progress * > 0: # times the file is locked */ bool appendMode; _MDFileDesc md; }; //----------------------------------------------------------------------------- // Six static methods defined below (OpenFile, FileTimeToPRTime, GetFileInfo, // OpenDir, CloseDir, ReadDir) should go away once the corresponding // UTF-16 APIs are implemented on all the supported platforms (or at least // Windows 9x/ME) in NSPR. Currently, they're only implemented on // Windows NT4 or later. (bug 330665) //----------------------------------------------------------------------------- // copied from nsprpub/pr/src/{io/prfile.c | md/windows/w95io.c} : // PR_Open and _PR_MD_OPEN static nsresult OpenFile(const nsAFlatString &name, int osflags, int mode, PRFileDesc **fd) { int32_t access = 0; int32_t disposition = 0; int32_t attributes = 0; if (osflags & PR_SYNC) attributes = FILE_FLAG_WRITE_THROUGH; if (osflags & PR_RDONLY || osflags & PR_RDWR) access |= GENERIC_READ; if (osflags & PR_WRONLY || osflags & PR_RDWR) access |= GENERIC_WRITE; if ( osflags & PR_CREATE_FILE && osflags & PR_EXCL ) disposition = CREATE_NEW; else if (osflags & PR_CREATE_FILE) { if (osflags & PR_TRUNCATE) disposition = CREATE_ALWAYS; else disposition = OPEN_ALWAYS; } else { if (osflags & PR_TRUNCATE) disposition = TRUNCATE_EXISTING; else disposition = OPEN_EXISTING; } if (osflags & nsIFile::DELETE_ON_CLOSE) { attributes |= FILE_FLAG_DELETE_ON_CLOSE; } if (osflags & nsIFile::OS_READAHEAD) { attributes |= FILE_FLAG_SEQUENTIAL_SCAN; } // If no write permissions are requested, and if we are possibly creating // the file, then set the new file as read only. // The flag has no effect if we happen to open the file. if (!(mode & (PR_IWUSR | PR_IWGRP | PR_IWOTH)) && disposition != OPEN_EXISTING) { attributes |= FILE_ATTRIBUTE_READONLY; } HANDLE file = ::CreateFileW(name.get(), access, FILE_SHARE_READ|FILE_SHARE_WRITE, NULL, disposition, attributes, NULL); if (file == INVALID_HANDLE_VALUE) { *fd = nullptr; return ConvertWinError(GetLastError()); } *fd = PR_ImportFile((PROsfd) file); if (*fd) { // On Windows, _PR_HAVE_O_APPEND is not defined so that we have to // add it manually. (see |PR_Open| in nsprpub/pr/src/io/prfile.c) (*fd)->secret->appendMode = (PR_APPEND & osflags) ? true : false; return NS_OK; } nsresult rv = NS_ErrorAccordingToNSPR(); CloseHandle(file); return rv; } // copied from nsprpub/pr/src/{io/prfile.c | md/windows/w95io.c} : // PR_FileTimeToPRTime and _PR_FileTimeToPRTime static void FileTimeToPRTime(const FILETIME *filetime, PRTime *prtm) { #ifdef __GNUC__ const PRTime _pr_filetime_offset = 116444736000000000LL; #else const PRTime _pr_filetime_offset = 116444736000000000i64; #endif PR_ASSERT(sizeof(FILETIME) == sizeof(PRTime)); ::CopyMemory(prtm, filetime, sizeof(PRTime)); #ifdef __GNUC__ *prtm = (*prtm - _pr_filetime_offset) / 10LL; #else *prtm = (*prtm - _pr_filetime_offset) / 10i64; #endif } // copied from nsprpub/pr/src/{io/prfile.c | md/windows/w95io.c} with some // changes : PR_GetFileInfo64, _PR_MD_GETFILEINFO64 static nsresult GetFileInfo(const nsAFlatString &name, PRFileInfo64 *info) { WIN32_FILE_ATTRIBUTE_DATA fileData; if (name.IsEmpty() || name.FindCharInSet(L"?*") != kNotFound) return NS_ERROR_INVALID_ARG; if (!::GetFileAttributesExW(name.get(), GetFileExInfoStandard, &fileData)) return ConvertWinError(GetLastError()); if (fileData.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY) { info->type = PR_FILE_DIRECTORY; } else { info->type = PR_FILE_FILE; } info->size = fileData.nFileSizeHigh; info->size = (info->size << 32) + fileData.nFileSizeLow; FileTimeToPRTime(&fileData.ftLastWriteTime, &info->modifyTime); if (0 == fileData.ftCreationTime.dwLowDateTime && 0 == fileData.ftCreationTime.dwHighDateTime) { info->creationTime = info->modifyTime; } else { FileTimeToPRTime(&fileData.ftCreationTime, &info->creationTime); } return NS_OK; } struct nsDir { HANDLE handle; WIN32_FIND_DATAW data; bool firstEntry; }; static nsresult OpenDir(const nsAFlatString &name, nsDir * *dir) { NS_ENSURE_ARG_POINTER(dir); *dir = nullptr; if (name.Length() + 3 >= MAX_PATH) return NS_ERROR_FILE_NAME_TOO_LONG; nsDir *d = PR_NEW(nsDir); if (!d) return NS_ERROR_OUT_OF_MEMORY; nsAutoString filename(name); //If 'name' ends in a slash or backslash, do not append //another backslash. if (filename.Last() == L'/' || filename.Last() == L'\\') filename.AppendASCII("*"); else filename.AppendASCII("\\*"); filename.ReplaceChar(L'/', L'\\'); // FindFirstFileW Will have a last error of ERROR_DIRECTORY if // \* is passed in. If \* is passed in then // ERROR_PATH_NOT_FOUND will be the last error. d->handle = ::FindFirstFileW(filename.get(), &(d->data) ); if (d->handle == INVALID_HANDLE_VALUE) { PR_Free(d); return ConvertWinError(GetLastError()); } d->firstEntry = true; *dir = d; return NS_OK; } static nsresult ReadDir(nsDir *dir, PRDirFlags flags, nsString& name) { name.Truncate(); NS_ENSURE_ARG(dir); while (1) { BOOL rv; if (dir->firstEntry) { dir->firstEntry = false; rv = 1; } else rv = ::FindNextFileW(dir->handle, &(dir->data)); if (rv == 0) break; const PRUnichar *fileName; nsString tmp; fileName = (dir)->data.cFileName; if ((flags & PR_SKIP_DOT) && (fileName[0] == L'.') && (fileName[1] == L'\0')) continue; if ((flags & PR_SKIP_DOT_DOT) && (fileName[0] == L'.') && (fileName[1] == L'.') && (fileName[2] == L'\0')) continue; DWORD attrib = dir->data.dwFileAttributes; if ((flags & PR_SKIP_HIDDEN) && (attrib & FILE_ATTRIBUTE_HIDDEN)) continue; if (fileName == tmp.get()) name = tmp; else name = fileName; return NS_OK; } DWORD err = GetLastError(); return err == ERROR_NO_MORE_FILES ? NS_OK : ConvertWinError(err); } static nsresult CloseDir(nsDir *&d) { NS_ENSURE_ARG(d); BOOL isOk = FindClose(d->handle); // PR_DELETE also nulls out the passed in pointer. PR_DELETE(d); return isOk ? NS_OK : ConvertWinError(GetLastError()); } //----------------------------------------------------------------------------- // nsDirEnumerator //----------------------------------------------------------------------------- class nsDirEnumerator MOZ_FINAL : public nsISimpleEnumerator, public nsIDirectoryEnumerator { public: NS_DECL_ISUPPORTS nsDirEnumerator() : mDir(nullptr) { } nsresult Init(nsIFile* parent) { nsAutoString filepath; parent->GetTarget(filepath); if (filepath.IsEmpty()) { parent->GetPath(filepath); } if (filepath.IsEmpty()) { return NS_ERROR_UNEXPECTED; } // IsDirectory is not needed here because OpenDir will return // NS_ERROR_FILE_NOT_DIRECTORY if the passed in path is a file. nsresult rv = OpenDir(filepath, &mDir); if (NS_FAILED(rv)) return rv; mParent = parent; return NS_OK; } NS_IMETHOD HasMoreElements(bool *result) { nsresult rv; if (mNext == nullptr && mDir) { nsString name; rv = ReadDir(mDir, PR_SKIP_BOTH, name); if (NS_FAILED(rv)) return rv; if (name.IsEmpty()) { // end of dir entries if (NS_FAILED(CloseDir(mDir))) return NS_ERROR_FAILURE; *result = false; return NS_OK; } nsCOMPtr file; rv = mParent->Clone(getter_AddRefs(file)); if (NS_FAILED(rv)) return rv; rv = file->Append(name); if (NS_FAILED(rv)) return rv; mNext = do_QueryInterface(file); } *result = mNext != nullptr; if (!*result) Close(); return NS_OK; } NS_IMETHOD GetNext(nsISupports **result) { nsresult rv; bool hasMore; rv = HasMoreElements(&hasMore); if (NS_FAILED(rv)) return rv; *result = mNext; // might return nullptr NS_IF_ADDREF(*result); mNext = nullptr; return NS_OK; } NS_IMETHOD GetNextFile(nsIFile **result) { *result = nullptr; bool hasMore = false; nsresult rv = HasMoreElements(&hasMore); if (NS_FAILED(rv) || !hasMore) return rv; *result = mNext; NS_IF_ADDREF(*result); mNext = nullptr; return NS_OK; } NS_IMETHOD Close() { if (mDir) { nsresult rv = CloseDir(mDir); NS_ASSERTION(NS_SUCCEEDED(rv), "close failed"); if (NS_FAILED(rv)) return NS_ERROR_FAILURE; } return NS_OK; } // dtor can be non-virtual since there are no subclasses, but must be // public to use the class on the stack. ~nsDirEnumerator() { Close(); } protected: nsDir* mDir; nsCOMPtr mParent; nsCOMPtr mNext; }; NS_IMPL_ISUPPORTS2(nsDirEnumerator, nsISimpleEnumerator, nsIDirectoryEnumerator) //----------------------------------------------------------------------------- // nsLocalFile //----------------------------------------------------------------------------- nsLocalFile::nsLocalFile() : mDirty(true) , mResolveDirty(true) , mFollowSymlinks(false) { } nsresult nsLocalFile::nsLocalFileConstructor(nsISupports* outer, const nsIID& aIID, void* *aInstancePtr) { NS_ENSURE_ARG_POINTER(aInstancePtr); NS_ENSURE_NO_AGGREGATION(outer); nsLocalFile* inst = new nsLocalFile(); if (inst == NULL) return NS_ERROR_OUT_OF_MEMORY; nsresult rv = inst->QueryInterface(aIID, aInstancePtr); if (NS_FAILED(rv)) { delete inst; return rv; } return NS_OK; } //----------------------------------------------------------------------------- // nsLocalFile::nsISupports //----------------------------------------------------------------------------- NS_IMPL_THREADSAFE_ISUPPORTS4(nsLocalFile, nsILocalFile, nsIFile, nsILocalFileWin, nsIHashable) //----------------------------------------------------------------------------- // nsLocalFile //----------------------------------------------------------------------------- nsLocalFile::nsLocalFile(const nsLocalFile& other) : mDirty(true) , mResolveDirty(true) , mFollowSymlinks(other.mFollowSymlinks) , mWorkingPath(other.mWorkingPath) { } // Resolve the shortcut file from mWorkingPath and write the path // it points to into mResolvedPath. nsresult nsLocalFile::ResolveShortcut() { // we can't do anything without the resolver if (!gResolver) return NS_ERROR_FAILURE; mResolvedPath.SetLength(MAX_PATH); if (mResolvedPath.Length() != MAX_PATH) return NS_ERROR_OUT_OF_MEMORY; PRUnichar *resolvedPath = mResolvedPath.BeginWriting(); // resolve this shortcut nsresult rv = gResolver->Resolve(mWorkingPath.get(), resolvedPath); size_t len = NS_FAILED(rv) ? 0 : wcslen(resolvedPath); mResolvedPath.SetLength(len); return rv; } // Resolve any shortcuts and stat the resolved path. After a successful return // the path is guaranteed valid and the members of mFileInfo64 can be used. nsresult nsLocalFile::ResolveAndStat() { // if we aren't dirty then we are already done if (!mDirty) return NS_OK; // we can't resolve/stat anything that isn't a valid NSPR addressable path if (mWorkingPath.IsEmpty()) return NS_ERROR_FILE_INVALID_PATH; // this is usually correct mResolvedPath.Assign(mWorkingPath); // slutty hack designed to work around bug 134796 until it is fixed nsAutoString nsprPath(mWorkingPath.get()); if (mWorkingPath.Length() == 2 && mWorkingPath.CharAt(1) == L':') nsprPath.AppendASCII("\\"); // first we will see if the working path exists. If it doesn't then // there is nothing more that can be done nsresult rv = GetFileInfo(nsprPath, &mFileInfo64); if (NS_FAILED(rv)) return rv; // if this isn't a shortcut file or we aren't following symlinks then we're done if (!mFollowSymlinks || mFileInfo64.type != PR_FILE_FILE || !IsShortcutPath(mWorkingPath)) { mDirty = false; mResolveDirty = false; return NS_OK; } // we need to resolve this shortcut to what it points to, this will // set mResolvedPath. Even if it fails we need to have the resolved // path equal to working path for those functions that always use // the resolved path. rv = ResolveShortcut(); if (NS_FAILED(rv)) { mResolvedPath.Assign(mWorkingPath); return rv; } mResolveDirty = false; // get the details of the resolved path rv = GetFileInfo(mResolvedPath, &mFileInfo64); if (NS_FAILED(rv)) return rv; mDirty = false; return NS_OK; } /** * Fills the mResolvedPath member variable with the file or symlink target * if follow symlinks is on. This is a copy of the Resolve parts from * ResolveAndStat. ResolveAndStat is much slower though because of the stat. * * @return NS_OK on success. */ nsresult nsLocalFile::Resolve() { // if we aren't dirty then we are already done if (!mResolveDirty) { return NS_OK; } // we can't resolve/stat anything that isn't a valid NSPR addressable path if (mWorkingPath.IsEmpty()) { return NS_ERROR_FILE_INVALID_PATH; } // this is usually correct mResolvedPath.Assign(mWorkingPath); // if this isn't a shortcut file or we aren't following symlinks then // we're done. if (!mFollowSymlinks || !IsShortcutPath(mWorkingPath)) { mResolveDirty = false; return NS_OK; } // we need to resolve this shortcut to what it points to, this will // set mResolvedPath. Even if it fails we need to have the resolved // path equal to working path for those functions that always use // the resolved path. nsresult rv = ResolveShortcut(); if (NS_FAILED(rv)) { mResolvedPath.Assign(mWorkingPath); return rv; } mResolveDirty = false; return NS_OK; } //----------------------------------------------------------------------------- // nsLocalFile::nsIFile,nsILocalFile //----------------------------------------------------------------------------- NS_IMETHODIMP nsLocalFile::Clone(nsIFile **file) { // Just copy-construct ourselves *file = new nsLocalFile(*this); if (!*file) return NS_ERROR_OUT_OF_MEMORY; NS_ADDREF(*file); return NS_OK; } NS_IMETHODIMP nsLocalFile::InitWithFile(nsIFile *aFile) { NS_ENSURE_ARG(aFile); nsAutoString path; aFile->GetPath(path); if (path.IsEmpty()) return NS_ERROR_INVALID_ARG; return InitWithPath(path); } NS_IMETHODIMP nsLocalFile::InitWithPath(const nsAString &filePath) { MakeDirty(); nsAString::const_iterator begin, end; filePath.BeginReading(begin); filePath.EndReading(end); // input string must not be empty if (begin == end) return NS_ERROR_FAILURE; PRUnichar firstChar = *begin; PRUnichar secondChar = *(++begin); // just do a sanity check. if it has any forward slashes, it is not a Native path // on windows. Also, it must have a colon at after the first char. if (FindCharInReadable(L'/', begin, end)) return NS_ERROR_FILE_UNRECOGNIZED_PATH; if (secondChar != L':' && (secondChar != L'\\' || firstChar != L'\\')) return NS_ERROR_FILE_UNRECOGNIZED_PATH; if (secondChar == L':') { // Make sure we have a valid drive, later code assumes the drive letter // is a single char a-z or A-Z. if (PathGetDriveNumberW(filePath.Data()) == -1) { return NS_ERROR_FILE_UNRECOGNIZED_PATH; } } mWorkingPath = filePath; // kill any trailing '\' if (mWorkingPath.Last() == L'\\') mWorkingPath.Truncate(mWorkingPath.Length() - 1); return NS_OK; } NS_IMETHODIMP nsLocalFile::OpenNSPRFileDesc(int32_t flags, int32_t mode, PRFileDesc **_retval) { nsresult rv = Resolve(); if (NS_FAILED(rv)) return rv; return OpenFile(mResolvedPath, flags, mode, _retval); } NS_IMETHODIMP nsLocalFile::OpenANSIFileDesc(const char *mode, FILE * *_retval) { nsresult rv = ResolveAndStat(); if (NS_FAILED(rv) && rv != NS_ERROR_FILE_NOT_FOUND) return rv; *_retval = _wfopen(mResolvedPath.get(), NS_ConvertASCIItoUTF16(mode).get()); if (*_retval) return NS_OK; return NS_ERROR_FAILURE; } NS_IMETHODIMP nsLocalFile::Create(uint32_t type, uint32_t attributes) { if (type != NORMAL_FILE_TYPE && type != DIRECTORY_TYPE) return NS_ERROR_FILE_UNKNOWN_TYPE; nsresult rv = ResolveAndStat(); if (NS_FAILED(rv) && rv != NS_ERROR_FILE_NOT_FOUND) return rv; // create directories to target // // A given local file can be either one of these forms: // // - normal: X:\some\path\on\this\drive // ^--- start here // // - UNC path: \\machine\volume\some\path\on\this\drive // ^--- start here // // Skip the first 'X:\' for the first form, and skip the first full // '\\machine\volume\' segment for the second form. PRUnichar* path = mResolvedPath.BeginWriting(); if (path[0] == L'\\' && path[1] == L'\\') { // dealing with a UNC path here; skip past '\\machine\' path = wcschr(path + 2, L'\\'); if (!path) return NS_ERROR_FILE_INVALID_PATH; ++path; } // search for first slash after the drive (or volume) name PRUnichar* slash = wcschr(path, L'\\'); nsresult directoryCreateError = NS_OK; if (slash) { // skip the first '\\' ++slash; slash = wcschr(slash, L'\\'); while (slash) { *slash = L'\0'; if (!::CreateDirectoryW(mResolvedPath.get(), NULL)) { rv = ConvertWinError(GetLastError()); if (NS_ERROR_FILE_NOT_FOUND == rv && NS_ERROR_FILE_ACCESS_DENIED == directoryCreateError) { // If a previous CreateDirectory failed due to access, return that. return NS_ERROR_FILE_ACCESS_DENIED; } // perhaps the base path already exists, or perhaps we don't have // permissions to create the directory. NOTE: access denied could // occur on a parent directory even though it exists. else if (NS_ERROR_FILE_ALREADY_EXISTS != rv && NS_ERROR_FILE_ACCESS_DENIED != rv) { return rv; } directoryCreateError = rv; } *slash = L'\\'; ++slash; slash = wcschr(slash, L'\\'); } } if (type == NORMAL_FILE_TYPE) { PRFileDesc* file; rv = OpenFile(mResolvedPath, PR_RDONLY | PR_CREATE_FILE | PR_APPEND | PR_EXCL, attributes, &file); if (file) PR_Close(file); if (rv == NS_ERROR_FILE_ACCESS_DENIED) { // need to return already-exists for directories (bug 452217) bool isdir; if (NS_SUCCEEDED(IsDirectory(&isdir)) && isdir) rv = NS_ERROR_FILE_ALREADY_EXISTS; } else if (NS_ERROR_FILE_NOT_FOUND == rv && NS_ERROR_FILE_ACCESS_DENIED == directoryCreateError) { // If a previous CreateDirectory failed due to access, return that. return NS_ERROR_FILE_ACCESS_DENIED; } return rv; } if (type == DIRECTORY_TYPE) { if (!::CreateDirectoryW(mResolvedPath.get(), NULL)) { rv = ConvertWinError(GetLastError()); if (NS_ERROR_FILE_NOT_FOUND == rv && NS_ERROR_FILE_ACCESS_DENIED == directoryCreateError) { // If a previous CreateDirectory failed due to access, return that. return NS_ERROR_FILE_ACCESS_DENIED; } else { return rv; } } else return NS_OK; } return NS_ERROR_FILE_UNKNOWN_TYPE; } NS_IMETHODIMP nsLocalFile::Append(const nsAString &node) { // append this path, multiple components are not permitted return AppendInternal(PromiseFlatString(node), false); } NS_IMETHODIMP nsLocalFile::AppendRelativePath(const nsAString &node) { // append this path, multiple components are permitted return AppendInternal(PromiseFlatString(node), true); } nsresult nsLocalFile::AppendInternal(const nsAFlatString &node, bool multipleComponents) { if (node.IsEmpty()) return NS_OK; // check the relative path for validity if (node.First() == L'\\' // can't start with an '\' || node.FindChar(L'/') != kNotFound // can't contain / || node.EqualsASCII("..")) // can't be .. return NS_ERROR_FILE_UNRECOGNIZED_PATH; if (multipleComponents) { // can't contain .. as a path component. Ensure that the valid components // "foo..foo", "..foo", and "foo.." are not falsely detected, // but the invalid paths "..\", "foo\..", "foo\..\foo", // "..\foo", etc are. NS_NAMED_LITERAL_STRING(doubleDot, "\\.."); nsAString::const_iterator start, end, offset; node.BeginReading(start); node.EndReading(end); offset = end; while (FindInReadable(doubleDot, start, offset)) { if (offset == end || *offset == L'\\') return NS_ERROR_FILE_UNRECOGNIZED_PATH; start = offset; offset = end; } // catches the remaining cases of prefixes if (StringBeginsWith(node, NS_LITERAL_STRING("..\\"))) return NS_ERROR_FILE_UNRECOGNIZED_PATH; } // single components can't contain '\' else if (node.FindChar(L'\\') != kNotFound) return NS_ERROR_FILE_UNRECOGNIZED_PATH; MakeDirty(); mWorkingPath.Append(NS_LITERAL_STRING("\\") + node); return NS_OK; } #define TOUPPER(u) (((u) >= L'a' && (u) <= L'z') ? \ (u) - (L'a' - L'A') : (u)) NS_IMETHODIMP nsLocalFile::Normalize() { // XXX See bug 187957 comment 18 for possible problems with this implementation. if (mWorkingPath.IsEmpty()) return NS_OK; nsAutoString path(mWorkingPath); // find the index of the root backslash for the path. Everything before // this is considered fully normalized and cannot be ascended beyond // using ".." For a local drive this is the first slash (e.g. "c:\"). // For a UNC path it is the slash following the share name // (e.g. "\\server\share\"). int32_t rootIdx = 2; // default to local drive if (path.First() == L'\\') // if a share then calculate the rootIdx { rootIdx = path.FindChar(L'\\', 2); // skip \\ in front of the server if (rootIdx == kNotFound) return NS_OK; // already normalized rootIdx = path.FindChar(L'\\', rootIdx+1); if (rootIdx == kNotFound) return NS_OK; // already normalized } else if (path.CharAt(rootIdx) != L'\\') { // The path has been specified relative to the current working directory // for that drive. To normalize it, the current working directory for // that drive needs to be inserted before the supplied relative path // which will provide an absolute path (and the rootIdx will still be 2). WCHAR cwd[MAX_PATH]; WCHAR * pcwd = cwd; int drive = TOUPPER(path.First()) - 'A' + 1; /* We need to worry about IPH, for details read bug 419326. * _getdrives - http://msdn2.microsoft.com/en-us/library/xdhk0xd2.aspx * uses a bitmask, bit 0 is 'a:' * _chdrive - http://msdn2.microsoft.com/en-us/library/0d1409hb.aspx * _getdcwd - http://msdn2.microsoft.com/en-us/library/7t2zk3s4.aspx * take an int, 1 is 'a:'. * * Because of this, we need to do some math. Subtract 1 to convert from * _chdrive/_getdcwd format to _getdrives drive numbering. * Shift left x bits to convert from integer indexing to bitfield indexing. * And of course, we need to find out if the drive is in the bitmask. * * If we're really unlucky, we can still lose, but only if the user * manages to eject the drive between our call to _getdrives() and * our *calls* to _wgetdcwd. */ if (!((1 << (drive - 1)) & _getdrives())) return NS_ERROR_FILE_INVALID_PATH; if (!_wgetdcwd(drive, pcwd, MAX_PATH)) pcwd = _wgetdcwd(drive, 0, 0); if (!pcwd) return NS_ERROR_OUT_OF_MEMORY; nsAutoString currentDir(pcwd); if (pcwd != cwd) free(pcwd); if (currentDir.Last() == '\\') path.Replace(0, 2, currentDir); else path.Replace(0, 2, currentDir + NS_LITERAL_STRING("\\")); } NS_POSTCONDITION(0 < rootIdx && rootIdx < (int32_t)path.Length(), "rootIdx is invalid"); NS_POSTCONDITION(path.CharAt(rootIdx) == '\\', "rootIdx is invalid"); // if there is nothing following the root path then it is already normalized if (rootIdx + 1 == (int32_t)path.Length()) return NS_OK; // assign the root const PRUnichar * pathBuffer = path.get(); // simplify access to the buffer mWorkingPath.SetCapacity(path.Length()); // it won't ever grow longer mWorkingPath.Assign(pathBuffer, rootIdx); // Normalize the path components. The actions taken are: // // "\\" condense to single backslash // "." remove from path // ".." up a directory // "..." remove from path (any number of dots > 2) // // The last form is something that Windows 95 and 98 supported and // is a shortcut for changing up multiple directories. Windows XP // and ilk ignore it in a path, as is done here. int32_t len, begin, end = rootIdx; while (end < (int32_t)path.Length()) { // find the current segment (text between the backslashes) to // be examined, this will set the following variables: // begin == index of first char in segment // end == index 1 char after last char in segment // len == length of segment begin = end + 1; end = path.FindChar('\\', begin); if (end == kNotFound) end = path.Length(); len = end - begin; // ignore double backslashes if (len == 0) continue; // len != 0, and interesting paths always begin with a dot if (pathBuffer[begin] == '.') { // ignore single dots if (len == 1) continue; // handle multiple dots if (len >= 2 && pathBuffer[begin+1] == L'.') { // back up a path component on double dot if (len == 2) { int32_t prev = mWorkingPath.RFindChar('\\'); if (prev >= rootIdx) mWorkingPath.Truncate(prev); continue; } // length is > 2 and the first two characters are dots. // if the rest of the string is dots, then ignore it. int idx = len - 1; for (; idx >= 2; --idx) { if (pathBuffer[begin+idx] != L'.') break; } // this is true if the loop above didn't break // and all characters in this segment are dots. if (idx < 2) continue; } } // add the current component to the path, including the preceding backslash mWorkingPath.Append(pathBuffer + begin - 1, len + 1); } // kill trailing dots and spaces. int32_t filePathLen = mWorkingPath.Length() - 1; while(filePathLen > 0 && (mWorkingPath[filePathLen] == L' ' || mWorkingPath[filePathLen] == L'.')) { mWorkingPath.Truncate(filePathLen--); } MakeDirty(); return NS_OK; } NS_IMETHODIMP nsLocalFile::GetLeafName(nsAString &aLeafName) { aLeafName.Truncate(); if (mWorkingPath.IsEmpty()) return NS_ERROR_FILE_UNRECOGNIZED_PATH; int32_t offset = mWorkingPath.RFindChar(L'\\'); // if the working path is just a node without any lashes. if (offset == kNotFound) aLeafName = mWorkingPath; else aLeafName = Substring(mWorkingPath, offset + 1); return NS_OK; } NS_IMETHODIMP nsLocalFile::SetLeafName(const nsAString &aLeafName) { MakeDirty(); if (mWorkingPath.IsEmpty()) return NS_ERROR_FILE_UNRECOGNIZED_PATH; // cannot use nsCString::RFindChar() due to 0x5c problem int32_t offset = mWorkingPath.RFindChar(L'\\'); if (offset) { mWorkingPath.Truncate(offset+1); } mWorkingPath.Append(aLeafName); return NS_OK; } NS_IMETHODIMP nsLocalFile::GetPath(nsAString &_retval) { _retval = mWorkingPath; return NS_OK; } NS_IMETHODIMP nsLocalFile::GetCanonicalPath(nsAString &aResult) { EnsureShortPath(); aResult.Assign(mShortWorkingPath); return NS_OK; } typedef struct { WORD wLanguage; WORD wCodePage; } LANGANDCODEPAGE; NS_IMETHODIMP nsLocalFile::GetVersionInfoField(const char* aField, nsAString& _retval) { nsresult rv = ResolveAndStat(); if (NS_FAILED(rv)) return rv; rv = NS_ERROR_FAILURE; // Cast away const-ness here because WinAPI functions don't understand it, // the path is used for [in] parameters only however so it's safe. WCHAR *path = const_cast(mFollowSymlinks ? mResolvedPath.get() : mWorkingPath.get()); DWORD dummy; DWORD size = ::GetFileVersionInfoSizeW(path, &dummy); if (!size) return rv; void* ver = calloc(size, 1); if (!ver) return NS_ERROR_OUT_OF_MEMORY; if (::GetFileVersionInfoW(path, 0, size, ver)) { LANGANDCODEPAGE* translate = nullptr; UINT pageCount; BOOL queryResult = ::VerQueryValueW(ver, L"\\VarFileInfo\\Translation", (void**)&translate, &pageCount); if (queryResult && translate) { for (int32_t i = 0; i < 2; ++i) { PRUnichar subBlock[MAX_PATH]; _snwprintf(subBlock, MAX_PATH, L"\\StringFileInfo\\%04x%04x\\%s", (i == 0 ? translate[0].wLanguage : ::GetUserDefaultLangID()), translate[0].wCodePage, NS_ConvertASCIItoUTF16( nsDependentCString(aField)).get()); subBlock[MAX_PATH - 1] = 0; LPVOID value = nullptr; UINT size; queryResult = ::VerQueryValueW(ver, subBlock, &value, &size); if (queryResult && value) { _retval.Assign(static_cast(value)); if (!_retval.IsEmpty()) { rv = NS_OK; break; } } } } } free(ver); return rv; } NS_IMETHODIMP nsLocalFile::SetShortcut(nsIFile* targetFile, nsIFile* workingDir, const PRUnichar* args, const PRUnichar* description, nsIFile* iconFile, int32_t iconIndex) { bool exists; nsresult rv = this->Exists(&exists); if (NS_FAILED(rv)) { return rv; } const WCHAR* targetFilePath = NULL; const WCHAR* workingDirPath = NULL; const WCHAR* iconFilePath = NULL; nsAutoString targetFilePathAuto; if (targetFile) { rv = targetFile->GetPath(targetFilePathAuto); if (NS_FAILED(rv)) { return rv; } targetFilePath = targetFilePathAuto.get(); } nsAutoString workingDirPathAuto; if (workingDir) { rv = workingDir->GetPath(workingDirPathAuto); if (NS_FAILED(rv)) { return rv; } workingDirPath = workingDirPathAuto.get(); } nsAutoString iconPathAuto; if (iconFile) { rv = iconFile->GetPath(iconPathAuto); if (NS_FAILED(rv)) { return rv; } iconFilePath = iconPathAuto.get(); } rv = gResolver->SetShortcut(exists, mWorkingPath.get(), targetFilePath, workingDirPath, args, description, iconFilePath, iconFilePath? iconIndex : 0); if (targetFilePath && NS_SUCCEEDED(rv)) { MakeDirty(); } return rv; } /** * Determines if the drive type for the specified file is rmeote or local. * * @param path The path of the file to check * @param remote Out parameter, on function success holds true if the specified * file path is remote, or false if the file path is local. * @return true on success. The return value implies absolutely nothing about * wether the file is local or remote. */ static bool IsRemoteFilePath(LPCWSTR path, bool &remote) { // Obtain the parent directory path and make sure it ends with // a trailing backslash. WCHAR dirPath[MAX_PATH + 1] = { 0 }; wcsncpy(dirPath, path, MAX_PATH); if (!PathRemoveFileSpecW(dirPath)) { return false; } size_t len = wcslen(dirPath); // In case the dirPath holds exaclty MAX_PATH and remains unchanged, we // recheck the required length here since we need to terminate it with // a backslash. if (len >= MAX_PATH) { return false; } dirPath[len] = L'\\'; dirPath[len + 1] = L'\0'; UINT driveType = GetDriveTypeW(dirPath); remote = driveType == DRIVE_REMOTE; return true; } nsresult nsLocalFile::CopySingleFile(nsIFile *sourceFile, nsIFile *destParent, const nsAString &newName, bool followSymlinks, bool move, bool skipNtfsAclReset) { nsresult rv; nsAutoString filePath; // get the path that we are going to copy to. // Since windows does not know how to auto // resolve shortcuts, we must work with the // target. nsAutoString destPath; destParent->GetTarget(destPath); destPath.AppendASCII("\\"); if (newName.IsEmpty()) { nsAutoString aFileName; sourceFile->GetLeafName(aFileName); destPath.Append(aFileName); } else { destPath.Append(newName); } if (followSymlinks) { rv = sourceFile->GetTarget(filePath); if (filePath.IsEmpty()) rv = sourceFile->GetPath(filePath); } else { rv = sourceFile->GetPath(filePath); } if (NS_FAILED(rv)) return rv; // Pass the flag COPY_FILE_NO_BUFFERING to CopyFileEx as we may be copying // to a SMBV2 remote drive. Without this parameter subsequent append mode // file writes can cause the resultant file to become corrupt. We only need to do // this if the major version of Windows is > 5(Only Windows Vista and above // can support SMBV2). With a 7200RPM hard drive: // Copying a 1KB file with COPY_FILE_NO_BUFFERING takes about 30-60ms. // Copying a 1KB file without COPY_FILE_NO_BUFFERING takes < 1ms. // So we only use COPY_FILE_NO_BUFFERING when we have a remote drive. int copyOK; DWORD dwVersion = GetVersion(); DWORD dwMajorVersion = (DWORD)(LOBYTE(LOWORD(dwVersion))); DWORD dwCopyFlags = 0; if (dwMajorVersion > 5) { bool path1Remote, path2Remote; if (!IsRemoteFilePath(filePath.get(), path1Remote) || !IsRemoteFilePath(destPath.get(), path2Remote) || path1Remote || path2Remote) { dwCopyFlags = COPY_FILE_NO_BUFFERING; } } if (!move) copyOK = ::CopyFileExW(filePath.get(), destPath.get(), NULL, NULL, NULL, dwCopyFlags); else { DWORD status; if (FileEncryptionStatusW(filePath.get(), &status) && status == FILE_IS_ENCRYPTED) { dwCopyFlags |= COPY_FILE_ALLOW_DECRYPTED_DESTINATION; copyOK = CopyFileExW(filePath.get(), destPath.get(), NULL, NULL, NULL, dwCopyFlags); if (copyOK) DeleteFileW(filePath.get()); } else { copyOK = ::MoveFileExW(filePath.get(), destPath.get(), MOVEFILE_REPLACE_EXISTING); // Check if copying the source file to a different volume, // as this could be an SMBV2 mapped drive. if (!copyOK && GetLastError() == ERROR_NOT_SAME_DEVICE) { copyOK = CopyFileExW(filePath.get(), destPath.get(), NULL, NULL, NULL, dwCopyFlags); if (copyOK) DeleteFile(filePath.get()); } } } if (!copyOK) // CopyFileEx and MoveFileEx return zero at failure. rv = ConvertWinError(GetLastError()); else if (move && !skipNtfsAclReset) { // Set security permissions to inherit from parent. // Note: propagates to all children: slow for big file trees PACL pOldDACL = NULL; PSECURITY_DESCRIPTOR pSD = NULL; ::GetNamedSecurityInfoW((LPWSTR)destPath.get(), SE_FILE_OBJECT, DACL_SECURITY_INFORMATION, NULL, NULL, &pOldDACL, NULL, &pSD); if (pOldDACL) ::SetNamedSecurityInfoW((LPWSTR)destPath.get(), SE_FILE_OBJECT, DACL_SECURITY_INFORMATION | UNPROTECTED_DACL_SECURITY_INFORMATION, NULL, NULL, pOldDACL, NULL); if (pSD) LocalFree((HLOCAL)pSD); } return rv; } nsresult nsLocalFile::CopyMove(nsIFile *aParentDir, const nsAString &newName, bool followSymlinks, bool move) { nsCOMPtr newParentDir = aParentDir; // check to see if this exists, otherwise return an error. // we will check this by resolving. If the user wants us // to follow links, then we are talking about the target, // hence we can use the |followSymlinks| parameter. nsresult rv = ResolveAndStat(); if (NS_FAILED(rv)) return rv; if (!newParentDir) { // no parent was specified. We must rename. if (newName.IsEmpty()) return NS_ERROR_INVALID_ARG; rv = GetParent(getter_AddRefs(newParentDir)); if (NS_FAILED(rv)) return rv; } if (!newParentDir) return NS_ERROR_FILE_DESTINATION_NOT_DIR; // make sure it exists and is a directory. Create it if not there. bool exists; newParentDir->Exists(&exists); if (!exists) { rv = newParentDir->Create(DIRECTORY_TYPE, 0644); // TODO, what permissions should we use if (NS_FAILED(rv)) return rv; } else { bool isDir; newParentDir->IsDirectory(&isDir); if (!isDir) { if (followSymlinks) { bool isLink; newParentDir->IsSymlink(&isLink); if (isLink) { nsAutoString target; newParentDir->GetTarget(target); nsCOMPtr realDest = new nsLocalFile(); if (realDest == nullptr) return NS_ERROR_OUT_OF_MEMORY; rv = realDest->InitWithPath(target); if (NS_FAILED(rv)) return rv; return CopyMove(realDest, newName, followSymlinks, move); } } else { return NS_ERROR_FILE_DESTINATION_NOT_DIR; } } } // Try different ways to move/copy files/directories bool done = false; bool isDir; IsDirectory(&isDir); bool isSymlink; IsSymlink(&isSymlink); // Try to move the file or directory, or try to copy a single file (or non-followed symlink) if (move || !isDir || (isSymlink && !followSymlinks)) { // Copy/Move single file, or move a directory rv = CopySingleFile(this, newParentDir, newName, followSymlinks, move, !aParentDir); done = NS_SUCCEEDED(rv); // If we are moving a directory and that fails, fallback on directory // enumeration. See bug 231300 for details. if (!done && !(move && isDir)) return rv; } // Not able to copy or move directly, so enumerate it if (!done) { // create a new target destination in the new parentDir; nsCOMPtr target; rv = newParentDir->Clone(getter_AddRefs(target)); if (NS_FAILED(rv)) return rv; nsAutoString allocatedNewName; if (newName.IsEmpty()) { bool isLink; IsSymlink(&isLink); if (isLink) { nsAutoString temp; GetTarget(temp); int32_t offset = temp.RFindChar(L'\\'); if (offset == kNotFound) allocatedNewName = temp; else allocatedNewName = Substring(temp, offset + 1); } else { GetLeafName(allocatedNewName);// this should be the leaf name of the } } else { allocatedNewName = newName; } rv = target->Append(allocatedNewName); if (NS_FAILED(rv)) return rv; allocatedNewName.Truncate(); // check if the destination directory already exists target->Exists(&exists); if (!exists) { // if the destination directory cannot be created, return an error rv = target->Create(DIRECTORY_TYPE, 0644); // TODO, what permissions should we use if (NS_FAILED(rv)) return rv; } else { // check if the destination directory is writable and empty bool isWritable; target->IsWritable(&isWritable); if (!isWritable) return NS_ERROR_FILE_ACCESS_DENIED; nsCOMPtr targetIterator; rv = target->GetDirectoryEntries(getter_AddRefs(targetIterator)); if (NS_FAILED(rv)) return rv; bool more; targetIterator->HasMoreElements(&more); // return error if target directory is not empty if (more) return NS_ERROR_FILE_DIR_NOT_EMPTY; } nsDirEnumerator dirEnum; rv = dirEnum.Init(this); if (NS_FAILED(rv)) { NS_WARNING("dirEnum initialization failed"); return rv; } bool more = false; while (NS_SUCCEEDED(dirEnum.HasMoreElements(&more)) && more) { nsCOMPtr item; nsCOMPtr file; dirEnum.GetNext(getter_AddRefs(item)); file = do_QueryInterface(item); if (file) { bool isDir, isLink; file->IsDirectory(&isDir); file->IsSymlink(&isLink); if (move) { if (followSymlinks) return NS_ERROR_FAILURE; rv = file->MoveTo(target, EmptyString()); NS_ENSURE_SUCCESS(rv,rv); } else { if (followSymlinks) rv = file->CopyToFollowingLinks(target, EmptyString()); else rv = file->CopyTo(target, EmptyString()); NS_ENSURE_SUCCESS(rv,rv); } } } // we've finished moving all the children of this directory // in the new directory. so now delete the directory // note, we don't need to do a recursive delete. // MoveTo() is recursive. At this point, // we've already moved the children of the current folder // to the new location. nothing should be left in the folder. if (move) { rv = Remove(false /* recursive */); NS_ENSURE_SUCCESS(rv,rv); } } // If we moved, we want to adjust this. if (move) { MakeDirty(); nsAutoString newParentPath; newParentDir->GetPath(newParentPath); if (newParentPath.IsEmpty()) return NS_ERROR_FAILURE; if (newName.IsEmpty()) { nsAutoString aFileName; GetLeafName(aFileName); InitWithPath(newParentPath); Append(aFileName); } else { InitWithPath(newParentPath); Append(newName); } } return NS_OK; } NS_IMETHODIMP nsLocalFile::CopyTo(nsIFile *newParentDir, const nsAString &newName) { return CopyMove(newParentDir, newName, false, false); } NS_IMETHODIMP nsLocalFile::CopyToFollowingLinks(nsIFile *newParentDir, const nsAString &newName) { return CopyMove(newParentDir, newName, true, false); } NS_IMETHODIMP nsLocalFile::MoveTo(nsIFile *newParentDir, const nsAString &newName) { return CopyMove(newParentDir, newName, false, true); } NS_IMETHODIMP nsLocalFile::Load(PRLibrary * *_retval) { // Check we are correctly initialized. CHECK_mWorkingPath(); bool isFile; nsresult rv = IsFile(&isFile); if (NS_FAILED(rv)) return rv; if (! isFile) return NS_ERROR_FILE_IS_DIRECTORY; #ifdef NS_BUILD_REFCNT_LOGGING nsTraceRefcntImpl::SetActivityIsLegal(false); #endif PRLibSpec libSpec; libSpec.value.pathname_u = mResolvedPath.get(); libSpec.type = PR_LibSpec_PathnameU; *_retval = PR_LoadLibraryWithFlags(libSpec, 0); #ifdef NS_BUILD_REFCNT_LOGGING nsTraceRefcntImpl::SetActivityIsLegal(true); #endif if (*_retval) return NS_OK; return NS_ERROR_NULL_POINTER; } NS_IMETHODIMP nsLocalFile::Remove(bool recursive) { // NOTE: // // if the working path points to a shortcut, then we will only // delete the shortcut itself. even if the shortcut points to // a directory, we will not recurse into that directory or // delete that directory itself. likewise, if the shortcut // points to a normal file, we will not delete the real file. // this is done to be consistent with the other platforms that // behave this way. we do this even if the followLinks attribute // is set to true. this helps protect against misuse that could // lead to security bugs (e.g., bug 210588). // // Since shortcut files are no longer permitted to be used as unix-like // symlinks interspersed in the path (e.g. "c:/file.lnk/foo/bar.txt") // this processing is a lot simpler. Even if the shortcut file is // pointing to a directory, only the mWorkingPath value is used and so // only the shortcut file will be deleted. // Check we are correctly initialized. CHECK_mWorkingPath(); bool isDir, isLink; nsresult rv; isDir = false; rv = IsSymlink(&isLink); if (NS_FAILED(rv)) return rv; // only check to see if we have a directory if it isn't a link if (!isLink) { rv = IsDirectory(&isDir); if (NS_FAILED(rv)) return rv; } if (isDir) { if (recursive) { nsDirEnumerator dirEnum; rv = dirEnum.Init(this); if (NS_FAILED(rv)) return rv; bool more = false; while (NS_SUCCEEDED(dirEnum.HasMoreElements(&more)) && more) { nsCOMPtr item; dirEnum.GetNext(getter_AddRefs(item)); nsCOMPtr file = do_QueryInterface(item); if (file) file->Remove(recursive); } } if (RemoveDirectoryW(mWorkingPath.get()) == 0) return ConvertWinError(GetLastError()); } else { if (DeleteFileW(mWorkingPath.get()) == 0) return ConvertWinError(GetLastError()); } MakeDirty(); return rv; } NS_IMETHODIMP nsLocalFile::GetLastModifiedTime(PRTime *aLastModifiedTime) { // Check we are correctly initialized. CHECK_mWorkingPath(); NS_ENSURE_ARG(aLastModifiedTime); // get the modified time of the target as determined by mFollowSymlinks // If true, then this will be for the target of the shortcut file, // otherwise it will be for the shortcut file itself (i.e. the same // results as GetLastModifiedTimeOfLink) nsresult rv = ResolveAndStat(); if (NS_FAILED(rv)) return rv; // microseconds -> milliseconds *aLastModifiedTime = mFileInfo64.modifyTime / PR_USEC_PER_MSEC; return NS_OK; } NS_IMETHODIMP nsLocalFile::GetLastModifiedTimeOfLink(PRTime *aLastModifiedTime) { // Check we are correctly initialized. CHECK_mWorkingPath(); NS_ENSURE_ARG(aLastModifiedTime); // The caller is assumed to have already called IsSymlink // and to have found that this file is a link. PRFileInfo64 info; nsresult rv = GetFileInfo(mWorkingPath, &info); if (NS_FAILED(rv)) return rv; // microseconds -> milliseconds *aLastModifiedTime = info.modifyTime / PR_USEC_PER_MSEC; return NS_OK; } NS_IMETHODIMP nsLocalFile::SetLastModifiedTime(PRTime aLastModifiedTime) { // Check we are correctly initialized. CHECK_mWorkingPath(); nsresult rv = ResolveAndStat(); if (NS_FAILED(rv)) return rv; // set the modified time of the target as determined by mFollowSymlinks // If true, then this will be for the target of the shortcut file, // otherwise it will be for the shortcut file itself (i.e. the same // results as SetLastModifiedTimeOfLink) rv = SetModDate(aLastModifiedTime, mResolvedPath.get()); if (NS_SUCCEEDED(rv)) MakeDirty(); return rv; } NS_IMETHODIMP nsLocalFile::SetLastModifiedTimeOfLink(PRTime aLastModifiedTime) { // The caller is assumed to have already called IsSymlink // and to have found that this file is a link. nsresult rv = SetModDate(aLastModifiedTime, mWorkingPath.get()); if (NS_SUCCEEDED(rv)) MakeDirty(); return rv; } nsresult nsLocalFile::SetModDate(PRTime aLastModifiedTime, const PRUnichar *filePath) { // The FILE_FLAG_BACKUP_SEMANTICS is required in order to change the // modification time for directories. HANDLE file = ::CreateFileW(filePath, // pointer to name of the file GENERIC_WRITE, // access (write) mode 0, // share mode NULL, // pointer to security attributes OPEN_EXISTING, // how to create FILE_FLAG_BACKUP_SEMANTICS, // file attributes NULL); if (file == INVALID_HANDLE_VALUE) { return ConvertWinError(GetLastError()); } FILETIME ft; SYSTEMTIME st; PRExplodedTime pret; // PR_ExplodeTime expects usecs... PR_ExplodeTime(aLastModifiedTime * PR_USEC_PER_MSEC, PR_GMTParameters, &pret); st.wYear = pret.tm_year; st.wMonth = pret.tm_month + 1; // Convert start offset -- Win32: Jan=1; NSPR: Jan=0 st.wDayOfWeek = pret.tm_wday; st.wDay = pret.tm_mday; st.wHour = pret.tm_hour; st.wMinute = pret.tm_min; st.wSecond = pret.tm_sec; st.wMilliseconds = pret.tm_usec/1000; nsresult rv = NS_OK; // if at least one of these fails... if (!(SystemTimeToFileTime(&st, &ft) != 0 && SetFileTime(file, NULL, &ft, &ft) != 0)) { rv = ConvertWinError(GetLastError()); } CloseHandle(file); return rv; } NS_IMETHODIMP nsLocalFile::GetPermissions(uint32_t *aPermissions) { NS_ENSURE_ARG(aPermissions); // get the permissions of the target as determined by mFollowSymlinks // If true, then this will be for the target of the shortcut file, // otherwise it will be for the shortcut file itself (i.e. the same // results as GetPermissionsOfLink) nsresult rv = ResolveAndStat(); if (NS_FAILED(rv)) return rv; bool isWritable, isExecutable; IsWritable(&isWritable); IsExecutable(&isExecutable); *aPermissions = PR_IRUSR|PR_IRGRP|PR_IROTH; // all read if (isWritable) *aPermissions |= PR_IWUSR|PR_IWGRP|PR_IWOTH; // all write if (isExecutable) *aPermissions |= PR_IXUSR|PR_IXGRP|PR_IXOTH; // all execute return NS_OK; } NS_IMETHODIMP nsLocalFile::GetPermissionsOfLink(uint32_t *aPermissions) { // Check we are correctly initialized. CHECK_mWorkingPath(); NS_ENSURE_ARG(aPermissions); // The caller is assumed to have already called IsSymlink // and to have found that this file is a link. It is not // possible for a link file to be executable. DWORD word = ::GetFileAttributesW(mWorkingPath.get()); if (word == INVALID_FILE_ATTRIBUTES) return NS_ERROR_FILE_INVALID_PATH; bool isWritable = !(word & FILE_ATTRIBUTE_READONLY); *aPermissions = PR_IRUSR|PR_IRGRP|PR_IROTH; // all read if (isWritable) *aPermissions |= PR_IWUSR|PR_IWGRP|PR_IWOTH; // all write return NS_OK; } NS_IMETHODIMP nsLocalFile::SetPermissions(uint32_t aPermissions) { // Check we are correctly initialized. CHECK_mWorkingPath(); // set the permissions of the target as determined by mFollowSymlinks // If true, then this will be for the target of the shortcut file, // otherwise it will be for the shortcut file itself (i.e. the same // results as SetPermissionsOfLink) nsresult rv = ResolveAndStat(); if (NS_FAILED(rv)) return rv; // windows only knows about the following permissions int mode = 0; if (aPermissions & (PR_IRUSR|PR_IRGRP|PR_IROTH)) // any read mode |= _S_IREAD; if (aPermissions & (PR_IWUSR|PR_IWGRP|PR_IWOTH)) // any write mode |= _S_IWRITE; if (_wchmod(mResolvedPath.get(), mode) == -1) return NS_ERROR_FAILURE; return NS_OK; } NS_IMETHODIMP nsLocalFile::SetPermissionsOfLink(uint32_t aPermissions) { // The caller is assumed to have already called IsSymlink // and to have found that this file is a link. // windows only knows about the following permissions int mode = 0; if (aPermissions & (PR_IRUSR|PR_IRGRP|PR_IROTH)) // any read mode |= _S_IREAD; if (aPermissions & (PR_IWUSR|PR_IWGRP|PR_IWOTH)) // any write mode |= _S_IWRITE; if (_wchmod(mWorkingPath.get(), mode) == -1) return NS_ERROR_FAILURE; return NS_OK; } NS_IMETHODIMP nsLocalFile::GetFileSize(int64_t *aFileSize) { NS_ENSURE_ARG(aFileSize); nsresult rv = ResolveAndStat(); if (NS_FAILED(rv)) return rv; *aFileSize = mFileInfo64.size; return NS_OK; } NS_IMETHODIMP nsLocalFile::GetFileSizeOfLink(int64_t *aFileSize) { // Check we are correctly initialized. CHECK_mWorkingPath(); NS_ENSURE_ARG(aFileSize); // The caller is assumed to have already called IsSymlink // and to have found that this file is a link. PRFileInfo64 info; if (NS_FAILED(GetFileInfo(mWorkingPath, &info))) return NS_ERROR_FILE_INVALID_PATH; *aFileSize = info.size; return NS_OK; } NS_IMETHODIMP nsLocalFile::SetFileSize(int64_t aFileSize) { // Check we are correctly initialized. CHECK_mWorkingPath(); nsresult rv = ResolveAndStat(); if (NS_FAILED(rv)) return rv; HANDLE hFile = ::CreateFileW(mResolvedPath.get(),// pointer to name of the file GENERIC_WRITE, // access (write) mode FILE_SHARE_READ, // share mode NULL, // pointer to security attributes OPEN_EXISTING, // how to create FILE_ATTRIBUTE_NORMAL, // file attributes NULL); if (hFile == INVALID_HANDLE_VALUE) { return ConvertWinError(GetLastError()); } // seek the file pointer to the new, desired end of file // and then truncate the file at that position rv = NS_ERROR_FAILURE; aFileSize = MyFileSeek64(hFile, aFileSize, FILE_BEGIN); if (aFileSize != -1 && SetEndOfFile(hFile)) { MakeDirty(); rv = NS_OK; } CloseHandle(hFile); return rv; } NS_IMETHODIMP nsLocalFile::GetDiskSpaceAvailable(int64_t *aDiskSpaceAvailable) { // Check we are correctly initialized. CHECK_mWorkingPath(); NS_ENSURE_ARG(aDiskSpaceAvailable); ResolveAndStat(); if (mFileInfo64.type == PR_FILE_FILE) { // Since GetDiskFreeSpaceExW works only on directories, use the parent. nsCOMPtr parent; if (NS_SUCCEEDED(GetParent(getter_AddRefs(parent))) && parent) { return parent->GetDiskSpaceAvailable(aDiskSpaceAvailable); } } ULARGE_INTEGER liFreeBytesAvailableToCaller, liTotalNumberOfBytes; if (::GetDiskFreeSpaceExW(mResolvedPath.get(), &liFreeBytesAvailableToCaller, &liTotalNumberOfBytes, NULL)) { *aDiskSpaceAvailable = liFreeBytesAvailableToCaller.QuadPart; return NS_OK; } *aDiskSpaceAvailable = 0; return NS_OK; } NS_IMETHODIMP nsLocalFile::GetParent(nsIFile * *aParent) { // Check we are correctly initialized. CHECK_mWorkingPath(); NS_ENSURE_ARG_POINTER(aParent); // A two-character path must be a drive such as C:, so it has no parent if (mWorkingPath.Length() == 2) { *aParent = nullptr; return NS_OK; } int32_t offset = mWorkingPath.RFindChar(PRUnichar('\\')); // adding this offset check that was removed in bug 241708 fixes mail // directories that aren't relative to/underneath the profile dir. // e.g., on a different drive. Before you remove them, please make // sure local mail directories that aren't underneath the profile dir work. if (offset == kNotFound) return NS_ERROR_FILE_UNRECOGNIZED_PATH; // A path of the form \\NAME is a top-level path and has no parent if (offset == 1 && mWorkingPath[0] == L'\\') { *aParent = nullptr; return NS_OK; } nsAutoString parentPath(mWorkingPath); if (offset > 0) parentPath.Truncate(offset); else parentPath.AssignLiteral("\\\\."); nsCOMPtr localFile; nsresult rv = NS_NewLocalFile(parentPath, mFollowSymlinks, getter_AddRefs(localFile)); if (NS_SUCCEEDED(rv) && localFile) { return CallQueryInterface(localFile, aParent); } return rv; } NS_IMETHODIMP nsLocalFile::Exists(bool *_retval) { // Check we are correctly initialized. CHECK_mWorkingPath(); NS_ENSURE_ARG(_retval); *_retval = false; MakeDirty(); nsresult rv = ResolveAndStat(); *_retval = NS_SUCCEEDED(rv) || rv == NS_ERROR_FILE_IS_LOCKED; return NS_OK; } NS_IMETHODIMP nsLocalFile::IsWritable(bool *aIsWritable) { // Check we are correctly initialized. CHECK_mWorkingPath(); // The read-only attribute on a FAT directory only means that it can't // be deleted. It is still possible to modify the contents of the directory. nsresult rv = IsDirectory(aIsWritable); if (rv == NS_ERROR_FILE_ACCESS_DENIED) { *aIsWritable = true; return NS_OK; } else if (rv == NS_ERROR_FILE_IS_LOCKED) { // If the file is normally allowed write access // we should still return that the file is writable. } else if (NS_FAILED(rv)) { return rv; } if (*aIsWritable) return NS_OK; // writable if the file doesn't have the readonly attribute rv = HasFileAttribute(FILE_ATTRIBUTE_READONLY, aIsWritable); if (rv == NS_ERROR_FILE_ACCESS_DENIED) { *aIsWritable = false; return NS_OK; } else if (rv == NS_ERROR_FILE_IS_LOCKED) { // If the file is normally allowed write access // we should still return that the file is writable. } else if (NS_FAILED(rv)) { return rv; } *aIsWritable = !*aIsWritable; // If the read only attribute is not set, check to make sure // we can open the file with write access. if (*aIsWritable) { PRFileDesc* file; rv = OpenFile(mResolvedPath, PR_WRONLY, 0, &file); if (NS_SUCCEEDED(rv)) { PR_Close(file); } else if (rv == NS_ERROR_FILE_ACCESS_DENIED) { *aIsWritable = false; } else if (rv == NS_ERROR_FILE_IS_LOCKED) { // If it is locked and read only we would have // gotten access denied *aIsWritable = true; } else { return rv; } } return NS_OK; } NS_IMETHODIMP nsLocalFile::IsReadable(bool *_retval) { // Check we are correctly initialized. CHECK_mWorkingPath(); NS_ENSURE_ARG(_retval); *_retval = false; nsresult rv = ResolveAndStat(); if (NS_FAILED(rv)) return rv; *_retval = true; return NS_OK; } NS_IMETHODIMP nsLocalFile::IsExecutable(bool *_retval) { // Check we are correctly initialized. CHECK_mWorkingPath(); NS_ENSURE_ARG(_retval); *_retval = false; nsresult rv; // only files can be executables bool isFile; rv = IsFile(&isFile); if (NS_FAILED(rv)) return rv; if (!isFile) return NS_OK; //TODO: shouldn't we be checking mFollowSymlinks here? bool symLink; rv = IsSymlink(&symLink); if (NS_FAILED(rv)) return rv; nsAutoString path; if (symLink) GetTarget(path); else GetPath(path); // kill trailing dots and spaces. int32_t filePathLen = path.Length() - 1; while(filePathLen > 0 && (path[filePathLen] == L' ' || path[filePathLen] == L'.')) { path.Truncate(filePathLen--); } // Get extension. int32_t dotIdx = path.RFindChar(PRUnichar('.')); if ( dotIdx != kNotFound ) { // Convert extension to lower case. PRUnichar *p = path.BeginWriting(); for( p+= dotIdx + 1; *p; p++ ) *p += (*p >= L'A' && *p <= L'Z') ? 'a' - 'A' : 0; // Search for any of the set of executable extensions. static const char * const executableExts[] = { "ad", "ade", // access project extension "adp", "air", // Adobe AIR installer "app", // executable application "application", // from bug 348763 "asp", "bas", "bat", "chm", "cmd", "com", "cpl", "crt", "exe", "fxp", // FoxPro compiled app "hlp", "hta", "inf", "ins", "isp", "jar", // java application bundle "js", "jse", "lnk", "mad", // Access Module Shortcut "maf", // Access "mag", // Access Diagram Shortcut "mam", // Access Macro Shortcut "maq", // Access Query Shortcut "mar", // Access Report Shortcut "mas", // Access Stored Procedure "mat", // Access Table Shortcut "mau", // Media Attachment Unit "mav", // Access View Shortcut "maw", // Access Data Access Page "mda", // Access Add-in, MDA Access 2 Workgroup "mdb", "mde", "mdt", // Access Add-in Data "mdw", // Access Workgroup Information "mdz", // Access Wizard Template "msc", "msh", // Microsoft Shell "mshxml", // Microsoft Shell "msi", "msp", "mst", "ops", // Office Profile Settings "pcd", "pif", "plg", // Developer Studio Build Log "prf", // windows system file "prg", "pst", "reg", "scf", // Windows explorer command "scr", "sct", "shb", "shs", "url", "vb", "vbe", "vbs", "vsd", "vsmacros", // Visual Studio .NET Binary-based Macro Project "vss", "vst", "vsw", "ws", "wsc", "wsf", "wsh"}; nsDependentSubstring ext = Substring(path, dotIdx + 1); for ( size_t i = 0; i < ArrayLength(executableExts); i++ ) { if ( ext.EqualsASCII(executableExts[i])) { // Found a match. Set result and quit. *_retval = true; break; } } } return NS_OK; } NS_IMETHODIMP nsLocalFile::IsDirectory(bool *_retval) { return HasFileAttribute(FILE_ATTRIBUTE_DIRECTORY, _retval); } NS_IMETHODIMP nsLocalFile::IsFile(bool *_retval) { nsresult rv = HasFileAttribute(FILE_ATTRIBUTE_DIRECTORY, _retval); if (NS_SUCCEEDED(rv)) { *_retval = !*_retval; } return rv; } NS_IMETHODIMP nsLocalFile::IsHidden(bool *_retval) { return HasFileAttribute(FILE_ATTRIBUTE_HIDDEN, _retval); } nsresult nsLocalFile::HasFileAttribute(DWORD fileAttrib, bool *_retval) { NS_ENSURE_ARG(_retval); nsresult rv = Resolve(); if (NS_FAILED(rv)) { return rv; } DWORD attributes = GetFileAttributesW(mResolvedPath.get()); if (INVALID_FILE_ATTRIBUTES == attributes) { return ConvertWinError(GetLastError()); } *_retval = ((attributes & fileAttrib) != 0); return NS_OK; } NS_IMETHODIMP nsLocalFile::IsSymlink(bool *_retval) { // Check we are correctly initialized. CHECK_mWorkingPath(); NS_ENSURE_ARG(_retval); // unless it is a valid shortcut path it's not a symlink if (!IsShortcutPath(mWorkingPath)) { *_retval = false; return NS_OK; } // we need to know if this is a file or directory nsresult rv = ResolveAndStat(); if (NS_FAILED(rv)) { return rv; } // We should not check mFileInfo64.type here for PR_FILE_FILE because lnk // files can point to directories or files. Important security checks // depend on correctly identifying lnk files. mFileInfo64 now holds info // about the target of the lnk file, not the actual lnk file! *_retval = true; return NS_OK; } NS_IMETHODIMP nsLocalFile::IsSpecial(bool *_retval) { return HasFileAttribute(FILE_ATTRIBUTE_SYSTEM, _retval); } NS_IMETHODIMP nsLocalFile::Equals(nsIFile *inFile, bool *_retval) { NS_ENSURE_ARG(inFile); NS_ENSURE_ARG(_retval); EnsureShortPath(); nsCOMPtr lf(do_QueryInterface(inFile)); if (!lf) { *_retval = false; return NS_OK; } nsAutoString inFilePath; lf->GetCanonicalPath(inFilePath); // Ok : Win9x *_retval = _wcsicmp(mShortWorkingPath.get(), inFilePath.get()) == 0; return NS_OK; } NS_IMETHODIMP nsLocalFile::Contains(nsIFile *inFile, bool recur, bool *_retval) { // Check we are correctly initialized. CHECK_mWorkingPath(); *_retval = false; nsAutoString myFilePath; if (NS_FAILED(GetTarget(myFilePath))) GetPath(myFilePath); uint32_t myFilePathLen = myFilePath.Length(); nsAutoString inFilePath; if (NS_FAILED(inFile->GetTarget(inFilePath))) inFile->GetPath(inFilePath); // make sure that the |inFile|'s path has a trailing separator. if (inFilePath.Length() >= myFilePathLen && inFilePath[myFilePathLen] == L'\\') { if (_wcsnicmp(myFilePath.get(), inFilePath.get(), myFilePathLen) == 0) { *_retval = true; } } return NS_OK; } NS_IMETHODIMP nsLocalFile::GetTarget(nsAString &_retval) { _retval.Truncate(); #if STRICT_FAKE_SYMLINKS bool symLink; nsresult rv = IsSymlink(&symLink); if (NS_FAILED(rv)) return rv; if (!symLink) { return NS_ERROR_FILE_INVALID_PATH; } #endif ResolveAndStat(); _retval = mResolvedPath; return NS_OK; } /* attribute bool followLinks; */ NS_IMETHODIMP nsLocalFile::GetFollowLinks(bool *aFollowLinks) { *aFollowLinks = mFollowSymlinks; return NS_OK; } NS_IMETHODIMP nsLocalFile::SetFollowLinks(bool aFollowLinks) { MakeDirty(); mFollowSymlinks = aFollowLinks; return NS_OK; } NS_IMETHODIMP nsLocalFile::GetDirectoryEntries(nsISimpleEnumerator * *entries) { nsresult rv; *entries = nullptr; if (mWorkingPath.EqualsLiteral("\\\\.")) { nsDriveEnumerator *drives = new nsDriveEnumerator; if (!drives) return NS_ERROR_OUT_OF_MEMORY; NS_ADDREF(drives); rv = drives->Init(); if (NS_FAILED(rv)) { NS_RELEASE(drives); return rv; } *entries = drives; return NS_OK; } nsDirEnumerator* dirEnum = new nsDirEnumerator(); if (dirEnum == nullptr) return NS_ERROR_OUT_OF_MEMORY; NS_ADDREF(dirEnum); rv = dirEnum->Init(this); if (NS_FAILED(rv)) { NS_RELEASE(dirEnum); return rv; } *entries = dirEnum; return NS_OK; } NS_IMETHODIMP nsLocalFile::GetPersistentDescriptor(nsACString &aPersistentDescriptor) { CopyUTF16toUTF8(mWorkingPath, aPersistentDescriptor); return NS_OK; } NS_IMETHODIMP nsLocalFile::SetPersistentDescriptor(const nsACString &aPersistentDescriptor) { if (IsUTF8(aPersistentDescriptor)) return InitWithPath(NS_ConvertUTF8toUTF16(aPersistentDescriptor)); else return InitWithNativePath(aPersistentDescriptor); } /* attrib unsigned long fileAttributesWin; */ NS_IMETHODIMP nsLocalFile::GetFileAttributesWin(uint32_t *aAttribs) { *aAttribs = 0; DWORD dwAttrs = GetFileAttributesW(mWorkingPath.get()); if (dwAttrs == INVALID_FILE_ATTRIBUTES) return NS_ERROR_FILE_INVALID_PATH; if (!(dwAttrs & FILE_ATTRIBUTE_NOT_CONTENT_INDEXED)) *aAttribs |= WFA_SEARCH_INDEXED; return NS_OK; } NS_IMETHODIMP nsLocalFile::SetFileAttributesWin(uint32_t aAttribs) { DWORD dwAttrs = GetFileAttributesW(mWorkingPath.get()); if (dwAttrs == INVALID_FILE_ATTRIBUTES) return NS_ERROR_FILE_INVALID_PATH; if (aAttribs & WFA_SEARCH_INDEXED) { dwAttrs &= ~FILE_ATTRIBUTE_NOT_CONTENT_INDEXED; } else { dwAttrs |= FILE_ATTRIBUTE_NOT_CONTENT_INDEXED; } if (aAttribs & WFA_READONLY) { dwAttrs |= FILE_ATTRIBUTE_READONLY; } else if ((aAttribs & WFA_READWRITE) && (dwAttrs & FILE_ATTRIBUTE_READONLY)) { dwAttrs &= ~FILE_ATTRIBUTE_READONLY; } if (SetFileAttributesW(mWorkingPath.get(), dwAttrs) == 0) return NS_ERROR_FAILURE; return NS_OK; } NS_IMETHODIMP nsLocalFile::Reveal() { // This API should be main thread only MOZ_ASSERT(NS_IsMainThread()); // make sure mResolvedPath is set nsresult rv = Resolve(); if (NS_FAILED(rv) && rv != NS_ERROR_FILE_NOT_FOUND) { return rv; } // To create a new thread, get the thread manager nsCOMPtr tm = do_GetService(NS_THREADMANAGER_CONTRACTID); nsCOMPtr mythread; rv = tm->NewThread(0, 0, getter_AddRefs(mythread)); if (NS_FAILED(rv)) { return rv; } nsCOMPtr runnable = new AsyncLocalFileWinOperation(AsyncLocalFileWinOperation::RevealOp, mResolvedPath); // After the dispatch, the result runnable will shut down the worker // thread, so we can let it go. mythread->Dispatch(runnable, NS_DISPATCH_NORMAL); return NS_OK; } NS_IMETHODIMP nsLocalFile::Launch() { // This API should be main thread only MOZ_ASSERT(NS_IsMainThread()); // make sure mResolvedPath is set nsresult rv = Resolve(); if (NS_FAILED(rv)) return rv; // To create a new thread, get the thread manager nsCOMPtr tm = do_GetService(NS_THREADMANAGER_CONTRACTID); nsCOMPtr mythread; rv = tm->NewThread(0, 0, getter_AddRefs(mythread)); if (NS_FAILED(rv)) { return rv; } nsCOMPtr runnable = new AsyncLocalFileWinOperation(AsyncLocalFileWinOperation::LaunchOp, mResolvedPath); // After the dispatch, the result runnable will shut down the worker // thread, so we can let it go. mythread->Dispatch(runnable, NS_DISPATCH_NORMAL); return NS_OK; } nsresult NS_NewLocalFile(const nsAString &path, bool followLinks, nsIFile* *result) { nsLocalFile* file = new nsLocalFile(); if (file == nullptr) return NS_ERROR_OUT_OF_MEMORY; NS_ADDREF(file); file->SetFollowLinks(followLinks); if (!path.IsEmpty()) { nsresult rv = file->InitWithPath(path); if (NS_FAILED(rv)) { NS_RELEASE(file); return rv; } } *result = file; return NS_OK; } //----------------------------------------------------------------------------- // Native (lossy) interface //----------------------------------------------------------------------------- NS_IMETHODIMP nsLocalFile::InitWithNativePath(const nsACString &filePath) { nsAutoString tmp; nsresult rv = NS_CopyNativeToUnicode(filePath, tmp); if (NS_SUCCEEDED(rv)) return InitWithPath(tmp); return rv; } NS_IMETHODIMP nsLocalFile::AppendNative(const nsACString &node) { nsAutoString tmp; nsresult rv = NS_CopyNativeToUnicode(node, tmp); if (NS_SUCCEEDED(rv)) return Append(tmp); return rv; } NS_IMETHODIMP nsLocalFile::AppendRelativeNativePath(const nsACString &node) { nsAutoString tmp; nsresult rv = NS_CopyNativeToUnicode(node, tmp); if (NS_SUCCEEDED(rv)) return AppendRelativePath(tmp); return rv; } NS_IMETHODIMP nsLocalFile::GetNativeLeafName(nsACString &aLeafName) { //NS_WARNING("This API is lossy. Use GetLeafName !"); nsAutoString tmp; nsresult rv = GetLeafName(tmp); if (NS_SUCCEEDED(rv)) rv = NS_CopyUnicodeToNative(tmp, aLeafName); return rv; } NS_IMETHODIMP nsLocalFile::SetNativeLeafName(const nsACString &aLeafName) { nsAutoString tmp; nsresult rv = NS_CopyNativeToUnicode(aLeafName, tmp); if (NS_SUCCEEDED(rv)) return SetLeafName(tmp); return rv; } NS_IMETHODIMP nsLocalFile::GetNativePath(nsACString &_retval) { //NS_WARNING("This API is lossy. Use GetPath !"); nsAutoString tmp; nsresult rv = GetPath(tmp); if (NS_SUCCEEDED(rv)) rv = NS_CopyUnicodeToNative(tmp, _retval); return rv; } NS_IMETHODIMP nsLocalFile::GetNativeCanonicalPath(nsACString &aResult) { NS_WARNING("This method is lossy. Use GetCanonicalPath !"); EnsureShortPath(); NS_CopyUnicodeToNative(mShortWorkingPath, aResult); return NS_OK; } NS_IMETHODIMP nsLocalFile::CopyToNative(nsIFile *newParentDir, const nsACString &newName) { // Check we are correctly initialized. CHECK_mWorkingPath(); if (newName.IsEmpty()) return CopyTo(newParentDir, EmptyString()); nsAutoString tmp; nsresult rv = NS_CopyNativeToUnicode(newName, tmp); if (NS_SUCCEEDED(rv)) return CopyTo(newParentDir, tmp); return rv; } NS_IMETHODIMP nsLocalFile::CopyToFollowingLinksNative(nsIFile *newParentDir, const nsACString &newName) { if (newName.IsEmpty()) return CopyToFollowingLinks(newParentDir, EmptyString()); nsAutoString tmp; nsresult rv = NS_CopyNativeToUnicode(newName, tmp); if (NS_SUCCEEDED(rv)) return CopyToFollowingLinks(newParentDir, tmp); return rv; } NS_IMETHODIMP nsLocalFile::MoveToNative(nsIFile *newParentDir, const nsACString &newName) { // Check we are correctly initialized. CHECK_mWorkingPath(); if (newName.IsEmpty()) return MoveTo(newParentDir, EmptyString()); nsAutoString tmp; nsresult rv = NS_CopyNativeToUnicode(newName, tmp); if (NS_SUCCEEDED(rv)) return MoveTo(newParentDir, tmp); return rv; } NS_IMETHODIMP nsLocalFile::GetNativeTarget(nsACString &_retval) { // Check we are correctly initialized. CHECK_mWorkingPath(); NS_WARNING("This API is lossy. Use GetTarget !"); nsAutoString tmp; nsresult rv = GetTarget(tmp); if (NS_SUCCEEDED(rv)) rv = NS_CopyUnicodeToNative(tmp, _retval); return rv; } nsresult NS_NewNativeLocalFile(const nsACString &path, bool followLinks, nsIFile* *result) { nsAutoString buf; nsresult rv = NS_CopyNativeToUnicode(path, buf); if (NS_FAILED(rv)) { *result = nullptr; return rv; } return NS_NewLocalFile(buf, followLinks, result); } void nsLocalFile::EnsureShortPath() { if (!mShortWorkingPath.IsEmpty()) return; WCHAR shortPath[MAX_PATH + 1]; DWORD lengthNeeded = ::GetShortPathNameW(mWorkingPath.get(), shortPath, ArrayLength(shortPath)); // If an error occurred then lengthNeeded is set to 0 or the length of the // needed buffer including NULL termination. If it succeeds the number of // wide characters not including NULL termination is returned. if (lengthNeeded != 0 && lengthNeeded < ArrayLength(shortPath)) mShortWorkingPath.Assign(shortPath); else mShortWorkingPath.Assign(mWorkingPath); } // nsIHashable NS_IMETHODIMP nsLocalFile::Equals(nsIHashable* aOther, bool *aResult) { nsCOMPtr otherfile(do_QueryInterface(aOther)); if (!otherfile) { *aResult = false; return NS_OK; } return Equals(otherfile, aResult); } NS_IMETHODIMP nsLocalFile::GetHashCode(uint32_t *aResult) { // In order for short and long path names to hash to the same value we // always hash on the short pathname. EnsureShortPath(); *aResult = HashString(mShortWorkingPath); return NS_OK; } //----------------------------------------------------------------------------- // nsLocalFile //----------------------------------------------------------------------------- void nsLocalFile::GlobalInit() { DebugOnly rv = NS_CreateShortcutResolver(); NS_ASSERTION(NS_SUCCEEDED(rv), "Shortcut resolver could not be created"); } void nsLocalFile::GlobalShutdown() { NS_DestroyShortcutResolver(); } NS_IMPL_ISUPPORTS1(nsDriveEnumerator, nsISimpleEnumerator) nsDriveEnumerator::nsDriveEnumerator() { } nsDriveEnumerator::~nsDriveEnumerator() { } nsresult nsDriveEnumerator::Init() { /* If the length passed to GetLogicalDriveStrings is smaller * than the length of the string it would return, it returns * the length required for the string. */ DWORD length = GetLogicalDriveStringsW(0, 0); /* The string is null terminated */ if (!EnsureStringLength(mDrives, length+1)) return NS_ERROR_OUT_OF_MEMORY; if (!GetLogicalDriveStringsW(length, mDrives.BeginWriting())) return NS_ERROR_FAILURE; mDrives.BeginReading(mStartOfCurrentDrive); mDrives.EndReading(mEndOfDrivesString); return NS_OK; } NS_IMETHODIMP nsDriveEnumerator::HasMoreElements(bool *aHasMore) { *aHasMore = *mStartOfCurrentDrive != L'\0'; return NS_OK; } NS_IMETHODIMP nsDriveEnumerator::GetNext(nsISupports **aNext) { /* GetLogicalDrives stored in mDrives is a concatenation * of null terminated strings, followed by a null terminator. * mStartOfCurrentDrive is an iterator pointing at the first * character of the current drive. */ if (*mStartOfCurrentDrive == L'\0') { *aNext = nullptr; return NS_OK; } nsAString::const_iterator driveEnd = mStartOfCurrentDrive; FindCharInReadable(L'\0', driveEnd, mEndOfDrivesString); nsString drive(Substring(mStartOfCurrentDrive, driveEnd)); mStartOfCurrentDrive = ++driveEnd; nsIFile *file; nsresult rv = NS_NewLocalFile(drive, false, &file); *aNext = file; return rv; }