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tree.go
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tree.go
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package gitobj
import (
"bufio"
"bytes"
"fmt"
"hash"
"io"
"sort"
"strconv"
"strings"
"github.com/git-lfs/gitobj/v2/pack"
)
// We define these here instead of using the system ones because not all
// operating systems use the traditional values. For example, zOS uses
// different values.
const (
sIFMT = int32(0170000)
sIFREG = int32(0100000)
sIFDIR = int32(0040000)
sIFLNK = int32(0120000)
sIFGITLINK = int32(0160000)
)
// Tree encapsulates a Git tree object.
type Tree struct {
// Entries is the list of entries held by this tree.
Entries []*TreeEntry
}
// Type implements Object.ObjectType by returning the correct object type for
// Trees, TreeObjectType.
func (t *Tree) Type() ObjectType { return TreeObjectType }
// Decode implements Object.Decode and decodes the uncompressed tree being
// read. It returns the number of uncompressed bytes being consumed off of the
// stream, which should be strictly equal to the size given.
//
// If any error was encountered along the way, that will be returned, along with
// the number of bytes read up to that point.
func (t *Tree) Decode(hash hash.Hash, from io.Reader, size int64) (n int, err error) {
hashlen := hash.Size()
buf := bufio.NewReader(from)
var entries []*TreeEntry
for {
modes, err := buf.ReadString(' ')
if err != nil {
if err == io.EOF {
break
}
return n, err
}
n += len(modes)
modes = strings.TrimSuffix(modes, " ")
mode, _ := strconv.ParseInt(modes, 8, 32)
fname, err := buf.ReadString('\x00')
if err != nil {
return n, err
}
n += len(fname)
fname = strings.TrimSuffix(fname, "\x00")
var sha [pack.MaxHashSize]byte
if _, err = io.ReadFull(buf, sha[:hashlen]); err != nil {
return n, err
}
n += hashlen
entries = append(entries, &TreeEntry{
Name: fname,
Oid: sha[:hashlen],
Filemode: int32(mode),
})
}
t.Entries = entries
return n, nil
}
// Encode encodes the tree's contents to the given io.Writer, "w". If there was
// any error copying the tree's contents, that error will be returned.
//
// Otherwise, the number of bytes written will be returned.
func (t *Tree) Encode(to io.Writer) (n int, err error) {
const entryTmpl = "%s %s\x00%s"
for _, entry := range t.Entries {
fmode := strconv.FormatInt(int64(entry.Filemode), 8)
ne, err := fmt.Fprintf(to, entryTmpl,
fmode,
entry.Name,
entry.Oid)
if err != nil {
return n, err
}
n = n + ne
}
return
}
// Merge performs a merge operation against the given set of `*TreeEntry`'s by
// either replacing existing tree entries of the same name, or appending new
// entries in sub-tree order.
//
// It returns a copy of the tree, and performs the merge in O(n*log(n)) time.
func (t *Tree) Merge(others ...*TreeEntry) *Tree {
unseen := make(map[string]*TreeEntry)
// Build a cache of name to *TreeEntry.
for _, other := range others {
unseen[other.Name] = other
}
// Map the existing entries ("t.Entries") into a new set by either
// copying an existing entry, or replacing it with a new one.
entries := make([]*TreeEntry, 0, len(t.Entries))
for _, entry := range t.Entries {
if other, ok := unseen[entry.Name]; ok {
entries = append(entries, other)
delete(unseen, entry.Name)
} else {
oid := make([]byte, len(entry.Oid))
copy(oid, entry.Oid)
entries = append(entries, &TreeEntry{
Filemode: entry.Filemode,
Name: entry.Name,
Oid: oid,
})
}
}
// For all the items we haven't replaced into the new set, append them
// to the entries.
for _, remaining := range unseen {
entries = append(entries, remaining)
}
// Call sort afterwords, as a tradeoff between speed and spacial
// complexity. As a future point of optimization, adding new elements
// (see: above) could be done as a linear pass of the "entries" set.
//
// In order to do that, we must have a constant-time lookup of both
// entries in the existing and new sets. This requires building a
// map[string]*TreeEntry for the given "others" as well as "t.Entries".
//
// Trees can be potentially large, so trade this spacial complexity for
// an O(n*log(n)) sort.
sort.Sort(SubtreeOrder(entries))
return &Tree{Entries: entries}
}
// Equal returns whether the receiving and given trees are equal, or in other
// words, whether they are represented by the same SHA-1 when saved to the
// object database.
func (t *Tree) Equal(other *Tree) bool {
if (t == nil) != (other == nil) {
return false
}
if t != nil {
if len(t.Entries) != len(other.Entries) {
return false
}
for i := 0; i < len(t.Entries); i++ {
e1 := t.Entries[i]
e2 := other.Entries[i]
if !e1.Equal(e2) {
return false
}
}
}
return true
}
// TreeEntry encapsulates information about a single tree entry in a tree
// listing.
type TreeEntry struct {
// Name is the entry name relative to the tree in which this entry is
// contained.
Name string
// Oid is the object ID for this tree entry.
Oid []byte
// Filemode is the filemode of this tree entry on disk.
Filemode int32
}
// Equal returns whether the receiving and given TreeEntry instances are
// identical in name, filemode, and OID.
func (e *TreeEntry) Equal(other *TreeEntry) bool {
if (e == nil) != (other == nil) {
return false
}
if e != nil {
return e.Name == other.Name &&
bytes.Equal(e.Oid, other.Oid) &&
e.Filemode == other.Filemode
}
return true
}
// Type is the type of entry (either blob: BlobObjectType, or a sub-tree:
// TreeObjectType).
func (e *TreeEntry) Type() ObjectType {
switch e.Filemode & sIFMT {
case sIFREG:
return BlobObjectType
case sIFDIR:
return TreeObjectType
case sIFLNK:
return BlobObjectType
case sIFGITLINK:
return CommitObjectType
default:
panic(fmt.Sprintf("gitobj: unknown object type: %o",
e.Filemode))
}
}
// IsLink returns true if the given TreeEntry is a blob which represents a
// symbolic link (i.e., with a filemode of 0120000.
func (e *TreeEntry) IsLink() bool {
return e.Filemode & sIFMT == sIFLNK
}
// SubtreeOrder is an implementation of sort.Interface that sorts a set of
// `*TreeEntry`'s according to "subtree" order. This ordering is required to
// write trees in a correct, readable format to the Git object database.
//
// The format is as follows: entries are sorted lexicographically in byte-order,
// with subtrees (entries of Type() == gitobj.TreeObjectType) being sorted as
// if their `Name` fields ended in a "/".
//
// See: https://github.com/git/git/blob/v2.13.0/fsck.c#L492-L525 for more
// details.
type SubtreeOrder []*TreeEntry
// Len implements sort.Interface.Len() and return the length of the underlying
// slice.
func (s SubtreeOrder) Len() int { return len(s) }
// Swap implements sort.Interface.Swap() and swaps the two elements at i and j.
func (s SubtreeOrder) Swap(i, j int) { s[i], s[j] = s[j], s[i] }
// Less implements sort.Interface.Less() and returns whether the element at "i"
// is compared as "less" than the element at "j". In other words, it returns if
// the element at "i" should be sorted ahead of that at "j".
//
// It performs this comparison in lexicographic byte-order according to the
// rules above (see SubtreeOrder).
func (s SubtreeOrder) Less(i, j int) bool {
return s.Name(i) < s.Name(j)
}
// Name returns the name for a given entry indexed at "i", which is a C-style
// string ('\0' terminated unless it's a subtree), optionally terminated with
// '/' if it's a subtree.
//
// This is done because '/' sorts ahead of '\0', and is compatible with the
// tree order in upstream Git.
func (s SubtreeOrder) Name(i int) string {
if i < 0 || i >= len(s) {
return ""
}
entry := s[i]
if entry == nil {
return ""
}
if entry.Type() == TreeObjectType {
return entry.Name + "/"
}
return entry.Name + "\x00"
}