#! @perl@ -w -I@libDir@ -I@readline@ use strict; use Machine; use Term::ReadLine; $SIG{PIPE} = 'IGNORE'; # because Unix domain sockets may die unexpectedly $ENV{PATH} = "@extraPath@:$ENV{PATH}"; STDERR->autoflush(1); my %vms; my $context = ""; foreach my $vmScript (@ARGV) { my $vm = Machine->new({startCommand => $vmScript}); $vms{$vm->name} = $vm; $context .= "my \$" . $vm->name . " = \$vms{'" . $vm->name . "'}; "; } sub startAll { $_->start foreach values %vms; } sub runTests { if (defined $ENV{tests}) { eval "$context $ENV{tests}"; die $@ if $@; } else { my $term = Term::ReadLine->new('nixos-vm-test'); $term->ReadHistory; while (defined ($_ = $term->readline("> "))) { eval "$context $_\n"; warn $@ if $@; } $term->WriteHistory; } # Copy the kernel coverage data for each machine, if the kernel # has been compiled with coverage instrumentation. foreach my $vm (values %vms) { my $gcovDir = "/sys/kernel/debug/gcov"; next unless $vm->isUp(); my ($status, $out) = $vm->execute("test -e $gcovDir"); next if $status != 0; # Figure out where to put the *.gcda files so that the report # generator can find the corresponding kernel sources. my $kernelDir = $vm->mustSucceed("echo \$(dirname \$(readlink -f /var/run/current-system/kernel))/.build/linux-*"); chomp $kernelDir; my $coverageDir = "/hostfs" . $vm->stateDir() . "/coverage-data/$kernelDir"; # Copy all the *.gcda files. $vm->execute("for d in $gcovDir/nix/store/*/.build/linux-*; do for i in \$(cd \$d && find -name '*.gcda'); do echo \$i; mkdir -p $coverageDir/\$(dirname \$i); cp -v \$d/\$i $coverageDir/\$i; done; done"); } } # Create an empty qcow2 virtual disk with the given name and size (in # MiB). sub createDisk { my ($name, $size) = @_; system("qemu-img create -f qcow2 $name ${size}M") == 0 or die "cannot create image of size $size"; } END { foreach my $vm (values %vms) { if ($vm->{pid}) { print STDERR "killing ", $vm->{name}, " (pid ", $vm->{pid}, ")\n"; kill 9, $vm->{pid}; } } } runTests;