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client.go
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client.go
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package guerrilla
import (
"bufio"
"bytes"
"crypto/tls"
"errors"
"fmt"
"net"
"net/textproto"
"sync"
"time"
"github.com/phires/go-guerrilla/log"
"github.com/phires/go-guerrilla/mail"
"github.com/phires/go-guerrilla/mail/rfc5321"
"github.com/phires/go-guerrilla/response"
)
// ClientState indicates which part of the SMTP transaction a given client is in.
type ClientState int
const (
// The client has connected, and is awaiting our first response
ClientGreeting = iota
// We have responded to the client's connection and are awaiting a command
ClientCmd
// We have received the sender and recipient information
ClientData
// We have agreed with the client to secure the connection over TLS
ClientStartTLS
// Server will shutdown, client to shutdown on next command turn
ClientShutdown
)
type client struct {
*mail.Envelope
ID uint64
ConnectedAt time.Time
KilledAt time.Time
// Number of errors encountered during session with this client
errors int
state ClientState
messagesSent int
// Response to be written to the client (for debugging)
response bytes.Buffer
bufErr error
conn net.Conn
bufin *smtpBufferedReader
bufout *bufio.Writer
smtpReader *textproto.Reader
ar *adjustableLimitedReader
// guards access to conn
connGuard sync.Mutex
log log.Logger
parser rfc5321.Parser
}
// NewClient allocates a new client.
func NewClient(conn net.Conn, clientID uint64, logger log.Logger, envelope *mail.Pool) *client {
c := &client{
conn: conn,
// Envelope will be borrowed from the envelope pool
// the envelope could be 'detached' from the client later when processing
Envelope: envelope.Borrow(getRemoteAddr(conn), clientID),
ConnectedAt: time.Now(),
bufin: newSMTPBufferedReader(conn),
bufout: bufio.NewWriter(conn),
ID: clientID,
log: logger,
}
// used for reading the DATA state
c.smtpReader = textproto.NewReader(c.bufin.Reader)
return c
}
// sendResponse adds a response to be written on the next turn
// the response gets buffered
func (c *client) sendResponse(r ...interface{}) {
c.bufout.Reset(c.conn)
if c.log.IsDebug() {
// an additional buffer so that we can log the response in debug mode only
c.response.Reset()
}
var out string
if c.bufErr != nil {
c.bufErr = nil
}
for _, item := range r {
switch v := item.(type) {
case error:
out = v.Error()
case fmt.Stringer:
out = v.String()
case string:
out = v
}
if _, c.bufErr = c.bufout.WriteString(out); c.bufErr != nil {
c.log.WithError(c.bufErr).Error("could not write to c.bufout")
}
if c.log.IsDebug() {
c.response.WriteString(out)
}
if c.bufErr != nil {
return
}
}
_, c.bufErr = c.bufout.WriteString("\r\n")
if c.log.IsDebug() {
c.response.WriteString("\r\n")
}
}
// resetTransaction resets the SMTP transaction, ready for the next email (doesn't disconnect)
// Transaction ends on:
// -HELO/EHLO/REST command
// -End of DATA command
// TLS handshake
func (c *client) resetTransaction() {
c.Envelope.ResetTransaction()
}
// isInTransaction returns true if the connection is inside a transaction.
// A transaction starts after a MAIL command gets issued by the client.
// Call resetTransaction to end the transaction
func (c *client) isInTransaction() bool {
if len(c.MailFrom.User) == 0 && !c.MailFrom.NullPath {
return false
}
return true
}
// kill flags the connection to close on the next turn
func (c *client) kill() {
c.KilledAt = time.Now()
}
// isAlive returns true if the client is to close on the next turn
func (c *client) isAlive() bool {
return c.KilledAt.IsZero()
}
// setTimeout adjust the timeout on the connection, goroutine safe
func (c *client) setTimeout(t time.Duration) (err error) {
defer c.connGuard.Unlock()
c.connGuard.Lock()
if c.conn != nil {
err = c.conn.SetDeadline(time.Now().Add(t * time.Second))
}
return
}
// closeConn closes a client connection, , goroutine safe
func (c *client) closeConn() {
defer c.connGuard.Unlock()
c.connGuard.Lock()
_ = c.conn.Close()
c.conn = nil
}
// init is called after the client is borrowed from the pool, to get it ready for the connection
func (c *client) init(conn net.Conn, clientID uint64, ep *mail.Pool) {
c.conn = conn
// reset our reader & writer
c.bufout.Reset(conn)
c.bufin.Reset(conn)
// reset session data
c.state = 0
c.KilledAt = time.Time{}
c.ConnectedAt = time.Now()
c.ID = clientID
c.errors = 0
// borrow an envelope from the envelope pool
c.Envelope = ep.Borrow(getRemoteAddr(conn), clientID)
}
// getID returns the client's unique ID
func (c *client) getID() uint64 {
return c.ID
}
// UpgradeToTLS upgrades a client connection to TLS
func (c *client) upgradeToTLS(tlsConfig *tls.Config) error {
// wrap c.conn in a new TLS server side connection
tlsConn := tls.Server(c.conn, tlsConfig)
// Call handshake here to get any handshake error before reading starts
err := tlsConn.Handshake()
if err != nil {
return err
}
// convert tlsConn to net.Conn
c.conn = net.Conn(tlsConn)
c.bufout.Reset(c.conn)
c.bufin.Reset(c.conn)
c.TLS = true
return err
}
func getRemoteAddr(conn net.Conn) string {
if addr, ok := conn.RemoteAddr().(*net.TCPAddr); ok {
// we just want the IP (not the port)
return addr.IP.String()
} else {
return conn.RemoteAddr().Network()
}
}
type pathParser func([]byte) error
func (c *client) parsePath(in []byte, p pathParser) (mail.Address, error) {
address := mail.Address{}
var err error
if len(in) > rfc5321.LimitPath {
return address, errors.New(response.Canned.FailPathTooLong.String())
}
if err = p(in); err != nil {
return address, errors.New(response.Canned.FailInvalidAddress.String())
} else if c.parser.NullPath {
// bounce has empty from address
address = mail.Address{}
} else if len(c.parser.LocalPart) > rfc5321.LimitLocalPart {
err = errors.New(response.Canned.FailLocalPartTooLong.String())
} else if len(c.parser.Domain) > rfc5321.LimitDomain {
err = errors.New(response.Canned.FailDomainTooLong.String())
} else {
address = mail.Address{
User: c.parser.LocalPart,
Host: c.parser.Domain,
ADL: c.parser.ADL,
PathParams: c.parser.PathParams,
NullPath: c.parser.NullPath,
Quoted: c.parser.LocalPartQuotes,
IP: c.parser.IP,
}
}
return address, err
}
func (s *server) rcptTo() (address mail.Address, err error) {
return address, err
}