// Copyright 2018 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. //go:build aix || darwin || dragonfly || freebsd || linux || netbsd || openbsd || solaris package os import ( "internal/syscall/unix" "io" "syscall" ) func removeAll(path string) error { if path == "" { // fail silently to retain compatibility with previous behavior // of RemoveAll. See issue 28830. return nil } // The rmdir system call does not permit removing ".", // so we don't permit it either. if endsWithDot(path) { return &PathError{Op: "RemoveAll", Path: path, Err: syscall.EINVAL} } // Simple case: if Remove works, we're done. err := Remove(path) if err == nil || IsNotExist(err) { return nil } // RemoveAll recurses by deleting the path base from // its parent directory parentDir, base := splitPath(path) parent, err := Open(parentDir) if IsNotExist(err) { // If parent does not exist, base cannot exist. Fail silently return nil } if err != nil { return err } defer parent.Close() if err := removeAllFrom(parent, base); err != nil { if pathErr, ok := err.(*PathError); ok { pathErr.Path = parentDir + string(PathSeparator) + pathErr.Path err = pathErr } return err } return nil } func removeAllFrom(parent *File, base string) error { parentFd := int(parent.Fd()) // Simple case: if Unlink (aka remove) works, we're done. err := unix.Unlinkat(parentFd, base, 0) if err == nil || IsNotExist(err) { return nil } // EISDIR means that we have a directory, and we need to // remove its contents. // EPERM or EACCES means that we don't have write permission on // the parent directory, but this entry might still be a directory // whose contents need to be removed. // Otherwise just return the error. if err != syscall.EISDIR && err != syscall.EPERM && err != syscall.EACCES { return &PathError{Op: "unlinkat", Path: base, Err: err} } // Is this a directory we need to recurse into? var statInfo syscall.Stat_t statErr := unix.Fstatat(parentFd, base, &statInfo, unix.AT_SYMLINK_NOFOLLOW) if statErr != nil { if IsNotExist(statErr) { return nil } return &PathError{Op: "fstatat", Path: base, Err: statErr} } if statInfo.Mode&syscall.S_IFMT != syscall.S_IFDIR { // Not a directory; return the error from the unix.Unlinkat. return &PathError{Op: "unlinkat", Path: base, Err: err} } // Remove the directory's entries. var recurseErr error for { const reqSize = 1024 var respSize int // Open the directory to recurse into file, err := openFdAt(parentFd, base) if err != nil { if IsNotExist(err) { return nil } recurseErr = &PathError{Op: "openfdat", Path: base, Err: err} break } for { numErr := 0 names, readErr := file.Readdirnames(reqSize) // Errors other than EOF should stop us from continuing. if readErr != nil && readErr != io.EOF { file.Close() if IsNotExist(readErr) { return nil } return &PathError{Op: "readdirnames", Path: base, Err: readErr} } respSize = len(names) for _, name := range names { err := removeAllFrom(file, name) if err != nil { if pathErr, ok := err.(*PathError); ok { pathErr.Path = base + string(PathSeparator) + pathErr.Path } numErr++ if recurseErr == nil { recurseErr = err } } } // If we can delete any entry, break to start new iteration. // Otherwise, we discard current names, get next entries and try deleting them. if numErr != reqSize { break } } // Removing files from the directory may have caused // the OS to reshuffle it. Simply calling Readdirnames // again may skip some entries. The only reliable way // to avoid this is to close and re-open the // directory. See issue 20841. file.Close() // Finish when the end of the directory is reached if respSize < reqSize { break } } // Remove the directory itself. unlinkError := unix.Unlinkat(parentFd, base, unix.AT_REMOVEDIR) if unlinkError == nil || IsNotExist(unlinkError) { return nil } if recurseErr != nil { return recurseErr } return &PathError{Op: "unlinkat", Path: base, Err: unlinkError} } // openFdAt opens path relative to the directory in fd. // Other than that this should act like openFileNolog. // This acts like openFileNolog rather than OpenFile because // we are going to (try to) remove the file. // The contents of this file are not relevant for test caching. func openFdAt(dirfd int, name string) (*File, error) { var r int for { var e error r, e = unix.Openat(dirfd, name, O_RDONLY|syscall.O_CLOEXEC, 0) if e == nil { break } // See comment in openFileNolog. if e == syscall.EINTR { continue } return nil, e } if !supportsCloseOnExec { syscall.CloseOnExec(r) } return newFile(uintptr(r), name, kindOpenFile), nil }