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authorWim <wim@42.be>2017-12-03 01:24:05 +0100
committerWim <wim@42.be>2017-12-03 01:24:05 +0100
commited9118b34620f1ecd5f28506328d4ffe1b04793d (patch)
tree442998012f6779446a463e402fa7c0836edcac91 /vendor/golang.org/x/crypto/ssh/cipher.go
parent59e55cfbd5cc3c82236c5e8b95e5baff256f7143 (diff)
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Add sshchat dependencies in vendor
Diffstat (limited to 'vendor/golang.org/x/crypto/ssh/cipher.go')
-rw-r--r--vendor/golang.org/x/crypto/ssh/cipher.go629
1 files changed, 629 insertions, 0 deletions
diff --git a/vendor/golang.org/x/crypto/ssh/cipher.go b/vendor/golang.org/x/crypto/ssh/cipher.go
new file mode 100644
index 00000000..e67c5e0a
--- /dev/null
+++ b/vendor/golang.org/x/crypto/ssh/cipher.go
@@ -0,0 +1,629 @@
+// Copyright 2011 The Go Authors. All rights reserved.
+// Use of this source code is governed by a BSD-style
+// license that can be found in the LICENSE file.
+
+package ssh
+
+import (
+ "crypto/aes"
+ "crypto/cipher"
+ "crypto/des"
+ "crypto/rc4"
+ "crypto/subtle"
+ "encoding/binary"
+ "errors"
+ "fmt"
+ "hash"
+ "io"
+ "io/ioutil"
+)
+
+const (
+ packetSizeMultiple = 16 // TODO(huin) this should be determined by the cipher.
+
+ // RFC 4253 section 6.1 defines a minimum packet size of 32768 that implementations
+ // MUST be able to process (plus a few more kilobytes for padding and mac). The RFC
+ // indicates implementations SHOULD be able to handle larger packet sizes, but then
+ // waffles on about reasonable limits.
+ //
+ // OpenSSH caps their maxPacket at 256kB so we choose to do
+ // the same. maxPacket is also used to ensure that uint32
+ // length fields do not overflow, so it should remain well
+ // below 4G.
+ maxPacket = 256 * 1024
+)
+
+// noneCipher implements cipher.Stream and provides no encryption. It is used
+// by the transport before the first key-exchange.
+type noneCipher struct{}
+
+func (c noneCipher) XORKeyStream(dst, src []byte) {
+ copy(dst, src)
+}
+
+func newAESCTR(key, iv []byte) (cipher.Stream, error) {
+ c, err := aes.NewCipher(key)
+ if err != nil {
+ return nil, err
+ }
+ return cipher.NewCTR(c, iv), nil
+}
+
+func newRC4(key, iv []byte) (cipher.Stream, error) {
+ return rc4.NewCipher(key)
+}
+
+type streamCipherMode struct {
+ keySize int
+ ivSize int
+ skip int
+ createFunc func(key, iv []byte) (cipher.Stream, error)
+}
+
+func (c *streamCipherMode) createStream(key, iv []byte) (cipher.Stream, error) {
+ if len(key) < c.keySize {
+ panic("ssh: key length too small for cipher")
+ }
+ if len(iv) < c.ivSize {
+ panic("ssh: iv too small for cipher")
+ }
+
+ stream, err := c.createFunc(key[:c.keySize], iv[:c.ivSize])
+ if err != nil {
+ return nil, err
+ }
+
+ var streamDump []byte
+ if c.skip > 0 {
+ streamDump = make([]byte, 512)
+ }
+
+ for remainingToDump := c.skip; remainingToDump > 0; {
+ dumpThisTime := remainingToDump
+ if dumpThisTime > len(streamDump) {
+ dumpThisTime = len(streamDump)
+ }
+ stream.XORKeyStream(streamDump[:dumpThisTime], streamDump[:dumpThisTime])
+ remainingToDump -= dumpThisTime
+ }
+
+ return stream, nil
+}
+
+// cipherModes documents properties of supported ciphers. Ciphers not included
+// are not supported and will not be negotiated, even if explicitly requested in
+// ClientConfig.Crypto.Ciphers.
+var cipherModes = map[string]*streamCipherMode{
+ // Ciphers from RFC4344, which introduced many CTR-based ciphers. Algorithms
+ // are defined in the order specified in the RFC.
+ "aes128-ctr": {16, aes.BlockSize, 0, newAESCTR},
+ "aes192-ctr": {24, aes.BlockSize, 0, newAESCTR},
+ "aes256-ctr": {32, aes.BlockSize, 0, newAESCTR},
+
+ // Ciphers from RFC4345, which introduces security-improved arcfour ciphers.
+ // They are defined in the order specified in the RFC.
+ "arcfour128": {16, 0, 1536, newRC4},
+ "arcfour256": {32, 0, 1536, newRC4},
+
+ // Cipher defined in RFC 4253, which describes SSH Transport Layer Protocol.
+ // Note that this cipher is not safe, as stated in RFC 4253: "Arcfour (and
+ // RC4) has problems with weak keys, and should be used with caution."
+ // RFC4345 introduces improved versions of Arcfour.
+ "arcfour": {16, 0, 0, newRC4},
+
+ // AES-GCM is not a stream cipher, so it is constructed with a
+ // special case. If we add any more non-stream ciphers, we
+ // should invest a cleaner way to do this.
+ gcmCipherID: {16, 12, 0, nil},
+
+ // CBC mode is insecure and so is not included in the default config.
+ // (See http://www.isg.rhul.ac.uk/~kp/SandPfinal.pdf). If absolutely
+ // needed, it's possible to specify a custom Config to enable it.
+ // You should expect that an active attacker can recover plaintext if
+ // you do.
+ aes128cbcID: {16, aes.BlockSize, 0, nil},
+
+ // 3des-cbc is insecure and is disabled by default.
+ tripledescbcID: {24, des.BlockSize, 0, nil},
+}
+
+// prefixLen is the length of the packet prefix that contains the packet length
+// and number of padding bytes.
+const prefixLen = 5
+
+// streamPacketCipher is a packetCipher using a stream cipher.
+type streamPacketCipher struct {
+ mac hash.Hash
+ cipher cipher.Stream
+ etm bool
+
+ // The following members are to avoid per-packet allocations.
+ prefix [prefixLen]byte
+ seqNumBytes [4]byte
+ padding [2 * packetSizeMultiple]byte
+ packetData []byte
+ macResult []byte
+}
+
+// readPacket reads and decrypt a single packet from the reader argument.
+func (s *streamPacketCipher) readPacket(seqNum uint32, r io.Reader) ([]byte, error) {
+ if _, err := io.ReadFull(r, s.prefix[:]); err != nil {
+ return nil, err
+ }
+
+ var encryptedPaddingLength [1]byte
+ if s.mac != nil && s.etm {
+ copy(encryptedPaddingLength[:], s.prefix[4:5])
+ s.cipher.XORKeyStream(s.prefix[4:5], s.prefix[4:5])
+ } else {
+ s.cipher.XORKeyStream(s.prefix[:], s.prefix[:])
+ }
+
+ length := binary.BigEndian.Uint32(s.prefix[0:4])
+ paddingLength := uint32(s.prefix[4])
+
+ var macSize uint32
+ if s.mac != nil {
+ s.mac.Reset()
+ binary.BigEndian.PutUint32(s.seqNumBytes[:], seqNum)
+ s.mac.Write(s.seqNumBytes[:])
+ if s.etm {
+ s.mac.Write(s.prefix[:4])
+ s.mac.Write(encryptedPaddingLength[:])
+ } else {
+ s.mac.Write(s.prefix[:])
+ }
+ macSize = uint32(s.mac.Size())
+ }
+
+ if length <= paddingLength+1 {
+ return nil, errors.New("ssh: invalid packet length, packet too small")
+ }
+
+ if length > maxPacket {
+ return nil, errors.New("ssh: invalid packet length, packet too large")
+ }
+
+ // the maxPacket check above ensures that length-1+macSize
+ // does not overflow.
+ if uint32(cap(s.packetData)) < length-1+macSize {
+ s.packetData = make([]byte, length-1+macSize)
+ } else {
+ s.packetData = s.packetData[:length-1+macSize]
+ }
+
+ if _, err := io.ReadFull(r, s.packetData); err != nil {
+ return nil, err
+ }
+ mac := s.packetData[length-1:]
+ data := s.packetData[:length-1]
+
+ if s.mac != nil && s.etm {
+ s.mac.Write(data)
+ }
+
+ s.cipher.XORKeyStream(data, data)
+
+ if s.mac != nil {
+ if !s.etm {
+ s.mac.Write(data)
+ }
+ s.macResult = s.mac.Sum(s.macResult[:0])
+ if subtle.ConstantTimeCompare(s.macResult, mac) != 1 {
+ return nil, errors.New("ssh: MAC failure")
+ }
+ }
+
+ return s.packetData[:length-paddingLength-1], nil
+}
+
+// writePacket encrypts and sends a packet of data to the writer argument
+func (s *streamPacketCipher) writePacket(seqNum uint32, w io.Writer, rand io.Reader, packet []byte) error {
+ if len(packet) > maxPacket {
+ return errors.New("ssh: packet too large")
+ }
+
+ aadlen := 0
+ if s.mac != nil && s.etm {
+ // packet length is not encrypted for EtM modes
+ aadlen = 4
+ }
+
+ paddingLength := packetSizeMultiple - (prefixLen+len(packet)-aadlen)%packetSizeMultiple
+ if paddingLength < 4 {
+ paddingLength += packetSizeMultiple
+ }
+
+ length := len(packet) + 1 + paddingLength
+ binary.BigEndian.PutUint32(s.prefix[:], uint32(length))
+ s.prefix[4] = byte(paddingLength)
+ padding := s.padding[:paddingLength]
+ if _, err := io.ReadFull(rand, padding); err != nil {
+ return err
+ }
+
+ if s.mac != nil {
+ s.mac.Reset()
+ binary.BigEndian.PutUint32(s.seqNumBytes[:], seqNum)
+ s.mac.Write(s.seqNumBytes[:])
+
+ if s.etm {
+ // For EtM algorithms, the packet length must stay unencrypted,
+ // but the following data (padding length) must be encrypted
+ s.cipher.XORKeyStream(s.prefix[4:5], s.prefix[4:5])
+ }
+
+ s.mac.Write(s.prefix[:])
+
+ if !s.etm {
+ // For non-EtM algorithms, the algorithm is applied on unencrypted data
+ s.mac.Write(packet)
+ s.mac.Write(padding)
+ }
+ }
+
+ if !(s.mac != nil && s.etm) {
+ // For EtM algorithms, the padding length has already been encrypted
+ // and the packet length must remain unencrypted
+ s.cipher.XORKeyStream(s.prefix[:], s.prefix[:])
+ }
+
+ s.cipher.XORKeyStream(packet, packet)
+ s.cipher.XORKeyStream(padding, padding)
+
+ if s.mac != nil && s.etm {
+ // For EtM algorithms, packet and padding must be encrypted
+ s.mac.Write(packet)
+ s.mac.Write(padding)
+ }
+
+ if _, err := w.Write(s.prefix[:]); err != nil {
+ return err
+ }
+ if _, err := w.Write(packet); err != nil {
+ return err
+ }
+ if _, err := w.Write(padding); err != nil {
+ return err
+ }
+
+ if s.mac != nil {
+ s.macResult = s.mac.Sum(s.macResult[:0])
+ if _, err := w.Write(s.macResult); err != nil {
+ return err
+ }
+ }
+
+ return nil
+}
+
+type gcmCipher struct {
+ aead cipher.AEAD
+ prefix [4]byte
+ iv []byte
+ buf []byte
+}
+
+func newGCMCipher(iv, key []byte) (packetCipher, error) {
+ c, err := aes.NewCipher(key)
+ if err != nil {
+ return nil, err
+ }
+
+ aead, err := cipher.NewGCM(c)
+ if err != nil {
+ return nil, err
+ }
+
+ return &gcmCipher{
+ aead: aead,
+ iv: iv,
+ }, nil
+}
+
+const gcmTagSize = 16
+
+func (c *gcmCipher) writePacket(seqNum uint32, w io.Writer, rand io.Reader, packet []byte) error {
+ // Pad out to multiple of 16 bytes. This is different from the
+ // stream cipher because that encrypts the length too.
+ padding := byte(packetSizeMultiple - (1+len(packet))%packetSizeMultiple)
+ if padding < 4 {
+ padding += packetSizeMultiple
+ }
+
+ length := uint32(len(packet) + int(padding) + 1)
+ binary.BigEndian.PutUint32(c.prefix[:], length)
+ if _, err := w.Write(c.prefix[:]); err != nil {
+ return err
+ }
+
+ if cap(c.buf) < int(length) {
+ c.buf = make([]byte, length)
+ } else {
+ c.buf = c.buf[:length]
+ }
+
+ c.buf[0] = padding
+ copy(c.buf[1:], packet)
+ if _, err := io.ReadFull(rand, c.buf[1+len(packet):]); err != nil {
+ return err
+ }
+ c.buf = c.aead.Seal(c.buf[:0], c.iv, c.buf, c.prefix[:])
+ if _, err := w.Write(c.buf); err != nil {
+ return err
+ }
+ c.incIV()
+
+ return nil
+}
+
+func (c *gcmCipher) incIV() {
+ for i := 4 + 7; i >= 4; i-- {
+ c.iv[i]++
+ if c.iv[i] != 0 {
+ break
+ }
+ }
+}
+
+func (c *gcmCipher) readPacket(seqNum uint32, r io.Reader) ([]byte, error) {
+ if _, err := io.ReadFull(r, c.prefix[:]); err != nil {
+ return nil, err
+ }
+ length := binary.BigEndian.Uint32(c.prefix[:])
+ if length > maxPacket {
+ return nil, errors.New("ssh: max packet length exceeded")
+ }
+
+ if cap(c.buf) < int(length+gcmTagSize) {
+ c.buf = make([]byte, length+gcmTagSize)
+ } else {
+ c.buf = c.buf[:length+gcmTagSize]
+ }
+
+ if _, err := io.ReadFull(r, c.buf); err != nil {
+ return nil, err
+ }
+
+ plain, err := c.aead.Open(c.buf[:0], c.iv, c.buf, c.prefix[:])
+ if err != nil {
+ return nil, err
+ }
+ c.incIV()
+
+ padding := plain[0]
+ if padding < 4 {
+ // padding is a byte, so it automatically satisfies
+ // the maximum size, which is 255.
+ return nil, fmt.Errorf("ssh: illegal padding %d", padding)
+ }
+
+ if int(padding+1) >= len(plain) {
+ return nil, fmt.Errorf("ssh: padding %d too large", padding)
+ }
+ plain = plain[1 : length-uint32(padding)]
+ return plain, nil
+}
+
+// cbcCipher implements aes128-cbc cipher defined in RFC 4253 section 6.1
+type cbcCipher struct {
+ mac hash.Hash
+ macSize uint32
+ decrypter cipher.BlockMode
+ encrypter cipher.BlockMode
+
+ // The following members are to avoid per-packet allocations.
+ seqNumBytes [4]byte
+ packetData []byte
+ macResult []byte
+
+ // Amount of data we should still read to hide which
+ // verification error triggered.
+ oracleCamouflage uint32
+}
+
+func newCBCCipher(c cipher.Block, iv, key, macKey []byte, algs directionAlgorithms) (packetCipher, error) {
+ cbc := &cbcCipher{
+ mac: macModes[algs.MAC].new(macKey),
+ decrypter: cipher.NewCBCDecrypter(c, iv),
+ encrypter: cipher.NewCBCEncrypter(c, iv),
+ packetData: make([]byte, 1024),
+ }
+ if cbc.mac != nil {
+ cbc.macSize = uint32(cbc.mac.Size())
+ }
+
+ return cbc, nil
+}
+
+func newAESCBCCipher(iv, key, macKey []byte, algs directionAlgorithms) (packetCipher, error) {
+ c, err := aes.NewCipher(key)
+ if err != nil {
+ return nil, err
+ }
+
+ cbc, err := newCBCCipher(c, iv, key, macKey, algs)
+ if err != nil {
+ return nil, err
+ }
+
+ return cbc, nil
+}
+
+func newTripleDESCBCCipher(iv, key, macKey []byte, algs directionAlgorithms) (packetCipher, error) {
+ c, err := des.NewTripleDESCipher(key)
+ if err != nil {
+ return nil, err
+ }
+
+ cbc, err := newCBCCipher(c, iv, key, macKey, algs)
+ if err != nil {
+ return nil, err
+ }
+
+ return cbc, nil
+}
+
+func maxUInt32(a, b int) uint32 {
+ if a > b {
+ return uint32(a)
+ }
+ return uint32(b)
+}
+
+const (
+ cbcMinPacketSizeMultiple = 8
+ cbcMinPacketSize = 16
+ cbcMinPaddingSize = 4
+)
+
+// cbcError represents a verification error that may leak information.
+type cbcError string
+
+func (e cbcError) Error() string { return string(e) }
+
+func (c *cbcCipher) readPacket(seqNum uint32, r io.Reader) ([]byte, error) {
+ p, err := c.readPacketLeaky(seqNum, r)
+ if err != nil {
+ if _, ok := err.(cbcError); ok {
+ // Verification error: read a fixed amount of
+ // data, to make distinguishing between
+ // failing MAC and failing length check more
+ // difficult.
+ io.CopyN(ioutil.Discard, r, int64(c.oracleCamouflage))
+ }
+ }
+ return p, err
+}
+
+func (c *cbcCipher) readPacketLeaky(seqNum uint32, r io.Reader) ([]byte, error) {
+ blockSize := c.decrypter.BlockSize()
+
+ // Read the header, which will include some of the subsequent data in the
+ // case of block ciphers - this is copied back to the payload later.
+ // How many bytes of payload/padding will be read with this first read.
+ firstBlockLength := uint32((prefixLen + blockSize - 1) / blockSize * blockSize)
+ firstBlock := c.packetData[:firstBlockLength]
+ if _, err := io.ReadFull(r, firstBlock); err != nil {
+ return nil, err
+ }
+
+ c.oracleCamouflage = maxPacket + 4 + c.macSize - firstBlockLength
+
+ c.decrypter.CryptBlocks(firstBlock, firstBlock)
+ length := binary.BigEndian.Uint32(firstBlock[:4])
+ if length > maxPacket {
+ return nil, cbcError("ssh: packet too large")
+ }
+ if length+4 < maxUInt32(cbcMinPacketSize, blockSize) {
+ // The minimum size of a packet is 16 (or the cipher block size, whichever
+ // is larger) bytes.
+ return nil, cbcError("ssh: packet too small")
+ }
+ // The length of the packet (including the length field but not the MAC) must
+ // be a multiple of the block size or 8, whichever is larger.
+ if (length+4)%maxUInt32(cbcMinPacketSizeMultiple, blockSize) != 0 {
+ return nil, cbcError("ssh: invalid packet length multiple")
+ }
+
+ paddingLength := uint32(firstBlock[4])
+ if paddingLength < cbcMinPaddingSize || length <= paddingLength+1 {
+ return nil, cbcError("ssh: invalid packet length")
+ }
+
+ // Positions within the c.packetData buffer:
+ macStart := 4 + length
+ paddingStart := macStart - paddingLength
+
+ // Entire packet size, starting before length, ending at end of mac.
+ entirePacketSize := macStart + c.macSize
+
+ // Ensure c.packetData is large enough for the entire packet data.
+ if uint32(cap(c.packetData)) < entirePacketSize {
+ // Still need to upsize and copy, but this should be rare at runtime, only
+ // on upsizing the packetData buffer.
+ c.packetData = make([]byte, entirePacketSize)
+ copy(c.packetData, firstBlock)
+ } else {
+ c.packetData = c.packetData[:entirePacketSize]
+ }
+
+ n, err := io.ReadFull(r, c.packetData[firstBlockLength:])
+ if err != nil {
+ return nil, err
+ }
+ c.oracleCamouflage -= uint32(n)
+
+ remainingCrypted := c.packetData[firstBlockLength:macStart]
+ c.decrypter.CryptBlocks(remainingCrypted, remainingCrypted)
+
+ mac := c.packetData[macStart:]
+ if c.mac != nil {
+ c.mac.Reset()
+ binary.BigEndian.PutUint32(c.seqNumBytes[:], seqNum)
+ c.mac.Write(c.seqNumBytes[:])
+ c.mac.Write(c.packetData[:macStart])
+ c.macResult = c.mac.Sum(c.macResult[:0])
+ if subtle.ConstantTimeCompare(c.macResult, mac) != 1 {
+ return nil, cbcError("ssh: MAC failure")
+ }
+ }
+
+ return c.packetData[prefixLen:paddingStart], nil
+}
+
+func (c *cbcCipher) writePacket(seqNum uint32, w io.Writer, rand io.Reader, packet []byte) error {
+ effectiveBlockSize := maxUInt32(cbcMinPacketSizeMultiple, c.encrypter.BlockSize())
+
+ // Length of encrypted portion of the packet (header, payload, padding).
+ // Enforce minimum padding and packet size.
+ encLength := maxUInt32(prefixLen+len(packet)+cbcMinPaddingSize, cbcMinPaddingSize)
+ // Enforce block size.
+ encLength = (encLength + effectiveBlockSize - 1) / effectiveBlockSize * effectiveBlockSize
+
+ length := encLength - 4
+ paddingLength := int(length) - (1 + len(packet))
+
+ // Overall buffer contains: header, payload, padding, mac.
+ // Space for the MAC is reserved in the capacity but not the slice length.
+ bufferSize := encLength + c.macSize
+ if uint32(cap(c.packetData)) < bufferSize {
+ c.packetData = make([]byte, encLength, bufferSize)
+ } else {
+ c.packetData = c.packetData[:encLength]
+ }
+
+ p := c.packetData
+
+ // Packet header.
+ binary.BigEndian.PutUint32(p, length)
+ p = p[4:]
+ p[0] = byte(paddingLength)
+
+ // Payload.
+ p = p[1:]
+ copy(p, packet)
+
+ // Padding.
+ p = p[len(packet):]
+ if _, err := io.ReadFull(rand, p); err != nil {
+ return err
+ }
+
+ if c.mac != nil {
+ c.mac.Reset()
+ binary.BigEndian.PutUint32(c.seqNumBytes[:], seqNum)
+ c.mac.Write(c.seqNumBytes[:])
+ c.mac.Write(c.packetData)
+ // The MAC is now appended into the capacity reserved for it earlier.
+ c.packetData = c.mac.Sum(c.packetData)
+ }
+
+ c.encrypter.CryptBlocks(c.packetData[:encLength], c.packetData[:encLength])
+
+ if _, err := w.Write(c.packetData); err != nil {
+ return err
+ }
+
+ return nil
+}