use Text::ParseWords;
use String::ShellQuote;
use Time::HiRes qw(usleep gettimeofday tv_interval alarm);
-use Net::DBus qw(dbus_uint32 dbus_uint64);
-use Net::DBus::Callback;
-use Net::DBus::Reactor;
use Scalar::Util 'weaken';
use PVE::Syscall;
trim
extract_param
file_copy
+get_host_arch
O_PATH
O_TMPFILE
);
use constant {O_PATH => 0x00200000,
O_TMPFILE => 0x00410000}; # This includes O_DIRECTORY
+use constant {AT_EMPTY_PATH => 0x1000};
+
sub run_with_timeout {
my ($timeout, $code, @param) = @_;
}
sub split_list {
- my $listtxt = shift || '';
+ my $listtxt = shift // '';
return split (/\0/, $listtxt) if $listtxt =~ m/\0/;
return $tmpl if !$tmpl;
my $res = '';
- while ($tmpl =~ m/([^{]+)?({([^}]+)})?/g) {
+ while ($tmpl =~ m/([^{]+)?(\{([^}]+)\})?/g) {
$res .= $1 if $1;
$res .= ($data->{$3} || '-') if $2;
}
'pl' => ['Polish', 'pl', 'qwerty/pl.kmap.gz', 'pl', undef],
'pt' => ['Portuguese', 'pt', 'qwerty/pt-latin1.kmap.gz', 'pt', 'nodeadkeys'],
'pt-br' => ['Brazil-Portuguese', 'pt-br', 'qwerty/br-latin1.kmap.gz', 'br', 'nodeadkeys'],
- #'ru' => ['Russian', 'ru', 'qwerty/ru.kmap.gz', 'ru', undef], # dont know?
+ #'ru' => ['Russian', 'ru', 'qwerty/ru.kmap.gz', 'ru', undef], # don't know?
'si' => ['Slovenian', 'sl', 'qwertz/slovene.kmap.gz', 'si', undef],
'se' => ['Swedish', 'sv', 'qwerty/se-latin1.kmap.gz', 'se', 'nodeadkeys'],
#'th' => [],
return next_unused_port(61000, 61099, $family, $address);
}
+sub must_stringify {
+ my ($value) = @_;
+ eval { $value = "$value" };
+ return "error turning value into a string: $@" if $@;
+ return $value;
+}
+
# sigkill after $timeout a $sub running in a fork if it can't write a pipe
# the $sub has to return a single scalar
sub run_fork_with_timeout {
# avoid leaving a zombie if the parent gets interrupted
my $sig_received;
- local $SIG{INT} = sub { $sig_received++; };
my $child = fork();
if (!defined($child)) {
$pipe_out->flush();
};
if (my $err = $@) {
- print {$pipe_out} encode_json({ error => $err });
+ print {$pipe_out} encode_json({ error => must_stringify($err) });
$pipe_out->flush();
POSIX::_exit(1);
}
POSIX::_exit(0);
}
+ local $SIG{INT} = sub { $sig_received++; };
+ local $SIG{TERM} = sub {
+ $error //= "interrupted by unexpected signal\n";
+ kill('TERM', $child);
+ };
+
$pipe_out->reader();
my $readvalues = sub {
local $/ = undef;
- my $child_res = decode_json(scalar<$pipe_out>);
+ my $child_res = decode_json(readline_nointr($pipe_out));
$res = $child_res->{result};
$error = $child_res->{error};
};
my $res = eval { run_fork_with_timeout($timeout, $df) } // {};
warn $@ if $@;
+ # untaint the values
+ my ($blocks, $used, $bavail) = map { defined($_) ? (/^(\d+)$/) : 0 }
+ $res->@{qw(blocks used bavail)};
+
return {
- total => $res->{blocks} // 0,
- used => $res->{used} // 0,
- avail => $res->{bavail} // 0,
+ total => $blocks,
+ used => $used,
+ avail => $bavail,
};
}
+sub du {
+ my ($path, $timeout) = @_;
+
+ my $size;
+
+ $timeout //= 10;
+
+ my $parser = sub {
+ my $line = shift;
+
+ if ($line =~ m/^(\d+)\s+total$/) {
+ $size = $1;
+ }
+ };
+
+ run_command(['du', '-scb', $path], outfunc => $parser, timeout => $timeout);
+
+ return $size;
+}
+
# UPID helper
# We use this to uniquely identify a process.
# An 'Unique Process ID' has the following format:
return; # nothing
}
+sub setresuid($$$) {
+ my ($ruid, $euid, $suid) = @_;
+ return 0 == syscall(PVE::Syscall::setresuid, $ruid, $euid, $suid);
+}
+
sub unshare($) {
my ($flags) = @_;
return 0 == syscall(PVE::Syscall::unshare, $flags);
return 0 == syscall(PVE::Syscall::syncfs, $fileno);
}
+sub fsync($) {
+ my ($fileno) = @_;
+ return 0 == syscall(PVE::Syscall::fsync, $fileno);
+}
+
sub sync_mountpoint {
my ($path) = @_;
sysopen my $fd, $path, O_PATH or die "failed to open $path: $!\n";
return syscall(PVE::Syscall::mkdirat, $dirfd, $name, $mode) == 0;
}
-# NOTE: This calls the dbus main loop and must not be used when another dbus
-# main loop is being used as we need to wait for the JobRemoved signal.
-# Polling the job status instead doesn't work because this doesn't give us the
-# distinction between success and failure.
-#
-# Note that the description is mandatory for security reasons.
-sub enter_systemd_scope {
- my ($unit, $description, %extra) = @_;
- die "missing description\n" if !defined($description);
-
- my $timeout = delete $extra{timeout};
-
- $unit .= '.scope';
- my $properties = [ [PIDs => [dbus_uint32($$)]] ];
-
- foreach my $key (keys %extra) {
- if ($key eq 'Slice' || $key eq 'KillMode') {
- push @$properties, [$key, $extra{$key}];
- } elsif ($key eq 'CPUShares') {
- push @$properties, [$key, dbus_uint64($extra{$key})];
- } elsif ($key eq 'CPUQuota') {
- push @$properties, ['CPUQuotaPerSecUSec',
- dbus_uint64($extra{$key} * 10000)];
- } else {
- die "Don't know how to encode $key for systemd scope\n";
- }
- }
-
- my $job;
- my $done = 0;
-
- my $bus = Net::DBus->system();
- my $reactor = Net::DBus::Reactor->main();
-
- my $service = $bus->get_service('org.freedesktop.systemd1');
- my $if = $service->get_object('/org/freedesktop/systemd1', 'org.freedesktop.systemd1.Manager');
- # Connect to the JobRemoved signal since we want to wait for it to finish
- my $sigid;
- my $timer;
- my $cleanup = sub {
- my ($no_shutdown) = @_;
- $if->disconnect_from_signal('JobRemoved', $sigid) if defined($if);
- $if = undef;
- $sigid = undef;
- $reactor->remove_timeout($timer) if defined($timer);
- $timer = undef;
- return if $no_shutdown;
- $reactor->shutdown();
- };
-
- $sigid = $if->connect_to_signal('JobRemoved', sub {
- my ($id, $removed_job, $signaled_unit, $result) = @_;
- return if $signaled_unit ne $unit || $removed_job ne $job;
- $cleanup->(0);
- die "systemd job failed\n" if $result ne 'done';
- $done = 1;
- });
-
- my $on_timeout = sub {
- $cleanup->(0);
- die "systemd job timed out\n";
- };
-
- $timer = $reactor->add_timeout($timeout * 1000, Net::DBus::Callback->new(method => $on_timeout))
- if defined($timeout);
- $job = $if->StartTransientUnit($unit, 'fail', $properties, []);
- $reactor->run();
- $cleanup->(1);
- die "systemd job never completed\n" if !$done;
+sub fchownat($$$$$) {
+ my ($dirfd, $pathname, $owner, $group, $flags) = @_;
+ return syscall(PVE::Syscall::fchownat, $dirfd, $pathname, $owner, $group, $flags) == 0;
}
my $salt_starter = time();
return int($value);
}
+# uninterruptible readline
+# retries on EINTR
+sub readline_nointr {
+ my ($fh) = @_;
+ my $line;
+ while (1) {
+ $line = <$fh>;
+ last if defined($line) || ($! != EINTR);
+ }
+ return $line;
+}
+
+my $host_arch;
+sub get_host_arch() {
+ $host_arch = (POSIX::uname())[4] if !$host_arch;
+ return $host_arch;
+}
+
+# Devices are: [ (12 bits minor) (12 bits major) (8 bits minor) ]
+sub dev_t_major($) {
+ my ($dev_t) = @_;
+ return (int($dev_t) & 0xfff00) >> 8;
+}
+
+sub dev_t_minor($) {
+ my ($dev_t) = @_;
+ $dev_t = int($dev_t);
+ return (($dev_t >> 12) & 0xfff00) | ($dev_t & 0xff);
+}
+
+# Given an array of array refs [ \[a b c], \[a b b], \[e b a] ]
+# Returns the intersection of elements as a single array [a b]
+sub array_intersect {
+ my ($arrays) = @_;
+
+ if (!ref($arrays->[0])) {
+ $arrays = [ grep { ref($_) eq 'ARRAY' } @_ ];
+ }
+
+ return [] if scalar(@$arrays) == 0;
+ return $arrays->[0] if scalar(@$arrays) == 1;
+
+ my $array_unique = sub {
+ my %seen = ();
+ return grep { ! $seen{ $_ }++ } @_;
+ };
+
+ # base idea is to get all unique members from the first array, then
+ # check the common elements with the next (uniquely made) one, only keep
+ # those. Repeat for every array and at the end we only have those left
+ # which exist in all arrays
+ my $return_arr = [ $array_unique->(@{$arrays->[0]}) ];
+ for my $i (1 .. $#$arrays) {
+ my %count = ();
+ # $return_arr is already unique, explicit at before the loop, implicit below.
+ foreach my $element (@$return_arr, $array_unique->(@{$arrays->[$i]})) {
+ $count{$element}++;
+ }
+ $return_arr = [];
+ foreach my $element (keys %count) {
+ push @$return_arr, $element if $count{$element} > 1;
+ }
+ last if scalar(@$return_arr) == 0; # empty intersection, early exit
+ }
+
+ return $return_arr;
+}
+
+
1;