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ergo/irc/socket.go
2020-03-22 10:09:20 -04:00

293 lines
7.3 KiB
Go

// Copyright (c) 2012-2014 Jeremy Latt
// Copyright (c) 2016-2017 Daniel Oaks <daniel@danieloaks.net>
// released under the MIT license
package irc
import (
"bufio"
"crypto/sha256"
"crypto/tls"
"encoding/hex"
"errors"
"io"
"net"
"strings"
"sync"
"time"
"github.com/oragono/oragono/irc/utils"
)
var (
handshakeTimeout = RegisterTimeout
errSendQExceeded = errors.New("SendQ exceeded")
sendQExceededMessage = []byte("\r\nERROR :SendQ Exceeded\r\n")
)
// Socket represents an IRC socket.
type Socket struct {
sync.Mutex
conn net.Conn
reader *bufio.Reader
maxSendQBytes int
// this is a trylock enforcing that only one goroutine can write to `conn` at a time
writerSemaphore utils.Semaphore
buffers [][]byte
totalLength int
closed bool
sendQExceeded bool
finalData []byte // what to send when we die
finalized bool
}
// NewSocket returns a new Socket.
func NewSocket(conn net.Conn, maxReadQBytes int, maxSendQBytes int) *Socket {
result := Socket{
conn: conn,
reader: bufio.NewReaderSize(conn, maxReadQBytes),
maxSendQBytes: maxSendQBytes,
}
result.writerSemaphore.Initialize(1)
return &result
}
// Close stops a Socket from being able to send/receive any more data.
func (socket *Socket) Close() {
socket.Lock()
socket.closed = true
socket.Unlock()
socket.wakeWriter()
}
// CertFP returns the fingerprint of the certificate provided by the client.
func (socket *Socket) CertFP() (string, error) {
var tlsConn, isTLS = socket.conn.(*tls.Conn)
if !isTLS {
return "", errNotTLS
}
// ensure handehake is performed, and timeout after a few seconds
tlsConn.SetDeadline(time.Now().Add(handshakeTimeout))
err := tlsConn.Handshake()
tlsConn.SetDeadline(time.Time{})
if err != nil {
return "", err
}
peerCerts := tlsConn.ConnectionState().PeerCertificates
if len(peerCerts) < 1 {
return "", errNoPeerCerts
}
rawCert := sha256.Sum256(peerCerts[0].Raw)
fingerprint := hex.EncodeToString(rawCert[:])
return fingerprint, nil
}
// Read returns a single IRC line from a Socket.
func (socket *Socket) Read() (string, error) {
if socket.IsClosed() {
return "", io.EOF
}
lineBytes, isPrefix, err := socket.reader.ReadLine()
if isPrefix {
return "", errReadQ
}
// convert bytes to string
line := string(lineBytes)
// read last message properly (such as ERROR/QUIT/etc), just fail next reads/writes
if err == io.EOF {
socket.Close()
}
if err == io.EOF && strings.TrimSpace(line) != "" {
// don't do anything
} else if err != nil {
return "", err
}
return line, nil
}
// Write sends the given string out of Socket. Requirements:
// 1. MUST NOT block for macroscopic amounts of time
// 2. MUST NOT reorder messages
// 3. MUST provide mutual exclusion for socket.conn.Write
// 4. SHOULD NOT tie up additional goroutines, beyond the one blocked on socket.conn.Write
func (socket *Socket) Write(data []byte) (err error) {
if len(data) == 0 {
return
}
socket.Lock()
if socket.closed {
err = io.EOF
} else {
prospectiveLen := socket.totalLength + len(data)
if prospectiveLen > socket.maxSendQBytes {
socket.sendQExceeded = true
socket.closed = true
err = errSendQExceeded
} else {
socket.buffers = append(socket.buffers, data)
socket.totalLength = prospectiveLen
}
}
socket.Unlock()
socket.wakeWriter()
return
}
// BlockingWrite sends the given string out of Socket. Requirements:
// 1. MUST block until the message is sent
// 2. MUST bypass sendq (calls to BlockingWrite cannot, on their own, cause a sendq overflow)
// 3. MUST provide mutual exclusion for socket.conn.Write
// 4. MUST respect the same ordering guarantees as Write (i.e., if a call to Write that sends
// message m1 happens-before a call to BlockingWrite that sends message m2,
// m1 must be sent on the wire before m2
// Callers MUST be writing to the client's socket from the client's own goroutine;
// other callers must use the nonblocking Write call instead. Otherwise, a client
// with a slow/unreliable connection risks stalling the progress of the system as a whole.
func (socket *Socket) BlockingWrite(data []byte) (err error) {
if len(data) == 0 {
return
}
// after releasing the semaphore, we must check for fresh data, same as `send`
defer func() {
if socket.readyToWrite() {
socket.wakeWriter()
}
}()
// blocking acquire of the trylock
socket.writerSemaphore.Acquire()
defer socket.writerSemaphore.Release()
// first, flush any buffered data, to preserve the ordering guarantees
closed := socket.performWrite()
if closed {
return io.EOF
}
_, err = socket.conn.Write(data)
if err != nil {
socket.finalize()
}
return
}
// wakeWriter starts the goroutine that actually performs the write, without blocking
func (socket *Socket) wakeWriter() {
if socket.writerSemaphore.TryAcquire() {
// acquired the trylock; send() will release it
go socket.send()
}
// else: do nothing, the holder will check for more data after releasing it
}
// SetFinalData sets the final data to send when the SocketWriter closes.
func (socket *Socket) SetFinalData(data []byte) {
socket.Lock()
defer socket.Unlock()
socket.finalData = data
}
// IsClosed returns whether the socket is closed.
func (socket *Socket) IsClosed() bool {
socket.Lock()
defer socket.Unlock()
return socket.closed
}
// is there data to write?
func (socket *Socket) readyToWrite() bool {
socket.Lock()
defer socket.Unlock()
// on the first time observing socket.closed, we still have to write socket.finalData
return !socket.finalized && (socket.totalLength > 0 || socket.closed)
}
// send actually writes messages to socket.Conn; it may block
func (socket *Socket) send() {
for {
// we are holding the trylock: actually do the write
socket.performWrite()
// surrender the trylock, avoiding a race where a write comes in after we've
// checked readyToWrite() and it returned false, but while we still hold the trylock:
socket.writerSemaphore.Release()
// check if more data came in while we held the trylock:
if !socket.readyToWrite() {
return
}
if !socket.writerSemaphore.TryAcquire() {
// failed to acquire; exit and wait for the holder to observe readyToWrite()
// after releasing it
return
}
// got the lock again, loop back around and write
}
}
// write the contents of the buffer, then see if we need to close
// returns whether we closed
func (socket *Socket) performWrite() (closed bool) {
// retrieve the buffered data, clear the buffer
socket.Lock()
buffers := socket.buffers
socket.buffers = nil
socket.totalLength = 0
closed = socket.closed
socket.Unlock()
var err error
if 0 < len(buffers) {
// on Linux, the runtime will optimize this into a single writev(2) call:
_, err = (*net.Buffers)(&buffers).WriteTo(socket.conn)
}
closed = closed || err != nil
if closed {
socket.finalize()
}
return
}
// mark closed and send final data. you must be holding the semaphore to call this:
func (socket *Socket) finalize() {
// mark the socket closed (if someone hasn't already), then write error lines
socket.Lock()
socket.closed = true
finalized := socket.finalized
socket.finalized = true
finalData := socket.finalData
if socket.sendQExceeded {
finalData = sendQExceededMessage
}
socket.Unlock()
if finalized {
return
}
if len(finalData) != 0 {
socket.conn.Write(finalData)
}
// close the connection
socket.conn.Close()
}