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Current File : /proc/2/root/proc/3/task/3/cwd/proc/2/cwd/proc/self/root/usr/share/perl5/Amavis/IO/RW.pm
# SPDX-License-Identifier: GPL-2.0-or-later

package Amavis::IO::RW;
use strict;
use re 'taint';

BEGIN {
  require Exporter;
  use vars qw(@ISA @EXPORT @EXPORT_OK %EXPORT_TAGS $VERSION);
  $VERSION = '2.412';
  @ISA = qw(Exporter);
}

use Errno qw(EIO EINTR EAGAIN EPIPE ENOTCONN ECONNRESET);
use Time::HiRes ();
use IO::Socket;
use IO::Socket::UNIX;
use IO::Socket::SSL;

use Amavis::Conf qw(:platform %smtp_tls_client_verifycn_name_maps);
use Amavis::Util qw(ll do_log min max minmax idn_to_ascii);

# Connect to one of the specified sockets. The $socket_specs may be a
# simple string ([inet-host]:port, [inet6-host]:port, or a unix socket name),
# optionally prefixed by a protocol name (scheme) and a colon (the prefix is
# ignored here, just avoids a need for parsing by a caller);  or it can be
# a ref to a list of such socket specifications, which are tried one after
# another until a connection is successful. In case of a listref, it leaves
# a good socket as the first entry in the list so that it will be tried first
# on a next call.
# The 'Timeout' argument controls both the connect timeout as well as the
# timeout of a select() call in rw_loop() - but may be changed through a
# timeout() method.
#
sub new {
  my($class, $socket_specs, %arg) = @_;
  my $self = bless {}, $class;
  $self->timeout($arg{Timeout});
  $self->{eol_str} = !defined $arg{Eol} ? "\n" : $arg{Eol};
  $self->{last_written_potential_eol} = '';
  $self->{inp_sane_size} = !$arg{InpSaneSize} ? 500000 : $arg{InpSaneSize};
  $self->{last_event_time} = 0; $self->{last_event_tx_time} = 0;
  $self->{inp} = ''; $self->{out} = '';
  $self->{inpeof} = 0; $self->{ssl_active} = 0;
  $socket_specs = [ $socket_specs ]  if !ref $socket_specs;
  my($protocol,$socketname,$sock,$eval_stat);
  my $attempts = 0; my(@failures);
  my $n_candidates = scalar @$socket_specs;
  $n_candidates > 0  or die "Can't connect, no sockets specified!?";  # sanity
  for (;;) {
    if ($n_candidates > 1) {  # pick one at random, put it to head of the list
      my $j = int(rand($n_candidates));
      ll(5) && do_log(5, "picking candidate #%d (of %d) in %s",
                         $j+1, $n_candidates, join(', ',@$socket_specs));
      @$socket_specs[0,$j] = @$socket_specs[$j,0]  if $j != 0;
    }
    $socketname = $socket_specs->[0];  # try the first on the list
    local($1);
    $socketname =~ s/^([a-z][a-z0-9.+-]*)?://si;  # strip protocol name
    $protocol = lc($1);  # kept for the benefit of a caller
    $self->{socketname} = undef;
    $attempts++;
    eval {
      $sock = $self->connect_attempt($socketname, %arg);
      $sock  or die "Error connecting to socket $socketname\n";
      1;
    } or do {
      $eval_stat = $@ ne '' ? $@ : "errno=$!";  chomp $eval_stat;
      undef $sock;
    };
    if ($sock) {  # mission accomplished
      if (!@failures) {
        do_log(5, "connected to %s successfully", $self->{socketname});
      } else {
        do_log(1, "connected to %s successfully after %d failures on: %s",
                 $self->{socketname}, scalar(@failures), join(', ',@failures));
      }
      last;
    } else {  # failure, prepare for a retry with a next entry if any
      $n_candidates--;
      my $ll = $attempts > 1 || $n_candidates <= 0 ? -1 : 1;
      ll($ll) && do_log($ll, "connect to %s failed, attempt #%d: %s%s",
                   $socketname, $attempts, $eval_stat,
                   $n_candidates <= 0 ? '' : ', trying next');
      push(@failures, $socketname);
      # circular shift left, move a bad candidate to the end of the list
      push(@$socket_specs, shift @$socket_specs)  if @$socket_specs > 1;
      last if $n_candidates <= 0;
    }
  }
  $sock  or die("All attempts ($attempts) failed connecting to ".
                join(', ',@$socket_specs) . "\n");
  $self->{socket} = $sock;
  $self->{protocol} = $protocol;
  $self;
}

sub connect_attempt {
  my($self, $socketname, %arg) = @_;
  my $sock;
  my($localaddr, $localport) = ($arg{LocalAddr}, $arg{LocalPort});
  my $blocking = 1;  # blocking mode defaults to on
  $blocking = 0  if defined $arg{Blocking} && !$arg{Blocking};
  my $timeout = $self->timeout;
  my $timeout_displ = !defined $timeout ? 'undef'
                      : int($timeout) == $timeout ? "$timeout"
                      : sprintf("%.3f",$timeout);
  my($peeraddress, $peerport, $is_inet); local($1,$2,$3);
  if ($socketname =~ m{^/}) {  # simpleminded: unix vs. inet
    $is_inet = 0;
  } elsif ($socketname =~ /^(?: \[ ([^\]]*) \] | ([^:]*) ) : ([^:]*)/xs) {
    # ignore possible further fields after the "proto:addr:port:..." last colon
    $peeraddress = defined $1 ? $1 : $2;  $peerport = $3;  $is_inet = 1;
  } elsif ($socketname =~ /^(?: \[ ([^\]]*) \] | ([0-9a-fA-F.:]+) ) \z/xs) {
    $peeraddress = defined $1 ? $1 : $2;  $is_inet = 1;
  } else {  # probably a syntax error, but let's assume it is a Unix socket
    $is_inet = 0;
  }
  if ($is_inet) {
    if (defined $peeraddress && $peeraddress eq '*') {
      $peeraddress = $arg{WildcardImpliedHost};
      defined $peeraddress
        or die "Wildcarded host, but client's address not known: $socketname";
    }
    if (!defined $peeraddress || $peeraddress eq '') {
      die "Empty/unknown host address in socket specification: $socketname";
    }
    $peerport = $arg{Port}  if !defined $peerport || $peerport eq '';
    if (defined $peerport && $peerport eq '*') {
      $peerport = $arg{WildcardImpliedPort};
      defined $peerport
        or die "Wildcarded port, but client's port not known: $socketname";
    }
    if (!defined $peerport || $peerport eq '') {
      die "Empty/unknown port number in socket specification: $socketname";
    } elsif ($peerport !~ /^\d{1,5}\z/ || $peerport < 1 || $peerport > 65535) {
      die "Invalid port number in socket specification: $socketname";
    }
  }

  $self->{last_event_time} = $self->{last_event_tx_time} = Time::HiRes::time;

  if (!$is_inet) {
    # unix socket
    ll(3) && do_log(3, "new socket by IO::Socket::UNIX to %s, ".
                       "timeout set to %s", $socketname, $timeout_displ);
    $sock = IO::Socket::UNIX->new(
      # Domain => AF_UNIX,
      Type => SOCK_STREAM, Timeout => $timeout);
    $sock or die "Can't create UNIX socket: $!\n";
    $sock->connect( pack_sockaddr_un($socketname) )
      or die "Can't connect to a UNIX socket $socketname: $!\n";
    $self->{last_event} = 'new-unix';

  } else {  # inet or inet6
    defined $io_socket_module_name
      or die "No INET or INET6 socket module is available";
    my $local_sock_displ = '';
    $peeraddress = idn_to_ascii($peeraddress);
    my(%args) = (Type => SOCK_STREAM, Proto => 'tcp', Blocking => $blocking,
                 PeerAddr => $peeraddress, PeerPort => $peerport);
               # Timeout => $timeout,  # produces: Invalid argument
    if (defined $localaddr && $localaddr ne '') {
      $args{LocalAddr} = $localaddr;
      $local_sock_displ .= '[' . $localaddr . ']';
    }
    if (defined $localport && $localport ne '') {
      $args{LocalPort} = $localport;
      $local_sock_displ .= ':' . $localport;
    }
    ll(3) && do_log(3,"new socket using %s to [%s]:%s, timeout %s%s%s",
                      $io_socket_module_name, $peeraddress, $peerport,
                      $timeout_displ, $blocking ? '' : ', nonblocking',
                      $local_sock_displ eq '' ? ''
                                              : ', local '.$local_sock_displ);
    $sock = $io_socket_module_name->new(%args);
    if (!$sock) {
      # note: the IO::Socket::IP constructor provides an error message in $@
      die sprintf("Can't connect to socket %s using module %s: %s\n",
                  $socketname, $io_socket_module_name,
                  $io_socket_module_name eq 'IO::Socket::IP' ? $@ : $!);
    }
    $self->{last_event} = 'new-' . $io_socket_module_name;
  }
  if ($sock) {
    $self->{socketname} = $is_inet ? "[$peeraddress]:$peerport" : $socketname;
    $self->{verifycn_name} = $smtp_tls_client_verifycn_name_maps{ $socketname } // ($is_inet ? $peeraddress : undef);
    do_log(3, 'verifycn_name: %s', $self->{verifycn_name});
  }
  $sock;
}

sub internal_close {
  my($self, $destroying) = @_;
  my $sock = $self->{socket};
  my $status = 1;  # ok
  if (!defined($sock)) {
    # nothing to do
  } elsif (!defined fileno($sock)) {  # not really open
    $sock->close;  # ignoring errors
  } else {
    my $flush_status = 1;  # ok
    eval {  # don't let errors during flush prevent us from closing a socket
      $flush_status = $self->flush;
    } or do {
      undef $flush_status;  # false, indicates a signalled failure
      my $eval_stat = $@ ne '' ? $@ : "errno=$!";  chomp $eval_stat;
      do_log($destroying ? 5 : 1,
             "closing: Error flushing socket in Amavis::IO::RW::%s: %s",
             $destroying?'DESTROY':'close', $eval_stat);
    };
    $self->{last_event} = 'close';
    $self->{last_event_time} = $self->{last_event_tx_time} = Time::HiRes::time;
    $! = 0; $status = $sock->close;
    $status or do_log($destroying ? 5 : 1,
                     "closing: Error closing socket in Amavis::IO::RW::%s: %s",
                      $destroying?'DESTROY':'close',
                      !$self->{ssl_active} ? $! : $sock->errstr.", $!" );
    $status = $flush_status  if $status && !$flush_status;
  }
  $status;
}

sub close {
  my $self = $_[0];
  $self->internal_close(0);
}

sub DESTROY {
  my $self = $_[0]; local($@,$!,$_);
  # ignore failure, make perlcritic happy
  eval { $self->internal_close(1) } or 1;
}

sub rw_loop {
  my($self,$needline,$flushoutput) = @_;
#
# RFC 2920: Client SMTP implementations MAY elect to operate in a nonblocking
# fashion, processing server responses immediately upon receipt, even if
# there is still data pending transmission from the client's previous TCP
# send operation. If nonblocking operation is not supported, however, client
# SMTP implementations MUST also check the TCP window size and make sure that
# each group of commands fits entirely within the window. The window size
# is usually, but not always, 4K octets.  Failure to perform this check can
# lead to deadlock conditions.
#
# We choose to operate in a nonblocking mode. Responses are read as soon as
# they become available and stored for later, but not immediately processed
# as they come in. This requires some sanity limiting against rogue servers.
#
  my $sock = $self->{socket};
  my $fd_sock = fileno($sock);
  my $timeout = $self->timeout;
  my $timeout_displ = !defined $timeout ? 'undef'
                      : int($timeout) == $timeout ? "$timeout"
                      : sprintf("%.3f",$timeout);
  my $eol_str = $self->{eol_str};
  my $idle_cnt = 0; my $failed_write_attempts = 0;
  local $SIG{PIPE} = 'IGNORE';  # don't signal on a write to a widowed pipe
  for (;;) {
    $idle_cnt++;
    my($rout,$wout,$eout,$rin,$win,$ein); $rin=$win=$ein='';
    my $want_to_write = $self->{out} ne '' && ($flushoutput || $needline);
    ll(5) && do_log(5, 'rw_loop: needline=%d, flush=%s, wr=%d, timeout=%s',
                      $needline, $flushoutput, $want_to_write, $timeout_displ);
    if (!defined($fd_sock)) {
      do_log(3, 'rw_loop read: got a closed socket');
      $self->{inpeof} = 1; last;
    }
    vec($rin,$fd_sock,1) = 1;
    vec($win,$fd_sock,1) = $want_to_write ? 1 : 0;
    $ein = $rin | $win;
    $self->{last_event} = 'select';
    $self->{last_event_time} = Time::HiRes::time;
    my($nfound,$timeleft) =
      select($rout=$rin, $wout=$win, $eout=$ein, $timeout);
    defined $nfound && $nfound >= 0
      or die "Select failed: ".
             (!$self->{ssl_active} ? $! : $sock->errstr.", $!");
    if (vec($rout,$fd_sock,1)) {
      ll(5) && do_log(5, 'rw_loop: receiving');
      my $inbuf = ''; $! = 0;
      my $nread = sysread($sock,$inbuf,16384);
      if ($nread) {  # successful read
        $self->{last_event} = 'read-ok';
        $self->{inpeof} = 0;
        ll(5) && do_log(5,'rw_loop read %d chars< %s', length($inbuf),$inbuf);
        $self->{inp} .= $inbuf; $idle_cnt = 0;
        length($self->{inp}) < $self->{inp_sane_size}
          or die "rw_loop: Aborting on a runaway server, inp_len=" .
                 length($self->{inp});
      } elsif (defined $nread) {  # defined but zero, sysread returns 0 at eof
        $self->{last_event} = 'read-eof';
        $self->{inpeof} = 1;  do_log(3, 'rw_loop read: got eof');
      } elsif ($! == EAGAIN || $! == EINTR) {
        $self->{last_event} = 'read-intr'.(0+$!);
        $idle_cnt = 0;
        do_log($SSL_ERROR == SSL_WANT_READ ? 4 : 2,
            'rw_loop read interrupted: %s',
                  !$self->{ssl_active} ? $! : $sock->errstr.", $!");
        Time::HiRes::sleep(0.1);  # slow down, just in case
        # retry
      } else {
        $self->{last_event} = 'read-fail';
        $self->{inpeof} = 1;
        die "Error reading from socket: ".
             (!$self->{ssl_active} ? $! : $sock->errstr.", $!");
      }
      $self->{last_event_time} = Time::HiRes::time;
    }
    if (vec($wout,$fd_sock,1)) {
      my $out_l = length($self->{out});
      ll(5) && do_log(5,'rw_loop: sending %d chars', $out_l);
      my $nwrite = syswrite($sock, $self->{out});
      if (!defined($nwrite)) {
        if ($! == EAGAIN || $! == EINTR) {
          $self->{last_event} = 'write-intr'.(0+$!);
          $idle_cnt = 0; $failed_write_attempts++;
          do_log(2, 'rw_loop writing %d bytes interrupted: %s', $out_l,
                    !$self->{ssl_active} ? $! : $sock->errstr.", $!");
          Time::HiRes::sleep(0.1);   # slow down, just in case
        } else {
          $self->{last_event} = 'write-fail';
          die sprintf('Error writing %d bytes to socket: %s', $out_l,
                      !$self->{ssl_active} ? $! : $sock->errstr.", $!");
        }
      } else {  # successful write
        $self->{last_event} = 'write-ok';
        my $ll = $nwrite != $out_l ? 4 : 5;
        if (ll($ll)) {
          my $msg = $nwrite==$out_l ? sprintf("%d", $nwrite)
                                    : sprintf("%d (of %d)", $nwrite,$out_l);
          my $nlog = min(200,$nwrite);
          do_log($ll, 'rw_loop sent %s> %s%s',
                $msg, substr($self->{out},0,$nlog), $nlog<$nwrite?' [...]':'');
        };
        $idle_cnt = 0;
        if ($nwrite <= 0) { $failed_write_attempts++ }
        elsif ($nwrite < $out_l) { substr($self->{out},0,$nwrite) = '' }
        else { $self->{out} = '' }
      }
      $self->{last_event_time} = $self->{last_event_tx_time} =
        Time::HiRes::time;
    }
    if ( ( !$needline || !defined($eol_str) || $eol_str eq '' ||
           index($self->{inp},$eol_str) >= 0 ) &&
         ( !$flushoutput || $self->{out} eq '' ) ) {
      last;
    }
    if ($self->{inpeof}) {
      if ($self->{out} ne '') {
        do_log(2, 'rw_loop: EOF on input, output buffer not yet empty');
      }
      last;
    }
    if ($idle_cnt > 0) {  # probably exceeded timeout in select
      do_log(-1, 'rw_loop: leaving rw loop, no progress, '.
                 'last event (%s) %.3f s ago', $self->{last_event},
             Time::HiRes::time - $self->{last_event_time});
      last;
    }
    $failed_write_attempts < 100  or die "rw_loop: Aborting stalled sending";
  }
}

sub socketname
  { @_<2 ? shift->{socketname} : ($_[0]->{socketname} = $_[1]) }
sub protocol
  { @_<2 ? shift->{protocol}   : ($_[0]->{protocol} = $_[1]) }
sub timeout
  { @_<2 ? shift->{timeout}    : ($_[0]->{timeout} = $_[1]) }
sub ssl_active
  { @_<2 ? shift->{ssl_active} : ($_[0]->{ssl_active} = $_[1]) }
sub eof
  { @_<2 ? shift->{client_ip}  : ($_[0]->{client_ip} = $_[1]) }

sub last_io_event_timestamp
  { my($self,$keyword) = @_; $self->{last_event_time} }

sub last_io_event_tx_timestamp
  { my($self,$keyword) = @_; $self->{last_event_tx_time} }

sub flush
  { my $self = $_[0]; $self->rw_loop(0,1) if $self->{out} ne ''; 1 }

sub discard_pending_output
  { my $self = $_[0]; my $len = length $self->{out}; $self->{out} = ''; $len }

sub out_buff_large
  { my $self = $_[0]; length $self->{out} > 40000 }

sub print {
  my $self = shift;
  $self->{out} .= $_  for @_;
  $self->_update_last_written_potential_eol;
# $self->out_buff_large ? $self->flush : 1;
  length $self->{out} > 40000 ? $self->flush : 1;  # inlined out_buff_large()
}

# $self->{last_written_potential_eol} is used by $self->at_line_boundary
# to determine if we are at a line boundary. The idea here is that
# $self->{last_written_potential_eol} always contains the last bytes from
# $self->{out} with the same length as $self->{eol_str}.
sub _update_last_written_potential_eol {
  my $self = shift;

  return unless defined($self->{eol_str});

  my $eol_l = length($self->{eol_str});
  my $new_eol = '';
  my $missing = $eol_l;
  foreach my $last_bytes ($self->{out}, $self->{last_written_potential_eol}) {
    last unless $missing;

    $new_eol = substr($last_bytes, -$missing) . $new_eol;
    $missing = $eol_l - length($new_eol);
  }

  $self->{last_written_potential_eol} = $new_eol;
}

sub at_line_boundary {
  my $self = $_[0];

  return 0 unless defined($self->{eol_str});

  # This either happens when $self->{eol_str} is an empty string, in
  # which case everything is at a line boundary, or if nothing has
  # been written yet, so we are at the start (boundary) of the first
  # line.
  return 1 if $self->{last_written_potential_eol} eq '';

  # Since $self->{last_written_potential_eol} always contains the last written bytes,
  # even if $self->{out} was flushed, we can just check if it equals
  # $self->{eol_str}.
  return $self->{last_written_potential_eol} eq $self->{eol_str};
}

# returns true if there is any full line (or last incomplete line)
# in the buffer waiting to be read, 0 otherwise, undef on eof or error
#
sub response_line_available {
  my $self = $_[0];
  my $eol_str = $self->{eol_str};
  if (!defined $eol_str || $eol_str eq '') {
    return length($self->{inp});
  } elsif (index($self->{inp},$eol_str) >= 0) {
    return 1;
  } elsif ($self->{inpeof} && $self->{inp} eq '') {
    return;  # undef on end-of-file
  } elsif ($self->{inpeof}) {  # partial last line
    return length($self->{inp});
  }
}

# get one full text line, or last partial line, or undef on eof/error/timeout
#
sub get_response_line {
  my $self = $_[0];
  my $ind; my $attempts = 0;
  my $eol_str = $self->{eol_str};
  my $eol_str_l = !defined($eol_str) ? 0 : length($eol_str);
  for (;;) {
    if (!$eol_str_l) {
      my $str = $self->{inp}; $self->{inp} = ''; return $str;
    } elsif (($ind=index($self->{inp},$eol_str)) >= 0) {
      return substr($self->{inp},0,$ind+$eol_str_l,'');
    } elsif ($self->{inpeof} && $self->{inp} eq '') {
      $! = 0; return;  # undef on end-of-file
    } elsif ($self->{inpeof}) {  # return partial last line
      my $str = $self->{inp}; $self->{inp} = ''; return $str;
    } elsif ($attempts > 0) {
      $! = EIO; return;  # timeout or error
    }
    # try reading some more input, one attempt only
    $self->rw_loop(1,0); $attempts++;
  }
}

# read whatever is available, up to LENGTH bytes
#
sub read {  # SCALAR,LENGTH,OFFSET
  my $self = shift; my $len = $_[1]; my $offset = $_[2];
  defined $len  or die "Amavis::IO::RW::read: length argument undefined";
  $len >= 0     or die "Amavis::IO::RW::read: length argument negative";
  $self->rw_loop(0,0);
  my $nbytes = length($self->{inp});
  $nbytes = $len  if $len < $nbytes;
  if (!defined($offset) || $offset == 0) {
    $_[0] = substr($self->{inp}, 0, $len, '');
  } else {
    substr($_[0],$offset) = substr($self->{inp}, 0, $len, '');
  }
  $nbytes;   # eof: 0;  error: undef
}

use vars qw($ssl_cache);
sub ssl_upgrade {
  my($self, %tls_options) = @_;
  $self->flush;
  IO::Socket::SSL->VERSION(1.05);  # required minimal version
  $ssl_cache = IO::Socket::SSL::Session_Cache->new(2)  if !defined $ssl_cache;
  my $sock = $self->{socket};
  IO::Socket::SSL->start_SSL($sock,
    SSL_session_cache => $ssl_cache,
    SSL_error_trap => sub {
      my($sock,$msg) = @_;
      do_log(-2,"Upgrading socket to TLS failed (in ssl_upgrade): %s", $msg);
    },
    (defined($self->{verifycn_name})
      ? (SSL_verifycn_name => $self->{verifycn_name})
      : ()
    ),
    %tls_options,
  ) or die "Error upgrading output socket to TLS: ".IO::Socket::SSL::errstr();
  $self->{last_event} = 'ssl-upgrade';
  $self->{last_event_time} = $self->{last_event_tx_time} = Time::HiRes::time;
  $self->{ssl_active} = 1;
  # An IO::Socket::SSL socket can block a sysread
  # even if selected for read. See issue 74 and
  # perldoc IO::Socket::SSL `Using Non-Blocking Sockets`
  if (defined $sock->blocking(0)) {
      do_log(4, "Setting TLS socket to non-blocking");
  } else {
      die "Error setting TLS socket to non-blocking: $!";
  }
  ll(3) && do_log(3,"TLS cipher: %s", $sock->get_cipher);
  ll(5) && do_log(5,"TLS certif: %s", $sock->dump_peer_certificate);
  1;
}

1;

Anon7 - 2022
AnonSec Team