[tor-commits] [tor-browser-build/master] Bug 34043: Update snowflake to persist sessions across proxies

[gk@xxxxxxxxxxxxxx]

commit 8547db1c629adf1bbdabcb44e2245944920472e6
Author: David Fifield <david@xxxxxxxxxxxxxxx>
Date:   Mon Feb 10 16:06:08 2020 -0700

    Bug 34043: Update snowflake to persist sessions across proxies
    
    This brings in changes related to
     #33745 Merge a turbotunnel branch
     #33897 Remove buffering from WebRTCPeer
     #34042 Reduce DataChannelTimeout
    
    The new dependencies kcp-go and smux form the new inner session layer.
    There's a patch to kcp-go to remove dependencies required for features
    we don't use.
---
 projects/goxnet/config                 |    2 +
 projects/kcp-go/config                 |   24 +
 projects/kcp-go/remove-crypt-fec.patch | 1019 ++++++++++++++++++++++++++++++++
 projects/smux/config                   |   16 +
 projects/snowflake/build               |    3 +
 projects/snowflake/config              |    6 +-
 6 files changed, 1069 insertions(+), 1 deletion(-)

diff --git a/projects/goxnet/config b/projects/goxnet/config
index 5394875..7656795 100644
--- a/projects/goxnet/config
+++ b/projects/goxnet/config
@@ -11,6 +11,8 @@ var:
     use_container: 1
   go_lib: golang.org/x/net
   go_lib_install:
+    - golang.org/x/net/ipv4
+    - golang.org/x/net/ipv6
     - golang.org/x/net/proxy
     - golang.org/x/net/dns/dnsmessage
   go_lib_deps:
diff --git a/projects/kcp-go/config b/projects/kcp-go/config
new file mode 100644
index 0000000..7551a5e
--- /dev/null
+++ b/projects/kcp-go/config
@@ -0,0 +1,24 @@
+version: '[% c("abbrev") %]'
+git_url: https://github.com/xtaci/kcp-go
+git_hash: 831b5b267373f6fbd3548849a3925c4e70806de2 # v5.5.11
+filename: '[% project %]-[% c("version") %]-[% c("var/osname") %]-[% c("var/build_id") %].tar.gz'
+
+build: '[% c("projects/go/var/build_go_lib") %]'
+
+var:
+  container:
+    use_container: 1
+  go_lib: github.com/xtaci/kcp-go
+  go_lib_deps:
+    - goerrors
+    - goxnet
+
+input_files:
+  - project: container-image
+  - name: go
+    project: go
+  - name: goerrors
+    project: goerrors
+  - name: goxnet
+    project: goxnet
+  - filename: remove-crypt-fec.patch
diff --git a/projects/kcp-go/remove-crypt-fec.patch b/projects/kcp-go/remove-crypt-fec.patch
new file mode 100644
index 0000000..5693ac5
--- /dev/null
+++ b/projects/kcp-go/remove-crypt-fec.patch
@@ -0,0 +1,1019 @@
+From 0b9d0759f979a5d828b747ea51771f307c53d221 Mon Sep 17 00:00:00 2001
+From: David Fifield <david@xxxxxxxxxxxxxxx>
+Date: Thu, 9 Apr 2020 11:27:44 -0600
+Subject: [PATCH] Remove crypt and FEC dependencies.
+
+---
+ crypt.go   | 618 -----------------------------------------------------
+ fec.go     | 337 -----------------------------
+ removed.go |  29 +++
+ 3 files changed, 29 insertions(+), 955 deletions(-)
+ delete mode 100644 crypt.go
+ delete mode 100644 fec.go
+ create mode 100644 removed.go
+
+diff --git a/crypt.go b/crypt.go
+deleted file mode 100644
+index d882852..0000000
+--- a/crypt.go
++++ /dev/null
+@@ -1,618 +0,0 @@
+-package kcp
+-
+-import (
+-	"crypto/aes"
+-	"crypto/cipher"
+-	"crypto/des"
+-	"crypto/sha1"
+-	"unsafe"
+-
+-	xor "github.com/templexxx/xorsimd"
+-	"github.com/tjfoc/gmsm/sm4"
+-
+-	"golang.org/x/crypto/blowfish"
+-	"golang.org/x/crypto/cast5"
+-	"golang.org/x/crypto/pbkdf2"
+-	"golang.org/x/crypto/salsa20"
+-	"golang.org/x/crypto/tea"
+-	"golang.org/x/crypto/twofish"
+-	"golang.org/x/crypto/xtea"
+-)
+-
+-var (
+-	initialVector = []byte{167, 115, 79, 156, 18, 172, 27, 1, 164, 21, 242, 193, 252, 120, 230, 107}
+-	saltxor       = `sH3CIVoF#rWLtJo6`
+-)
+-
+-// BlockCrypt defines encryption/decryption methods for a given byte slice.
+-// Notes on implementing: the data to be encrypted contains a builtin
+-// nonce at the first 16 bytes
+-type BlockCrypt interface {
+-	// Encrypt encrypts the whole block in src into dst.
+-	// Dst and src may point at the same memory.
+-	Encrypt(dst, src []byte)
+-
+-	// Decrypt decrypts the whole block in src into dst.
+-	// Dst and src may point at the same memory.
+-	Decrypt(dst, src []byte)
+-}
+-
+-type salsa20BlockCrypt struct {
+-	key [32]byte
+-}
+-
+-// NewSalsa20BlockCrypt https://en.wikipedia.org/wiki/Salsa20
+-func NewSalsa20BlockCrypt(key []byte) (BlockCrypt, error) {
+-	c := new(salsa20BlockCrypt)
+-	copy(c.key[:], key)
+-	return c, nil
+-}
+-
+-func (c *salsa20BlockCrypt) Encrypt(dst, src []byte) {
+-	salsa20.XORKeyStream(dst[8:], src[8:], src[:8], &c.key)
+-	copy(dst[:8], src[:8])
+-}
+-func (c *salsa20BlockCrypt) Decrypt(dst, src []byte) {
+-	salsa20.XORKeyStream(dst[8:], src[8:], src[:8], &c.key)
+-	copy(dst[:8], src[:8])
+-}
+-
+-type sm4BlockCrypt struct {
+-	encbuf [sm4.BlockSize]byte // 64bit alignment enc/dec buffer
+-	decbuf [2 * sm4.BlockSize]byte
+-	block  cipher.Block
+-}
+-
+-// NewSM4BlockCrypt https://github.com/tjfoc/gmsm/tree/master/sm4
+-func NewSM4BlockCrypt(key []byte) (BlockCrypt, error) {
+-	c := new(sm4BlockCrypt)
+-	block, err := sm4.NewCipher(key)
+-	if err != nil {
+-		return nil, err
+-	}
+-	c.block = block
+-	return c, nil
+-}
+-
+-func (c *sm4BlockCrypt) Encrypt(dst, src []byte) { encrypt(c.block, dst, src, c.encbuf[:]) }
+-func (c *sm4BlockCrypt) Decrypt(dst, src []byte) { decrypt(c.block, dst, src, c.decbuf[:]) }
+-
+-type twofishBlockCrypt struct {
+-	encbuf [twofish.BlockSize]byte
+-	decbuf [2 * twofish.BlockSize]byte
+-	block  cipher.Block
+-}
+-
+-// NewTwofishBlockCrypt https://en.wikipedia.org/wiki/Twofish
+-func NewTwofishBlockCrypt(key []byte) (BlockCrypt, error) {
+-	c := new(twofishBlockCrypt)
+-	block, err := twofish.NewCipher(key)
+-	if err != nil {
+-		return nil, err
+-	}
+-	c.block = block
+-	return c, nil
+-}
+-
+-func (c *twofishBlockCrypt) Encrypt(dst, src []byte) { encrypt(c.block, dst, src, c.encbuf[:]) }
+-func (c *twofishBlockCrypt) Decrypt(dst, src []byte) { decrypt(c.block, dst, src, c.decbuf[:]) }
+-
+-type tripleDESBlockCrypt struct {
+-	encbuf [des.BlockSize]byte
+-	decbuf [2 * des.BlockSize]byte
+-	block  cipher.Block
+-}
+-
+-// NewTripleDESBlockCrypt https://en.wikipedia.org/wiki/Triple_DES
+-func NewTripleDESBlockCrypt(key []byte) (BlockCrypt, error) {
+-	c := new(tripleDESBlockCrypt)
+-	block, err := des.NewTripleDESCipher(key)
+-	if err != nil {
+-		return nil, err
+-	}
+-	c.block = block
+-	return c, nil
+-}
+-
+-func (c *tripleDESBlockCrypt) Encrypt(dst, src []byte) { encrypt(c.block, dst, src, c.encbuf[:]) }
+-func (c *tripleDESBlockCrypt) Decrypt(dst, src []byte) { decrypt(c.block, dst, src, c.decbuf[:]) }
+-
+-type cast5BlockCrypt struct {
+-	encbuf [cast5.BlockSize]byte
+-	decbuf [2 * cast5.BlockSize]byte
+-	block  cipher.Block
+-}
+-
+-// NewCast5BlockCrypt https://en.wikipedia.org/wiki/CAST-128
+-func NewCast5BlockCrypt(key []byte) (BlockCrypt, error) {
+-	c := new(cast5BlockCrypt)
+-	block, err := cast5.NewCipher(key)
+-	if err != nil {
+-		return nil, err
+-	}
+-	c.block = block
+-	return c, nil
+-}
+-
+-func (c *cast5BlockCrypt) Encrypt(dst, src []byte) { encrypt(c.block, dst, src, c.encbuf[:]) }
+-func (c *cast5BlockCrypt) Decrypt(dst, src []byte) { decrypt(c.block, dst, src, c.decbuf[:]) }
+-
+-type blowfishBlockCrypt struct {
+-	encbuf [blowfish.BlockSize]byte
+-	decbuf [2 * blowfish.BlockSize]byte
+-	block  cipher.Block
+-}
+-
+-// NewBlowfishBlockCrypt https://en.wikipedia.org/wiki/Blowfish_(cipher)
+-func NewBlowfishBlockCrypt(key []byte) (BlockCrypt, error) {
+-	c := new(blowfishBlockCrypt)
+-	block, err := blowfish.NewCipher(key)
+-	if err != nil {
+-		return nil, err
+-	}
+-	c.block = block
+-	return c, nil
+-}
+-
+-func (c *blowfishBlockCrypt) Encrypt(dst, src []byte) { encrypt(c.block, dst, src, c.encbuf[:]) }
+-func (c *blowfishBlockCrypt) Decrypt(dst, src []byte) { decrypt(c.block, dst, src, c.decbuf[:]) }
+-
+-type aesBlockCrypt struct {
+-	encbuf [aes.BlockSize]byte
+-	decbuf [2 * aes.BlockSize]byte
+-	block  cipher.Block
+-}
+-
+-// NewAESBlockCrypt https://en.wikipedia.org/wiki/Advanced_Encryption_Standard
+-func NewAESBlockCrypt(key []byte) (BlockCrypt, error) {
+-	c := new(aesBlockCrypt)
+-	block, err := aes.NewCipher(key)
+-	if err != nil {
+-		return nil, err
+-	}
+-	c.block = block
+-	return c, nil
+-}
+-
+-func (c *aesBlockCrypt) Encrypt(dst, src []byte) { encrypt(c.block, dst, src, c.encbuf[:]) }
+-func (c *aesBlockCrypt) Decrypt(dst, src []byte) { decrypt(c.block, dst, src, c.decbuf[:]) }
+-
+-type teaBlockCrypt struct {
+-	encbuf [tea.BlockSize]byte
+-	decbuf [2 * tea.BlockSize]byte
+-	block  cipher.Block
+-}
+-
+-// NewTEABlockCrypt https://en.wikipedia.org/wiki/Tiny_Encryption_Algorithm
+-func NewTEABlockCrypt(key []byte) (BlockCrypt, error) {
+-	c := new(teaBlockCrypt)
+-	block, err := tea.NewCipherWithRounds(key, 16)
+-	if err != nil {
+-		return nil, err
+-	}
+-	c.block = block
+-	return c, nil
+-}
+-
+-func (c *teaBlockCrypt) Encrypt(dst, src []byte) { encrypt(c.block, dst, src, c.encbuf[:]) }
+-func (c *teaBlockCrypt) Decrypt(dst, src []byte) { decrypt(c.block, dst, src, c.decbuf[:]) }
+-
+-type xteaBlockCrypt struct {
+-	encbuf [xtea.BlockSize]byte
+-	decbuf [2 * xtea.BlockSize]byte
+-	block  cipher.Block
+-}
+-
+-// NewXTEABlockCrypt https://en.wikipedia.org/wiki/XTEA
+-func NewXTEABlockCrypt(key []byte) (BlockCrypt, error) {
+-	c := new(xteaBlockCrypt)
+-	block, err := xtea.NewCipher(key)
+-	if err != nil {
+-		return nil, err
+-	}
+-	c.block = block
+-	return c, nil
+-}
+-
+-func (c *xteaBlockCrypt) Encrypt(dst, src []byte) { encrypt(c.block, dst, src, c.encbuf[:]) }
+-func (c *xteaBlockCrypt) Decrypt(dst, src []byte) { decrypt(c.block, dst, src, c.decbuf[:]) }
+-
+-type simpleXORBlockCrypt struct {
+-	xortbl []byte
+-}
+-
+-// NewSimpleXORBlockCrypt simple xor with key expanding
+-func NewSimpleXORBlockCrypt(key []byte) (BlockCrypt, error) {
+-	c := new(simpleXORBlockCrypt)
+-	c.xortbl = pbkdf2.Key(key, []byte(saltxor), 32, mtuLimit, sha1.New)
+-	return c, nil
+-}
+-
+-func (c *simpleXORBlockCrypt) Encrypt(dst, src []byte) { xor.Bytes(dst, src, c.xortbl) }
+-func (c *simpleXORBlockCrypt) Decrypt(dst, src []byte) { xor.Bytes(dst, src, c.xortbl) }
+-
+-type noneBlockCrypt struct{}
+-
+-// NewNoneBlockCrypt does nothing but copying
+-func NewNoneBlockCrypt(key []byte) (BlockCrypt, error) {
+-	return new(noneBlockCrypt), nil
+-}
+-
+-func (c *noneBlockCrypt) Encrypt(dst, src []byte) { copy(dst, src) }
+-func (c *noneBlockCrypt) Decrypt(dst, src []byte) { copy(dst, src) }
+-
+-// packet encryption with local CFB mode
+-func encrypt(block cipher.Block, dst, src, buf []byte) {
+-	switch block.BlockSize() {
+-	case 8:
+-		encrypt8(block, dst, src, buf)
+-	case 16:
+-		encrypt16(block, dst, src, buf)
+-	default:
+-		panic("unsupported cipher block size")
+-	}
+-}
+-
+-// optimized encryption for the ciphers which works in 8-bytes
+-func encrypt8(block cipher.Block, dst, src, buf []byte) {
+-	tbl := buf[:8]
+-	block.Encrypt(tbl, initialVector)
+-	n := len(src) / 8
+-	base := 0
+-	repeat := n / 8
+-	left := n % 8
+-	ptr_tbl := (*uint64)(unsafe.Pointer(&tbl[0]))
+-
+-	for i := 0; i < repeat; i++ {
+-		s := src[base:][0:64]
+-		d := dst[base:][0:64]
+-		// 1
+-		*(*uint64)(unsafe.Pointer(&d[0])) = *(*uint64)(unsafe.Pointer(&s[0])) ^ *ptr_tbl
+-		block.Encrypt(tbl, d[0:8])
+-		// 2
+-		*(*uint64)(unsafe.Pointer(&d[8])) = *(*uint64)(unsafe.Pointer(&s[8])) ^ *ptr_tbl
+-		block.Encrypt(tbl, d[8:16])
+-		// 3
+-		*(*uint64)(unsafe.Pointer(&d[16])) = *(*uint64)(unsafe.Pointer(&s[16])) ^ *ptr_tbl
+-		block.Encrypt(tbl, d[16:24])
+-		// 4
+-		*(*uint64)(unsafe.Pointer(&d[24])) = *(*uint64)(unsafe.Pointer(&s[24])) ^ *ptr_tbl
+-		block.Encrypt(tbl, d[24:32])
+-		// 5
+-		*(*uint64)(unsafe.Pointer(&d[32])) = *(*uint64)(unsafe.Pointer(&s[32])) ^ *ptr_tbl
+-		block.Encrypt(tbl, d[32:40])
+-		// 6
+-		*(*uint64)(unsafe.Pointer(&d[40])) = *(*uint64)(unsafe.Pointer(&s[40])) ^ *ptr_tbl
+-		block.Encrypt(tbl, d[40:48])
+-		// 7
+-		*(*uint64)(unsafe.Pointer(&d[48])) = *(*uint64)(unsafe.Pointer(&s[48])) ^ *ptr_tbl
+-		block.Encrypt(tbl, d[48:56])
+-		// 8
+-		*(*uint64)(unsafe.Pointer(&d[56])) = *(*uint64)(unsafe.Pointer(&s[56])) ^ *ptr_tbl
+-		block.Encrypt(tbl, d[56:64])
+-		base += 64
+-	}
+-
+-	switch left {
+-	case 7:
+-		*(*uint64)(unsafe.Pointer(&dst[base])) = *(*uint64)(unsafe.Pointer(&src[base])) ^ *ptr_tbl
+-		block.Encrypt(tbl, dst[base:])
+-		base += 8
+-		fallthrough
+-	case 6:
+-		*(*uint64)(unsafe.Pointer(&dst[base])) = *(*uint64)(unsafe.Pointer(&src[base])) ^ *ptr_tbl
+-		block.Encrypt(tbl, dst[base:])
+-		base += 8
+-		fallthrough
+-	case 5:
+-		*(*uint64)(unsafe.Pointer(&dst[base])) = *(*uint64)(unsafe.Pointer(&src[base])) ^ *ptr_tbl
+-		block.Encrypt(tbl, dst[base:])
+-		base += 8
+-		fallthrough
+-	case 4:
+-		*(*uint64)(unsafe.Pointer(&dst[base])) = *(*uint64)(unsafe.Pointer(&src[base])) ^ *ptr_tbl
+-		block.Encrypt(tbl, dst[base:])
+-		base += 8
+-		fallthrough
+-	case 3:
+-		*(*uint64)(unsafe.Pointer(&dst[base])) = *(*uint64)(unsafe.Pointer(&src[base])) ^ *ptr_tbl
+-		block.Encrypt(tbl, dst[base:])
+-		base += 8
+-		fallthrough
+-	case 2:
+-		*(*uint64)(unsafe.Pointer(&dst[base])) = *(*uint64)(unsafe.Pointer(&src[base])) ^ *ptr_tbl
+-		block.Encrypt(tbl, dst[base:])
+-		base += 8
+-		fallthrough
+-	case 1:
+-		*(*uint64)(unsafe.Pointer(&dst[base])) = *(*uint64)(unsafe.Pointer(&src[base])) ^ *ptr_tbl
+-		block.Encrypt(tbl, dst[base:])
+-		base += 8
+-		fallthrough
+-	case 0:
+-		xorBytes(dst[base:], src[base:], tbl)
+-	}
+-}
+-
+-// optimized encryption for the ciphers which works in 16-bytes
+-func encrypt16(block cipher.Block, dst, src, buf []byte) {
+-	tbl := buf[:16]
+-	block.Encrypt(tbl, initialVector)
+-	n := len(src) / 16
+-	base := 0
+-	repeat := n / 8
+-	left := n % 8
+-	for i := 0; i < repeat; i++ {
+-		s := src[base:][0:128]
+-		d := dst[base:][0:128]
+-		// 1
+-		xor.Bytes16Align(d[0:16], s[0:16], tbl)
+-		block.Encrypt(tbl, d[0:16])
+-		// 2
+-		xor.Bytes16Align(d[16:32], s[16:32], tbl)
+-		block.Encrypt(tbl, d[16:32])
+-		// 3
+-		xor.Bytes16Align(d[32:48], s[32:48], tbl)
+-		block.Encrypt(tbl, d[32:48])
+-		// 4
+-		xor.Bytes16Align(d[48:64], s[48:64], tbl)
+-		block.Encrypt(tbl, d[48:64])
+-		// 5
+-		xor.Bytes16Align(d[64:80], s[64:80], tbl)
+-		block.Encrypt(tbl, d[64:80])
+-		// 6
+-		xor.Bytes16Align(d[80:96], s[80:96], tbl)
+-		block.Encrypt(tbl, d[80:96])
+-		// 7
+-		xor.Bytes16Align(d[96:112], s[96:112], tbl)
+-		block.Encrypt(tbl, d[96:112])
+-		// 8
+-		xor.Bytes16Align(d[112:128], s[112:128], tbl)
+-		block.Encrypt(tbl, d[112:128])
+-		base += 128
+-	}
+-
+-	switch left {
+-	case 7:
+-		xor.Bytes16Align(dst[base:], src[base:], tbl)
+-		block.Encrypt(tbl, dst[base:])
+-		base += 16
+-		fallthrough
+-	case 6:
+-		xor.Bytes16Align(dst[base:], src[base:], tbl)
+-		block.Encrypt(tbl, dst[base:])
+-		base += 16
+-		fallthrough
+-	case 5:
+-		xor.Bytes16Align(dst[base:], src[base:], tbl)
+-		block.Encrypt(tbl, dst[base:])
+-		base += 16
+-		fallthrough
+-	case 4:
+-		xor.Bytes16Align(dst[base:], src[base:], tbl)
+-		block.Encrypt(tbl, dst[base:])
+-		base += 16
+-		fallthrough
+-	case 3:
+-		xor.Bytes16Align(dst[base:], src[base:], tbl)
+-		block.Encrypt(tbl, dst[base:])
+-		base += 16
+-		fallthrough
+-	case 2:
+-		xor.Bytes16Align(dst[base:], src[base:], tbl)
+-		block.Encrypt(tbl, dst[base:])
+-		base += 16
+-		fallthrough
+-	case 1:
+-		xor.Bytes16Align(dst[base:], src[base:], tbl)
+-		block.Encrypt(tbl, dst[base:])
+-		base += 16
+-		fallthrough
+-	case 0:
+-		xorBytes(dst[base:], src[base:], tbl)
+-	}
+-}
+-
+-// decryption
+-func decrypt(block cipher.Block, dst, src, buf []byte) {
+-	switch block.BlockSize() {
+-	case 8:
+-		decrypt8(block, dst, src, buf)
+-	case 16:
+-		decrypt16(block, dst, src, buf)
+-	default:
+-		panic("unsupported cipher block size")
+-	}
+-}
+-
+-// decrypt 8 bytes block, all byte slices are supposed to be 64bit aligned
+-func decrypt8(block cipher.Block, dst, src, buf []byte) {
+-	tbl := buf[0:8]
+-	next := buf[8:16]
+-	block.Encrypt(tbl, initialVector)
+-	n := len(src) / 8
+-	base := 0
+-	repeat := n / 8
+-	left := n % 8
+-	ptr_tbl := (*uint64)(unsafe.Pointer(&tbl[0]))
+-	ptr_next := (*uint64)(unsafe.Pointer(&next[0]))
+-
+-	for i := 0; i < repeat; i++ {
+-		s := src[base:][0:64]
+-		d := dst[base:][0:64]
+-		// 1
+-		block.Encrypt(next, s[0:8])
+-		*(*uint64)(unsafe.Pointer(&d[0])) = *(*uint64)(unsafe.Pointer(&s[0])) ^ *ptr_tbl
+-		// 2
+-		block.Encrypt(tbl, s[8:16])
+-		*(*uint64)(unsafe.Pointer(&d[8])) = *(*uint64)(unsafe.Pointer(&s[8])) ^ *ptr_next
+-		// 3
+-		block.Encrypt(next, s[16:24])
+-		*(*uint64)(unsafe.Pointer(&d[16])) = *(*uint64)(unsafe.Pointer(&s[16])) ^ *ptr_tbl
+-		// 4
+-		block.Encrypt(tbl, s[24:32])
+-		*(*uint64)(unsafe.Pointer(&d[24])) = *(*uint64)(unsafe.Pointer(&s[24])) ^ *ptr_next
+-		// 5
+-		block.Encrypt(next, s[32:40])
+-		*(*uint64)(unsafe.Pointer(&d[32])) = *(*uint64)(unsafe.Pointer(&s[32])) ^ *ptr_tbl
+-		// 6
+-		block.Encrypt(tbl, s[40:48])
+-		*(*uint64)(unsafe.Pointer(&d[40])) = *(*uint64)(unsafe.Pointer(&s[40])) ^ *ptr_next
+-		// 7
+-		block.Encrypt(next, s[48:56])
+-		*(*uint64)(unsafe.Pointer(&d[48])) = *(*uint64)(unsafe.Pointer(&s[48])) ^ *ptr_tbl
+-		// 8
+-		block.Encrypt(tbl, s[56:64])
+-		*(*uint64)(unsafe.Pointer(&d[56])) = *(*uint64)(unsafe.Pointer(&s[56])) ^ *ptr_next
+-		base += 64
+-	}
+-
+-	switch left {
+-	case 7:
+-		block.Encrypt(next, src[base:])
+-		*(*uint64)(unsafe.Pointer(&dst[base])) = *(*uint64)(unsafe.Pointer(&src[base])) ^ *(*uint64)(unsafe.Pointer(&tbl[0]))
+-		tbl, next = next, tbl
+-		base += 8
+-		fallthrough
+-	case 6:
+-		block.Encrypt(next, src[base:])
+-		*(*uint64)(unsafe.Pointer(&dst[base])) = *(*uint64)(unsafe.Pointer(&src[base])) ^ *(*uint64)(unsafe.Pointer(&tbl[0]))
+-		tbl, next = next, tbl
+-		base += 8
+-		fallthrough
+-	case 5:
+-		block.Encrypt(next, src[base:])
+-		*(*uint64)(unsafe.Pointer(&dst[base])) = *(*uint64)(unsafe.Pointer(&src[base])) ^ *(*uint64)(unsafe.Pointer(&tbl[0]))
+-		tbl, next = next, tbl
+-		base += 8
+-		fallthrough
+-	case 4:
+-		block.Encrypt(next, src[base:])
+-		*(*uint64)(unsafe.Pointer(&dst[base])) = *(*uint64)(unsafe.Pointer(&src[base])) ^ *(*uint64)(unsafe.Pointer(&tbl[0]))
+-		tbl, next = next, tbl
+-		base += 8
+-		fallthrough
+-	case 3:
+-		block.Encrypt(next, src[base:])
+-		*(*uint64)(unsafe.Pointer(&dst[base])) = *(*uint64)(unsafe.Pointer(&src[base])) ^ *(*uint64)(unsafe.Pointer(&tbl[0]))
+-		tbl, next = next, tbl
+-		base += 8
+-		fallthrough
+-	case 2:
+-		block.Encrypt(next, src[base:])
+-		*(*uint64)(unsafe.Pointer(&dst[base])) = *(*uint64)(unsafe.Pointer(&src[base])) ^ *(*uint64)(unsafe.Pointer(&tbl[0]))
+-		tbl, next = next, tbl
+-		base += 8
+-		fallthrough
+-	case 1:
+-		block.Encrypt(next, src[base:])
+-		*(*uint64)(unsafe.Pointer(&dst[base])) = *(*uint64)(unsafe.Pointer(&src[base])) ^ *(*uint64)(unsafe.Pointer(&tbl[0]))
+-		tbl, next = next, tbl
+-		base += 8
+-		fallthrough
+-	case 0:
+-		xorBytes(dst[base:], src[base:], tbl)
+-	}
+-}
+-
+-func decrypt16(block cipher.Block, dst, src, buf []byte) {
+-	tbl := buf[0:16]
+-	next := buf[16:32]
+-	block.Encrypt(tbl, initialVector)
+-	n := len(src) / 16
+-	base := 0
+-	repeat := n / 8
+-	left := n % 8
+-	for i := 0; i < repeat; i++ {
+-		s := src[base:][0:128]
+-		d := dst[base:][0:128]
+-		// 1
+-		block.Encrypt(next, s[0:16])
+-		xor.Bytes16Align(d[0:16], s[0:16], tbl)
+-		// 2
+-		block.Encrypt(tbl, s[16:32])
+-		xor.Bytes16Align(d[16:32], s[16:32], next)
+-		// 3
+-		block.Encrypt(next, s[32:48])
+-		xor.Bytes16Align(d[32:48], s[32:48], tbl)
+-		// 4
+-		block.Encrypt(tbl, s[48:64])
+-		xor.Bytes16Align(d[48:64], s[48:64], next)
+-		// 5
+-		block.Encrypt(next, s[64:80])
+-		xor.Bytes16Align(d[64:80], s[64:80], tbl)
+-		// 6
+-		block.Encrypt(tbl, s[80:96])
+-		xor.Bytes16Align(d[80:96], s[80:96], next)
+-		// 7
+-		block.Encrypt(next, s[96:112])
+-		xor.Bytes16Align(d[96:112], s[96:112], tbl)
+-		// 8
+-		block.Encrypt(tbl, s[112:128])
+-		xor.Bytes16Align(d[112:128], s[112:128], next)
+-		base += 128
+-	}
+-
+-	switch left {
+-	case 7:
+-		block.Encrypt(next, src[base:])
+-		xor.Bytes16Align(dst[base:], src[base:], tbl)
+-		tbl, next = next, tbl
+-		base += 16
+-		fallthrough
+-	case 6:
+-		block.Encrypt(next, src[base:])
+-		xor.Bytes16Align(dst[base:], src[base:], tbl)
+-		tbl, next = next, tbl
+-		base += 16
+-		fallthrough
+-	case 5:
+-		block.Encrypt(next, src[base:])
+-		xor.Bytes16Align(dst[base:], src[base:], tbl)
+-		tbl, next = next, tbl
+-		base += 16
+-		fallthrough
+-	case 4:
+-		block.Encrypt(next, src[base:])
+-		xor.Bytes16Align(dst[base:], src[base:], tbl)
+-		tbl, next = next, tbl
+-		base += 16
+-		fallthrough
+-	case 3:
+-		block.Encrypt(next, src[base:])
+-		xor.Bytes16Align(dst[base:], src[base:], tbl)
+-		tbl, next = next, tbl
+-		base += 16
+-		fallthrough
+-	case 2:
+-		block.Encrypt(next, src[base:])
+-		xor.Bytes16Align(dst[base:], src[base:], tbl)
+-		tbl, next = next, tbl
+-		base += 16
+-		fallthrough
+-	case 1:
+-		block.Encrypt(next, src[base:])
+-		xor.Bytes16Align(dst[base:], src[base:], tbl)
+-		tbl, next = next, tbl
+-		base += 16
+-		fallthrough
+-	case 0:
+-		xorBytes(dst[base:], src[base:], tbl)
+-	}
+-}
+-
+-// per bytes xors
+-func xorBytes(dst, a, b []byte) int {
+-	n := len(a)
+-	if len(b) < n {
+-		n = len(b)
+-	}
+-	if n == 0 {
+-		return 0
+-	}
+-
+-	for i := 0; i < n; i++ {
+-		dst[i] = a[i] ^ b[i]
+-	}
+-	return n
+-}
+diff --git a/fec.go b/fec.go
+deleted file mode 100644
+index 97cd40b..0000000
+--- a/fec.go
++++ /dev/null
+@@ -1,337 +0,0 @@
+-package kcp
+-
+-import (
+-	"encoding/binary"
+-	"sync/atomic"
+-
+-	"github.com/klauspost/reedsolomon"
+-)
+-
+-const (
+-	fecHeaderSize      = 6
+-	fecHeaderSizePlus2 = fecHeaderSize + 2 // plus 2B data size
+-	typeData           = 0xf1
+-	typeParity         = 0xf2
+-	fecExpire          = 60000
+-)
+-
+-// fecPacket is a decoded FEC packet
+-type fecPacket []byte
+-
+-func (bts fecPacket) seqid() uint32 { return binary.LittleEndian.Uint32(bts) }
+-func (bts fecPacket) flag() uint16  { return binary.LittleEndian.Uint16(bts[4:]) }
+-func (bts fecPacket) data() []byte  { return bts[6:] }
+-
+-// fecElement has auxcilliary time field
+-type fecElement struct {
+-	fecPacket
+-	ts uint32
+-}
+-
+-// fecDecoder for decoding incoming packets
+-type fecDecoder struct {
+-	rxlimit      int // queue size limit
+-	dataShards   int
+-	parityShards int
+-	shardSize    int
+-	rx           []fecElement // ordered receive queue
+-
+-	// caches
+-	decodeCache [][]byte
+-	flagCache   []bool
+-
+-	// zeros
+-	zeros []byte
+-
+-	// RS decoder
+-	codec reedsolomon.Encoder
+-}
+-
+-func newFECDecoder(rxlimit, dataShards, parityShards int) *fecDecoder {
+-	if dataShards <= 0 || parityShards <= 0 {
+-		return nil
+-	}
+-	if rxlimit < dataShards+parityShards {
+-		return nil
+-	}
+-
+-	dec := new(fecDecoder)
+-	dec.rxlimit = rxlimit
+-	dec.dataShards = dataShards
+-	dec.parityShards = parityShards
+-	dec.shardSize = dataShards + parityShards
+-	codec, err := reedsolomon.New(dataShards, parityShards)
+-	if err != nil {
+-		return nil
+-	}
+-	dec.codec = codec
+-	dec.decodeCache = make([][]byte, dec.shardSize)
+-	dec.flagCache = make([]bool, dec.shardSize)
+-	dec.zeros = make([]byte, mtuLimit)
+-	return dec
+-}
+-
+-// decode a fec packet
+-func (dec *fecDecoder) decode(in fecPacket) (recovered [][]byte) {
+-	// insertion
+-	n := len(dec.rx) - 1
+-	insertIdx := 0
+-	for i := n; i >= 0; i-- {
+-		if in.seqid() == dec.rx[i].seqid() { // de-duplicate
+-			return nil
+-		} else if _itimediff(in.seqid(), dec.rx[i].seqid()) > 0 { // insertion
+-			insertIdx = i + 1
+-			break
+-		}
+-	}
+-
+-	// make a copy
+-	pkt := fecPacket(xmitBuf.Get().([]byte)[:len(in)])
+-	copy(pkt, in)
+-	elem := fecElement{pkt, currentMs()}
+-
+-	// insert into ordered rx queue
+-	if insertIdx == n+1 {
+-		dec.rx = append(dec.rx, elem)
+-	} else {
+-		dec.rx = append(dec.rx, fecElement{})
+-		copy(dec.rx[insertIdx+1:], dec.rx[insertIdx:]) // shift right
+-		dec.rx[insertIdx] = elem
+-	}
+-
+-	// shard range for current packet
+-	shardBegin := pkt.seqid() - pkt.seqid()%uint32(dec.shardSize)
+-	shardEnd := shardBegin + uint32(dec.shardSize) - 1
+-
+-	// max search range in ordered queue for current shard
+-	searchBegin := insertIdx - int(pkt.seqid()%uint32(dec.shardSize))
+-	if searchBegin < 0 {
+-		searchBegin = 0
+-	}
+-	searchEnd := searchBegin + dec.shardSize - 1
+-	if searchEnd >= len(dec.rx) {
+-		searchEnd = len(dec.rx) - 1
+-	}
+-
+-	// re-construct datashards
+-	if searchEnd-searchBegin+1 >= dec.dataShards {
+-		var numshard, numDataShard, first, maxlen int
+-
+-		// zero caches
+-		shards := dec.decodeCache
+-		shardsflag := dec.flagCache
+-		for k := range dec.decodeCache {
+-			shards[k] = nil
+-			shardsflag[k] = false
+-		}
+-
+-		// shard assembly
+-		for i := searchBegin; i <= searchEnd; i++ {
+-			seqid := dec.rx[i].seqid()
+-			if _itimediff(seqid, shardEnd) > 0 {
+-				break
+-			} else if _itimediff(seqid, shardBegin) >= 0 {
+-				shards[seqid%uint32(dec.shardSize)] = dec.rx[i].data()
+-				shardsflag[seqid%uint32(dec.shardSize)] = true
+-				numshard++
+-				if dec.rx[i].flag() == typeData {
+-					numDataShard++
+-				}
+-				if numshard == 1 {
+-					first = i
+-				}
+-				if len(dec.rx[i].data()) > maxlen {
+-					maxlen = len(dec.rx[i].data())
+-				}
+-			}
+-		}
+-
+-		if numDataShard == dec.dataShards {
+-			// case 1: no loss on data shards
+-			dec.rx = dec.freeRange(first, numshard, dec.rx)
+-		} else if numshard >= dec.dataShards {
+-			// case 2: loss on data shards, but it's recoverable from parity shards
+-			for k := range shards {
+-				if shards[k] != nil {
+-					dlen := len(shards[k])
+-					shards[k] = shards[k][:maxlen]
+-					copy(shards[k][dlen:], dec.zeros)
+-				} else if k < dec.dataShards {
+-					shards[k] = xmitBuf.Get().([]byte)[:0]
+-				}
+-			}
+-			if err := dec.codec.ReconstructData(shards); err == nil {
+-				for k := range shards[:dec.dataShards] {
+-					if !shardsflag[k] {
+-						// recovered data should be recycled
+-						recovered = append(recovered, shards[k])
+-					}
+-				}
+-			}
+-			dec.rx = dec.freeRange(first, numshard, dec.rx)
+-		}
+-	}
+-
+-	// keep rxlimit
+-	if len(dec.rx) > dec.rxlimit {
+-		if dec.rx[0].flag() == typeData { // track the unrecoverable data
+-			atomic.AddUint64(&DefaultSnmp.FECShortShards, 1)
+-		}
+-		dec.rx = dec.freeRange(0, 1, dec.rx)
+-	}
+-
+-	// timeout policy
+-	current := currentMs()
+-	numExpired := 0
+-	for k := range dec.rx {
+-		if _itimediff(current, dec.rx[k].ts) > fecExpire {
+-			numExpired++
+-			continue
+-		}
+-		break
+-	}
+-	if numExpired > 0 {
+-		dec.rx = dec.freeRange(0, numExpired, dec.rx)
+-	}
+-	return
+-}
+-
+-// free a range of fecPacket
+-func (dec *fecDecoder) freeRange(first, n int, q []fecElement) []fecElement {
+-	for i := first; i < first+n; i++ { // recycle buffer
+-		xmitBuf.Put([]byte(q[i].fecPacket))
+-	}
+-
+-	if first == 0 && n < cap(q)/2 {
+-		return q[n:]
+-	}
+-	copy(q[first:], q[first+n:])
+-	return q[:len(q)-n]
+-}
+-
+-// release all segments back to xmitBuf
+-func (dec *fecDecoder) release() {
+-	if n := len(dec.rx); n > 0 {
+-		dec.rx = dec.freeRange(0, n, dec.rx)
+-	}
+-}
+-
+-type (
+-	// fecEncoder for encoding outgoing packets
+-	fecEncoder struct {
+-		dataShards   int
+-		parityShards int
+-		shardSize    int
+-		paws         uint32 // Protect Against Wrapped Sequence numbers
+-		next         uint32 // next seqid
+-
+-		shardCount int // count the number of datashards collected
+-		maxSize    int // track maximum data length in datashard
+-
+-		headerOffset  int // FEC header offset
+-		payloadOffset int // FEC payload offset
+-
+-		// caches
+-		shardCache  [][]byte
+-		encodeCache [][]byte
+-
+-		// zeros
+-		zeros []byte
+-
+-		// RS encoder
+-		codec reedsolomon.Encoder
+-	}
+-)
+-
+-func newFECEncoder(dataShards, parityShards, offset int) *fecEncoder {
+-	if dataShards <= 0 || parityShards <= 0 {
+-		return nil
+-	}
+-	enc := new(fecEncoder)
+-	enc.dataShards = dataShards
+-	enc.parityShards = parityShards
+-	enc.shardSize = dataShards + parityShards
+-	enc.paws = 0xffffffff / uint32(enc.shardSize) * uint32(enc.shardSize)
+-	enc.headerOffset = offset
+-	enc.payloadOffset = enc.headerOffset + fecHeaderSize
+-
+-	codec, err := reedsolomon.New(dataShards, parityShards)
+-	if err != nil {
+-		return nil
+-	}
+-	enc.codec = codec
+-
+-	// caches
+-	enc.encodeCache = make([][]byte, enc.shardSize)
+-	enc.shardCache = make([][]byte, enc.shardSize)
+-	for k := range enc.shardCache {
+-		enc.shardCache[k] = make([]byte, mtuLimit)
+-	}
+-	enc.zeros = make([]byte, mtuLimit)
+-	return enc
+-}
+-
+-// encodes the packet, outputs parity shards if we have collected quorum datashards
+-// notice: the contents of 'ps' will be re-written in successive calling
+-func (enc *fecEncoder) encode(b []byte) (ps [][]byte) {
+-	// The header format:
+-	// | FEC SEQID(4B) | FEC TYPE(2B) | SIZE (2B) | PAYLOAD(SIZE-2) |
+-	// |<-headerOffset                |<-payloadOffset
+-	enc.markData(b[enc.headerOffset:])
+-	binary.LittleEndian.PutUint16(b[enc.payloadOffset:], uint16(len(b[enc.payloadOffset:])))
+-
+-	// copy data from payloadOffset to fec shard cache
+-	sz := len(b)
+-	enc.shardCache[enc.shardCount] = enc.shardCache[enc.shardCount][:sz]
+-	copy(enc.shardCache[enc.shardCount][enc.payloadOffset:], b[enc.payloadOffset:])
+-	enc.shardCount++
+-
+-	// track max datashard length
+-	if sz > enc.maxSize {
+-		enc.maxSize = sz
+-	}
+-
+-	//  Generation of Reed-Solomon Erasure Code
+-	if enc.shardCount == enc.dataShards {
+-		// fill '0' into the tail of each datashard
+-		for i := 0; i < enc.dataShards; i++ {
+-			shard := enc.shardCache[i]
+-			slen := len(shard)
+-			copy(shard[slen:enc.maxSize], enc.zeros)
+-		}
+-
+-		// construct equal-sized slice with stripped header
+-		cache := enc.encodeCache
+-		for k := range cache {
+-			cache[k] = enc.shardCache[k][enc.payloadOffset:enc.maxSize]
+-		}
+-
+-		// encoding
+-		if err := enc.codec.Encode(cache); err == nil {
+-			ps = enc.shardCache[enc.dataShards:]
+-			for k := range ps {
+-				enc.markParity(ps[k][enc.headerOffset:])
+-				ps[k] = ps[k][:enc.maxSize]
+-			}
+-		}
+-
+-		// counters resetting
+-		enc.shardCount = 0
+-		enc.maxSize = 0
+-	}
+-
+-	return
+-}
+-
+-func (enc *fecEncoder) markData(data []byte) {
+-	binary.LittleEndian.PutUint32(data, enc.next)
+-	binary.LittleEndian.PutUint16(data[4:], typeData)
+-	enc.next++
+-}
+-
+-func (enc *fecEncoder) markParity(data []byte) {
+-	binary.LittleEndian.PutUint32(data, enc.next)
+-	binary.LittleEndian.PutUint16(data[4:], typeParity)
+-	// sequence wrap will only happen at parity shard
+-	enc.next = (enc.next + 1) % enc.paws
+-}
+diff --git a/removed.go b/removed.go
+new file mode 100644
+index 0000000..5ecf446
+--- /dev/null
++++ b/removed.go
+@@ -0,0 +1,29 @@
++package kcp
++
++// Dummy implementations for types from crypt.go and fec.go, removed to reduce
++// dependencies.
++
++const (
++	fecHeaderSize      = 6
++	fecHeaderSizePlus2 = fecHeaderSize + 2
++	typeData           = 0xf1
++	typeParity         = 0xf2
++)
++
++type (
++	BlockCrypt interface {
++		Encrypt(_, _ []byte)
++		Decrypt(_, _ []byte)
++	}
++	fecDecoder struct{}
++	fecEncoder struct{}
++	fecPacket  []byte
++)
++
++func newFECDecoder(rxlimit, dataShards, parityShards int) *fecDecoder { return nil }
++func newFECEncoder(dataShards, parityShards, offset int) *fecEncoder  { return nil }
++
++func (_ *fecDecoder) decode(in fecPacket) [][]byte { panic("disabled") }
++func (_ *fecDecoder) release()                     { panic("disabled") }
++func (_ *fecEncoder) encode(b []byte) [][]byte     { panic("disabled") }
++func (_ fecPacket) flag() uint16                   { panic("disabled") }
+-- 
+2.20.1
+
diff --git a/projects/smux/config b/projects/smux/config
new file mode 100644
index 0000000..54d2a11
--- /dev/null
+++ b/projects/smux/config
@@ -0,0 +1,16 @@
+version: '[% c("abbrev") %]'
+git_url: https://github.com/xtaci/smux
+git_hash: c6969d8a76874342611f4b544d05b1590f1a76b1 # v1.5.12
+filename: '[% project %]-[% c("version") %]-[% c("var/osname") %]-[% c("var/build_id") %].tar.gz'
+
+build: '[% c("projects/go/var/build_go_lib") %]'
+
+var:
+  container:
+    use_container: 1
+  go_lib: github.com/xtaci/smux
+
+input_files:
+  - project: container-image
+  - name: go
+    project: go
diff --git a/projects/snowflake/build b/projects/snowflake/build
index 1aede45..2724dd9 100644
--- a/projects/snowflake/build
+++ b/projects/snowflake/build
@@ -8,6 +8,8 @@ mkdir -p $PTDIR $DOCSDIR
 tar -C /var/tmp/dist -xf [% c('input_files_by_name/uniuri') %]
 tar -C /var/tmp/dist -xf [% c('input_files_by_name/goptlib') %]
 tar -C /var/tmp/dist -xf [% c('input_files_by_name/pion-webrtc') %]
+tar -C /var/tmp/dist -xf [% c('input_files_by_name/kcp-go') %]
+tar -C /var/tmp/dist -xf [% c('input_files_by_name/smux') %]
 
 mkdir -p /var/tmp/build
 tar -C /var/tmp/build -xf [% project %]-[% c('version') %].tar.gz
@@ -18,6 +20,7 @@ ln -sf "$PWD" "$GOPATH/src/git.torproject.org/pluggable-transports/snowflake.git
 # Fix gopath location of versioned dependencies
 ln -sf "$GOPATH/src/github.com/pion/webrtc" "$GOPATH/src/github.com/pion/webrtc/v2"
 ln -sf "$GOPATH/src/github.com/pion/sdp" "$GOPATH/src/github.com/pion/sdp/v2"
+ln -sf "$GOPATH/src/github.com/xtaci/kcp-go" "$GOPATH/src/github.com/xtaci/kcp-go/v5"
 
 cd client
 go build -ldflags '-s'
diff --git a/projects/snowflake/config b/projects/snowflake/config
index b81f1f5..efd0707 100644
--- a/projects/snowflake/config
+++ b/projects/snowflake/config
@@ -1,7 +1,7 @@
 # vim: filetype=yaml sw=2
 version: '[% c("abbrev") %]'
 git_url: https://git.torproject.org/pluggable-transports/snowflake.git
-git_hash: ea01bf41c3011590938b079ed96c7b35cb40588b
+git_hash: 7043a055f9fb0680281ecffd7d458a43f2ce65b5
 filename: '[% project %]-[% c("version") %]-[% c("var/osname") %]-[% c("var/build_id") %].tar.gz'
 
 var:
@@ -18,3 +18,7 @@ input_files:
     project: goptlib
   - name: pion-webrtc
     project: pion-webrtc
+  - name: kcp-go
+    project: kcp-go
+  - name: smux
+    project: smux

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