status-go/vendor/github.com/libp2p/go-libp2p/p2p/security/noise/rw.go

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package noise
import (
"encoding/binary"
"io"
pool "github.com/libp2p/go-buffer-pool"
"golang.org/x/crypto/chacha20poly1305"
)
// MaxTransportMsgLength is the Noise-imposed maximum transport message length,
// inclusive of the MAC size (16 bytes, Poly1305 for noise-libp2p).
const MaxTransportMsgLength = 0xffff
// MaxPlaintextLength is the maximum payload size. It is MaxTransportMsgLength
// minus the MAC size. Payloads over this size will be automatically chunked.
const MaxPlaintextLength = MaxTransportMsgLength - chacha20poly1305.Overhead
// LengthPrefixLength is the length of the length prefix itself, which precedes
// all transport messages in order to delimit them. In bytes.
const LengthPrefixLength = 2
// Read reads from the secure connection, returning plaintext data in `buf`.
//
// Honours io.Reader in terms of behaviour.
func (s *secureSession) Read(buf []byte) (int, error) {
s.readLock.Lock()
defer s.readLock.Unlock()
// 1. If we have queued received bytes:
// 1a. If len(buf) < len(queued), saturate buf, update seek pointer, return.
// 1b. If len(buf) >= len(queued), copy remaining to buf, release queued buffer back into pool, return.
//
// 2. Else, read the next message off the wire; next_len is length prefix.
// 2a. If len(buf) >= next_len, copy the message to input buffer (zero-alloc path), and return.
// 2b. If len(buf) >= (next_len - length of Authentication Tag), get buffer from pool, read encrypted message into it.
// decrypt message directly into the input buffer and return the buffer obtained from the pool.
// 2c. If len(buf) < next_len, obtain buffer from pool, copy entire message into it, saturate buf, update seek pointer.
if s.qbuf != nil {
// we have queued bytes; copy as much as we can.
copied := copy(buf, s.qbuf[s.qseek:])
s.qseek += copied
if s.qseek == len(s.qbuf) {
// queued buffer is now empty, reset and release.
pool.Put(s.qbuf)
s.qseek, s.qbuf = 0, nil
}
return copied, nil
}
// length of the next encrypted message.
nextMsgLen, err := s.readNextInsecureMsgLen()
if err != nil {
return 0, err
}
// If the buffer is atleast as big as the encrypted message size,
// we can read AND decrypt in place.
if len(buf) >= nextMsgLen {
if err := s.readNextMsgInsecure(buf[:nextMsgLen]); err != nil {
return 0, err
}
dbuf, err := s.decrypt(buf[:0], buf[:nextMsgLen])
if err != nil {
return 0, err
}
return len(dbuf), nil
}
// otherwise, we get a buffer from the pool so we can read the message into it
// and then decrypt in place, since we're retaining the buffer (or a view thereof).
cbuf := pool.Get(nextMsgLen)
if err := s.readNextMsgInsecure(cbuf); err != nil {
return 0, err
}
if s.qbuf, err = s.decrypt(cbuf[:0], cbuf); err != nil {
return 0, err
}
// copy as many bytes as we can; update seek pointer.
s.qseek = copy(buf, s.qbuf)
return s.qseek, nil
}
// Write encrypts the plaintext `in` data and sends it on the
// secure connection.
func (s *secureSession) Write(data []byte) (int, error) {
s.writeLock.Lock()
defer s.writeLock.Unlock()
var (
written int
cbuf []byte
total = len(data)
)
if total < MaxPlaintextLength {
cbuf = pool.Get(total + chacha20poly1305.Overhead + LengthPrefixLength)
} else {
cbuf = pool.Get(MaxTransportMsgLength + LengthPrefixLength)
}
defer pool.Put(cbuf)
for written < total {
end := written + MaxPlaintextLength
if end > total {
end = total
}
b, err := s.encrypt(cbuf[:LengthPrefixLength], data[written:end])
if err != nil {
return 0, err
}
binary.BigEndian.PutUint16(b, uint16(len(b)-LengthPrefixLength))
_, err = s.writeMsgInsecure(b)
if err != nil {
return written, err
}
written = end
}
return written, nil
}
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// readNextInsecureMsgLen reads the length of the next message on the insecureConn channel.
func (s *secureSession) readNextInsecureMsgLen() (int, error) {
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_, err := io.ReadFull(s.insecureReader, s.rlen[:])
if err != nil {
return 0, err
}
return int(binary.BigEndian.Uint16(s.rlen[:])), err
}
// readNextMsgInsecure tries to read exactly len(buf) bytes into buf from
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// the insecureConn channel and returns the error, if any.
// Ideally, for reading a message, you'd first want to call `readNextInsecureMsgLen`
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// to determine the size of the next message to be read from the insecureConn channel and then call
// this function with a buffer of exactly that size.
func (s *secureSession) readNextMsgInsecure(buf []byte) error {
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_, err := io.ReadFull(s.insecureReader, buf)
return err
}
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// writeMsgInsecure writes to the insecureConn conn.
// data will be prefixed with its length in bytes, written as a 16-bit uint in network order.
func (s *secureSession) writeMsgInsecure(data []byte) (int, error) {
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return s.insecureConn.Write(data)
}