forked from mirror/zip
469 lines
11 KiB
Go
469 lines
11 KiB
Go
// Copyright 2009 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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package zip
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import (
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"bytes"
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"crypto/aes"
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"crypto/cipher"
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"crypto/hmac"
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"crypto/rand"
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"crypto/sha1"
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"crypto/subtle"
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"errors"
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"hash"
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"io"
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"golang.org/x/crypto/pbkdf2"
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)
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const (
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// AES key lengths
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aes128 = 16
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aes192 = 24
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aes256 = 32
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)
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func aesKeyLen(strength byte) int {
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switch strength {
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case 1:
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return aes128
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case 2:
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return aes192
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case 3:
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return aes256
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default:
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return 0
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}
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}
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// Encryption/Decryption Errors
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var (
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ErrDecryption = errors.New("zip: decryption error")
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ErrPassword = errors.New("zip: invalid password")
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ErrAuthentication = errors.New("zip: authentication failed")
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)
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// Counter (CTR) mode.
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// CTR converts a block cipher into a stream cipher by
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// repeatedly encrypting an incrementing counter and
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// xoring the resulting stream of data with the input.
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// This is a re-implementation of Go's CTR mode to allow
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// for a little-endian, left-aligned uint32 counter, which
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// is required for WinZip AES encryption. Go's cipher.NewCTR
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// follows the NIST Standard SP 800-38A, pp 13-15
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// which has a big-endian, right-aligned counter.
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type ctr struct {
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b cipher.Block
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ctr []byte
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out []byte
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outUsed int
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}
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const streamBufferSize = 512
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// NewWinZipCTR returns a Stream which encrypts/decrypts using the given Block in
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// counter mode. The counter is initially set to 1 per WinZip AES.
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func newWinZipCTR(block cipher.Block) cipher.Stream {
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bufSize := streamBufferSize
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if bufSize < block.BlockSize() {
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bufSize = block.BlockSize()
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}
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// Set the IV (counter) to 1
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iv := make([]byte, block.BlockSize())
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iv[0] = 1
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return &ctr{
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b: block,
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ctr: iv,
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out: make([]byte, 0, bufSize),
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outUsed: 0,
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}
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}
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func (x *ctr) refill() {
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remain := len(x.out) - x.outUsed
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if remain > x.outUsed {
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return
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}
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copy(x.out, x.out[x.outUsed:])
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x.out = x.out[:cap(x.out)]
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bs := x.b.BlockSize()
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for remain < len(x.out)-bs {
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x.b.Encrypt(x.out[remain:], x.ctr)
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remain += bs
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// Increment counter
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// for i := len(x.ctr) - 1; i >= 0; i-- {
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// x.ctr[i]++
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// if x.ctr[i] != 0 {
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// break
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// }
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// }
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// Change to allow for little-endian,
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// left-aligned counter
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for i := 0; i < len(x.ctr); i++ {
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x.ctr[i]++
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if x.ctr[i] != 0 {
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break
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}
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}
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}
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x.out = x.out[:remain]
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x.outUsed = 0
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}
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func (x *ctr) XORKeyStream(dst, src []byte) {
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for len(src) > 0 {
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if x.outUsed >= len(x.out)-x.b.BlockSize() {
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x.refill()
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}
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n := xorBytes(dst, src, x.out[x.outUsed:])
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dst = dst[n:]
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src = src[n:]
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x.outUsed += n
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}
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}
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func xorBytes(dst, a, b []byte) int {
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n := len(a)
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if len(b) < n {
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n = len(b)
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}
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for i := 0; i < n; i++ {
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dst[i] = a[i] ^ b[i]
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}
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return n
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}
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// newAuthReader returns either a buffered or streaming authentication reader.
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// Buffered authentication is recommended. Streaming authentication is only
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// recommended if: 1. you buffer the data yourself and wait for authentication
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// before streaming to another source such as the network, or 2. you just don't
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// care about authenticating unknown ciphertext before use :).
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func newAuthReader(akey []byte, data, adata io.Reader, streaming bool) io.Reader {
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ar := authReader{
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data: data,
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adata: adata,
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mac: hmac.New(sha1.New, akey),
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err: nil,
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auth: false,
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}
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if streaming {
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return &ar
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}
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return &bufferedAuthReader{
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ar,
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new(bytes.Buffer),
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}
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}
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// Streaming authentication
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type authReader struct {
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data io.Reader // data to be authenticated
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adata io.Reader // the authentication code to read
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mac hash.Hash // hmac hash
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err error
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auth bool
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}
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func (a *authReader) Read(p []byte) (int, error) {
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if a.err != nil {
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return 0, a.err
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}
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end := false
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// read underlying data
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n, err := a.data.Read(p)
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if err != nil && err != io.EOF {
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a.err = err
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return n, a.err
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} else if err == io.EOF {
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// if we are at the end, calculate the mac
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end = true
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a.err = err
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}
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// write any data to mac
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_, err = a.mac.Write(p[:n])
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if err != nil {
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a.err = err
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return n, a.err
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}
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if end {
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ab := new(bytes.Buffer)
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_, err = io.Copy(ab, a.adata)
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if err != nil || ab.Len() != 10 {
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a.err = ErrDecryption
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return n, a.err
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}
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if !a.checkAuthentication(ab.Bytes()) {
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a.err = ErrAuthentication
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return n, a.err
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}
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}
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return n, a.err
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}
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// buffered authentication
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type bufferedAuthReader struct {
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authReader
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buf *bytes.Buffer // buffer to store data to authenticate
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}
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func (a *bufferedAuthReader) Read(b []byte) (int, error) {
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// check for sticky error
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if a.err != nil {
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return 0, a.err
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}
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// make sure we have auth'ed before we send any data
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if !a.auth {
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_, err := io.Copy(a.buf, a.data)
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if err != nil {
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a.err = err
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return 0, a.err
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}
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ab := new(bytes.Buffer)
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nn, err := io.Copy(ab, a.adata)
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if err != nil {
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a.err = err
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return 0, a.err
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} else if nn != 10 {
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a.err = ErrDecryption
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return 0, a.err
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}
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_, err = a.mac.Write(a.buf.Bytes())
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if err != nil {
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a.err = err
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return 0, a.err
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}
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if !a.checkAuthentication(ab.Bytes()) {
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a.err = ErrAuthentication
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return 0, a.err
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}
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}
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// so we've authenticated the data, now just pass it on.
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n, err := a.buf.Read(b)
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if err != nil {
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a.err = err
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}
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return n, a.err
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}
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func (a *authReader) checkAuthentication(authcode []byte) bool {
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expectedAuthCode := a.mac.Sum(nil)
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// Truncate at the first 10 bytes
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expectedAuthCode = expectedAuthCode[:10]
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a.auth = subtle.ConstantTimeCompare(expectedAuthCode, authcode) > 0
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return a.auth
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}
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func checkPasswordVerification(pwvv, pwv []byte) bool {
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b := subtle.ConstantTimeCompare(pwvv, pwv) > 0
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return b
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}
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func generateKeys(password, salt []byte, keySize int) (encKey, authKey, pwv []byte) {
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totalSize := (keySize * 2) + 2 // enc + auth + pv sizes
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key := pbkdf2.Key(password, salt, 1000, totalSize, sha1.New)
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encKey = key[:keySize]
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authKey = key[keySize : keySize*2]
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pwv = key[keySize*2:]
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return
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}
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// newDecryptionReader returns an authenticated, decryption reader
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func newDecryptionReader(r *io.SectionReader, f *File) (io.Reader, error) {
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keyLen := aesKeyLen(f.aesStrength)
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saltLen := keyLen / 2 // salt is half of key len
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if saltLen == 0 {
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return nil, ErrDecryption
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}
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// grab the salt and pwvv
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saltpwvv := make([]byte, saltLen+2)
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if _, err := r.Read(saltpwvv); err != nil {
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return nil, err
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}
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salt := saltpwvv[:saltLen]
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pwvv := saltpwvv[saltLen : saltLen+2]
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// generate keys only if we have a password
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if f.password == nil {
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return nil, ErrPassword
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}
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decKey, authKey, pwv := generateKeys(f.password(), salt, keyLen)
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if !checkPasswordVerification(pwv, pwvv) {
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return nil, ErrPassword
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}
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dataOff := int64(saltLen + 2)
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dataLen := int64(f.CompressedSize64 - uint64(saltLen) - 2 - 10)
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// // TODO(alex): Should the compressed sizes be fixed?
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// // Not the ideal place to do this.
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// f.CompressedSize64 = uint64(dataLen)
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// f.CompressedSize = uint32(dataLen)
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data := io.NewSectionReader(r, dataOff, dataLen)
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authOff := dataOff + dataLen
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authcode := io.NewSectionReader(r, authOff, 10)
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ar := newAuthReader(authKey, data, authcode, f.DeferAuth)
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dr := decryptStream(decKey, ar)
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if dr == nil {
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return nil, ErrDecryption
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}
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return dr, nil
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}
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func decryptStream(key []byte, ciphertext io.Reader) io.Reader {
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block, err := aes.NewCipher(key)
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if err != nil {
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return nil
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}
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stream := newWinZipCTR(block)
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reader := &cipher.StreamReader{S: stream, R: ciphertext}
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return reader
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}
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// writes encrypted data to hmac as it passes through
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type authWriter struct {
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hmac hash.Hash // from fw.hmac
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w io.Writer // this will be the compCount writer
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}
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func (aw *authWriter) Write(p []byte) (int, error) {
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_, err := aw.hmac.Write(p)
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if err != nil {
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return 0, err
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}
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return aw.w.Write(p)
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}
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// writes out the salt, pwv, and then the encrypted file data
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type encryptionWriter struct {
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pwv []byte
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salt []byte
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w io.Writer // where to write the salt + pwv
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es io.Writer // where to write plaintext
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first bool // first write
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err error
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}
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func (ew *encryptionWriter) Write(p []byte) (int, error) {
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if ew.err != nil {
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return 0, ew.err
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}
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if ew.first {
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// if our first time writing
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// must write out the salt and pwv first unencrypted
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_, err1 := ew.w.Write(ew.salt)
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_, err2 := ew.w.Write(ew.pwv)
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if err1 != nil || err2 != nil {
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ew.err = errors.New("zip: error writing salt or pwv")
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return 0, ew.err
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}
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ew.first = false
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}
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// now just pass on to the encryption stream
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return ew.es.Write(p)
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}
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func encryptStream(key []byte, w io.Writer) (io.Writer, error) {
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block, err := aes.NewCipher(key)
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if err != nil {
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return nil, err
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}
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stream := newWinZipCTR(block)
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writer := &cipher.StreamWriter{S: stream, W: w}
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return writer, nil
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}
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// newEncryptionWriter returns an io.Writer that when written to, 1. writes
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// out the salt, 2. writes out pwv, and 3. writes out authenticated, encrypted
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// data. The authcode will be written out in fileWriter.close().
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func newEncryptionWriter(w io.Writer, password passwordFn, fw *fileWriter) (io.Writer, error) {
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var salt [16]byte
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_, err := rand.Read(salt[:])
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if err != nil {
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return nil, errors.New("zip: unable to generate random salt")
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}
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ekey, akey, pwv := generateKeys(password(), salt[:], aes256)
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fw.hmac = hmac.New(sha1.New, akey)
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aw := &authWriter{
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hmac: fw.hmac,
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w: w,
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}
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es, err := encryptStream(ekey, aw)
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if err != nil {
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return nil, err
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}
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ew := &encryptionWriter{
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pwv: pwv,
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salt: salt[:],
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w: w,
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es: es,
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first: true,
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}
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return ew, nil
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}
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// IsEncrypted indicates whether this file's data is encrypted.
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func (h *FileHeader) IsEncrypted() bool {
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return h.Flags&0x1 == 1
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}
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// WinZip AE-2 specifies that no CRC value is written and
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// should be skipped when reading.
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func (h *FileHeader) isAE2() bool {
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return h.ae == 2
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}
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func (h *FileHeader) writeWinZipExtra() {
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// total size is 11 bytes
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var buf [11]byte
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eb := writeBuf(buf[:])
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eb.uint16(winzipAesExtraId) // 0x9901
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eb.uint16(7) // following data size is 7
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eb.uint16(2) // ae 2
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eb.uint16(0x4541) // "AE"
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eb.uint8(3) // aes256
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eb.uint16(h.Method) // original compression method
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h.Extra = append(h.Extra, buf[:]...)
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}
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func (h *FileHeader) setEncryptionBit() {
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h.Flags |= 0x1
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}
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// SetPassword sets the password used for encryption/decryption.
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func (h *FileHeader) SetPassword(password string) {
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if !h.IsEncrypted() {
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h.setEncryptionBit()
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}
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h.password = func() []byte {
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return []byte(password)
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}
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}
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func (h *FileHeader) SetDecryptionPassword(password string) {
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h.password = func() []byte {
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return []byte(password)
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}
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}
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// PasswordFn is a function that returns the password
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// as a byte slice
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type passwordFn func() []byte
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// Encrypt adds a file to the zip file using the provided name.
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// It returns a Writer to which the file contents should be written. File
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// contents will be encrypted with AES-256 using the given password. The
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// file's contents must be written to the io.Writer before the next call
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// to Create, CreateHeader, or Close.
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func (w *Writer) Encrypt(name string, password string) (io.Writer, error) {
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fh := &FileHeader{
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Name: name,
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Method: Deflate,
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}
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fh.SetDecryptionPassword(password)
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return w.CreateHeader(fh)
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}
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