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go-mtree/tar.go

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package mtree
import (
"archive/tar"
"io"
"io/ioutil"
"os"
"path/filepath"
"strings"
)
// Streamer creates a file hierarchy out of a tar stream
type Streamer interface {
io.ReadCloser
Hierarchy() (*DirectoryHierarchy, error)
}
var tarDefaultSetKeywords = []string{"type=file", "flags=none", "mode=0664"}
// NewTarStreamer streams a tar archive and creates a file hierarchy based off
// of the tar metadata headers
func NewTarStreamer(r io.Reader, keywords []string) Streamer {
pR, pW := io.Pipe()
ts := &tarStream{
pipeReader: pR,
pipeWriter: pW,
creator: dhCreator{DH: &DirectoryHierarchy{}},
teeReader: io.TeeReader(r, pW),
tarReader: tar.NewReader(pR),
keywords: keywords,
}
go ts.readHeaders() // I don't like this
return ts
}
type tarStream struct {
creator dhCreator
pipeReader *io.PipeReader
pipeWriter *io.PipeWriter
teeReader io.Reader
tarReader *tar.Reader
keywords []string
err error
}
func (ts *tarStream) readHeaders() {
// We have to start with the directory we're in, and anything beyond these
// items is determined at the time a tar is extracted.
rootComment := Entry{
Raw: "# .",
Type: CommentType,
}
root := Entry{
Name: ".",
Type: RelativeType,
Prev: &rootComment,
Set: &Entry{
Name: "meta-set",
Type: SpecialType,
},
}
metadataEntries := signatureEntries("<user specified tar archive>")
for _, e := range metadataEntries {
e.Pos = len(ts.creator.DH.Entries)
ts.creator.DH.Entries = append(ts.creator.DH.Entries, e)
}
for {
hdr, err := ts.tarReader.Next()
if err != nil {
flatten(&root, ts)
ts.pipeReader.CloseWithError(err)
return
}
// Because the content of the file may need to be read by several
// KeywordFuncs, it needs to be an io.Seeker as well. So, just reading from
// ts.tarReader is not enough.
tmpFile, err := ioutil.TempFile("", "ts.payload.")
if err != nil {
ts.pipeReader.CloseWithError(err)
return
}
// for good measure
if err := tmpFile.Chmod(0600); err != nil {
tmpFile.Close()
os.Remove(tmpFile.Name())
ts.pipeReader.CloseWithError(err)
return
}
if _, err := io.Copy(tmpFile, ts.tarReader); err != nil {
tmpFile.Close()
os.Remove(tmpFile.Name())
ts.pipeReader.CloseWithError(err)
return
}
// Alright, it's either file or directory
encodedName, err := Vis(filepath.Base(hdr.Name))
if err != nil {
tmpFile.Close()
os.Remove(tmpFile.Name())
ts.pipeReader.CloseWithError(err)
return
}
e := Entry{
Name: encodedName,
Type: RelativeType,
}
// now collect keywords on the file
for _, keyword := range ts.keywords {
if keyword == "time" {
keyword = "tar_time"
}
if keyFunc, ok := KeywordFuncs[keyword]; ok {
// We can't extract directories on to disk, so "size" keyword
// is irrelevant for now
if hdr.FileInfo().IsDir() && keyword == "size" {
continue
}
if string(hdr.Typeflag) == string('1') {
// TODO: get number of hardlinks for a file
}
val, err := keyFunc(hdr.Name, hdr.FileInfo(), tmpFile)
if err != nil {
ts.setErr(err)
}
// for good measure, check that we actually get a value for a keyword
if val != "" {
e.Keywords = append(e.Keywords, val)
}
// don't forget to reset the reader
if _, err := tmpFile.Seek(0, 0); err != nil {
tmpFile.Close()
os.Remove(tmpFile.Name())
ts.pipeReader.CloseWithError(err)
return
}
}
}
// collect meta-set keywords for a directory so that we can build the
// actual sets in `flatten`
if hdr.FileInfo().IsDir() {
s := Entry{
Name: "meta-set",
Type: SpecialType,
}
for _, setKW := range SetKeywords {
if setKW == "time" {
setKW = "tar_time"
}
if keyFunc, ok := KeywordFuncs[setKW]; ok {
val, err := keyFunc(hdr.Name, hdr.FileInfo(), tmpFile)
if err != nil {
ts.setErr(err)
}
if val != "" {
s.Keywords = append(s.Keywords, val)
}
if _, err := tmpFile.Seek(0, 0); err != nil {
tmpFile.Close()
os.Remove(tmpFile.Name())
ts.pipeReader.CloseWithError(err)
}
}
}
if filepath.Dir(filepath.Clean(hdr.Name)) == "." {
root.Set = &s
} else {
e.Set = &s
}
}
populateTree(&root, &e, hdr, ts)
tmpFile.Close()
os.Remove(tmpFile.Name())
}
}
type relationship int
const (
unknownDir relationship = iota
sameDir
childDir
parentDir
)
// populateTree creates a file tree hierarchy using an Entry's Parent and
// Children fields. When examining the Entry e to insert in the tree, we
// determine if the path to that Entry exists yet. If it does, insert it in the
// appropriate position in the tree. If not, create a path with "placeholder"
// directories, and then insert the Entry. populateTree does not consider
// symbolic links yet.
func populateTree(root, e *Entry, hdr *tar.Header, ts *tarStream) {
isDir := hdr.FileInfo().IsDir()
wd := filepath.Clean(hdr.Name)
if !isDir {
// If entry is a file, we only want the directory it's in.
wd = filepath.Dir(wd)
}
if filepath.Dir(wd) == "." {
if isDir {
root.Keywords = e.Keywords
} else {
root.Children = append([]*Entry{e}, root.Children...)
e.Parent = root
}
return
}
dirNames := strings.Split(wd, "/")
parent := root
for _, name := range dirNames[1:] {
if node := parent.Descend(name); node == nil {
// Entry for directory doesn't exist in tree relative to root
var newEntry *Entry
if isDir {
newEntry = e
} else {
encodedName, err := Vis(name)
if err != nil {
ts.setErr(err)
return
}
newEntry = &Entry{
Name: encodedName,
Type: RelativeType,
}
}
newEntry.Parent = parent
parent.Children = append(parent.Children, newEntry)
parent = newEntry
} else {
// Entry for directory exists in tree, just keep going
parent = node
}
}
if !isDir {
parent.Children = append([]*Entry{e}, parent.Children...)
e.Parent = parent
} else {
commentpath, err := e.Path()
if err != nil {
ts.setErr(err)
return
}
commentEntry := Entry{
Raw: "# " + commentpath,
Type: CommentType,
}
e.Prev = &commentEntry
}
}
// After constructing the tree from the tar stream, we want to "flatten" this
// tree by appending Entry's into ts.creator.DH.Entries in an appropriate
// manner to simplify writing the output with ts.creator.DH.WriteTo
// root: the "head" of the sub-tree to flatten
// ts : tarStream to keep track of Entry's
func flatten(root *Entry, ts *tarStream) {
if root.Prev != nil {
// root.Prev != nil implies root is a directory
ts.creator.DH.Entries = append(ts.creator.DH.Entries,
Entry{
Type: BlankType,
Pos: len(ts.creator.DH.Entries),
})
root.Prev.Pos = len(ts.creator.DH.Entries)
ts.creator.DH.Entries = append(ts.creator.DH.Entries, *root.Prev)
// Check if we need a new set
if ts.creator.curSet == nil {
ts.creator.curSet = &Entry{
Type: SpecialType,
Name: "/set",
Keywords: keywordSelector(append(tarDefaultSetKeywords, root.Set.Keywords...), ts.keywords),
Pos: len(ts.creator.DH.Entries),
}
ts.creator.DH.Entries = append(ts.creator.DH.Entries, *ts.creator.curSet)
} else {
needNewSet := false
for _, k := range root.Set.Keywords {
if !inSlice(k, ts.creator.curSet.Keywords) {
needNewSet = true
break
}
}
if needNewSet {
ts.creator.curSet = &Entry{
Name: "/set",
Type: SpecialType,
Pos: len(ts.creator.DH.Entries),
Keywords: keywordSelector(append(tarDefaultSetKeywords, root.Set.Keywords...), ts.keywords),
}
ts.creator.DH.Entries = append(ts.creator.DH.Entries, *ts.creator.curSet)
}
}
}
root.Set = ts.creator.curSet
root.Keywords = setDifference(root.Keywords, ts.creator.curSet.Keywords)
root.Pos = len(ts.creator.DH.Entries)
ts.creator.DH.Entries = append(ts.creator.DH.Entries, *root)
for _, c := range root.Children {
flatten(c, ts)
}
if root.Prev != nil {
// Show a comment when stepping out
root.Prev.Pos = len(ts.creator.DH.Entries)
ts.creator.DH.Entries = append(ts.creator.DH.Entries, *root.Prev)
dotEntry := Entry{
Type: DotDotType,
Name: "..",
Pos: len(ts.creator.DH.Entries),
}
ts.creator.DH.Entries = append(ts.creator.DH.Entries, dotEntry)
}
}
// filter takes in a pointer to an Entry, and returns a slice of Entry's that
// satisfy the predicate p
func filter(root *Entry, p func(*Entry) bool) []Entry {
var validEntrys []Entry
if len(root.Children) > 0 || root.Prev != nil {
for _, c := range root.Children {
// if an Entry is a directory, filter the directory
if c.Prev != nil {
validEntrys = append(validEntrys, filter(c, p)...)
}
if p(c) {
if c.Prev == nil {
// prepend directories
validEntrys = append([]Entry{*c}, validEntrys...)
} else {
validEntrys = append(validEntrys, *c)
}
}
}
return validEntrys
}
return nil
}
func setDifference(this, that []string) []string {
if len(this) == 0 {
return that
}
diff := []string{}
for _, kv := range this {
if !inSlice(kv, that) {
diff = append(diff, kv)
}
}
return diff
}
func compareDir(curDir, prevDir string) relationship {
curDir = filepath.Clean(curDir)
prevDir = filepath.Clean(prevDir)
if curDir == prevDir {
return sameDir
}
if filepath.Dir(curDir) == prevDir {
return childDir
}
if curDir == filepath.Dir(prevDir) {
return parentDir
}
return unknownDir
}
func (ts *tarStream) setErr(err error) {
ts.err = err
}
func (ts *tarStream) Read(p []byte) (n int, err error) {
return ts.teeReader.Read(p)
}
func (ts *tarStream) Close() error {
return ts.pipeReader.Close()
}
func (ts *tarStream) Hierarchy() (*DirectoryHierarchy, error) {
if ts.err != nil && ts.err != io.EOF {
return nil, ts.err
}
return ts.creator.DH, nil
}