Vincent Batts
08b1000418
The current Vis() and Unvis() are using the C implementation from MTREE(8). But that means that cgo is used, which is not always desired. Signed-off-by: Vincent Batts <vbatts@hashbangbash.com>
457 lines
12 KiB
Go
457 lines
12 KiB
Go
package mtree
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import (
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"archive/tar"
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"fmt"
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"io"
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"io/ioutil"
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"log"
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"os"
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"path/filepath"
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"strings"
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)
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// Streamer creates a file hierarchy out of a tar stream
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type Streamer interface {
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io.ReadCloser
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Hierarchy() (*DirectoryHierarchy, error)
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}
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var tarDefaultSetKeywords = []KeyVal{
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"type=file",
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"flags=none",
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"mode=0664",
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}
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// NewTarStreamer streams a tar archive and creates a file hierarchy based off
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// of the tar metadata headers
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func NewTarStreamer(r io.Reader, excludes []ExcludeFunc, keywords []Keyword) Streamer {
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pR, pW := io.Pipe()
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ts := &tarStream{
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pipeReader: pR,
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pipeWriter: pW,
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creator: dhCreator{DH: &DirectoryHierarchy{}},
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teeReader: io.TeeReader(r, pW),
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tarReader: tar.NewReader(pR),
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keywords: keywords,
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hardlinks: map[string][]string{},
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excludes: excludes,
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}
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go ts.readHeaders()
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return ts
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}
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type tarStream struct {
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root *Entry
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hardlinks map[string][]string
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creator dhCreator
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pipeReader *io.PipeReader
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pipeWriter *io.PipeWriter
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teeReader io.Reader
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tarReader *tar.Reader
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keywords []Keyword
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excludes []ExcludeFunc
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err error
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}
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func (ts *tarStream) readHeaders() {
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// remove "time" keyword
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notimekws := []Keyword{}
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for _, kw := range ts.keywords {
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if !InKeywordSlice(kw, notimekws) {
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if kw == "time" {
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if !InKeywordSlice("tar_time", ts.keywords) {
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notimekws = append(notimekws, "tar_time")
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}
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} else {
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notimekws = append(notimekws, kw)
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}
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}
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}
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ts.keywords = notimekws
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// We have to start with the directory we're in, and anything beyond these
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// items is determined at the time a tar is extracted.
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ts.root = &Entry{
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Name: ".",
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Type: RelativeType,
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Prev: &Entry{
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Raw: "# .",
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Type: CommentType,
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},
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Set: nil,
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Keywords: []KeyVal{"type=dir"},
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}
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// insert signature and metadata comments first (user, machine, tree, date)
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for _, e := range signatureEntries("<user specified tar archive>") {
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e.Pos = len(ts.creator.DH.Entries)
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ts.creator.DH.Entries = append(ts.creator.DH.Entries, e)
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}
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// insert keyword metadata next
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for _, e := range keywordEntries(ts.keywords) {
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e.Pos = len(ts.creator.DH.Entries)
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ts.creator.DH.Entries = append(ts.creator.DH.Entries, e)
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}
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hdrloop:
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for {
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hdr, err := ts.tarReader.Next()
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if err != nil {
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ts.pipeReader.CloseWithError(err)
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return
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}
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for _, ex := range ts.excludes {
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if ex(hdr.Name, hdr.FileInfo()) {
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continue hdrloop
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}
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}
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// Because the content of the file may need to be read by several
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// KeywordFuncs, it needs to be an io.Seeker as well. So, just reading from
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// ts.tarReader is not enough.
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tmpFile, err := ioutil.TempFile("", "ts.payload.")
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if err != nil {
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ts.pipeReader.CloseWithError(err)
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return
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}
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// for good measure
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if err := tmpFile.Chmod(0600); err != nil {
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tmpFile.Close()
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os.Remove(tmpFile.Name())
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ts.pipeReader.CloseWithError(err)
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return
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}
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if _, err := io.Copy(tmpFile, ts.tarReader); err != nil {
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tmpFile.Close()
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os.Remove(tmpFile.Name())
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ts.pipeReader.CloseWithError(err)
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return
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}
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// Alright, it's either file or directory
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encodedName, err := Vis(filepath.Base(hdr.Name), DefaultVisFlags)
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if err != nil {
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tmpFile.Close()
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os.Remove(tmpFile.Name())
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ts.pipeReader.CloseWithError(err)
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return
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}
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e := Entry{
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Name: encodedName,
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Type: RelativeType,
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}
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// Keep track of which files are hardlinks so we can resolve them later
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if hdr.Typeflag == tar.TypeLink {
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linkFunc := KeywordFuncs["link"]
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kv, err := linkFunc(hdr.Name, hdr.FileInfo(), nil)
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if err != nil {
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log.Println(err)
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break
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}
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linkname, err := Unvis(KeyVal(kv).Value())
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if err != nil {
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log.Println(err)
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break
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}
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if _, ok := ts.hardlinks[linkname]; !ok {
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ts.hardlinks[linkname] = []string{hdr.Name}
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} else {
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ts.hardlinks[linkname] = append(ts.hardlinks[linkname], hdr.Name)
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}
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}
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// now collect keywords on the file
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for _, keyword := range ts.keywords {
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if keyFunc, ok := KeywordFuncs[keyword]; ok {
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// We can't extract directories on to disk, so "size" keyword
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// is irrelevant for now
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if hdr.FileInfo().IsDir() && keyword == "size" {
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continue
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}
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val, err := keyFunc(hdr.Name, hdr.FileInfo(), tmpFile)
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if err != nil {
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ts.setErr(err)
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}
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// for good measure, check that we actually get a value for a keyword
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if val != "" {
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e.Keywords = append(e.Keywords, val)
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}
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// don't forget to reset the reader
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if _, err := tmpFile.Seek(0, 0); err != nil {
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tmpFile.Close()
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os.Remove(tmpFile.Name())
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ts.pipeReader.CloseWithError(err)
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return
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}
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}
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}
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// collect meta-set keywords for a directory so that we can build the
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// actual sets in `flatten`
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if hdr.FileInfo().IsDir() {
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s := Entry{
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Name: "meta-set",
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Type: SpecialType,
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}
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for _, setKW := range SetKeywords {
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if keyFunc, ok := KeywordFuncs[setKW]; ok {
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val, err := keyFunc(hdr.Name, hdr.FileInfo(), tmpFile)
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if err != nil {
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ts.setErr(err)
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}
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if val != "" {
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s.Keywords = append(s.Keywords, val)
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}
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if _, err := tmpFile.Seek(0, 0); err != nil {
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tmpFile.Close()
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os.Remove(tmpFile.Name())
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ts.pipeReader.CloseWithError(err)
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}
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}
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}
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e.Set = &s
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}
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err = populateTree(ts.root, &e, hdr)
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if err != nil {
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ts.setErr(err)
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}
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tmpFile.Close()
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os.Remove(tmpFile.Name())
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}
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}
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// populateTree creates a pseudo file tree hierarchy using an Entry's Parent and
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// Children fields. When examining the Entry e to insert in the tree, we
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// determine if the path to that Entry exists yet. If it does, insert it in the
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// appropriate position in the tree. If not, create a path up until the Entry's
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// directory that it is contained in. Then, insert the Entry.
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// root: the "." Entry
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// e: the Entry we are looking to insert
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// hdr: the tar header struct associated with e
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func populateTree(root, e *Entry, hdr *tar.Header) error {
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if root == nil || e == nil {
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return fmt.Errorf("cannot populate or insert nil Entry's")
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} else if root.Prev == nil {
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return fmt.Errorf("root needs to be an Entry associated with a directory")
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}
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isDir := hdr.FileInfo().IsDir()
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wd := filepath.Clean(hdr.Name)
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if !isDir {
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// directory up until the actual file
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wd = filepath.Dir(wd)
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if wd == "." {
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root.Children = append([]*Entry{e}, root.Children...)
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e.Parent = root
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return nil
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}
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}
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dirNames := strings.Split(wd, "/")
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parent := root
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for _, name := range dirNames[:] {
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encoded, err := Vis(name, DefaultVisFlags)
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if err != nil {
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return err
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}
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if node := parent.Descend(encoded); node == nil {
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// Entry for directory doesn't exist in tree relative to root.
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// We don't know if this directory is an actual tar header (because a
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// user could have just specified a path to a deep file), so we must
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// specify this placeholder directory as a "type=dir", and Set=nil.
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newEntry := Entry{
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Name: encoded,
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Type: RelativeType,
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Parent: parent,
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Keywords: []KeyVal{"type=dir"}, // temp data
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Set: nil, // temp data
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}
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pathname, err := newEntry.Path()
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if err != nil {
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return err
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}
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newEntry.Prev = &Entry{
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Type: CommentType,
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Raw: "# " + pathname,
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}
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parent.Children = append(parent.Children, &newEntry)
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parent = &newEntry
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} else {
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// Entry for directory exists in tree, just keep going
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parent = node
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}
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}
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if !isDir {
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parent.Children = append([]*Entry{e}, parent.Children...)
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e.Parent = parent
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} else {
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// fill in the actual data from e
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parent.Keywords = e.Keywords
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parent.Set = e.Set
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}
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return nil
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}
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// After constructing a pseudo file hierarchy tree, we want to "flatten" this
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// tree by putting the Entries into a slice with appropriate positioning.
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// root: the "head" of the sub-tree to flatten
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// creator: a dhCreator that helps with the '/set' keyword
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// keywords: keywords specified by the user that should be evaluated
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func flatten(root *Entry, creator *dhCreator, keywords []Keyword) {
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if root == nil || creator == nil {
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return
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}
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if root.Prev != nil {
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// root.Prev != nil implies root is a directory
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creator.DH.Entries = append(creator.DH.Entries,
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Entry{
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Type: BlankType,
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Pos: len(creator.DH.Entries),
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})
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root.Prev.Pos = len(creator.DH.Entries)
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creator.DH.Entries = append(creator.DH.Entries, *root.Prev)
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if root.Set != nil {
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// Check if we need a new set
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consolidatedKeys := keyvalSelector(append(tarDefaultSetKeywords, root.Set.Keywords...), keywords)
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if creator.curSet == nil {
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creator.curSet = &Entry{
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Type: SpecialType,
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Name: "/set",
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Keywords: consolidatedKeys,
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Pos: len(creator.DH.Entries),
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}
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creator.DH.Entries = append(creator.DH.Entries, *creator.curSet)
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} else {
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needNewSet := false
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for _, k := range root.Set.Keywords {
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if !inKeyValSlice(k, creator.curSet.Keywords) {
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needNewSet = true
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break
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}
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}
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if needNewSet {
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creator.curSet = &Entry{
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Name: "/set",
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Type: SpecialType,
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Pos: len(creator.DH.Entries),
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Keywords: consolidatedKeys,
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}
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creator.DH.Entries = append(creator.DH.Entries, *creator.curSet)
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}
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}
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} else if creator.curSet != nil {
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// Getting into here implies that the Entry's set has not and
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// was not supposed to be evaluated, thus, we need to reset curSet
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creator.DH.Entries = append(creator.DH.Entries, Entry{
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Name: "/unset",
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Type: SpecialType,
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Pos: len(creator.DH.Entries),
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})
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creator.curSet = nil
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}
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}
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root.Set = creator.curSet
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if creator.curSet != nil {
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root.Keywords = keyValDifference(root.Keywords, creator.curSet.Keywords)
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}
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root.Pos = len(creator.DH.Entries)
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creator.DH.Entries = append(creator.DH.Entries, *root)
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for _, c := range root.Children {
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flatten(c, creator, keywords)
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}
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if root.Prev != nil {
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// Show a comment when stepping out
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root.Prev.Pos = len(creator.DH.Entries)
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creator.DH.Entries = append(creator.DH.Entries, *root.Prev)
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dotEntry := Entry{
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Type: DotDotType,
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Name: "..",
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Pos: len(creator.DH.Entries),
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}
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creator.DH.Entries = append(creator.DH.Entries, dotEntry)
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}
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return
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}
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// resolveHardlinks goes through an Entry tree, and finds the Entry's associated
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// with hardlinks and fills them in with the actual data from the base file.
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func resolveHardlinks(root *Entry, hardlinks map[string][]string, countlinks bool) {
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originals := make(map[string]*Entry)
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for base, links := range hardlinks {
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var basefile *Entry
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if seen, ok := originals[base]; !ok {
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basefile = root.Find(base)
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if basefile == nil {
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log.Printf("%s does not exist in this tree\n", base)
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continue
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}
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originals[base] = basefile
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} else {
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basefile = seen
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}
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for _, link := range links {
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linkfile := root.Find(link)
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if linkfile == nil {
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log.Printf("%s does not exist in this tree\n", link)
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continue
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}
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linkfile.Keywords = basefile.Keywords
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if countlinks {
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linkfile.Keywords = append(linkfile.Keywords, KeyVal(fmt.Sprintf("nlink=%d", len(links)+1)))
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}
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}
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if countlinks {
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basefile.Keywords = append(basefile.Keywords, KeyVal(fmt.Sprintf("nlink=%d", len(links)+1)))
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}
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}
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}
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// filter takes in a pointer to an Entry, and returns a slice of Entry's that
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// satisfy the predicate p
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func filter(root *Entry, p func(*Entry) bool) []Entry {
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if root != nil {
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var validEntrys []Entry
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if len(root.Children) > 0 || root.Prev != nil {
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for _, c := range root.Children {
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// filter the sub-directory
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if c.Prev != nil {
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validEntrys = append(validEntrys, filter(c, p)...)
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}
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if p(c) {
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if c.Prev == nil {
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validEntrys = append([]Entry{*c}, validEntrys...)
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} else {
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validEntrys = append(validEntrys, *c)
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}
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}
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}
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return validEntrys
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}
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}
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return nil
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}
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func (ts *tarStream) setErr(err error) {
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ts.err = err
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}
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func (ts *tarStream) Read(p []byte) (n int, err error) {
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return ts.teeReader.Read(p)
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}
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func (ts *tarStream) Close() error {
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return ts.pipeReader.Close()
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}
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// Hierarchy returns the DirectoryHierarchy of the archive. It flattens the
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// Entry tree before returning the DirectoryHierarchy
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func (ts *tarStream) Hierarchy() (*DirectoryHierarchy, error) {
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if ts.err != nil && ts.err != io.EOF {
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return nil, ts.err
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}
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if ts.root == nil {
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return nil, fmt.Errorf("root Entry not found, nothing to flatten")
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}
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resolveHardlinks(ts.root, ts.hardlinks, InKeywordSlice(Keyword("nlink"), ts.keywords))
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flatten(ts.root, &ts.creator, ts.keywords)
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return ts.creator.DH, nil
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}
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