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// Copyright 2018 Google LLC
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package fs
import (
"sort"
"gvisor.googlesource.com/gvisor/pkg/sentry/device"
)
// DentAttr is the metadata of a directory entry. It is a subset of StableAttr.
//
// +stateify savable
type DentAttr struct {
// Type is the InodeType of an Inode.
Type InodeType
// InodeID uniquely identifies an Inode on a device.
InodeID uint64
}
// GenericDentAttr returns a generic DentAttr where:
//
// Type == nt
// InodeID == the inode id of a new inode on device.
func GenericDentAttr(nt InodeType, device *device.Device) DentAttr {
return DentAttr{
Type: nt,
InodeID: device.NextIno(),
}
}
// DentrySerializer serializes a directory entry.
type DentrySerializer interface {
// CopyOut serializes a directory entry based on its name and attributes.
CopyOut(name string, attributes DentAttr) error
// Written returns the number of bytes written.
Written() int
}
// CollectEntriesSerializer copies DentAttrs to Entries. The order in
// which entries are encountered is preserved in Order.
type CollectEntriesSerializer struct {
Entries map[string]DentAttr
Order []string
}
// CopyOut implements DentrySerializer.CopyOut.
func (c *CollectEntriesSerializer) CopyOut(name string, attr DentAttr) error {
if c.Entries == nil {
c.Entries = make(map[string]DentAttr)
}
c.Entries[name] = attr
c.Order = append(c.Order, name)
return nil
}
// Written implements DentrySerializer.Written.
func (c *CollectEntriesSerializer) Written() int {
return len(c.Entries)
}
// DirCtx is used by node.Readdir to emit directory entries. It is not
// thread-safe.
type DirCtx struct {
// Serializer is used to serialize the node attributes.
Serializer DentrySerializer
// attrs are DentAttrs
attrs map[string]DentAttr
// DirCursor is the directory cursor.
// TODO: Once Handles are removed this can just live in the
// respective FileOperations implementations and not need to get
// plumbed everywhere.
DirCursor *string
}
// DirEmit is called for each directory entry.
func (c *DirCtx) DirEmit(name string, attr DentAttr) error {
if c.Serializer != nil {
if err := c.Serializer.CopyOut(name, attr); err != nil {
return err
}
}
if c.attrs == nil {
c.attrs = make(map[string]DentAttr)
}
c.attrs[name] = attr
return nil
}
// DentAttrs returns a map of DentAttrs corresponding to the emitted directory
// entries.
func (c *DirCtx) DentAttrs() map[string]DentAttr {
if c.attrs == nil {
c.attrs = make(map[string]DentAttr)
}
return c.attrs
}
// GenericReaddir serializes DentAttrs based on a SortedDentryMap that must
// contain _all_ up-to-date DentAttrs under a directory. If ctx.DirCursor is
// not nil, it is updated to the name of the last DentAttr that was
// successfully serialized.
//
// Returns the number of entries serialized.
func GenericReaddir(ctx *DirCtx, s *SortedDentryMap) (int, error) {
// Retrieve the next directory entries.
var names []string
var entries map[string]DentAttr
if ctx.DirCursor != nil {
names, entries = s.GetNext(*ctx.DirCursor)
} else {
names, entries = s.GetAll()
}
// Try to serialize each entry.
var serialized int
for _, name := range names {
// Skip "" per POSIX. Skip "." and ".." which will be added by Dirent.Readdir.
if name == "" || name == "." || name == ".." {
continue
}
// Emit the directory entry.
if err := ctx.DirEmit(name, entries[name]); err != nil {
// Return potentially a partial serialized count.
return serialized, err
}
// We successfully serialized this entry.
serialized++
// Update the cursor with the name of the entry last serialized.
if ctx.DirCursor != nil {
*ctx.DirCursor = name
}
}
// Everything was serialized.
return serialized, nil
}
// SortedDentryMap is a sorted map of names and fs.DentAttr entries.
//
// +stateify savable
type SortedDentryMap struct {
// names is always kept in sorted-order.
names []string
// entries maps names to fs.DentAttrs.
entries map[string]DentAttr
}
// NewSortedDentryMap maintains entries in name sorted order.
func NewSortedDentryMap(entries map[string]DentAttr) *SortedDentryMap {
s := &SortedDentryMap{
names: make([]string, 0, len(entries)),
entries: entries,
}
// Don't allow s.entries to be nil, because nil maps arn't Saveable.
if s.entries == nil {
s.entries = make(map[string]DentAttr)
}
// Collect names from entries and sort them.
for name := range s.entries {
s.names = append(s.names, name)
}
sort.Strings(s.names)
return s
}
// GetAll returns all names and entries in s.
func (s *SortedDentryMap) GetAll() ([]string, map[string]DentAttr) {
return s.names, s.entries
}
// GetNext returns names after cursor in s and all entries.
func (s *SortedDentryMap) GetNext(cursor string) ([]string, map[string]DentAttr) {
i := sort.SearchStrings(s.names, cursor)
if i == len(s.names) {
return nil, s.entries
}
// Return everything strictly after the cursor.
if s.names[i] == cursor {
i++
}
return s.names[i:], s.entries
}
// Add adds an entry with the given name to the map, preserving sort order. If
// name already exists in the map, its entry will be overwritten.
func (s *SortedDentryMap) Add(name string, entry DentAttr) {
if _, ok := s.entries[name]; !ok {
// Map does not yet contain an entry with this name. We must
// insert it in s.names at the appropriate spot.
i := sort.SearchStrings(s.names, name)
s.names = append(s.names, "")
copy(s.names[i+1:], s.names[i:])
s.names[i] = name
}
s.entries[name] = entry
}
// Remove removes an entry with the given name from the map, preserving sort order.
func (s *SortedDentryMap) Remove(name string) {
if _, ok := s.entries[name]; !ok {
return
}
i := sort.SearchStrings(s.names, name)
copy(s.names[i:], s.names[i+1:])
s.names = s.names[:len(s.names)-1]
delete(s.entries, name)
}
// Contains reports whether the map contains an entry with the given name.
func (s *SortedDentryMap) Contains(name string) bool {
_, ok := s.entries[name]
return ok
}
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