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360 lines
10 KiB
Go
360 lines
10 KiB
Go
// Copyright (c) 2021 Tailscale Inc & 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 noise implements the base transport of the Tailscale 2021
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// control protocol.
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//
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// The base transport implements Noise IK, instantiated with
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// Curve25519, ChaCha20Poly1305 and BLAKE2s.
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package noise
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import (
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"crypto/cipher"
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"encoding/binary"
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"fmt"
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"net"
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"sync"
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"time"
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"golang.org/x/crypto/blake2s"
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chp "golang.org/x/crypto/chacha20poly1305"
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"tailscale.com/types/key"
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)
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const (
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// maxMessageSize is the maximum size of a protocol frame on the
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// wire, including header and payload.
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maxMessageSize = 4096
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// maxCiphertextSize is the maximum amount of ciphertext bytes
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// that one protocol frame can carry, after framing.
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maxCiphertextSize = maxMessageSize - 3
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// maxPlaintextSize is the maximum amount of plaintext bytes that
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// one protocol frame can carry, after encryption and framing.
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maxPlaintextSize = maxCiphertextSize - chp.Overhead
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)
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// A Conn is a secured Noise connection. It implements the net.Conn
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// interface, with the unusual trait that any write error (including a
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// SetWriteDeadline induced i/o timeout) causes all future writes to
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// fail.
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type Conn struct {
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conn net.Conn
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version uint16
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peer key.MachinePublic
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handshakeHash [blake2s.Size]byte
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rx rxState
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tx txState
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}
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// rxState is all the Conn state that Read uses.
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type rxState struct {
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sync.Mutex
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cipher cipher.AEAD
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nonce nonce
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buf [maxMessageSize]byte
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n int // number of valid bytes in buf
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next int // offset of next undecrypted packet
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plaintext []byte // slice into buf of decrypted bytes
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}
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// txState is all the Conn state that Write uses.
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type txState struct {
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sync.Mutex
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cipher cipher.AEAD
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nonce nonce
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buf [maxMessageSize]byte
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err error // records the first partial write error for all future calls
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}
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// ProtocolVersion returns the protocol version that was used to
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// establish this Conn.
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func (c *Conn) ProtocolVersion() int {
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return int(c.version)
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}
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// HandshakeHash returns the Noise handshake hash for the connection,
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// which can be used to bind other messages to this connection
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// (i.e. to ensure that the message wasn't replayed from a different
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// connection).
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func (c *Conn) HandshakeHash() [blake2s.Size]byte {
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return c.handshakeHash
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}
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// Peer returns the peer's long-term public key.
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func (c *Conn) Peer() key.MachinePublic {
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return c.peer
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}
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// readNLocked reads into c.rx.buf until buf contains at least total
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// bytes. Returns a slice of the total bytes in rxBuf, or an
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// error if fewer than total bytes are available.
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func (c *Conn) readNLocked(total int) ([]byte, error) {
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if total > maxMessageSize {
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return nil, errReadTooBig{total}
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}
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for {
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if total <= c.rx.n {
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return c.rx.buf[:total], nil
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}
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n, err := c.conn.Read(c.rx.buf[c.rx.n:])
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c.rx.n += n
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if err != nil {
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return nil, err
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}
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}
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}
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// decryptLocked decrypts msg (which is header+ciphertext) in-place
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// and sets c.rx.plaintext to the decrypted bytes.
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func (c *Conn) decryptLocked(msg []byte) (err error) {
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if msgType := msg[0]; msgType != msgTypeRecord {
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return fmt.Errorf("received message with unexpected type %d, want %d", msgType, msgTypeRecord)
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}
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// We don't check the length field here, because the caller
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// already did in order to figure out how big the msg slice should
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// be.
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ciphertext := msg[headerLen:]
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if !c.rx.nonce.Valid() {
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return errCipherExhausted{}
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}
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c.rx.plaintext, err = c.rx.cipher.Open(ciphertext[:0], c.rx.nonce[:], ciphertext, nil)
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c.rx.nonce.Increment()
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if err != nil {
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// Once a decryption has failed, our Conn is no longer
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// synchronized with our peer. Nuke the cipher state to be
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// safe, so that no further decryptions are attempted. Future
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// read attempts will return net.ErrClosed.
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c.rx.cipher = nil
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}
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return err
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}
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// encryptLocked encrypts plaintext into c.tx.buf (including the
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// packet header) and returns a slice of the ciphertext, or an error
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// if the cipher is exhausted (i.e. can no longer be used safely).
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func (c *Conn) encryptLocked(plaintext []byte) ([]byte, error) {
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if !c.tx.nonce.Valid() {
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// Received 2^64-1 messages on this cipher state. Connection
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// is no longer usable.
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return nil, errCipherExhausted{}
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}
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c.tx.buf[0] = msgTypeRecord
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binary.BigEndian.PutUint16(c.tx.buf[1:headerLen], uint16(len(plaintext)+chp.Overhead))
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ret := c.tx.cipher.Seal(c.tx.buf[:headerLen], c.tx.nonce[:], plaintext, nil)
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c.tx.nonce.Increment()
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return ret, nil
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}
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// wholeMessageLocked returns a slice of one whole Noise transport
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// message from c.rx.buf, if one whole message is available, and
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// advances the read state to the next Noise message in the
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// buffer. Returns nil without advancing read state if there isn't one
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// whole message in c.rx.buf.
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func (c *Conn) wholeMessageLocked() []byte {
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available := c.rx.n - c.rx.next
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if available < headerLen {
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return nil
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}
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bs := c.rx.buf[c.rx.next:c.rx.n]
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totalSize := headerLen + int(binary.BigEndian.Uint16(bs[1:3]))
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if len(bs) < totalSize {
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return nil
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}
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c.rx.next += totalSize
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return bs[:totalSize]
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}
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// decryptOneLocked decrypts one Noise transport message, reading from
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// c.conn as needed, and sets c.rx.plaintext to point to the decrypted
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// bytes. c.rx.plaintext is only valid if err == nil.
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func (c *Conn) decryptOneLocked() error {
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c.rx.plaintext = nil
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// Fast path: do we have one whole ciphertext frame buffered
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// already?
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if bs := c.wholeMessageLocked(); bs != nil {
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return c.decryptLocked(bs)
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}
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if c.rx.next != 0 {
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// To simplify the read logic, move the remainder of the
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// buffered bytes back to the head of the buffer, so we can
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// grow it without worrying about wraparound.
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c.rx.n = copy(c.rx.buf[:], c.rx.buf[c.rx.next:c.rx.n])
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c.rx.next = 0
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}
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bs, err := c.readNLocked(headerLen)
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if err != nil {
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return err
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}
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// The rest of the header (besides the length field) gets verified
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// in decryptLocked, not here.
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messageLen := headerLen + int(binary.BigEndian.Uint16(bs[1:3]))
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bs, err = c.readNLocked(messageLen)
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if err != nil {
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return err
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}
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c.rx.next = len(bs)
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return c.decryptLocked(bs)
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}
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// Read implements io.Reader.
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func (c *Conn) Read(bs []byte) (int, error) {
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c.rx.Lock()
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defer c.rx.Unlock()
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if c.rx.cipher == nil {
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return 0, net.ErrClosed
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}
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// If no plaintext is buffered, decrypt incoming frames until we
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// have some plaintext. Zero-byte Noise frames are allowed in this
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// protocol, which is why we have to loop here rather than decrypt
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// a single additional frame.
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for len(c.rx.plaintext) == 0 {
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if err := c.decryptOneLocked(); err != nil {
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return 0, err
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}
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}
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n := copy(bs, c.rx.plaintext)
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c.rx.plaintext = c.rx.plaintext[n:]
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return n, nil
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}
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// Write implements io.Writer.
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func (c *Conn) Write(bs []byte) (n int, err error) {
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c.tx.Lock()
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defer c.tx.Unlock()
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if c.tx.err != nil {
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return 0, c.tx.err
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}
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defer func() {
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if err != nil {
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// All write errors are fatal for this conn, so clear the
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// cipher state whenever an error happens.
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c.tx.cipher = nil
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}
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if c.tx.err == nil {
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// Only set c.tx.err if not nil so that we can return one
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// error on the first failure, and a different one for
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// subsequent calls. See the error handling around Write
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// below for why.
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c.tx.err = err
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}
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}()
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if c.tx.cipher == nil {
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return 0, net.ErrClosed
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}
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var sent int
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for len(bs) > 0 {
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toSend := bs
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if len(toSend) > maxPlaintextSize {
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toSend = bs[:maxPlaintextSize]
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}
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bs = bs[len(toSend):]
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ciphertext, err := c.encryptLocked(toSend)
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if err != nil {
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return 0, err
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}
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n, err := c.conn.Write(ciphertext)
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sent += n
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if err != nil {
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// Return the raw error on the Write that actually
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// failed. For future writes, return that error wrapped in
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// a desync error.
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c.tx.err = errPartialWrite{err}
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return sent, err
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}
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}
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return sent, nil
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}
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// Close implements io.Closer.
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func (c *Conn) Close() error {
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closeErr := c.conn.Close() // unblocks any waiting reads or writes
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// Remove references to live cipher state. Strictly speaking this
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// is unnecessary, but we want to try and hand the active cipher
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// state to the garbage collector promptly, to preserve perfect
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// forward secrecy as much as we can.
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c.rx.Lock()
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c.rx.cipher = nil
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c.rx.Unlock()
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c.tx.Lock()
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c.tx.cipher = nil
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c.tx.Unlock()
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return closeErr
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}
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func (c *Conn) LocalAddr() net.Addr { return c.conn.LocalAddr() }
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func (c *Conn) RemoteAddr() net.Addr { return c.conn.RemoteAddr() }
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func (c *Conn) SetDeadline(t time.Time) error { return c.conn.SetDeadline(t) }
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func (c *Conn) SetReadDeadline(t time.Time) error { return c.conn.SetReadDeadline(t) }
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func (c *Conn) SetWriteDeadline(t time.Time) error { return c.conn.SetWriteDeadline(t) }
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// errCipherExhausted is the error returned when we run out of nonces
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// on a cipher.
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type errCipherExhausted struct{}
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func (errCipherExhausted) Error() string {
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return "cipher exhausted, no more nonces available for current key"
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}
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func (errCipherExhausted) Timeout() bool { return false }
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func (errCipherExhausted) Temporary() bool { return false }
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// errPartialWrite is the error returned when the cipher state has
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// become unusable due to a past partial write.
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type errPartialWrite struct {
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err error
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}
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func (e errPartialWrite) Error() string {
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return fmt.Sprintf("cipher state desynchronized due to partial write (%v)", e.err)
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}
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func (e errPartialWrite) Unwrap() error { return e.err }
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func (e errPartialWrite) Temporary() bool { return false }
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func (e errPartialWrite) Timeout() bool { return false }
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// errReadTooBig is the error returned when the peer sent an
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// unacceptably large Noise frame.
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type errReadTooBig struct {
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requested int
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}
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func (e errReadTooBig) Error() string {
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return fmt.Sprintf("requested read of %d bytes exceeds max allowed Noise frame size", e.requested)
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}
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func (e errReadTooBig) Temporary() bool {
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// permanent error because this error only occurs when our peer
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// sends us a frame so large we're unwilling to ever decode it.
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return false
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}
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func (e errReadTooBig) Timeout() bool { return false }
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type nonce [chp.NonceSize]byte
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func (n *nonce) Valid() bool {
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return binary.BigEndian.Uint32(n[:4]) == 0 && binary.BigEndian.Uint64(n[4:]) != invalidNonce
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}
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func (n *nonce) Increment() {
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if !n.Valid() {
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panic("increment of invalid nonce")
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}
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binary.BigEndian.PutUint64(n[4:], 1+binary.BigEndian.Uint64(n[4:]))
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}
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