nixpkgs/lib/test-driver/Machine.pm
Eelco Dolstra 363806e89b * To establish the connection to the root shell in the guest, let the
guest connect to a Unix domain socket on the host rather than the
  other way around.  The former is a QEMU feature (guestfwd to a
  socket) while the latter requires a patch (which we can now get rid
  of).

svn path=/nixos/branches/boot-order/; revision=22331
2010-06-18 19:31:02 +00:00

461 lines
11 KiB
Perl

package Machine;
use strict;
use threads;
use Socket;
use IO::Handle;
use POSIX qw(dup2);
use FileHandle;
use Cwd;
# Stuff our PID in the multicast address/port to prevent collissions
# with other NixOS VM networks. See
# http://www.iana.org/assignments/multicast-addresses/.
my $mcastPrefix = "232.18";
my $mcastSuffix = ($$ >> 8) . ":" . (64000 + ($$ & 0xff));
print STDERR "using multicast addresses $mcastPrefix.<vlan>.$mcastSuffix\n";
for (my $n = 0; $n < 256; $n++) {
$ENV{"QEMU_MCAST_ADDR_$n"} = "$mcastPrefix.$n.$mcastSuffix";
}
sub new {
my ($class, $args) = @_;
my $startCommand = $args->{startCommand};
if (!$startCommand) {
# !!! merge with qemu-vm.nix.
$startCommand =
"qemu-system-x86_64 -m 384 " .
"-net nic,model=virtio -net user \$QEMU_OPTS ";
$startCommand .= "-drive file=" . Cwd::abs_path($args->{hda}) . ",if=virtio,boot=on,werror=report "
if defined $args->{hda};
$startCommand .= "-cdrom $args->{cdrom} "
if defined $args->{cdrom};
$startCommand .= $args->{qemuFlags} || "";
}
my $name = $args->{name};
if (!$name) {
$startCommand =~ /run-(.*)-vm$/;
$name = $1 || "machine";
}
my $tmpDir = $ENV{'TMPDIR'} || "/tmp";
my $self = {
startCommand => $startCommand,
name => $name,
booted => 0,
pid => 0,
connected => 0,
socket => undef,
stateDir => "$tmpDir/$name",
monitor => undef,
};
mkdir $self->{stateDir}, 0700;
bless $self, $class;
return $self;
}
sub log {
my ($self, $msg) = @_;
chomp $msg;
print STDERR $self->{name}, ": $msg\n";
}
sub name {
my ($self) = @_;
return $self->{name};
}
sub stateDir {
my ($self) = @_;
return $self->{stateDir};
}
sub start {
my ($self) = @_;
return if $self->{booted};
$self->log("starting vm");
# Create a socket pair for the serial line input/output of the VM.
my ($serialP, $serialC);
socketpair($serialP, $serialC, PF_UNIX, SOCK_STREAM, 0) or die;
# Create a Unix domain socket to which QEMU's monitor will connect.
my $monitorPath = $self->{stateDir} . "/monitor";
unlink $monitorPath;
my $monitorS;
socket($monitorS, PF_UNIX, SOCK_STREAM, 0) or die;
bind($monitorS, sockaddr_un($monitorPath)) or die "cannot bind monitor socket: $!";
listen($monitorS, 1) or die;
# Create a Unix domain socket to which the root shell in the guest will connect.
my $shellPath = $self->{stateDir} . "/shell";
unlink $shellPath;
my $shellS;
socket($shellS, PF_UNIX, SOCK_STREAM, 0) or die;
bind($shellS, sockaddr_un($shellPath)) or die "cannot bind shell socket: $!";
listen($shellS, 1) or die;
# Start the VM.
my $pid = fork();
die if $pid == -1;
if ($pid == 0) {
close $serialP;
close $monitorS;
close $shellS;
open NUL, "</dev/null" or die;
dup2(fileno(NUL), fileno(STDIN));
dup2(fileno($serialC), fileno(STDOUT));
dup2(fileno($serialC), fileno(STDERR));
$ENV{TMPDIR} = $self->{stateDir};
$ENV{USE_TMPDIR} = 1;
$ENV{QEMU_OPTS} = "-nographic -no-reboot -monitor unix:./monitor -chardev socket,id=shell,path=./shell";
$ENV{QEMU_NET_OPTS} = "guestfwd=tcp:10.0.2.6:23-chardev:shell";
$ENV{QEMU_KERNEL_PARAMS} = "hostTmpDir=$ENV{TMPDIR}";
chdir $self->{stateDir} or die;
exec $self->{startCommand};
die;
}
# Process serial line output.
close $serialC;
threads->create(\&processSerialOutput, $self, $serialP)->detach;
sub processSerialOutput {
my ($self, $serialP) = @_;
while (<$serialP>) {
chomp;
s/\r$//;
print STDERR $self->name, "# $_\n";
}
}
eval {
local $SIG{CHLD} = sub { die "QEMU died prematurely\n"; };
# Wait until QEMU connects to the monitor.
accept($self->{monitor}, $monitorS) or die;
# Wait until QEMU connects to the root shell socket. QEMU
# does so immediately; this doesn't mean that the root shell
# has connected yet inside the guest.
accept($self->{socket}, $shellS) or die;
$self->{socket}->autoflush(1);
};
die "$@" if $@;
$self->waitForMonitorPrompt;
$self->log("QEMU running (pid $pid)");
$self->{pid} = $pid;
$self->{booted} = 1;
}
# Send a command to the monitor and wait for it to finish. TODO: QEMU
# also has a JSON-based monitor interface now, but it doesn't support
# all commands yet. We should use it once it does.
sub sendMonitorCommand {
my ($self, $command) = @_;
$self->log("sending monitor command: $command");
syswrite $self->{monitor}, "$command\n";
return $self->waitForMonitorPrompt;
}
# Wait until the monitor sends "(qemu) ".
sub waitForMonitorPrompt {
my ($self) = @_;
my $res = "";
my $s;
while (sysread($self->{monitor}, $s, 1024)) {
$res .= $s;
last if $res =~ s/\(qemu\) $//;
}
return $res;
}
# Call the given code reference repeatedly, with 1 second intervals,
# until it returns 1 or a timeout is reached.
sub retry {
my ($coderef) = @_;
my $n;
for ($n = 0; $n < 900; $n++) {
return if &$coderef;
sleep 1;
}
die "action timed out after $n seconds";
}
sub connect {
my ($self) = @_;
return if $self->{connected};
$self->start;
my $line = readline $self->{socket} or die;
$self->log("connected to guest root shell");
$self->{connected} = 1;
}
sub waitForShutdown {
my ($self) = @_;
return unless $self->{booted};
waitpid $self->{pid}, 0;
$self->{pid} = 0;
$self->{booted} = 0;
$self->{connected} = 0;
}
sub isUp {
my ($self) = @_;
return $self->{booted} && $self->{connected};
}
sub execute {
my ($self, $command) = @_;
$self->connect;
$self->log("running command: $command");
print { $self->{socket} } ("( $command ); echo '|!=EOF' \$?\n");
my $out = "";
while (1) {
my $line = readline($self->{socket}) or die "connection to VM lost unexpectedly";
#$self->log("got line: $line");
if ($line =~ /^(.*)\|\!\=EOF\s+(\d+)$/) {
$out .= $1;
$self->log("exit status $2");
return ($2, $out);
}
$out .= $line;
}
}
sub succeed {
my ($self, @commands) = @_;
my $res;
foreach my $command (@commands) {
my ($status, $out) = $self->execute($command);
if ($status != 0) {
$self->log("output: $out");
die "command `$command' did not succeed (exit code $status)";
}
$res .= $out;
}
return $res;
}
sub mustSucceed {
succeed @_;
}
sub waitUntilSucceeds {
my ($self, $command) = @_;
retry sub {
my ($status, $out) = $self->execute($command);
return 1 if $status == 0;
};
}
sub waitUntilFails {
my ($self, $command) = @_;
retry sub {
my ($status, $out) = $self->execute($command);
return 1 if $status != 0;
};
}
sub fail {
my ($self, $command) = @_;
my ($status, $out) = $self->execute($command);
die "command `$command' unexpectedly succeeded"
if $status == 0;
}
sub mustFail {
fail @_;
}
# Wait for an Upstart job to reach the "running" state.
sub waitForJob {
my ($self, $jobName) = @_;
retry sub {
my ($status, $out) = $self->execute("initctl status $jobName");
return 1 if $out =~ /start\/running/;
};
}
# Wait until the specified file exists.
sub waitForFile {
my ($self, $fileName) = @_;
retry sub {
my ($status, $out) = $self->execute("test -e $fileName");
return 1 if $status == 0;
}
}
sub stopJob {
my ($self, $jobName) = @_;
$self->execute("initctl stop $jobName");
my ($status, $out) = $self->execute("initctl status $jobName");
die "failed to stop $jobName" unless $out =~ /stop\/waiting/;
}
# Wait until the machine is listening on the given TCP port.
sub waitForOpenPort {
my ($self, $port) = @_;
retry sub {
my ($status, $out) = $self->execute("nc -z localhost $port");
return 1 if $status == 0;
}
}
# Wait until the machine is not listening on the given TCP port.
sub waitForClosedPort {
my ($self, $port) = @_;
retry sub {
my ($status, $out) = $self->execute("nc -z localhost $port");
return 1 if $status != 0;
}
}
sub shutdown {
my ($self) = @_;
return unless $self->{booted};
$self->execute("poweroff");
$self->waitForShutdown;
}
sub crash {
my ($self) = @_;
return unless $self->{booted};
$self->sendMonitorCommand("quit");
$self->waitForShutdown;
}
# Make the machine unreachable by shutting down eth1 (the multicast
# interface used to talk to the other VMs). We keep eth0 up so that
# the test driver can continue to talk to the machine.
sub block {
my ($self) = @_;
$self->sendMonitorCommand("set_link virtio-net-pci.1 down");
}
# Make the machine reachable.
sub unblock {
my ($self) = @_;
$self->sendMonitorCommand("set_link virtio-net-pci.1 up");
}
# Take a screenshot of the X server on :0.0.
sub screenshot {
my ($self, $filename) = @_;
$filename = "$ENV{'out'}/${filename}.png" if $filename =~ /^\w+$/;
my $tmp = "${filename}.ppm";
$self->sendMonitorCommand("screendump $tmp");
system("convert $tmp ${filename}") == 0
or die "cannot convert screenshot";
unlink $tmp;
}
# Wait until it is possible to connect to the X server. Note that
# testing the existence of /tmp/.X11-unix/X0 is insufficient.
sub waitForX {
my ($self, $regexp) = @_;
retry sub {
my ($status, $out) = $self->execute("xwininfo -root > /dev/null 2>&1");
return 1 if $status == 0;
}
}
sub getWindowNames {
my ($self) = @_;
my $res = $self->mustSucceed(
q{xwininfo -root -tree | sed 's/.*0x[0-9a-f]* \"\([^\"]*\)\".*/\1/; t; d'});
return split /\n/, $res;
}
sub waitForWindow {
my ($self, $regexp) = @_;
retry sub {
my @names = $self->getWindowNames;
foreach my $n (@names) {
return 1 if $n =~ /$regexp/;
}
}
}
sub copyFileFromHost {
my ($self, $from, $to) = @_;
my $s = `cat $from` or die;
$self->mustSucceed("echo '$s' > $to"); # !!! escaping
}
sub sendKeys {
my ($self, @keys) = @_;
foreach my $key (@keys) {
$key = "spc" if $key eq " ";
$key = "ret" if $key eq "\n";
$self->sendMonitorCommand("sendkey $key");
}
}
sub sendChars {
my ($self, $chars) = @_;
$self->sendKeys(split //, $chars);
}
1;