t_load

#! /usr/bin/perl -w

# Test script for sslh -- mass communication

# This creates many clients that perform concurrent
# connections, disconnect at any time, and try to generally
# behave as badly as possible.

# It can be used to test sslh behaves properly with many
# clients, however its main use is to get an idea of how
# much load it can take on your system before things start
# to go wrong.

use strict;
use IO::Socket::INET6;
use Data::Dumper;
use Conf::Libconfig 1.0.3;

## BEGIN TEST CONFIG

# How many total clients to we start? Each client will pick
# a new protocol among what's in test.cfg.
my $NUM_CNX = 16;

# Delay between starting new processes when starting up. If
# you start 200 processes in under a second, things go wrong
# and it's not sslh's fault (typically the echosrv won't be
# forking fast enough).
my $start_time_delay = .5;

# Max times we repeat the test string: allows to test for
# large messages.
my $block_rpt = 5;

# Probability to stop a client after a message (e.g. with
# .01 a client will send an average of 100 messages before
# disconnecting).
my $stop_client_probability = .0001;

##END CONFIG

my $conf = new Conf::Libconfig;
$conf->read_file("test.cfg");


# Pick one address for TCP and one for UDP
my @listen = @{$conf->value("listen")};
my ($sslh_tcp_address, $sslh_udp_address);

foreach my $l (@listen) {
    if ($l->{is_udp}) {
        $sslh_udp_address //= "$l->{host}:$l->{port}";
    } else {
        $sslh_tcp_address //= "$l->{host}:$l->{port}";
    }
    last if defined $sslh_tcp_address and defined $sslh_udp_address;
}


# code snippets to connect to each protocol
my %connect_params = (
    regex => {
        is_udp => 1,
        sleep => 0,
        test_data => "foo bar",
        resp_len => 12,
    },
    ssh => {
        sleep => 20,  # So it times out 50% of connections
        test_data => "SSH-2.0 hello",
        resp_len => 18,  # length "ssh: SSH-2.0 hello" => 18
    },
    tinc => {
        sleep => 0,
        test_data => "0 ",
        resp_len => 8, # length "tinc: 0 " => 10
    },
    openvpn => {
        sleep => 0,
        test_data => "\x00\x00",
        resp_len => 11,  # length "openvpn: \x0\x0" => 11
    },
);

sub connect_service {
    my ($cnx, $service) = @_;

    my $params = $connect_params{$service};

    sleep rand $params->{sleep};
    my $test_data = $params->{test_data};
    syswrite $cnx, $test_data;
    sleep 1;
    sysread $cnx, my $r, $params->{resp_len}; 

    my $expected = "$service: $test_data";
    return ($r eq $expected);
}


sub client {
    my ($protocol, $client_id, $fd_out) = @_;

    my $service = $protocol->{name};

    while (1) {
        my $r;
        #warn "$client_id: connect $sslh_tcp_address\n";
        my $cnx = new IO::Socket::INET(PeerHost => $sslh_tcp_address);
        die "$@\n" if (!$cnx);

        my $cnt = 0;

        #warn "$client_id: connecting $service\n";

        if (not connect_service($cnx, $service)) {
            print $fd_out "$client_id\t0\tC\n";
            warn "$client_id: connecting failed\n";
            exit;
        }

        #warn "$client_id: shoveling $service\n";

        while (1) {
            my $test_data = "$service $cnt" x int(rand($block_rpt)+1) . "\n";
            print $cnx $test_data;
            $r = <$cnx>;
            my $expected= "$test_data";
            my $r_l = length $r;
            my $e_l = length $expected;
            $fd_out->autoflush;
            my $error = "";
            $error = "E" if $r ne $expected;
            print $fd_out ("$client_id\t$r_l\t$error\n");
            ($? = 1, die "$service got [$r] expected [$expected]\n") if ($r ne $expected);
            if (rand(1) < $stop_client_probability) {
                print $fd_out ("$client_id\t$r_l\tD\n");
                last;
            }
            $cnt++;
        }
    }
    exit 0;
}

# For now, a simple regex client
sub udp_client {
    my ($protocol, $client_id, $fd_out) = @_;

    warn "UDP client starts\n";

    while (1) {
        my $cnx = new IO::Socket::INET(Proto => 'udp', PeerHost => $sslh_udp_address);
        #        my $cnx; socket $cnx, PF_INET, SOCK_DGRAM, 0 or die "socket: $!\n";
        die "$@\n" if (!$cnx);
        my $cnt = 0;

        while (1) {
            my $test_data = "foo udp $cnt"x int(rand($block_rpt)+1). "\n";

            my $ipaddr   = inet_aton("localhost");
            my $portaddr = sockaddr_in(8086, $ipaddr);
            my $res = send($cnx, $test_data, 0, $portaddr);
            if ($res != length($test_data)) {
                die "cannot sendto: $!";
            }

            my $expected= "$protocol->{name}: $test_data";

            my $r;
            defined(recv($cnx, $r, length $expected, 0)) or die "recv: $!\n";

            my $r_l = length $r;
            my $e_l = length $expected;
            $fd_out->autoflush;
            my $error = "";
            $error = "M" if $r ne $expected;
            print $fd_out ("$client_id\t$r_l\t$error\n");
            ($? = 1, die "udp got [$r] expected [$expected]\n") if ($r ne $expected);
            if (rand(1) < $stop_client_probability) {
                print $fd_out ("$client_id\t$r_l\tD\n");
                last;
            }
            $cnt++;
        }
    }
}

foreach my $p (@{$conf->value("protocols")}) {
    if (!fork) {
        my $udp = $p->{is_udp} ? "--udp" : "";
        my $cmd = "./echosrv $udp -p $p->{host}:$p->{port} --prefix '$p->{name}: ' 2> /dev/null";
        warn "$cmd\n";
        exec $cmd;
        exit;
    }
}

warn "Don't forget to run sslh -F test.cfg!\n";

sleep 2; # Let echosrv's and sslh start

my ($c_in, $c_out);
pipe $c_in, $c_out;

my @protocols = @{$conf->value("protocols")};

if (!fork) {
    # Process that starts all the clients
    for my $client_num (1 .. $NUM_CNX) {
            if (!fork) {
                my @supported_protocols = keys %connect_params;
                my $p_name = $supported_protocols[rand @supported_protocols];
                my @p = grep { $_->{name} eq $p_name } @protocols;
                my $p = shift @p;
                if ($p->{is_udp}) {
                    udp_client($p, "$p->{name}$client_num", $c_out);
                } else {
                    client($p, "$p->{name}$client_num", $c_out);
                }
                exit;
            }
            # Give a little time so we don't overrun the
            # listen(2) backlog.
            select undef, undef, undef, $start_time_delay;
    }
    exit;
} else {
    my %data;

    # The condition here selects between pretty output or
    # raw output
    if (1) {
        my $CLEAR_LINE = "\033[2K";
        my $CURSOR_HOME = "\033[1;1H";
        my $CLEAR_SCREEN = "\033[2J";

        # Process that retrieves client output to pretty print
        print $CLEAR_SCREEN; # Clear screen
        while (<$c_in>) {
            chop;
            my ($client_id, $r_l, $error, @rest) = split /\t/, $_;

            $data{$client_id} = [ 0, ""] if not exists $data{$client_id};
            my ($curr_rcv) = ${$data{$client_id}}[0] + $r_l;;
            $error //= "";
            my ($curr_error) = "${$data{$client_id}}[1]$error";
            # Consolidate into... roman numerals!
            $curr_error =~ s/D{10}/X/;
            $curr_error =~ s/X{10}/C/;
            $curr_error =~ s/C{10}/M/;

            $data{$client_id} = [ $r_l + $curr_rcv, "$curr_error$error" ];


            $client_id =~ /(\d+)/;
            my $i = $1;
            #            print $CURSOR_HOME;
            print "\033[$i;1H$CLEAR_LINE$client_id\t$curr_rcv\t$curr_error\n";
            #foreach my $i (sort keys %data) {
            #    ($r_l, $error) = @{$data{$i}};
            #    print "$CLEAR_LINE$i\t$r_l\t$error\n"; 
        }
    } else {
        # Just print the client outputs
        while (<$c_in>) {
            print;
        }
    }
}

warn "waiting\n";
wait;
warn "finished waiting\n";


`killall echosrv`;