#!/usr/bin/env perl # Copyright (C) 2007,2008,2009,2010,2011,2012,2013,2014 Ole Tange and # Free Software Foundation, Inc. # # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 3 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, but # WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU # General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program; if not, see # or write to the Free Software Foundation, Inc., 51 Franklin St, # Fifth Floor, Boston, MA 02110-1301 USA # open3 used in Job::start use IPC::Open3; # &WNOHANG used in reaper use POSIX qw(:sys_wait_h setsid ceil :errno_h); # gensym used in Job::start use Symbol qw(gensym); # tempfile used in Job::start use File::Temp qw(tempfile tempdir); # mkpath used in openresultsfile use File::Path; # GetOptions used in get_options_from_array use Getopt::Long; # Used to ensure code quality use strict; use File::Basename; if(not $ENV{HOME}) { # $ENV{HOME} is sometimes not set if called from PHP ::warning("\$HOME not set. Using /tmp\n"); $ENV{HOME} = "/tmp"; } save_stdin_stdout_stderr(); save_original_signal_handler(); parse_options(); ::debug("init", "Open file descriptors: ", join(" ",keys %Global::fd), "\n"); my $number_of_args; if($Global::max_number_of_args) { $number_of_args=$Global::max_number_of_args; } elsif ($opt::X or $opt::m or $opt::xargs) { $number_of_args = undef; } else { $number_of_args = 1; } my @command; @command = @ARGV; my @fhlist; if($opt::pipepart) { @fhlist = map { open_or_exit($_) } "/dev/null"; } else { @fhlist = map { open_or_exit($_) } @opt::a; if(not @fhlist and not $opt::pipe) { @fhlist = (*STDIN); } } if($opt::skip_first_line) { # Skip the first line for the first file handle my $fh = $fhlist[0]; <$fh>; } if($opt::header and not $opt::pipe) { my $fh = $fhlist[0]; # split with colsep or \t # $header force $colsep = \t if undef? my $delimiter = $opt::colsep; $delimiter ||= "\$"; my $id = 1; for my $fh (@fhlist) { my $line = <$fh>; chomp($line); ::debug("init", "Delimiter: '$delimiter'"); for my $s (split /$delimiter/o, $line) { ::debug("init", "Colname: '$s'"); # Replace {colname} with {2} # TODO accept configurable short hands # TODO how to deal with headers in {=...=} for(@command) { s:\{$s(|/|//|\.|/\.)\}:\{$id$1\}:g; } $Global::input_source_header{$id} = $s; $id++; } } } else { my $id = 1; for my $fh (@fhlist) { $Global::input_source_header{$id} = $id; $id++; } } if($opt::filter_hosts and (@opt::sshlogin or @opt::sshloginfile)) { # Parallel check all hosts are up. Remove hosts that are down filter_hosts(); } if($opt::nonall or $opt::onall) { onall(@command); wait_and_exit(min(undef_as_zero($Global::exitstatus),254)); } # TODO --transfer foo/./bar --cleanup # multiple --transfer and --basefile with different /./ $Global::JobQueue = JobQueue->new( \@command,\@fhlist,$Global::ContextReplace,$number_of_args,\@Global::ret_files); if($opt::eta or $opt::bar) { # Count the number of jobs before starting any $Global::JobQueue->total_jobs(); } if($opt::pipepart) { @Global::cat_partials = map { pipe_part_files($_) } @opt::a; # Unget the command as many times as there are parts $Global::JobQueue->{'commandlinequeue'}->unget( map { $Global::JobQueue->{'commandlinequeue'}->get() } @Global::cat_partials ); } for my $sshlogin (values %Global::host) { $sshlogin->max_jobs_running(); } init_run_jobs(); my $sem; if($Global::semaphore) { $sem = acquire_semaphore(); } $SIG{TERM} = \&start_no_new_jobs; start_more_jobs(); if(not $opt::pipepart) { if($opt::pipe) { spreadstdin(); } } ::debug("init", "Start draining\n"); drain_job_queue(); ::debug("init", "Done draining\n"); reaper(); ::debug("init", "Done reaping\n"); if($opt::pipe and @opt::a) { for my $job (@Global::tee_jobs) { unlink $job->fh(2,"name"); $job->set_fh(2,"name",""); $job->print(); unlink $job->fh(1,"name"); } } ::debug("init", "Cleaning\n"); cleanup(); if($Global::semaphore) { $sem->release(); } for(keys %Global::sshmaster) { kill "TERM", $_; } ::debug("init", "Halt\n"); if($opt::halt_on_error) { wait_and_exit($Global::halt_on_error_exitstatus); } else { wait_and_exit(min(undef_as_zero($Global::exitstatus),254)); } sub __PIPE_MODE__ {} sub pipe_part_files { # Input: # $file = the file to read # Returns: # @commands that will cat_partial each part my ($file) = @_; my $buf = ""; my $header = find_header(\$buf,open_or_exit($file)); # find positions my @pos = find_split_positions($file,$opt::blocksize,length $header); # Make @cat_partials my @cat_partials = (); for(my $i=0; $i<$#pos; $i++) { push @cat_partials, cat_partial($file, 0, length($header), $pos[$i], $pos[$i+1]); } # Remote exec should look like: # ssh -oLogLevel=quiet lo 'eval `echo $SHELL | grep "/t\{0,1\}csh" > /dev/null && echo setenv PARALLEL_SEQ '$PARALLEL_SEQ'\; setenv PARALLEL_PID '$PARALLEL_PID' || echo PARALLEL_SEQ='$PARALLEL_SEQ'\;export PARALLEL_SEQ\; PARALLEL_PID='$PARALLEL_PID'\;export PARALLEL_PID` ;' tty\ \>/dev/null\ \&\&\ stty\ isig\ -onlcr\ -echo\;echo\ \$SHELL\ \|\ grep\ \"/t\\\{0,1\\\}csh\"\ \>\ /dev/null\ \&\&\ setenv\ FOO\ /tmp/foo\ \|\|\ export\ FOO=/tmp/foo\; \(wc\ -\ \$FOO\) # ssh -tt not allowed. Remote will die due to broken pipe anyway. # TODO test remote with --fifo / --cat return @cat_partials; } sub find_header { # Input: # $buf_ref = reference to read-in buffer # $fh = filehandle to read from # Uses: # $opt::header # $opt::blocksize # Returns: # $header string my ($buf_ref, $fh) = @_; my $header = ""; if($opt::header) { if($opt::header eq ":") { $opt::header = "(.*\n)"; } # Number = number of lines $opt::header =~ s/^(\d+)$/"(.*\n)"x$1/e; while(read($fh,substr($$buf_ref,length $$buf_ref,0),$opt::blocksize)) { if($$buf_ref=~s/^($opt::header)//) { $header = $1; last; } } } return $header; } sub find_split_positions { # Input: # $file = the file to read # $block = (minimal) --block-size of each chunk # $headerlen = length of header to be skipped # Uses: # $opt::recstart # $opt::recend # Returns: # @positions of block start/end my($file, $block, $headerlen) = @_; my $size = -s $file; $block = int $block; # The optimal dd blocksize for mint, redhat, solaris, openbsd = 2^17..2^20 # The optimal dd blocksize for freebsd = 2^15..2^17 my $dd_block_size = 131072; # 2^17 my @pos; my ($recstart,$recend) = recstartrecend(); my $recendrecstart = $recend.$recstart; my $fh = ::open_or_exit($file); push(@pos,$headerlen); for(my $pos = $block+$headerlen; $pos < $size; $pos += $block) { my $buf; seek($fh, $pos, 0) || die; while(read($fh,substr($buf,length $buf,0),$dd_block_size)) { if($opt::regexp) { # If match /$recend$recstart/ => Record position if($buf =~ /(.*$recend)$recstart/os) { my $i = length($1); push(@pos,$pos+$i); # Start looking for next record _after_ this match $pos += $i; last; } } else { # If match $recend$recstart => Record position my $i = index($buf,$recendrecstart); if($i != -1) { push(@pos,$pos+$i); # Start looking for next record _after_ this match $pos += $i; last; } } } } push(@pos,$size); close $fh; return @pos; } sub cat_partial { # Input: # $file = the file to read # ($start, $end, [$start2, $end2, ...]) = start byte, end byte # Returns: # Efficient perl command to copy $start..$end, $start2..$end2, ... to stdout my($file, @start_end) = @_; my($start, $i); # Convert start_end to start_len my @start_len = map { if(++$i % 2) { $start = $_; } else { $_-$start } } @start_end; return "<". shell_quote_scalar($file) . q{ perl -e 'while(@ARGV) { sysseek(STDIN,shift,0) || die; $left = shift; while($read = sysread(STDIN,$buf, ($left > 32768 ? 32768 : $left))){ $left -= $read; syswrite(STDOUT,$buf); } }' } . " @start_len"; } sub spreadstdin { # read a record # Spawn a job and print the record to it. # Uses: # $opt::blocksize # STDIN # $opr::r # $Global::max_lines # $Global::max_number_of_args # $opt::regexp # $Global::start_no_new_jobs # $opt::roundrobin # %Global::running my $buf = ""; my ($recstart,$recend) = recstartrecend(); my $recendrecstart = $recend.$recstart; my $chunk_number = 1; my $one_time_through; my $blocksize = $opt::blocksize; my $in = *STDIN; my $header = find_header(\$buf,$in); while(1) { my $anything_written = 0; if(not read($in,substr($buf,length $buf,0),$blocksize)) { # End-of-file $chunk_number != 1 and last; # Force the while-loop once if everything was read by header reading $one_time_through++ and last; } if($opt::r) { # Remove empty lines $buf =~ s/^\s*\n//gm; if(length $buf == 0) { next; } } if($Global::max_lines and not $Global::max_number_of_args) { # Read n-line records my $n_lines = $buf =~ tr/\n/\n/; my $last_newline_pos = rindex($buf,"\n"); while($n_lines % $Global::max_lines) { $n_lines--; $last_newline_pos = rindex($buf,"\n",$last_newline_pos-1); } # Chop at $last_newline_pos as that is where n-line record ends $anything_written += write_record_to_pipe($chunk_number++,\$header,\$buf, $recstart,$recend,$last_newline_pos+1); substr($buf,0,$last_newline_pos+1) = ""; } elsif($opt::regexp) { if($Global::max_number_of_args) { # -N => (start..*?end){n} # -L -N => (start..*?end){n*l} my $read_n_lines = $Global::max_number_of_args * ($Global::max_lines || 1); while($buf =~ s/((?:$recstart.*?$recend){$read_n_lines})($recstart.*)$/$2/os) { # Copy to modifiable variable my $b = $1; $anything_written += write_record_to_pipe($chunk_number++,\$header,\$b, $recstart,$recend,length $1); } } else { # Find the last recend-recstart in $buf if($buf =~ s/(.*$recend)($recstart.*?)$/$2/os) { # Copy to modifiable variable my $b = $1; $anything_written += write_record_to_pipe($chunk_number++,\$header,\$b, $recstart,$recend,length $1); } } } else { if($Global::max_number_of_args) { # -N => (start..*?end){n} my $i = 0; my $read_n_lines = $Global::max_number_of_args * ($Global::max_lines || 1); while(($i = nindex(\$buf,$recendrecstart,$read_n_lines)) != -1) { $i += length $recend; # find the actual splitting location $anything_written += write_record_to_pipe($chunk_number++,\$header,\$buf, $recstart,$recend,$i); substr($buf,0,$i) = ""; } } else { # Find the last recend-recstart in $buf my $i = rindex($buf,$recendrecstart); if($i != -1) { $i += length $recend; # find the actual splitting location $anything_written += write_record_to_pipe($chunk_number++,\$header,\$buf, $recstart,$recend,$i); substr($buf,0,$i) = ""; } } } if(not $anything_written and not eof($in)) { # Nothing was written - maybe the block size < record size? # Increase blocksize exponentially my $old_blocksize = $blocksize; $blocksize = ceil($blocksize * 1.3 + 1); ::warning("A record was longer than $old_blocksize. " . "Increasing to --blocksize $blocksize\n"); } } ::debug("init", "Done reading input\n"); # If there is anything left in the buffer write it substr($buf,0,0) = ""; write_record_to_pipe($chunk_number++,\$header,\$buf,$recstart,$recend,length $buf); $Global::start_no_new_jobs ||= 1; if($opt::roundrobin) { for my $job (values %Global::running) { close $job->fh(0,"w"); } my %incomplete_jobs = %Global::running; my $sleep = 1; while(keys %incomplete_jobs) { my $something_written = 0; for my $pid (keys %incomplete_jobs) { my $job = $incomplete_jobs{$pid}; if($job->stdin_buffer_length()) { $something_written += $job->non_block_write(); } else { delete $incomplete_jobs{$pid} } } if($something_written) { $sleep = $sleep/2+0.001; } $sleep = ::reap_usleep($sleep); } } } sub recstartrecend { # Uses: # $opt::recstart # $opt::recend # Returns: # $recstart,$recend with default values and regexp conversion my($recstart,$recend); if(defined($opt::recstart) and defined($opt::recend)) { # If both --recstart and --recend is given then both must match $recstart = $opt::recstart; $recend = $opt::recend; } elsif(defined($opt::recstart)) { # If --recstart is given it must match start of record $recstart = $opt::recstart; $recend = ""; } elsif(defined($opt::recend)) { # If --recend is given then it must match end of record $recstart = ""; $recend = $opt::recend; } if($opt::regexp) { # If $recstart/$recend contains '|' this should only apply to the regexp $recstart = "(?:".$recstart.")"; $recend = "(?:".$recend.")"; } else { # $recstart/$recend = printf strings (\n) $recstart =~ s/\\([0rnt\'\"\\])/"qq|\\$1|"/gee; $recend =~ s/\\([0rnt\'\"\\])/"qq|\\$1|"/gee; } return ($recstart,$recend); } sub nindex { # See if string is in buffer N times # Returns: # the position where the Nth copy is found my ($buf_ref, $str, $n) = @_; my $i = 0; for(1..$n) { $i = index($$buf_ref,$str,$i+1); if($i == -1) { last } } return $i; } { my @robin_queue; sub round_robin_write { # Input: # $header_ref = ref to $header string # $block_ref = ref to $block to be written # $recstart = record start string # $recend = record end string # $endpos = end position of $block # Uses: # %Global::running my ($header_ref,$block_ref,$recstart,$recend,$endpos) = @_; my $something_written = 0; my $block_passed = 0; my $sleep = 1; while(not $block_passed) { # Continue flushing existing buffers # until one is empty and a new block is passed # Make a queue to spread the blocks evenly if(not @robin_queue) { push @robin_queue, values %Global::running; } while(my $job = shift @robin_queue) { if($job->stdin_buffer_length() > 0) { $something_written += $job->non_block_write(); } else { $job->set_stdin_buffer($header_ref,$block_ref,$endpos,$recstart,$recend); $block_passed = 1; $job->set_virgin(0); $something_written += $job->non_block_write(); last; } } $sleep = ::reap_usleep($sleep); } return $something_written; } } sub write_record_to_pipe { # Fork then # Write record from pos 0 .. $endpos to pipe # Input: # $chunk_number = sequence number - to see if already run # $header_ref = reference to header string to prepend # $record_ref = reference to record to write # $recstart = start string of record # $recend = end string of record # $endpos = position in $record_ref where record ends # Uses: # $Global::job_already_run # $opt::roundrobin # @Global::virgin_jobs # Returns: # Number of chunks written (0 or 1) my ($chunk_number,$header_ref,$record_ref,$recstart,$recend,$endpos) = @_; if($endpos == 0) { return 0; } if(vec($Global::job_already_run,$chunk_number,1)) { return 1; } if($opt::roundrobin) { return round_robin_write($header_ref,$record_ref,$recstart,$recend,$endpos); } # If no virgin found, backoff my $sleep = 0.0001; # 0.01 ms - better performance on highend while(not @Global::virgin_jobs) { ::debug("pipe", "No virgin jobs"); $sleep = ::reap_usleep($sleep); # Jobs may not be started because of loadavg # or too little time between each ssh login. start_more_jobs(); } my $job = shift @Global::virgin_jobs; # Job is no longer virgin $job->set_virgin(0); if(fork()) { # Skip } else { # Chop of at $endpos as we do not know how many rec_sep will # be removed. substr($$record_ref,$endpos,length $$record_ref) = ""; # Remove rec_sep if($opt::remove_rec_sep) { Job::remove_rec_sep($record_ref,$recstart,$recend); } $job->write($header_ref); $job->write($record_ref); close $job->fh(0,"w"); exit(0); } close $job->fh(0,"w"); return 1; } sub __SEM_MODE__ {} sub acquire_semaphore { # Acquires semaphore. If needed: spawns to the background # Uses: # @Global::host # Returns: # The semaphore to be released when jobs is complete $Global::host{':'} = SSHLogin->new(":"); my $sem = Semaphore->new($Semaphore::name,$Global::host{':'}->max_jobs_running()); $sem->acquire(); if($Semaphore::fg) { # skip } else { # If run in the background, the PID will change # therefore release and re-acquire the semaphore $sem->release(); if(fork()) { exit(0); } else { # child # Get a semaphore for this pid ::die_bug("Can't start a new session: $!") if setsid() == -1; $sem = Semaphore->new($Semaphore::name,$Global::host{':'}->max_jobs_running()); $sem->acquire(); } } return $sem; } sub __PARSE_OPTIONS__ {} sub options_hash { # Returns: # %hash = the GetOptions config return ("debug|D=s" => \$opt::D, "xargs" => \$opt::xargs, "m" => \$opt::m, "X" => \$opt::X, "v" => \@opt::v, "joblog=s" => \$opt::joblog, "results|result|res=s" => \$opt::results, "resume" => \$opt::resume, "resume-failed|resumefailed" => \$opt::resume_failed, "silent" => \$opt::silent, #"silent-error|silenterror" => \$opt::silent_error, "keep-order|keeporder|k" => \$opt::keeporder, "group" => \$opt::group, "g" => \$opt::retired, "ungroup|u" => \$opt::ungroup, "linebuffer|linebuffered|line-buffer|line-buffered" => \$opt::linebuffer, "tmux" => \$opt::tmux, "null|0" => \$opt::0, "quote|q" => \$opt::q, # Replacement strings "parens=s" => \$opt::parens, "rpl=s" => \@opt::rpl, "plus" => \$opt::plus, "I=s" => \$opt::I, "extensionreplace|er=s" => \$opt::U, "U=s" => \$opt::retired, "basenamereplace|bnr=s" => \$opt::basenamereplace, "dirnamereplace|dnr=s" => \$opt::dirnamereplace, "basenameextensionreplace|bner=s" => \$opt::basenameextensionreplace, "seqreplace=s" => \$opt::seqreplace, "slotreplace=s" => \$opt::slotreplace, "jobs|j=s" => \$opt::jobs, "delay=f" => \$opt::delay, "sshdelay=f" => \$opt::sshdelay, "load=s" => \$opt::load, "noswap" => \$opt::noswap, "max-line-length-allowed" => \$opt::max_line_length_allowed, "number-of-cpus" => \$opt::number_of_cpus, "number-of-cores" => \$opt::number_of_cores, "use-cpus-instead-of-cores" => \$opt::use_cpus_instead_of_cores, "shellquote|shell_quote|shell-quote" => \$opt::shellquote, "nice=i" => \$opt::nice, "timeout=s" => \$opt::timeout, "tag" => \$opt::tag, "tagstring|tag-string=s" => \$opt::tagstring, "onall" => \$opt::onall, "nonall" => \$opt::nonall, "filter-hosts|filterhosts|filter-host" => \$opt::filter_hosts, "sshlogin|S=s" => \@opt::sshlogin, "sshloginfile|slf=s" => \@opt::sshloginfile, "controlmaster|M" => \$opt::controlmaster, "return=s" => \@opt::return, "trc=s" => \@opt::trc, "transfer" => \$opt::transfer, "cleanup" => \$opt::cleanup, "basefile|bf=s" => \@opt::basefile, "B=s" => \$opt::retired, "ctrlc|ctrl-c" => \$opt::ctrlc, "noctrlc|no-ctrlc|no-ctrl-c" => \$opt::noctrlc, "workdir|work-dir|wd=s" => \$opt::workdir, "W=s" => \$opt::retired, "tmpdir=s" => \$opt::tmpdir, "tempdir=s" => \$opt::tmpdir, "use-compress-program|compress-program=s" => \$opt::compress_program, "use-decompress-program|decompress-program=s" => \$opt::decompress_program, "compress" => \$opt::compress, "tty" => \$opt::tty, "T" => \$opt::retired, "halt-on-error|halt=s" => \$opt::halt_on_error, "H=i" => \$opt::retired, "retries=i" => \$opt::retries, "dry-run|dryrun" => \$opt::dryrun, "progress" => \$opt::progress, "eta" => \$opt::eta, "bar" => \$opt::bar, "arg-sep|argsep=s" => \$opt::arg_sep, "arg-file-sep|argfilesep=s" => \$opt::arg_file_sep, "trim=s" => \$opt::trim, "env=s" => \@opt::env, "recordenv|record-env" => \$opt::record_env, "plain" => \$opt::plain, "profile|J=s" => \@opt::profile, "pipe|spreadstdin" => \$opt::pipe, "robin|round-robin|roundrobin" => \$opt::roundrobin, "recstart=s" => \$opt::recstart, "recend=s" => \$opt::recend, "regexp|regex" => \$opt::regexp, "remove-rec-sep|removerecsep|rrs" => \$opt::remove_rec_sep, "files|output-as-files|outputasfiles" => \$opt::files, "block|block-size|blocksize=s" => \$opt::blocksize, "tollef" => \$opt::retired, "gnu" => \$opt::gnu, "xapply" => \$opt::xapply, "bibtex" => \$opt::bibtex, "nn|nonotice|no-notice" => \$opt::no_notice, # xargs-compatibility - implemented, man, testsuite "max-procs|P=s" => \$opt::jobs, "delimiter|d=s" => \$opt::d, "max-chars|s=i" => \$opt::max_chars, "arg-file|a=s" => \@opt::a, "no-run-if-empty|r" => \$opt::r, "replace|i:s" => \$opt::i, "E=s" => \$opt::eof, "eof|e:s" => \$opt::eof, "max-args|n=i" => \$opt::max_args, "max-replace-args|N=i" => \$opt::max_replace_args, "colsep|col-sep|C=s" => \$opt::colsep, "help|h" => \$opt::help, "L=f" => \$opt::L, "max-lines|l:f" => \$opt::max_lines, "interactive|p" => \$opt::p, "verbose|t" => \$opt::verbose, "version|V" => \$opt::version, "minversion|min-version=i" => \$opt::minversion, "show-limits|showlimits" => \$opt::show_limits, "exit|x" => \$opt::x, # Semaphore "semaphore" => \$opt::semaphore, "semaphoretimeout=i" => \$opt::semaphoretimeout, "semaphorename|id=s" => \$opt::semaphorename, "fg" => \$opt::fg, "bg" => \$opt::bg, "wait" => \$opt::wait, # Shebang #!/usr/bin/parallel --shebang "shebang|hashbang" => \$opt::shebang, "internal-pipe-means-argfiles" => \$opt::internal_pipe_means_argfiles, "Y" => \$opt::retired, "skip-first-line" => \$opt::skip_first_line, "header=s" => \$opt::header, "cat" => \$opt::cat, "fifo" => \$opt::fifo, "pipepart|pipe-part" => \$opt::pipepart, "hgrp|hostgroup|hostgroups" => \$opt::hostgroups, ); } sub get_options_from_array { # Run GetOptions on @array # Input: # $array_ref = ref to @ARGV to parse # @keep_only = Keep only these options # Uses: # @ARGV # Returns: # true if parsing worked # false if parsing failed # @$array_ref is changed my ($array_ref, @keep_only) = @_; if(not @$array_ref) { # Empty array: No need to look more at that return 1; } # A bit of shuffling of @ARGV needed as GetOptionsFromArray is not # supported everywhere my @save_argv; my $this_is_ARGV = (\@::ARGV == $array_ref); if(not $this_is_ARGV) { @save_argv = @::ARGV; @::ARGV = @{$array_ref}; } # If @keep_only set: Ignore all values except @keep_only my %options = options_hash(); if(@keep_only) { my (%keep,@dummy); @keep{@keep_only} = @keep_only; for my $k (grep { not $keep{$_} } keys %options) { # Store the value of the option in @dummy $options{$k} = \@dummy; } } my $retval = GetOptions(%options); if(not $this_is_ARGV) { @{$array_ref} = @::ARGV; @::ARGV = @save_argv; } return $retval; } sub parse_options { # Returns: N/A # Defaults: $Global::version = 20141122; $Global::progname = 'parallel'; $Global::infinity = 2**31; $Global::debug = 0; $Global::verbose = 0; $Global::quoting = 0; # Read only table with default --rpl values %Global::replace = ( '{}' => '', '{#}' => '1 $_=$job->seq()', '{%}' => '1 $_=$job->slot()', '{/}' => 's:.*/::', '{//}' => '$Global::use{"File::Basename"} ||= eval "use File::Basename; 1;"; $_ = dirname($_);', '{/.}' => 's:.*/::; s:\.[^/.]+$::;', '{.}' => 's:\.[^/.]+$::', ); %Global::plus = ( # {} = {+/}/{/} # = {.}.{+.} = {+/}/{/.}.{+.} # = {..}.{+..} = {+/}/{/..}.{+..} # = {...}.{+...} = {+/}/{/...}.{+...} '{+/}' => 's:/[^/]*$::', '{+.}' => 's:.*\.::', '{+..}' => 's:.*\.([^.]*\.):$1:', '{+...}' => 's:.*\.([^.]*\.[^.]*\.):$1:', '{..}' => 's:\.[^/.]+$::; s:\.[^/.]+$::', '{...}' => 's:\.[^/.]+$::; s:\.[^/.]+$::; s:\.[^/.]+$::', '{/..}' => 's:.*/::; s:\.[^/.]+$::; s:\.[^/.]+$::', '{/...}' => 's:.*/::; s:\.[^/.]+$::; s:\.[^/.]+$::; s:\.[^/.]+$::', ); # Modifiable copy of %Global::replace %Global::rpl = %Global::replace; $Global::parens = "{==}"; $/="\n"; $Global::ignore_empty = 0; $Global::interactive = 0; $Global::stderr_verbose = 0; $Global::default_simultaneous_sshlogins = 9; $Global::exitstatus = 0; $Global::halt_on_error_exitstatus = 0; $Global::arg_sep = ":::"; $Global::arg_file_sep = "::::"; $Global::trim = 'n'; $Global::max_jobs_running = 0; $Global::job_already_run = ''; $ENV{'TMPDIR'} ||= "/tmp"; @ARGV=read_options(); if(@opt::v) { $Global::verbose = $#opt::v+1; } # Convert -v -v to v=2 $Global::debug = $opt::D; $Global::shell = $ENV{'PARALLEL_SHELL'} || parent_shell($$) || $ENV{'SHELL'} || "/bin/sh"; if(defined $opt::X) { $Global::ContextReplace = 1; } if(defined $opt::silent) { $Global::verbose = 0; } if(defined $opt::0) { $/ = "\0"; } if(defined $opt::d) { my $e="sprintf \"$opt::d\""; $/ = eval $e; } if(defined $opt::p) { $Global::interactive = $opt::p; } if(defined $opt::q) { $Global::quoting = 1; } if(defined $opt::r) { $Global::ignore_empty = 1; } if(defined $opt::verbose) { $Global::stderr_verbose = 1; } # Deal with --rpl sub rpl { # Modify %Global::rpl # Replace $old with $new my ($old,$new) = @_; if($old ne $new) { $Global::rpl{$new} = $Global::rpl{$old}; delete $Global::rpl{$old}; } } if(defined $opt::parens) { $Global::parens = $opt::parens; } my $parenslen = 0.5*length $Global::parens; $Global::parensleft = substr($Global::parens,0,$parenslen); $Global::parensright = substr($Global::parens,$parenslen); if(defined $opt::plus) { %Global::rpl = (%Global::plus,%Global::rpl); } if(defined $opt::I) { rpl('{}',$opt::I); } if(defined $opt::U) { rpl('{.}',$opt::U); } if(defined $opt::i and $opt::i) { rpl('{}',$opt::i); } if(defined $opt::basenamereplace) { rpl('{/}',$opt::basenamereplace); } if(defined $opt::dirnamereplace) { rpl('{//}',$opt::dirnamereplace); } if(defined $opt::seqreplace) { rpl('{#}',$opt::seqreplace); } if(defined $opt::slotreplace) { rpl('{%}',$opt::slotreplace); } if(defined $opt::basenameextensionreplace) { rpl('{/.}',$opt::basenameextensionreplace); } for(@opt::rpl) { # Create $Global::rpl entries for --rpl options # E.g: "{..} s:\.[^.]+$:;s:\.[^.]+$:;" my ($shorthand,$long) = split/ /,$_,2; $Global::rpl{$shorthand} = $long; } if(defined $opt::eof) { $Global::end_of_file_string = $opt::eof; } if(defined $opt::max_args) { $Global::max_number_of_args = $opt::max_args; } if(defined $opt::timeout) { $Global::timeoutq = TimeoutQueue->new($opt::timeout); } if(defined $opt::tmpdir) { $ENV{'TMPDIR'} = $opt::tmpdir; } if(defined $opt::help) { die_usage(); } if(defined $opt::colsep) { $Global::trim = 'lr'; } if(defined $opt::header) { $opt::colsep = defined $opt::colsep ? $opt::colsep : "\t"; } if(defined $opt::trim) { $Global::trim = $opt::trim; } if(defined $opt::arg_sep) { $Global::arg_sep = $opt::arg_sep; } if(defined $opt::arg_file_sep) { $Global::arg_file_sep = $opt::arg_file_sep; } if(defined $opt::number_of_cpus) { print SSHLogin::no_of_cpus(),"\n"; wait_and_exit(0); } if(defined $opt::number_of_cores) { print SSHLogin::no_of_cores(),"\n"; wait_and_exit(0); } if(defined $opt::max_line_length_allowed) { print Limits::Command::real_max_length(),"\n"; wait_and_exit(0); } if(defined $opt::version) { version(); wait_and_exit(0); } if(defined $opt::bibtex) { bibtex(); wait_and_exit(0); } if(defined $opt::record_env) { record_env(); wait_and_exit(0); } if(defined $opt::show_limits) { show_limits(); } if(@opt::sshlogin) { @Global::sshlogin = @opt::sshlogin; } if(@opt::sshloginfile) { read_sshloginfiles(@opt::sshloginfile); } if(@opt::return) { push @Global::ret_files, @opt::return; } if(not defined $opt::recstart and not defined $opt::recend) { $opt::recend = "\n"; } if(not defined $opt::blocksize) { $opt::blocksize = "1M"; } $opt::blocksize = multiply_binary_prefix($opt::blocksize); if(defined $opt::controlmaster) { $opt::noctrlc = 1; } if(defined $opt::semaphore) { $Global::semaphore = 1; } if(defined $opt::semaphoretimeout) { $Global::semaphore = 1; } if(defined $opt::semaphorename) { $Global::semaphore = 1; } if(defined $opt::fg) { $Global::semaphore = 1; } if(defined $opt::bg) { $Global::semaphore = 1; } if(defined $opt::wait) { $Global::semaphore = 1; } if(defined $opt::halt_on_error and $opt::halt_on_error=~/%/) { $opt::halt_on_error /= 100; } if(defined $opt::timeout and $opt::timeout !~ /^\d+(\.\d+)?%?$/) { ::error("--timeout must be seconds or percentage\n"); wait_and_exit(255); } if(defined $opt::minversion) { print $Global::version,"\n"; if($Global::version < $opt::minversion) { wait_and_exit(255); } else { wait_and_exit(0); } } if(not defined $opt::delay) { # Set --delay to --sshdelay if not set $opt::delay = $opt::sshdelay; } if($opt::compress_program) { $opt::compress = 1; $opt::decompress_program ||= $opt::compress_program." -dc"; } if($opt::compress) { my ($compress, $decompress) = find_compression_program(); $opt::compress_program ||= $compress; $opt::decompress_program ||= $decompress; } if(defined $opt::nonall) { # Append a dummy empty argument push @ARGV, $Global::arg_sep, ""; } if(defined $opt::tty) { # Defaults for --tty: -j1 -u # Can be overridden with -jXXX -g if(not defined $opt::jobs) { $opt::jobs = 1; } if(not defined $opt::group) { $opt::ungroup = 0; } } if(@opt::trc) { push @Global::ret_files, @opt::trc; $opt::transfer = 1; $opt::cleanup = 1; } if(defined $opt::max_lines) { if($opt::max_lines eq "-0") { # -l -0 (swallowed -0) $opt::max_lines = 1; $opt::0 = 1; $/ = "\0"; } elsif ($opt::max_lines == 0) { # If not given (or if 0 is given) => 1 $opt::max_lines = 1; } $Global::max_lines = $opt::max_lines; if(not $opt::pipe) { # --pipe -L means length of record - not max_number_of_args $Global::max_number_of_args ||= $Global::max_lines; } } # Read more than one arg at a time (-L, -N) if(defined $opt::L) { $Global::max_lines = $opt::L; if(not $opt::pipe) { # --pipe -L means length of record - not max_number_of_args $Global::max_number_of_args ||= $Global::max_lines; } } if(defined $opt::max_replace_args) { $Global::max_number_of_args = $opt::max_replace_args; $Global::ContextReplace = 1; } if((defined $opt::L or defined $opt::max_replace_args) and not ($opt::xargs or $opt::m)) { $Global::ContextReplace = 1; } if(defined $opt::tag and not defined $opt::tagstring) { $opt::tagstring = "\257<\257>"; # Default = {} } if(defined $opt::pipepart and (defined $opt::L or defined $opt::max_lines or defined $opt::max_replace_args)) { ::error("--pipepart is incompatible with --max-replace-args, ", "--max-lines, and -L.\n"); wait_and_exit(255); } if(grep /^$Global::arg_sep$|^$Global::arg_file_sep$/o, @ARGV) { # Deal with ::: and :::: @ARGV=read_args_from_command_line(); } # Semaphore defaults # Must be done before computing number of processes and max_line_length # because when running as a semaphore GNU Parallel does not read args $Global::semaphore ||= ($0 =~ m:(^|/)sem$:); # called as 'sem' if($Global::semaphore) { # A semaphore does not take input from neither stdin nor file @opt::a = ("/dev/null"); push(@Global::unget_argv, [Arg->new("")]); $Semaphore::timeout = $opt::semaphoretimeout || 0; if(defined $opt::semaphorename) { $Semaphore::name = $opt::semaphorename; } else { $Semaphore::name = `tty`; chomp $Semaphore::name; } $Semaphore::fg = $opt::fg; $Semaphore::wait = $opt::wait; $Global::default_simultaneous_sshlogins = 1; if(not defined $opt::jobs) { $opt::jobs = 1; } if($Global::interactive and $opt::bg) { ::error("Jobs running in the ". "background cannot be interactive.\n"); ::wait_and_exit(255); } } if(defined $opt::eta) { $opt::progress = $opt::eta; } if(defined $opt::bar) { $opt::progress = $opt::bar; } if(defined $opt::retired) { ::error("-g has been retired. Use --group.\n"); ::error("-B has been retired. Use --bf.\n"); ::error("-T has been retired. Use --tty.\n"); ::error("-U has been retired. Use --er.\n"); ::error("-W has been retired. Use --wd.\n"); ::error("-Y has been retired. Use --shebang.\n"); ::error("-H has been retired. Use --halt.\n"); ::error("--tollef has been retired. Use -u -q --arg-sep -- and --load for -l.\n"); ::wait_and_exit(255); } citation_notice(); parse_sshlogin(); parse_env_var(); if(remote_hosts() and ($opt::X or $opt::m or $opt::xargs)) { # As we do not know the max line length on the remote machine # long commands generated by xargs may fail # If opt_N is set, it is probably safe ::warning("Using -X or -m with --sshlogin may fail.\n"); } if(not defined $opt::jobs) { $opt::jobs = "100%"; } open_joblog(); } sub env_quote { # Input: # $v = value to quote # Returns: # $v = value quoted as environment variable my $v = $_[0]; $v =~ s/([\\])/\\$1/g; $v =~ s/([\[\] \#\'\&\<\>\(\)\;\{\}\t\"\$\`\*\174\!\?\~])/\\$1/g; $v =~ s/\n/"\n"/g; return $v; } sub record_env { # Record current %ENV-keys in ~/.parallel/ignored_vars # Returns: N/A my $ignore_filename = $ENV{'HOME'} . "/.parallel/ignored_vars"; if(open(my $vars_fh, ">", $ignore_filename)) { print $vars_fh map { $_,"\n" } keys %ENV; } else { ::error("Cannot write to $ignore_filename\n"); ::wait_and_exit(255); } } sub parse_env_var { # Parse --env and set $Global::envvar, $Global::envwarn and $Global::envvarlen # # Bash functions must be parsed to export them remotely # Pre-shellshock style bash function: # myfunc=() {... # Post-shellshock style bash function: # BASH_FUNC_myfunc()=() {... # # Uses: # $Global::envvar = eval string that will set variables in both bash and csh # $Global::envwarn = If functions are used: Give warning in csh # $Global::envvarlen = length of $Global::envvar # @opt::env # $Global::shell # %ENV # Returns: N/A $Global::envvar = ""; $Global::envwarn = ""; my @vars = ('parallel_bash_environment'); for my $varstring (@opt::env) { # Split up --env VAR1,VAR2 push @vars, split /,/, $varstring; } if(grep { /^_$/ } @vars) { # --env _ # Include all vars that are not in a clean environment if(open(my $vars_fh, "<", $ENV{'HOME'} . "/.parallel/ignored_vars")) { my @ignore = <$vars_fh>; chomp @ignore; my %ignore; @ignore{@ignore} = @ignore; close $vars_fh; push @vars, grep { not defined $ignore{$_} } keys %ENV; @vars = grep { not /^_$/ } @vars; } else { ::error("Run '$Global::progname --record-env' in a clean environment first.\n"); ::wait_and_exit(255); } } # Duplicate vars as BASH functions to include post-shellshock functions. # So --env myfunc should also look for BASH_FUNC_myfunc() @vars = map { $_, "BASH_FUNC_$_()" } @vars; # Keep only defined variables @vars = grep { defined($ENV{$_}) } @vars; # Pre-shellshock style bash function: # myfunc=() { echo myfunc # } # Post-shellshock style bash function: # BASH_FUNC_myfunc()=() { echo myfunc # } my @bash_functions = grep { substr($ENV{$_},0,4) eq "() {" } @vars; my @non_functions = grep { substr($ENV{$_},0,4) ne "() {" } @vars; if(@bash_functions) { # Functions are not supported for all shells if($Global::shell !~ m:/(bash|rbash|zsh|rzsh|dash|ksh):) { ::warning("Shell functions may not be supported in $Global::shell\n"); } } # Pre-shellschock names are without () my @bash_pre_shellshock = grep { not /\(\)/ } @bash_functions; # Post-shellschock names are with () my @bash_post_shellshock = grep { /\(\)/ } @bash_functions; my @qcsh = (map { my $a=$_; "setenv $a " . env_quote($ENV{$a}) } grep { not /^parallel_bash_environment$/ } @non_functions); my @qbash = (map { my $a=$_; "export $a=" . env_quote($ENV{$a}) } @non_functions, @bash_pre_shellshock); push @qbash, map { my $a=$_; "eval $a\"\$$a\"" } @bash_pre_shellshock; push @qbash, map { /BASH_FUNC_(.*)\(\)/; "$1 $ENV{$_}" } @bash_post_shellshock; #ssh -tt -oLogLevel=quiet lo 'eval `echo PARALLEL_SEQ='$PARALLEL_SEQ'\;export PARALLEL_SEQ\; PARALLEL_PID='$PARALLEL_PID'\;export PARALLEL_PID` ;' tty\ \>/dev/null\ \&\&\ stty\ isig\ -onlcr\ -echo\;echo\ \$SHELL\ \|\ grep\ \"/t\\\{0,1\\\}csh\"\ \>\ /dev/null\ \&\&\ setenv\ BASH_FUNC_myfunc\ \\\(\\\)\\\ \\\{\\\ \\\ echo\\\ a\"' #'\"\\\}\ \|\|\ myfunc\(\)\ \{\ \ echo\ a' #'\}\ \;myfunc\ 1; # Check if any variables contain \n if(my @v = map { s/BASH_FUNC_(.*)\(\)/$1/; $_ } grep { $ENV{$_}=~/\n/ } @vars) { # \n is bad for csh and will cause it to fail. $Global::envwarn = ::shell_quote_scalar(q{echo $SHELL | grep -E "/t?csh" > /dev/null && echo CSH/TCSH DO NOT SUPPORT newlines IN VARIABLES/FUNCTIONS. Unset }."@v".q{ && exec false;}."\n\n") . $Global::envwarn; } if(not @qcsh) { push @qcsh, "true"; } if(not @qbash) { push @qbash, "true"; } # Create lines like: # echo $SHELL | grep "/t\\{0,1\\}csh" >/dev/null && setenv V1 val1 && setenv V2 val2 || export V1=val1 && export V2=val2 ; echo "$V1$V2" if(@vars) { $Global::envvar .= join"", (q{echo $SHELL | grep "/t\\{0,1\\}csh" > /dev/null && } . join(" && ", @qcsh) . q{ || } . join(" && ", @qbash) .q{;}); if($ENV{'parallel_bash_environment'}) { $Global::envvar .= 'eval "$parallel_bash_environment";'."\n"; } } $Global::envvarlen = length $Global::envvar; } sub open_joblog { # Open joblog as specified by --joblog # Uses: # $opt::resume # $opt::resume_failed # $opt::joblog # $opt::results # $Global::job_already_run # %Global::fd my $append = 0; if(($opt::resume or $opt::resume_failed) and not ($opt::joblog or $opt::results)) { ::error("--resume and --resume-failed require --joblog or --results.\n"); ::wait_and_exit(255); } if($opt::joblog) { if($opt::resume || $opt::resume_failed) { if(open(my $joblog_fh, "<", $opt::joblog)) { # Read the joblog $append = <$joblog_fh>; # If there is a header: Open as append later my $joblog_regexp; if($opt::resume_failed) { # Make a regexp that only matches commands with exit+signal=0 # 4 host 1360490623.067 3.445 1023 1222 0 0 command $joblog_regexp='^(\d+)(?:\t[^\t]+){5}\t0\t0\t'; } else { # Just match the job number $joblog_regexp='^(\d+)'; } while(<$joblog_fh>) { if(/$joblog_regexp/o) { # This is 30% faster than set_job_already_run($1); vec($Global::job_already_run,($1||0),1) = 1; } elsif(not /\d+\s+[^\s]+\s+([0-9.]+\s+){6}/) { ::error("Format of '$opt::joblog' is wrong: $_"); ::wait_and_exit(255); } } close $joblog_fh; } } if($append) { # Append to joblog if(not open($Global::joblog, ">>", $opt::joblog)) { ::error("Cannot append to --joblog $opt::joblog.\n"); ::wait_and_exit(255); } } else { if($opt::joblog eq "-") { # Use STDOUT as joblog $Global::joblog = $Global::fd{1}; } elsif(not open($Global::joblog, ">", $opt::joblog)) { # Overwrite the joblog ::error("Cannot write to --joblog $opt::joblog.\n"); ::wait_and_exit(255); } print $Global::joblog join("\t", "Seq", "Host", "Starttime", "JobRuntime", "Send", "Receive", "Exitval", "Signal", "Command" ). "\n"; } } } sub find_compression_program { # Find a fast compression program # Returns: # $compress_program = compress program with options # $decompress_program = decompress program with options # Search for these. Sorted by speed my @prg = qw(lzop pigz pxz gzip plzip pbzip2 lzma xz lzip bzip2); for my $p (@prg) { if(which($p)) { return ("$p -c -1","$p -dc"); } } # Fall back to cat return ("cat","cat"); } sub read_options { # Read options from command line, profile and $PARALLEL # Uses: # $opt::shebang_wrap # $opt::shebang # @ARGV # $opt::plain # @opt::profile # $ENV{'HOME'} # $ENV{'PARALLEL'} # Returns: # @ARGV_no_opt = @ARGV without --options # This must be done first as this may exec myself if(defined $ARGV[0] and ($ARGV[0] =~ /^--shebang/ or $ARGV[0] =~ /^--shebang-?wrap/ or $ARGV[0] =~ /^--hashbang/)) { # Program is called from #! line in script # remove --shebang-wrap if it is set $opt::shebang_wrap = ($ARGV[0] =~ s/^--shebang-?wrap *//); # remove --shebang if it is set $opt::shebang = ($ARGV[0] =~ s/^--shebang *//); # remove --hashbang if it is set $opt::shebang .= ($ARGV[0] =~ s/^--hashbang *//); if($opt::shebang) { my $argfile = shell_quote_scalar(pop @ARGV); # exec myself to split $ARGV[0] into separate fields exec "$0 --skip-first-line -a $argfile @ARGV"; } if($opt::shebang_wrap) { my @options; my @parser; if ($^O eq 'freebsd') { # FreeBSD's #! puts different values in @ARGV than Linux' does. my @nooptions = @ARGV; get_options_from_array(\@nooptions); while($#ARGV > $#nooptions) { push @options, shift @ARGV; } while(@ARGV and $ARGV[0] ne ":::") { push @parser, shift @ARGV; } if(@ARGV and $ARGV[0] eq ":::") { shift @ARGV; } } else { @options = shift @ARGV; } my $script = shell_quote_scalar(shift @ARGV); # exec myself to split $ARGV[0] into separate fields exec "$0 --internal-pipe-means-argfiles @options @parser $script ::: @ARGV"; } } Getopt::Long::Configure("bundling","require_order"); my @ARGV_copy = @ARGV; # Check if there is a --profile to set @opt::profile get_options_from_array(\@ARGV_copy,"profile|J=s","plain") || die_usage(); my @ARGV_profile = (); my @ARGV_env = (); if(not $opt::plain) { # Add options from .parallel/config and other profiles my @config_profiles = ( "/etc/parallel/config", $ENV{'HOME'}."/.parallel/config", $ENV{'HOME'}."/.parallelrc"); my @profiles = @config_profiles; if(@opt::profile) { # --profile overrides default profiles @profiles = (); for my $profile (@opt::profile) { if(-r $profile) { push @profiles, $profile; } else { push @profiles, $ENV{'HOME'}."/.parallel/".$profile; } } } for my $profile (@profiles) { if(-r $profile) { open (my $in_fh, "<", $profile) || ::die_bug("read-profile: $profile"); while(<$in_fh>) { /^\s*\#/ and next; chomp; push @ARGV_profile, shellwords($_); } close $in_fh; } else { if(grep /^$profile$/, @config_profiles) { # config file is not required to exist } else { ::error("$profile not readable.\n"); wait_and_exit(255); } } } # Add options from shell variable $PARALLEL if($ENV{'PARALLEL'}) { @ARGV_env = shellwords($ENV{'PARALLEL'}); } } Getopt::Long::Configure("bundling","require_order"); get_options_from_array(\@ARGV_profile) || die_usage(); get_options_from_array(\@ARGV_env) || die_usage(); get_options_from_array(\@ARGV) || die_usage(); # Prepend non-options to @ARGV (such as commands like 'nice') unshift @ARGV, @ARGV_profile, @ARGV_env; return @ARGV; } sub read_args_from_command_line { # Arguments given on the command line after: # ::: ($Global::arg_sep) # :::: ($Global::arg_file_sep) # Removes the arguments from @ARGV and: # - puts filenames into -a # - puts arguments into files and add the files to -a # Input: # @::ARGV = command option ::: arg arg arg :::: argfiles # Uses: # $Global::arg_sep # $Global::arg_file_sep # $opt::internal_pipe_means_argfiles # $opt::pipe # @opt::a # Returns: # @argv_no_argsep = @::ARGV without ::: and :::: and following args my @new_argv = (); for(my $arg = shift @ARGV; @ARGV; $arg = shift @ARGV) { if($arg eq $Global::arg_sep or $arg eq $Global::arg_file_sep) { my $group = $arg; # This group of arguments is args or argfiles my @group; while(defined ($arg = shift @ARGV)) { if($arg eq $Global::arg_sep or $arg eq $Global::arg_file_sep) { # exit while loop if finding new separator last; } else { # If not hitting ::: or :::: # Append it to the group push @group, $arg; } } if($group eq $Global::arg_file_sep or ($opt::internal_pipe_means_argfiles and $opt::pipe) ) { # Group of file names on the command line. # Append args into -a push @opt::a, @group; } elsif($group eq $Global::arg_sep) { # Group of arguments on the command line. # Put them into a file. # Create argfile my ($outfh,$name) = ::tmpfile(SUFFIX => ".arg"); unlink($name); # Put args into argfile print $outfh map { $_,$/ } @group; seek $outfh, 0, 0; # Append filehandle to -a push @opt::a, $outfh; } else { ::die_bug("Unknown command line group: $group"); } if(defined($arg)) { # $arg is ::: or :::: redo; } else { # $arg is undef -> @ARGV empty last; } } push @new_argv, $arg; } # Output: @ARGV = command to run with options return @new_argv; } sub cleanup { # Returns: N/A if(@opt::basefile) { cleanup_basefile(); } } sub __QUOTING_ARGUMENTS_FOR_SHELL__ {} sub shell_quote { # Input: # @strings = strings to be quoted # Output: # @shell_quoted_strings = string quoted with \ as needed by the shell my @strings = (@_); for my $a (@strings) { $a =~ s/([\002-\011\013-\032\\\#\?\`\(\)\{\}\[\]\*\>\<\~\|\; \"\!\$\&\'\202-\377])/\\$1/g; $a =~ s/[\n]/'\n'/g; # filenames with '\n' is quoted using \' } return wantarray ? @strings : "@strings"; } sub shell_quote_empty { # Inputs: # @strings = strings to be quoted # Returns: # @quoted_strings = empty strings quoted as ''. my @strings = shell_quote(@_); for my $a (@strings) { if($a eq "") { $a = "''"; } } return wantarray ? @strings : "@strings"; } sub shell_quote_scalar { # Quote the string so shell will not expand any special chars # Inputs: # $string = string to be quoted # Returns: # $shell_quoted = string quoted with \ as needed by the shell my $a = $_[0]; if(defined $a) { # $a =~ s/([\002-\011\013-\032\\\#\?\`\(\)\{\}\[\]\*\>\<\~\|\; \"\!\$\&\'\202-\377])/\\$1/g; # This is 1% faster than the above $a =~ s/[\002-\011\013-\032\\\#\?\`\(\)\{\}\[\]\*\>\<\~\|\; \"\!\$\&\'\202-\377]/\\$&/go; $a =~ s/[\n]/'\n'/go; # filenames with '\n' is quoted using \' } return $a; } sub shell_quote_file { # Quote the string so shell will not expand any special chars and prepend ./ if needed # Input: # $filename = filename to be shell quoted # Returns: # $quoted_filename = filename quoted with \ as needed by the shell and ./ if needed my $a = shell_quote_scalar(shift); if(defined $a) { if($a =~ m:^/: or $a =~ m:^\./:) { # /abs/path or ./rel/path => skip } else { # rel/path => ./rel/path $a = "./".$a; } } return $a; } sub shellwords { # Input: # $string = shell line # Returns: # @shell_words = $string split into words as shell would do $Global::use{"Text::ParseWords"} ||= eval "use Text::ParseWords; 1;"; return Text::ParseWords::shellwords(@_); } sub __FILEHANDLES__ {} sub save_stdin_stdout_stderr { # Remember the original STDIN, STDOUT and STDERR # and file descriptors opened by the shell (e.g. 3>/tmp/foo) # Uses: # %Global::fd # $Global::original_stderr # $Global::original_stdin # Returns: N/A # Find file descriptors that are already opened (by the shell) for my $fdno (1..61) { # /dev/fd/62 and above are used by bash for <(cmd) my $fh; # 2-argument-open is used to be compatible with old perl 5.8.0 # bug #43570: Perl 5.8.0 creates 61 files if(open($fh,">&=$fdno")) { $Global::fd{$fdno}=$fh; } } open $Global::original_stderr, ">&", "STDERR" or ::die_bug("Can't dup STDERR: $!"); open $Global::original_stdin, "<&", "STDIN" or ::die_bug("Can't dup STDIN: $!"); $Global::is_terminal = (-t $Global::original_stderr) && !$ENV{'CIRCLECI'}&& !$ENV{'GITHUB_ACTIONS'} && !$ENV{'TRAVIS'}; } sub enough_file_handles { # Check that we have enough filehandles available for starting # another job # Uses: # $opt::ungroup # %Global::fd # Returns: # 1 if ungrouped (thus not needing extra filehandles) # 0 if too few filehandles # 1 if enough filehandles if(not $opt::ungroup) { my %fh; my $enough_filehandles = 1; # perl uses 7 filehandles for something? # open3 uses 2 extra filehandles temporarily # We need a filehandle for each redirected file descriptor # (normally just STDOUT and STDERR) for my $i (1..(7+2+keys %Global::fd)) { $enough_filehandles &&= open($fh{$i}, "<", "/dev/null"); } for (values %fh) { close $_; } return $enough_filehandles; } else { # Ungrouped does not need extra file handles return 1; } } sub open_or_exit { # Open a file name or exit if the file cannot be opened # Inputs: # $file = filehandle or filename to open # Uses: # $Global::stdin_in_opt_a # $Global::original_stdin # Returns: # $fh = file handle to read-opened file my $file = shift; if($file eq "-") { $Global::stdin_in_opt_a = 1; return ($Global::original_stdin || *STDIN); } if(ref $file eq "GLOB") { # This is an open filehandle return $file; } my $fh = gensym; if(not open($fh, "<", $file)) { ::error("Cannot open input file `$file': No such file or directory.\n"); wait_and_exit(255); } return $fh; } sub __RUNNING_THE_JOBS_AND_PRINTING_PROGRESS__ {} # Variable structure: # # $Global::running{$pid} = Pointer to Job-object # @Global::virgin_jobs = Pointer to Job-object that have received no input # $Global::host{$sshlogin} = Pointer to SSHLogin-object # $Global::total_running = total number of running jobs # $Global::total_started = total jobs started sub init_run_jobs { $Global::total_running = 0; $Global::total_started = 0; $Global::tty_taken = 0; $SIG{USR1} = \&list_running_jobs; $SIG{USR2} = \&toggle_progress; if(@opt::basefile) { setup_basefile(); } } { my $last_time; my %last_mtime; sub start_more_jobs { # Run start_another_job() but only if: # * not $Global::start_no_new_jobs set # * not JobQueue is empty # * not load on server is too high # * not server swapping # * not too short time since last remote login # Uses: # $Global::max_procs_file # $Global::max_procs_file_last_mod # %Global::host # @opt::sshloginfile # $Global::start_no_new_jobs # $opt::filter_hosts # $Global::JobQueue # $opt::pipe # $opt::load # $opt::noswap # $opt::delay # $Global::newest_starttime # Returns: # $jobs_started = number of jobs started my $jobs_started = 0; my $jobs_started_this_round = 0; if($Global::start_no_new_jobs) { return $jobs_started; } if(time - ($last_time||0) > 1) { # At most do this every second $last_time = time; if($Global::max_procs_file) { # --jobs filename my $mtime = (stat($Global::max_procs_file))[9]; if($mtime > $Global::max_procs_file_last_mod) { # file changed: Force re-computing max_jobs_running $Global::max_procs_file_last_mod = $mtime; for my $sshlogin (values %Global::host) { $sshlogin->set_max_jobs_running(undef); } } } if(@opt::sshloginfile) { # Is --sshloginfile changed? for my $slf (@opt::sshloginfile) { my $actual_file = expand_slf_shorthand($slf); my $mtime = (stat($actual_file))[9]; $last_mtime{$actual_file} ||= $mtime; if($mtime - $last_mtime{$actual_file} > 1) { ::debug("run","--sshloginfile $actual_file changed. reload\n"); $last_mtime{$actual_file} = $mtime; # Reload $slf # Empty sshlogins @Global::sshlogin = (); for (values %Global::host) { # Don't start new jobs on any host # except the ones added back later $_->set_max_jobs_running(0); } # This will set max_jobs_running on the SSHlogins read_sshloginfile($actual_file); parse_sshlogin(); $opt::filter_hosts and filter_hosts(); setup_basefile(); } } } } do { $jobs_started_this_round = 0; # This will start 1 job on each --sshlogin (if possible) # thus distribute the jobs on the --sshlogins round robin for my $sshlogin (values %Global::host) { if($Global::JobQueue->empty() and not $opt::pipe) { # No more jobs in the queue last; } debug("run", "Running jobs before on ", $sshlogin->string(), ": ", $sshlogin->jobs_running(), "\n"); if ($sshlogin->jobs_running() < $sshlogin->max_jobs_running()) { if($opt::load and $sshlogin->loadavg_too_high()) { # The load is too high or unknown next; } if($opt::noswap and $sshlogin->swapping()) { # The server is swapping next; } if($sshlogin->too_fast_remote_login()) { # It has been too short since next; } if($opt::delay and $opt::delay > ::now() - $Global::newest_starttime) { # It has been too short since last start next; } debug("run", $sshlogin->string(), " has ", $sshlogin->jobs_running(), " out of ", $sshlogin->max_jobs_running(), " jobs running. Start another.\n"); if(start_another_job($sshlogin) == 0) { # No more jobs to start on this $sshlogin debug("run","No jobs started on ", $sshlogin->string(), "\n"); next; } $sshlogin->inc_jobs_running(); $sshlogin->set_last_login_at(::now()); $jobs_started++; $jobs_started_this_round++; } debug("run","Running jobs after on ", $sshlogin->string(), ": ", $sshlogin->jobs_running(), " of ", $sshlogin->max_jobs_running(), "\n"); } } while($jobs_started_this_round); return $jobs_started; } } { my $no_more_file_handles_warned; sub start_another_job { # If there are enough filehandles # and JobQueue not empty # and not $job is in joblog # Then grab a job from Global::JobQueue, # start it at sshlogin # mark it as virgin_job # Inputs: # $sshlogin = the SSHLogin to start the job on # Uses: # $Global::JobQueue # $opt::pipe # $opt::results # $opt::resume # @Global::virgin_jobs # Returns: # 1 if another jobs was started # 0 otherwise my $sshlogin = shift; # Do we have enough file handles to start another job? if(enough_file_handles()) { if($Global::JobQueue->empty() and not $opt::pipe) { # No more commands to run debug("start", "Not starting: JobQueue empty\n"); return 0; } else { my $job; # Skip jobs already in job log # Skip jobs already in results do { $job = get_job_with_sshlogin($sshlogin); if(not defined $job) { # No command available for that sshlogin debug("start", "Not starting: no jobs available for ", $sshlogin->string(), "\n"); return 0; } } while ($job->is_already_in_joblog() or ($opt::results and $opt::resume and $job->is_already_in_results())); debug("start", "Command to run on '", $job->sshlogin()->string(), "': '", $job->replaced(),"'\n"); if($job->start()) { if($opt::pipe) { push(@Global::virgin_jobs,$job); } debug("start", "Started as seq ", $job->seq(), " pid:", $job->pid(), "\n"); return 1; } else { # Not enough processes to run the job. # Put it back on the queue. $Global::JobQueue->unget($job); # Count down the number of jobs to run for this SSHLogin. my $max = $sshlogin->max_jobs_running(); if($max > 1) { $max--; } else { ::error("No more processes: cannot run a single job. Something is wrong.\n"); ::wait_and_exit(255); } $sshlogin->set_max_jobs_running($max); # Sleep up to 300 ms to give other processes time to die ::usleep(rand()*300); ::warning("No more processes: ", "Decreasing number of running jobs to $max. ", "Raising ulimit -u or /etc/security/limits.conf may help.\n"); return 0; } } } else { # No more file handles $no_more_file_handles_warned++ or ::warning("No more file handles. ", "Raising ulimit -n or /etc/security/limits.conf may help.\n"); return 0; } } } $opt::min_progress_interval = 0; sub init_progress { # Uses: # $opt::bar # Returns: # list of computers for progress output $|=1; if (not $Global::is_terminal) { $opt::min_progress_interval = 30; } if($opt::bar) { return("",""); } my %progress = progress(); return ("\nComputers / CPU cores / Max jobs to run\n", $progress{'workerlist'}); } sub drain_job_queue { # Uses: # $opt::progress # $Global::original_stderr # $Global::total_running # $Global::max_jobs_running # %Global::running # $Global::JobQueue # %Global::host # $Global::start_no_new_jobs # Returns: N/A if($opt::progress) { print $Global::original_stderr init_progress(); } my $last_header=""; my $sleep = 0.2; my $last_left = 1000000000; my $last_progress_time = 0; my $ps_reported = 0; do { while($Global::total_running > 0) { debug($Global::total_running, "==", scalar keys %Global::running," slots: ", $Global::max_jobs_running); if($opt::pipe) { # When using --pipe sometimes file handles are not closed properly for my $job (values %Global::running) { close $job->fh(0,"w"); } } # When not connected to terminal, assume CI (e.g. CircleCI). In # that case we want occasional progress output to prevent abort # due to timeout with no output, but we also need to stop sending # progress output if there has been no actual progress, so that # the job can time out appropriately (CirecleCI: 10m) in case of # a hung test. But without special output, it is extremely # annoying to diagnose which test is hung, so we add that using # `ps` below. if($opt::progress and ($Global::is_terminal or (time() - $last_progress_time) >= 30)) { my %progress = progress(); if($last_header ne $progress{'header'}) { print $Global::original_stderr "\n", $progress{'header'}, "\n"; $last_header = $progress{'header'}; } if ($Global::is_terminal) { print $Global::original_stderr "\r",$progress{'status'}; } if ($last_left > $Global::left) { if (not $Global::is_terminal) { print $Global::original_stderr $progress{'status'},"\n"; } $last_progress_time = time(); $ps_reported = 0; } elsif (not $ps_reported and (time() - $last_progress_time) >= 60) { # No progress in at least 60 seconds: run ps print $Global::original_stderr "\n"; my $script_dir = ::dirname($0); system("$script_dir/ps_with_stack || ps -wwf"); $ps_reported = 1; } $last_left = $Global::left; flush $Global::original_stderr; } if($Global::total_running < $Global::max_jobs_running and not $Global::JobQueue->empty()) { # These jobs may not be started because of loadavg # or too little time between each ssh login. if(start_more_jobs() > 0) { # Exponential back-on if jobs were started $sleep = $sleep/2+0.001; } } # Sometimes SIGCHLD is not registered, so force reaper $sleep = ::reap_usleep($sleep); } if(not $Global::JobQueue->empty()) { # These jobs may not be started: # * because there the --filter-hosts has removed all if(not %Global::host) { ::error("There are no hosts left to run on.\n"); ::wait_and_exit(255); } # * because of loadavg # * because of too little time between each ssh login. start_more_jobs(); $sleep = ::reap_usleep($sleep); if($Global::max_jobs_running == 0) { ::warning("There are no job slots available. Increase --jobs.\n"); } } } while ($Global::total_running > 0 or not $Global::start_no_new_jobs and not $Global::JobQueue->empty()); if($opt::progress) { my %progress = progress(); print $Global::original_stderr $opt::progress_sep, $progress{'status'}, "\n"; flush $Global::original_stderr; } } sub toggle_progress { # Turn on/off progress view # Uses: # $opt::progress # $Global::original_stderr # Returns: N/A $opt::progress = not $opt::progress; if($opt::progress) { print $Global::original_stderr init_progress(); } } sub progress { # Uses: # $opt::bar # $opt::eta # %Global::host # $Global::total_started # Returns: # $workerlist = list of workers # $header = that will fit on the screen # $status = message that will fit on the screen if($opt::bar) { return ("workerlist" => "", "header" => "", "status" => bar()); } my $eta = ""; my ($status,$header)=("",""); if($opt::eta) { my($total, $completed, $left, $pctcomplete, $avgtime, $this_eta) = compute_eta(); $eta = sprintf("ETA: %ds Left: %d AVG: %.2fs ", $this_eta, $left, $avgtime); $Global::left = $left; } my $termcols = terminal_columns(); my @workers = sort keys %Global::host; my %sshlogin = map { $_ eq ":" ? ($_=>"local") : ($_=>$_) } @workers; my $workerno = 1; my %workerno = map { ($_=>$workerno++) } @workers; my $workerlist = ""; for my $w (@workers) { $workerlist .= $workerno{$w}.":".$sshlogin{$w} ." / ". ($Global::host{$w}->ncpus() || "-")." / ". $Global::host{$w}->max_jobs_running()."\n"; } $status = "x"x($termcols+1); if(length $status > $termcols) { # sshlogin1:XX/XX/XX%/XX.Xs sshlogin2:XX/XX/XX%/XX.Xs sshlogin3:XX/XX/XX%/XX.Xs $header = "Computer:jobs running/jobs completed/%of started jobs/Average seconds to complete"; $status = $eta . join(" ",map { if($Global::total_started) { my $completed = ($Global::host{$_}->jobs_completed()||0); my $running = $Global::host{$_}->jobs_running(); my $time = $completed ? (time-$^T)/($completed) : "0"; sprintf("%s:%d/%d/%d%%/%.1fs ", $sshlogin{$_}, $running, $completed, ($running+$completed)*100 / $Global::total_started, $time); } } @workers); } if(length $status > $termcols) { # 1:XX/XX/XX%/XX.Xs 2:XX/XX/XX%/XX.Xs 3:XX/XX/XX%/XX.Xs 4:XX/XX/XX%/XX.Xs $header = "Computer:jobs running/jobs completed/%of started jobs"; $status = $eta . join(" ",map { my $completed = ($Global::host{$_}->jobs_completed()||0); my $running = $Global::host{$_}->jobs_running(); my $time = $completed ? (time-$^T)/($completed) : "0"; sprintf("%s:%d/%d/%d%%/%.1fs ", $workerno{$_}, $running, $completed, ($running+$completed)*100 / $Global::total_started, $time); } @workers); } if(length $status > $termcols) { # sshlogin1:XX/XX/XX% sshlogin2:XX/XX/XX% sshlogin3:XX/XX/XX% $header = "Computer:jobs running/jobs completed/%of started jobs"; $status = $eta . join(" ",map { sprintf("%s:%d/%d/%d%%", $sshlogin{$_}, $Global::host{$_}->jobs_running(), ($Global::host{$_}->jobs_completed()||0), ($Global::host{$_}->jobs_running()+ ($Global::host{$_}->jobs_completed()||0))*100 / $Global::total_started) } @workers); } if(length $status > $termcols) { # 1:XX/XX/XX% 2:XX/XX/XX% 3:XX/XX/XX% 4:XX/XX/XX% 5:XX/XX/XX% 6:XX/XX/XX% $header = "Computer:jobs running/jobs completed/%of started jobs"; $status = $eta . join(" ",map { sprintf("%s:%d/%d/%d%%", $workerno{$_}, $Global::host{$_}->jobs_running(), ($Global::host{$_}->jobs_completed()||0), ($Global::host{$_}->jobs_running()+ ($Global::host{$_}->jobs_completed()||0))*100 / $Global::total_started) } @workers); } if(length $status > $termcols) { # sshlogin1:XX/XX/XX% sshlogin2:XX/XX/XX% sshlogin3:XX/XX sshlogin4:XX/XX $header = "Computer:jobs running/jobs completed"; $status = $eta . join(" ",map { sprintf("%s:%d/%d", $sshlogin{$_}, $Global::host{$_}->jobs_running(), ($Global::host{$_}->jobs_completed()||0)) } @workers); } if(length $status > $termcols) { # sshlogin1:XX/XX sshlogin2:XX/XX sshlogin3:XX/XX sshlogin4:XX/XX $header = "Computer:jobs running/jobs completed"; $status = $eta . join(" ",map { sprintf("%s:%d/%d", $sshlogin{$_}, $Global::host{$_}->jobs_running(), ($Global::host{$_}->jobs_completed()||0)) } @workers); } if(length $status > $termcols) { # 1:XX/XX 2:XX/XX 3:XX/XX 4:XX/XX 5:XX/XX 6:XX/XX $header = "Computer:jobs running/jobs completed"; $status = $eta . join(" ",map { sprintf("%s:%d/%d", $workerno{$_}, $Global::host{$_}->jobs_running(), ($Global::host{$_}->jobs_completed()||0)) } @workers); } if(length $status > $termcols) { # sshlogin1:XX sshlogin2:XX sshlogin3:XX sshlogin4:XX sshlogin5:XX $header = "Computer:jobs completed"; $status = $eta . join(" ",map { sprintf("%s:%d", $sshlogin{$_}, ($Global::host{$_}->jobs_completed()||0)) } @workers); } if(length $status > $termcols) { # 1:XX 2:XX 3:XX 4:XX 5:XX 6:XX $header = "Computer:jobs completed"; $status = $eta . join(" ",map { sprintf("%s:%d", $workerno{$_}, ($Global::host{$_}->jobs_completed()||0)) } @workers); } return ("workerlist" => $workerlist, "header" => $header, "status" => $status); } { my ($total, $first_completed, $smoothed_avg_time); sub compute_eta { # Calculate important numbers for ETA # Returns: # $total = number of jobs in total # $completed = number of jobs completed # $left = number of jobs left # $pctcomplete = percent of jobs completed # $avgtime = averaged time # $eta = smoothed eta $total ||= $Global::JobQueue->total_jobs(); my $completed = 0; for(values %Global::host) { $completed += $_->jobs_completed() } my $left = $total - $completed; if(not $completed) { return($total, $completed, $left, 0, 0, 0); } my $pctcomplete = $completed / $total; $first_completed ||= time; my $timepassed = (time - $first_completed); my $avgtime = $timepassed / $completed; $smoothed_avg_time ||= $avgtime; # Smooth the eta so it does not jump wildly $smoothed_avg_time = (1 - $pctcomplete) * $smoothed_avg_time + $pctcomplete * $avgtime; my $eta = int($left * $smoothed_avg_time); return($total, $completed, $left, $pctcomplete, $avgtime, $eta); } } { my ($rev,$reset); sub bar { # Return: # $status = bar with eta, completed jobs, arg and pct $rev ||= "\033[7m"; $reset ||= "\033[0m"; my($total, $completed, $left, $pctcomplete, $avgtime, $eta) = compute_eta(); my $arg = $Global::newest_job ? $Global::newest_job->{'commandline'}->replace_placeholders(["\257<\257>"],0,0) : ""; # These chars mess up display in the terminal $arg =~ tr/[\011-\016\033\302-\365]//d; my $bar_text = sprintf("%d%% %d:%d=%ds %s", $pctcomplete*100, $completed, $left, $eta, $arg); my $terminal_width = terminal_columns(); my $s = sprintf("%-${terminal_width}s", substr($bar_text." "x$terminal_width, 0,$terminal_width)); my $width = int($terminal_width * $pctcomplete); substr($s,$width,0) = $reset; my $zenity = sprintf("%-${terminal_width}s", substr("# $eta sec $arg", 0,$terminal_width)); $s = "\r" . $zenity . "\r" . $pctcomplete*100 . # Prefix with zenity header "\r" . $rev . $s . $reset; return $s; } } { my ($columns,$last_column_time); sub terminal_columns { # Get the number of columns of the display # Returns: # number of columns of the screen if(not $columns or $last_column_time < time) { $last_column_time = time; $columns = $ENV{'COLUMNS'}; if(not $columns) { my $resize = qx{ resize 2>/dev/null }; $resize =~ /COLUMNS=(\d+);/ and do { $columns = $1; }; } $columns ||= 80; } return $columns; } } sub get_job_with_sshlogin { # Returns: # next job object for $sshlogin if any available my $sshlogin = shift; my $job = undef; if ($opt::hostgroups) { my @other_hostgroup_jobs = (); while($job = $Global::JobQueue->get()) { if($sshlogin->in_hostgroups($job->hostgroups())) { # Found a job for this hostgroup last; } else { # This job was not in the hostgroups of $sshlogin push @other_hostgroup_jobs, $job; } } $Global::JobQueue->unget(@other_hostgroup_jobs); if(not defined $job) { # No more jobs return undef; } } else { $job = $Global::JobQueue->get(); if(not defined $job) { # No more jobs ::debug("start", "No more jobs: JobQueue empty\n"); return undef; } } my $clean_command = $job->replaced(); if($clean_command =~ /^\s*$/) { # Do not run empty lines if(not $Global::JobQueue->empty()) { return get_job_with_sshlogin($sshlogin); } else { return undef; } } $job->set_sshlogin($sshlogin); if($opt::retries and $clean_command and $job->failed_here()) { # This command with these args failed for this sshlogin my ($no_of_failed_sshlogins,$min_failures) = $job->min_failed(); # Only look at the Global::host that have > 0 jobslots if($no_of_failed_sshlogins == grep { $_->max_jobs_running() > 0 } values %Global::host and $job->failed_here() == $min_failures) { # It failed the same or more times on another host: # run it on this host } else { # If it failed fewer times on another host: # Find another job to run my $nextjob; if(not $Global::JobQueue->empty()) { # This can potentially recurse for all args no warnings 'recursion'; $nextjob = get_job_with_sshlogin($sshlogin); } # Push the command back on the queue $Global::JobQueue->unget($job); return $nextjob; } } return $job; } sub __REMOTE_SSH__ {} sub read_sshloginfiles { # Returns: N/A for my $s (@_) { read_sshloginfile(expand_slf_shorthand($s)); } } sub expand_slf_shorthand { my $file = shift; if($file eq "-") { # skip: It is stdin } elsif($file eq "..") { $file = $ENV{'HOME'}."/.parallel/sshloginfile"; } elsif($file eq ".") { $file = "/etc/parallel/sshloginfile"; } elsif(not -r $file) { if(not -r $ENV{'HOME'}."/.parallel/".$file) { # Try prepending ~/.parallel ::error("Cannot open $file.\n"); ::wait_and_exit(255); } else { $file = $ENV{'HOME'}."/.parallel/".$file; } } return $file; } sub read_sshloginfile { # Returns: N/A my $file = shift; my $close = 1; my $in_fh; ::debug("init","--slf ",$file); if($file eq "-") { $in_fh = *STDIN; $close = 0; } else { if(not open($in_fh, "<", $file)) { # Try the filename ::error("Cannot open $file.\n"); ::wait_and_exit(255); } } while(<$in_fh>) { chomp; /^\s*#/ and next; /^\s*$/ and next; push @Global::sshlogin, $_; } if($close) { close $in_fh; } } sub parse_sshlogin { # Returns: N/A my @login; if(not @Global::sshlogin) { @Global::sshlogin = (":"); } for my $sshlogin (@Global::sshlogin) { # Split up -S sshlogin,sshlogin for my $s (split /,/, $sshlogin) { if ($s eq ".." or $s eq "-") { # This may add to @Global::sshlogin - possibly bug read_sshloginfile(expand_slf_shorthand($s)); } else { push (@login, $s); } } } $Global::minimal_command_line_length = 8_000_000; my @allowed_hostgroups; for my $ncpu_sshlogin_string (::uniq(@login)) { my $sshlogin = SSHLogin->new($ncpu_sshlogin_string); my $sshlogin_string = $sshlogin->string(); if($sshlogin_string eq "") { # This is an ssh group: -S @webservers push @allowed_hostgroups, $sshlogin->hostgroups(); next; } if($Global::host{$sshlogin_string}) { # This sshlogin has already been added: # It is probably a host that has come back # Set the max_jobs_running back to the original debug("run","Already seen $sshlogin_string\n"); if($sshlogin->{'ncpus'}) { # If ncpus set by '#/' of the sshlogin, overwrite it: $Global::host{$sshlogin_string}->set_ncpus($sshlogin->ncpus()); } $Global::host{$sshlogin_string}->set_max_jobs_running(undef); next; } if($sshlogin_string eq ":") { $sshlogin->set_maxlength(Limits::Command::max_length()); } else { # If all chars needs to be quoted, every other character will be \ $sshlogin->set_maxlength(int(Limits::Command::max_length()/2)); } $Global::minimal_command_line_length = ::min($Global::minimal_command_line_length, $sshlogin->maxlength()); $Global::host{$sshlogin_string} = $sshlogin; } if(@allowed_hostgroups) { # Remove hosts that are not in these groups while (my ($string, $sshlogin) = each %Global::host) { if(not $sshlogin->in_hostgroups(@allowed_hostgroups)) { delete $Global::host{$string}; } } } # debug("start", "sshlogin: ", my_dump(%Global::host),"\n"); if($opt::transfer or @opt::return or $opt::cleanup or @opt::basefile) { if(not remote_hosts()) { # There are no remote hosts if(@opt::trc) { ::warning("--trc ignored as there are no remote --sshlogin.\n"); } elsif (defined $opt::transfer) { ::warning("--transfer ignored as there are no remote --sshlogin.\n"); } elsif (@opt::return) { ::warning("--return ignored as there are no remote --sshlogin.\n"); } elsif (defined $opt::cleanup) { ::warning("--cleanup ignored as there are no remote --sshlogin.\n"); } elsif (@opt::basefile) { ::warning("--basefile ignored as there are no remote --sshlogin.\n"); } } } } sub remote_hosts { # Return sshlogins that are not ':' # Returns: # list of sshlogins with ':' removed return grep !/^:$/, keys %Global::host; } sub setup_basefile { # Transfer basefiles to each $sshlogin # This needs to be done before first jobs on $sshlogin is run # Returns: N/A my $cmd = ""; my $rsync_destdir; my $workdir; for my $sshlogin (values %Global::host) { if($sshlogin->string() eq ":") { next } for my $file (@opt::basefile) { if($file !~ m:^/: and $opt::workdir eq "...") { ::error("Work dir '...' will not work with relative basefiles\n"); ::wait_and_exit(255); } $workdir ||= Job->new("")->workdir(); $cmd .= $sshlogin->rsync_transfer_cmd($file,$workdir) . "&"; } } $cmd .= "wait;"; debug("init", "basesetup: $cmd\n"); print `$cmd`; } sub cleanup_basefile { # Remove the basefiles transferred # Returns: N/A my $cmd=""; my $workdir = Job->new("")->workdir(); for my $sshlogin (values %Global::host) { if($sshlogin->string() eq ":") { next } for my $file (@opt::basefile) { $cmd .= $sshlogin->cleanup_cmd($file,$workdir)."&"; } } $cmd .= "wait;"; debug("init", "basecleanup: $cmd\n"); print `$cmd`; } sub filter_hosts { my(@cores, @cpus, @maxline, @echo); my $envvar = ::shell_quote_scalar($Global::envvar); while (my ($host, $sshlogin) = each %Global::host) { if($host eq ":") { next } # The 'true' is used to get the $host out later my $sshcmd = "true $host;" . $sshlogin->sshcommand()." ".$sshlogin->serverlogin(); push(@cores, $host."\t".$sshcmd." ".$envvar." parallel --number-of-cores\n\0"); push(@cpus, $host."\t".$sshcmd." ".$envvar." parallel --number-of-cpus\n\0"); push(@maxline, $host."\t".$sshcmd." ".$envvar." parallel --max-line-length-allowed\n\0"); # 'echo' is used to get the best possible value for an ssh login time push(@echo, $host."\t".$sshcmd." echo\n\0"); } my ($fh, $tmpfile) = ::tmpfile(SUFFIX => ".ssh"); print $fh @cores, @cpus, @maxline, @echo; close $fh; # --timeout 5: Setting up an SSH connection and running a simple # command should never take > 5 sec. # --delay 0.1: If multiple sshlogins use the same proxy the delay # will make it less likely to overload the ssh daemon. # --retries 3: If the ssh daemon it overloaded, try 3 times # -s 16000: Half of the max line on UnixWare my $cmd = "cat $tmpfile | $0 -j0 --timeout 5 -s 16000 --joblog - --plain --delay 0.1 --retries 3 --tag --tagstring {1} -0 --colsep '\t' -k eval {2} 2>/dev/null"; ::debug("init", $cmd, "\n"); open(my $host_fh, "-|", $cmd) || ::die_bug("parallel host check: $cmd"); my (%ncores, %ncpus, %time_to_login, %maxlen, %echo, @down_hosts); my $prepend = ""; while(<$host_fh>) { if(/\'$/) { # if last char = ' then append next line # This may be due to quoting of $Global::envvar $prepend .= $_; next; } $_ = $prepend . $_; $prepend = ""; chomp; my @col = split /\t/, $_; if(defined $col[6]) { # This is a line from --joblog # seq host time spent sent received exit signal command # 2 : 1372607672.654 0.675 0 0 0 0 eval true\ m\;ssh\ m\ parallel\ --number-of-cores if($col[0] eq "Seq" and $col[1] eq "Host" and $col[2] eq "Starttime") { # Header => skip next; } # Get server from: eval true server\; $col[8] =~ /eval true..([^;]+).;/ or ::die_bug("col8 does not contain host: $col[8]"); my $host = $1; $host =~ tr/\\//d; $Global::host{$host} or next; if($col[6] eq "255" or $col[7] eq "15") { # exit == 255 or signal == 15: ssh failed # Remove sshlogin ::debug("init", "--filtered $host\n"); push(@down_hosts, $host); @down_hosts = uniq(@down_hosts); } elsif($col[6] eq "127") { # signal == 127: parallel not installed remote # Set ncpus and ncores = 1 ::warning("Could not figure out ", "number of cpus on $host. Using 1.\n"); $ncores{$host} = 1; $ncpus{$host} = 1; $maxlen{$host} = Limits::Command::max_length(); } elsif($col[0] =~ /^\d+$/ and $Global::host{$host}) { # Remember how log it took to log in # 2 : 1372607672.654 0.675 0 0 0 0 eval true\ m\;ssh\ m\ echo $time_to_login{$host} = ::min($time_to_login{$host},$col[3]); } else { ::die_bug("host check unmatched long jobline: $_"); } } elsif($Global::host{$col[0]}) { # This output from --number-of-cores, --number-of-cpus, # --max-line-length-allowed # ncores: server 8 # ncpus: server 2 # maxlen: server 131071 if(not $ncores{$col[0]}) { $ncores{$col[0]} = $col[1]; } elsif(not $ncpus{$col[0]}) { $ncpus{$col[0]} = $col[1]; } elsif(not $maxlen{$col[0]}) { $maxlen{$col[0]} = $col[1]; } elsif(not $echo{$col[0]}) { $echo{$col[0]} = $col[1]; } elsif(m/perl: warning:|LANGUAGE =|LC_ALL =|LANG =|are supported and installed/) { # Skip these: # perl: warning: Setting locale failed. # perl: warning: Please check that your locale settings: # LANGUAGE = (unset), # LC_ALL = (unset), # LANG = "en_US.UTF-8" # are supported and installed on your system. # perl: warning: Falling back to the standard locale ("C"). } else { ::die_bug("host check too many col0: $_"); } } else { ::die_bug("host check unmatched short jobline ($col[0]): $_"); } } close $host_fh; $Global::debug or unlink $tmpfile; delete @Global::host{@down_hosts}; @down_hosts and ::warning("Removed @down_hosts\n"); $Global::minimal_command_line_length = 8_000_000; while (my ($sshlogin, $obj) = each %Global::host) { if($sshlogin eq ":") { next } $ncpus{$sshlogin} or ::die_bug("ncpus missing: ".$obj->serverlogin()); $ncores{$sshlogin} or ::die_bug("ncores missing: ".$obj->serverlogin()); $time_to_login{$sshlogin} or ::die_bug("time_to_login missing: ".$obj->serverlogin()); $maxlen{$sshlogin} or ::die_bug("maxlen missing: ".$obj->serverlogin()); if($opt::use_cpus_instead_of_cores) { $obj->set_ncpus($ncpus{$sshlogin}); } else { $obj->set_ncpus($ncores{$sshlogin}); } $obj->set_time_to_login($time_to_login{$sshlogin}); $obj->set_maxlength($maxlen{$sshlogin}); $Global::minimal_command_line_length = ::min($Global::minimal_command_line_length, int($maxlen{$sshlogin}/2)); ::debug("init", "Timing from -S:$sshlogin ncpus:",$ncpus{$sshlogin}, " ncores:", $ncores{$sshlogin}, " time_to_login:", $time_to_login{$sshlogin}, " maxlen:", $maxlen{$sshlogin}, " min_max_len:", $Global::minimal_command_line_length,"\n"); } } sub onall { sub tmp_joblog { my $joblog = shift; if(not defined $joblog) { return undef; } my ($fh, $tmpfile) = ::tmpfile(SUFFIX => ".log"); close $fh; return $tmpfile; } my @command = @_; if($Global::quoting) { @command = shell_quote_empty(@command); } # Copy all @fhlist into tempfiles my @argfiles = (); for my $fh (@fhlist) { my ($outfh, $name) = ::tmpfile(SUFFIX => ".all", UNLINK => 1); print $outfh (<$fh>); close $outfh; push @argfiles, $name; } if(@opt::basefile) { setup_basefile(); } # for each sshlogin do: # parallel -S $sshlogin $command :::: @argfiles # # Pass some of the options to the sub-parallels, not all of them as # -P should only go to the first, and -S should not be copied at all. my $options = join(" ", ((defined $opt::jobs) ? "-P $opt::jobs" : ""), ((defined $opt::linebuffer) ? "--linebuffer" : ""), ((defined $opt::ungroup) ? "-u" : ""), ((defined $opt::group) ? "-g" : ""), ((defined $opt::keeporder) ? "--keeporder" : ""), ((defined $opt::D) ? "-D $opt::D" : ""), ((defined $opt::plain) ? "--plain" : ""), ((defined $opt::max_chars) ? "--max-chars ".$opt::max_chars : ""), ); my $suboptions = join(" ", ((defined $opt::ungroup) ? "-u" : ""), ((defined $opt::linebuffer) ? "--linebuffer" : ""), ((defined $opt::group) ? "-g" : ""), ((defined $opt::files) ? "--files" : ""), ((defined $opt::keeporder) ? "--keeporder" : ""), ((defined $opt::colsep) ? "--colsep ".shell_quote($opt::colsep) : ""), ((@opt::v) ? "-vv" : ""), ((defined $opt::D) ? "-D $opt::D" : ""), ((defined $opt::timeout) ? "--timeout ".$opt::timeout : ""), ((defined $opt::plain) ? "--plain" : ""), ((defined $opt::retries) ? "--retries ".$opt::retries : ""), ((defined $opt::max_chars) ? "--max-chars ".$opt::max_chars : ""), ((defined $opt::arg_sep) ? "--arg-sep ".$opt::arg_sep : ""), ((defined $opt::arg_file_sep) ? "--arg-file-sep ".$opt::arg_file_sep : ""), (@opt::env ? map { "--env ".::shell_quote_scalar($_) } @opt::env : ""), ); ::debug("init", "| $0 $options\n"); open(my $parallel_fh, "|-", "$0 --no-notice -j0 $options") || ::die_bug("This does not run GNU Parallel: $0 $options"); my @joblogs; for my $host (sort keys %Global::host) { my $sshlogin = $Global::host{$host}; my $joblog = tmp_joblog($opt::joblog); if($joblog) { push @joblogs, $joblog; $joblog = "--joblog $joblog"; } my $quad = $opt::arg_file_sep || "::::"; ::debug("init", "$0 $suboptions -j1 $joblog ", ((defined $opt::tag) ? "--tagstring ".shell_quote_scalar($sshlogin->string()) : ""), " -S ", shell_quote_scalar($sshlogin->string())," ", join(" ",shell_quote(@command))," $quad @argfiles\n"); print $parallel_fh "$0 $suboptions -j1 $joblog ", ((defined $opt::tag) ? "--tagstring ".shell_quote_scalar($sshlogin->string()) : ""), " -S ", shell_quote_scalar($sshlogin->string())," ", join(" ",shell_quote(@command))," $quad @argfiles\n"; } close $parallel_fh; $Global::exitstatus = $? >> 8; debug("init", "--onall exitvalue ", $?); if(@opt::basefile) { cleanup_basefile(); } $Global::debug or unlink(@argfiles); my %seen; for my $joblog (@joblogs) { # Append to $joblog open(my $fh, "<", $joblog) || ::die_bug("Cannot open tmp joblog $joblog"); # Skip first line (header); <$fh>; print $Global::joblog (<$fh>); close $fh; unlink($joblog); } } sub __SIGNAL_HANDLING__ {} sub save_original_signal_handler { # Remember the original signal handler # Returns: N/A $SIG{TERM} ||= sub { exit 0; }; # $SIG{TERM} is not set on Mac OS X $SIG{INT} = sub { if($opt::tmux) { qx { tmux kill-session -t p$$ }; } unlink keys %Global::unlink; exit -1 }; $SIG{TERM} = sub { if($opt::tmux) { qx { tmux kill-session -t p$$ }; } unlink keys %Global::unlink; exit -1 }; %Global::original_sig = %SIG; $SIG{TERM} = sub {}; # Dummy until jobs really start } sub list_running_jobs { # Returns: N/A for my $v (values %Global::running) { print $Global::original_stderr "$Global::progname: ",$v->replaced(),"\n"; } } sub start_no_new_jobs { # Returns: N/A $SIG{TERM} = $Global::original_sig{TERM}; print $Global::original_stderr ("$Global::progname: SIGTERM received. No new jobs will be started.\n", "$Global::progname: Waiting for these ", scalar(keys %Global::running), " jobs to finish. Send SIGTERM again to stop now.\n"); list_running_jobs(); $Global::start_no_new_jobs ||= 1; } sub reaper { # A job finished. # Print the output. # Start another job # Returns: N/A my $stiff; my $children_reaped = 0; debug("run", "Reaper "); while (($stiff = waitpid(-1, &WNOHANG)) > 0) { $children_reaped++; if($Global::sshmaster{$stiff}) { # This is one of the ssh -M: ignore next; } my $job = $Global::running{$stiff}; # '-a <(seq 10)' will give us a pid not in %Global::running $job or next; $job->set_exitstatus($? >> 8); $job->set_exitsignal($? & 127); debug("run", "died (", $job->exitstatus(), "): ", $job->seq()); $job->set_endtime(::now()); if($stiff == $Global::tty_taken) { # The process that died had the tty => release it $Global::tty_taken = 0; } if(not $job->should_be_retried()) { # The job is done # Free the jobslot push @Global::slots, $job->slot(); if($opt::timeout) { # Update average runtime for timeout $Global::timeoutq->update_delta_time($job->runtime()); } # Force printing now if the job failed and we are going to exit my $print_now = ($opt::halt_on_error and $opt::halt_on_error == 2 and $job->exitstatus()); if($opt::keeporder and not $print_now) { print_earlier_jobs($job); } else { $job->print(); } if($job->exitstatus()) { process_failed_job($job); } } my $sshlogin = $job->sshlogin(); $sshlogin->dec_jobs_running(); $sshlogin->inc_jobs_completed(); $Global::total_running--; delete $Global::running{$stiff}; start_more_jobs(); } debug("run", "done "); return $children_reaped; } sub process_failed_job { # The jobs had a exit status <> 0, so error # Returns: N/A my $job = shift; $Global::exitstatus++; $Global::total_failed++; if($opt::halt_on_error) { if($opt::halt_on_error == 1 or ($opt::halt_on_error < 1 and $Global::total_failed > 3 and $Global::total_failed / $Global::total_started > $opt::halt_on_error)) { # If halt on error == 1 or --halt 10% # we should gracefully exit print $Global::original_stderr ("$Global::progname: Starting no more jobs. ", "Waiting for ", scalar(keys %Global::running), " jobs to finish. This job failed:\n", $job->replaced(),"\n"); $Global::start_no_new_jobs ||= 1; $Global::halt_on_error_exitstatus = $job->exitstatus(); } elsif($opt::halt_on_error == 2) { # If halt on error == 2 we should exit immediately print $Global::original_stderr ("$Global::progname: This job failed:\n", $job->replaced(),"\n"); exit ($job->exitstatus()); } } } { my (%print_later,$job_end_sequence); sub print_earlier_jobs { # Print jobs completed earlier # Returns: N/A my $job = shift; $print_later{$job->seq()} = $job; $job_end_sequence ||= 1; debug("run", "Looking for: $job_end_sequence ", "Current: ", $job->seq(), "\n"); for(my $j = $print_later{$job_end_sequence}; $j or vec($Global::job_already_run,$job_end_sequence,1); $job_end_sequence++, $j = $print_later{$job_end_sequence}) { debug("run", "Found job end $job_end_sequence"); if($j) { $j->print(); delete $print_later{$job_end_sequence}; } } } } sub __USAGE__ {} sub wait_and_exit { # If we do not wait, we sometimes get segfault # Returns: N/A my $error = shift; if($error) { # Kill all without printing for my $job (values %Global::running) { $job->kill("TERM"); $job->kill("TERM"); } } for (keys %Global::unkilled_children) { kill 9, $_; waitpid($_,0); delete $Global::unkilled_children{$_}; } wait(); exit($error); } sub die_usage { # Returns: N/A usage(); wait_and_exit(255); } sub usage { # Returns: N/A print join ("\n", "Usage:", "", "$Global::progname [options] [command [arguments]] < list_of_arguments", "$Global::progname [options] [command [arguments]] (::: arguments|:::: argfile(s))...", "cat ... | $Global::progname --pipe [options] [command [arguments]]", "", "-j n Run n jobs in parallel", "-k Keep same order", "-X Multiple arguments with context replace", "--colsep regexp Split input on regexp for positional replacements", "{} {.} {/} {/.} {#} {%} {= perl code =} Replacement strings", "{3} {3.} {3/} {3/.} {=3 perl code =} Positional replacement strings", "With --plus: {} = {+/}/{/} = {.}.{+.} = {+/}/{/.}.{+.} = {..}.{+..} =", " {+/}/{/..}.{+..} = {...}.{+...} = {+/}/{/...}.{+...}", "", "-S sshlogin Example: foo\@server.example.com", "--slf .. Use ~/.parallel/sshloginfile as the list of sshlogins", "--trc {}.bar Shorthand for --transfer --return {}.bar --cleanup", "--onall Run the given command with argument on all sshlogins", "--nonall Run the given command with no arguments on all sshlogins", "", "--pipe Split stdin (standard input) to multiple jobs.", "--recend str Record end separator for --pipe.", "--recstart str Record start separator for --pipe.", "", "See 'man $Global::progname' for details", "", "When using programs that use GNU Parallel to process data for publication please cite:", "", "O. Tange (2011): GNU Parallel - The Command-Line Power Tool,", ";login: The USENIX Magazine, February 2011:42-47.", "", "Or you can get GNU Parallel without this requirement by paying 10000 EUR.", ""); } sub citation_notice { # if --no-notice or --plain: do nothing # if stderr redirected: do nothing # if ~/.parallel/will-cite: do nothing # else: print citation notice to stderr if($opt::no_notice or $opt::plain or not -t $Global::original_stderr or -e $ENV{'HOME'}."/.parallel/will-cite") { # skip } else { print $Global::original_stderr ("When using programs that use GNU Parallel to process data for publication please cite:\n", "\n", " O. Tange (2011): GNU Parallel - The Command-Line Power Tool,\n", " ;login: The USENIX Magazine, February 2011:42-47.\n", "\n", "This helps funding further development; and it won't cost you a cent.\n", "Or you can get GNU Parallel without this requirement by paying 10000 EUR.\n", "\n", "To silence this citation notice run 'parallel --bibtex' once or use '--no-notice'.\n\n", ); flush $Global::original_stderr; } } sub warning { my @w = @_; my $fh = $Global::original_stderr || *STDERR; my $prog = $Global::progname || "parallel"; print $fh $prog, ": Warning: ", @w; } sub error { my @w = @_; my $fh = $Global::original_stderr || *STDERR; my $prog = $Global::progname || "parallel"; print $fh $prog, ": Error: ", @w; } sub die_bug { my $bugid = shift; print STDERR ("$Global::progname: This should not happen. You have found a bug.\n", "Please contact and include:\n", "* The version number: $Global::version\n", "* The bugid: $bugid\n", "* The command line being run\n", "* The files being read (put the files on a webserver if they are big)\n", "\n", "If you get the error on smaller/fewer files, please include those instead.\n"); ::wait_and_exit(255); } sub version { # Returns: N/A if($opt::tollef and not $opt::gnu) { print "WARNING: YOU ARE USING --tollef. IF THINGS ARE ACTING WEIRD USE --gnu.\n"; } print join("\n", "GNU $Global::progname $Global::version", "Copyright (C) 2007,2008,2009,2010,2011,2012,2013,2014 Ole Tange and Free Software Foundation, Inc.", "License GPLv3+: GNU GPL version 3 or later ", "This is free software: you are free to change and redistribute it.", "GNU $Global::progname comes with no warranty.", "", "Web site: http://www.gnu.org/software/${Global::progname}\n", "When using programs that use GNU Parallel to process data for publication please cite:\n", "O. Tange (2011): GNU Parallel - The Command-Line Power Tool, ", ";login: The USENIX Magazine, February 2011:42-47.\n", "Or you can get GNU Parallel without this requirement by paying 10000 EUR.\n", ); } sub bibtex { # Returns: N/A if($opt::tollef and not $opt::gnu) { print "WARNING: YOU ARE USING --tollef. IF THINGS ARE ACTING WEIRD USE --gnu.\n"; } print join("\n", "When using programs that use GNU Parallel to process data for publication please cite:", "", "\@article{Tange2011a,", " title = {GNU Parallel - The Command-Line Power Tool},", " author = {O. Tange},", " address = {Frederiksberg, Denmark},", " journal = {;login: The USENIX Magazine},", " month = {Feb},", " number = {1},", " volume = {36},", " url = {http://www.gnu.org/s/parallel},", " year = {2011},", " pages = {42-47}", "}", "", "(Feel free to use \\nocite{Tange2011a})", "", "This helps funding further development.", "", "Or you can get GNU Parallel without this requirement by paying 10000 EUR.", "" ); while(not -e $ENV{'HOME'}."/.parallel/will-cite") { print "\nType: 'will cite' and press enter.\n> "; my $input = ; if($input =~ /will cite/i) { mkdir $ENV{'HOME'}."/.parallel"; open (my $fh, ">", $ENV{'HOME'}."/.parallel/will-cite") || ::die_bug("Cannot write: ".$ENV{'HOME'}."/.parallel/will-cite"); close $fh; print "\nThank you for your support. It is much appreciated. The citation\n", "notice is now silenced.\n"; } } } sub show_limits { # Returns: N/A print("Maximal size of command: ",Limits::Command::real_max_length(),"\n", "Maximal used size of command: ",Limits::Command::max_length(),"\n", "\n", "Execution of will continue now, and it will try to read its input\n", "and run commands; if this is not what you wanted to happen, please\n", "press CTRL-D or CTRL-C\n"); } sub __GENERIC_COMMON_FUNCTION__ {} sub uniq { # Remove duplicates and return unique values return keys %{{ map { $_ => 1 } @_ }}; } sub min { # Returns: # Minimum value of array my $min; for (@_) { # Skip undefs defined $_ or next; defined $min or do { $min = $_; next; }; # Set $_ to the first non-undef $min = ($min < $_) ? $min : $_; } return $min; } sub max { # Returns: # Maximum value of array my $max; for (@_) { # Skip undefs defined $_ or next; defined $max or do { $max = $_; next; }; # Set $_ to the first non-undef $max = ($max > $_) ? $max : $_; } return $max; } sub sum { # Returns: # Sum of values of array my @args = @_; my $sum = 0; for (@args) { # Skip undefs $_ and do { $sum += $_; } } return $sum; } sub undef_as_zero { my $a = shift; return $a ? $a : 0; } sub undef_as_empty { my $a = shift; return $a ? $a : ""; } { my $hostname; sub hostname { if(not $hostname) { $hostname = `hostname`; chomp($hostname); $hostname ||= "nohostname"; } return $hostname; } } sub which { # Input: # @programs = programs to find the path to # Returns: # @full_path = full paths to @programs. Nothing if not found my @which; for my $prg (@_) { push @which, map { $_."/".$prg } grep { -x $_."/".$prg } split(":",$ENV{'PATH'}); } return @which; } { my ($regexp,%fakename); sub parent_shell { # Input: # $pid = pid to see if (grand)*parent is a shell # Returns: # $shellpath = path to shell - undef if no shell found my $pid = shift; if(not $regexp) { # All shells known to mankind # # ash bash csh dash fdsh fish fizsh ksh ksh93 mksh pdksh # posh rbash rush rzsh sash sh static-sh tcsh yash zsh my @shells = qw(ash bash csh dash fdsh fish fizsh ksh ksh93 mksh pdksh posh rbash rush rzsh sash sh static-sh tcsh yash zsh -sh -csh); # Can be formatted as: # [sh] -sh sh busybox sh # /bin/sh /sbin/sh /opt/csw/sh # NOT: foo.sh sshd crash flush pdflush scosh fsflush ssh my $shell = "(?:".join("|",@shells).")"; $regexp = '^((\[)('. $shell. ')(\])|(|\S+/|busybox )('. $shell. '))($| )'; %fakename = ( # csh and tcsh disguise themselves as -sh/-csh "-sh" => ["csh", "tcsh"], "-csh" => ["tcsh", "csh"], ); } my ($children_of_ref, $parent_of_ref, $name_of_ref) = pid_table(); my $shellpath; my $testpid = $pid; while($testpid) { ::debug("init", "shell? ". $name_of_ref->{$testpid}."\n"); if($name_of_ref->{$testpid} =~ /$regexp/o) { ::debug("init", "which ".($3||$6)." => "); $shellpath = (which($3 || $6,@{$fakename{$3 || $6}}))[0]; ::debug("init", "shell path $shellpath\n"); $shellpath and last; } $testpid = $parent_of_ref->{$testpid}; } return $shellpath; } } { my %pid_parentpid_cmd; sub pid_table { # Returns: # %children_of = { pid -> children of pid } # %parent_of = { pid -> pid of parent } # %name_of = { pid -> commandname } if(not %pid_parentpid_cmd) { # Filter for SysV-style `ps` my $sysv = q( ps -ef | perl -ane '1..1 and /^(.*)CO?MM?A?N?D/ and $s=length $1;). q(s/^.{$s}//; print "@F[1,2] $_"' ); # BSD-style `ps` my $bsd = q(ps -o pid,ppid,command -ax); %pid_parentpid_cmd = ( 'aix' => $sysv, 'cygwin' => $sysv, 'msys' => $sysv, 'dec_osf' => $sysv, 'darwin' => $bsd, 'dragonfly' => $bsd, 'freebsd' => $bsd, 'gnu' => $sysv, 'hpux' => $sysv, 'linux' => $sysv, 'mirbsd' => $bsd, 'netbsd' => $bsd, 'nto' => $sysv, 'openbsd' => $bsd, 'solaris' => $sysv, 'svr5' => $sysv, ); } $pid_parentpid_cmd{$^O} or ::die_bug("pid_parentpid_cmd for $^O missing"); my (@pidtable,%parent_of,%children_of,%name_of); # Table with pid -> children of pid @pidtable = `$pid_parentpid_cmd{$^O}`; my $p=$$; for (@pidtable) { # must match: 24436 21224 busybox ash /(\S+)\s+(\S+)\s+(\S+.*)/ or ::die_bug("pidtable format: $_"); $parent_of{$1} = $2; push @{$children_of{$2}}, $1; $name_of{$1} = $3; } return(\%children_of, \%parent_of, \%name_of); } } sub reap_usleep { # Reap dead children. # If no dead children: Sleep specified amount with exponential backoff # Input: # $ms = milliseconds to sleep # Returns: # $ms/2+0.001 if children reaped # $ms*1.1 if no children reaped my $ms = shift; if(reaper()) { # Sleep exponentially shorter (1/2^n) if a job finished return $ms/2+0.001; } else { if($opt::timeout) { $Global::timeoutq->process_timeouts(); } usleep($ms); Job::exit_if_disk_full(); if($opt::linebuffer) { for my $job (values %Global::running) { $job->print(); } } # Sleep exponentially longer (1.1^n) if a job did not finish # though at most 1000 ms. return (($ms < 1000) ? ($ms * 1.1) : ($ms)); } } sub usleep { # Sleep this many milliseconds. # Input: # $ms = milliseconds to sleep my $ms = shift; ::debug(int($ms),"ms "); select(undef, undef, undef, $ms/1000); } sub now { # Returns time since epoch as in seconds with 3 decimals # Uses: # @Global::use # Returns: # $time = time now with millisecond accuracy if(not $Global::use{"Time::HiRes"}) { if(eval "use Time::HiRes qw ( time );") { eval "sub TimeHiRestime { return Time::HiRes::time };"; } else { eval "sub TimeHiRestime { return time() };"; } $Global::use{"Time::HiRes"} = 1; } return (int(TimeHiRestime()*1000))/1000; } sub multiply_binary_prefix { # Evalualte numbers with binary prefix # Ki=2^10, Mi=2^20, Gi=2^30, Ti=2^40, Pi=2^50, Ei=2^70, Zi=2^80, Yi=2^80 # ki=2^10, mi=2^20, gi=2^30, ti=2^40, pi=2^50, ei=2^70, zi=2^80, yi=2^80 # K =2^10, M =2^20, G =2^30, T =2^40, P =2^50, E =2^70, Z =2^80, Y =2^80 # k =10^3, m =10^6, g =10^9, t=10^12, p=10^15, e=10^18, z=10^21, y=10^24 # 13G = 13*1024*1024*1024 = 13958643712 # Input: # $s = string with prefixes # Returns: # $value = int with prefixes multiplied my $s = shift; $s =~ s/ki/*1024/gi; $s =~ s/mi/*1024*1024/gi; $s =~ s/gi/*1024*1024*1024/gi; $s =~ s/ti/*1024*1024*1024*1024/gi; $s =~ s/pi/*1024*1024*1024*1024*1024/gi; $s =~ s/ei/*1024*1024*1024*1024*1024*1024/gi; $s =~ s/zi/*1024*1024*1024*1024*1024*1024*1024/gi; $s =~ s/yi/*1024*1024*1024*1024*1024*1024*1024*1024/gi; $s =~ s/xi/*1024*1024*1024*1024*1024*1024*1024*1024*1024/gi; $s =~ s/K/*1024/g; $s =~ s/M/*1024*1024/g; $s =~ s/G/*1024*1024*1024/g; $s =~ s/T/*1024*1024*1024*1024/g; $s =~ s/P/*1024*1024*1024*1024*1024/g; $s =~ s/E/*1024*1024*1024*1024*1024*1024/g; $s =~ s/Z/*1024*1024*1024*1024*1024*1024*1024/g; $s =~ s/Y/*1024*1024*1024*1024*1024*1024*1024*1024/g; $s =~ s/X/*1024*1024*1024*1024*1024*1024*1024*1024*1024/g; $s =~ s/k/*1000/g; $s =~ s/m/*1000*1000/g; $s =~ s/g/*1000*1000*1000/g; $s =~ s/t/*1000*1000*1000*1000/g; $s =~ s/p/*1000*1000*1000*1000*1000/g; $s =~ s/e/*1000*1000*1000*1000*1000*1000/g; $s =~ s/z/*1000*1000*1000*1000*1000*1000*1000/g; $s =~ s/y/*1000*1000*1000*1000*1000*1000*1000*1000/g; $s =~ s/x/*1000*1000*1000*1000*1000*1000*1000*1000*1000/g; $s = eval $s; ::debug($s); return $s; } sub tmpfile { # Create tempfile as $TMPDIR/parXXXXX # Returns: # $filename = file name created return ::tempfile(DIR=>$ENV{'TMPDIR'}, TEMPLATE => 'parXXXXX', @_); } sub __DEBUGGING__ {} sub debug { # Uses: # $Global::debug # %Global::fd # Returns: N/A $Global::debug or return; @_ = grep { defined $_ ? $_ : "" } @_; if($Global::debug eq "all" or $Global::debug eq $_[0]) { if($Global::fd{1}) { # Original stdout was saved my $stdout = $Global::fd{1}; print $stdout @_[1..$#_]; } else { print @_[1..$#_]; } } } sub my_memory_usage { # Returns: # memory usage if found # 0 otherwise use strict; use FileHandle; my $pid = $$; if(-e "/proc/$pid/stat") { my $fh = FileHandle->new("; chomp $data; $fh->close; my @procinfo = split(/\s+/,$data); return undef_as_zero($procinfo[22]); } else { return 0; } } sub my_size { # Returns: # $size = size of object if Devel::Size is installed # -1 otherwise my @size_this = (@_); eval "use Devel::Size qw(size total_size)"; if ($@) { return -1; } else { return total_size(@_); } } sub my_dump { # Returns: # ascii expression of object if Data::Dump(er) is installed # error code otherwise my @dump_this = (@_); eval "use Data::Dump qw(dump);"; if ($@) { # Data::Dump not installed eval "use Data::Dumper;"; if ($@) { my $err = "Neither Data::Dump nor Data::Dumper is installed\n". "Not dumping output\n"; print $Global::original_stderr $err; return $err; } else { return Dumper(@dump_this); } } else { # Create a dummy Data::Dump:dump as Hans Schou sometimes has # it undefined eval "sub Data::Dump:dump {}"; eval "use Data::Dump qw(dump);"; return (Data::Dump::dump(@dump_this)); } } sub my_croak { eval "use Carp; 1"; $Carp::Verbose = 1; croak(@_); } sub my_carp { eval "use Carp; 1"; $Carp::Verbose = 1; carp(@_); } sub __OBJECT_ORIENTED_PARTS__ {} package SSHLogin; sub new { my $class = shift; my $sshlogin_string = shift; my $ncpus; my %hostgroups; # SSHLogins can have these formats: # @grp+grp/ncpu//usr/bin/ssh user@server # ncpu//usr/bin/ssh user@server # /usr/bin/ssh user@server # user@server # ncpu/user@server # @grp+grp/user@server if($sshlogin_string =~ s:^\@([^/]+)/?::) { # Look for SSHLogin hostgroups %hostgroups = map { $_ => 1 } split(/\+/, $1); } if ($sshlogin_string =~ s:^(\d+)/::) { # Override default autodetected ncpus unless missing $ncpus = $1; } my $string = $sshlogin_string; # An SSHLogin is always in the hostgroup of its $string-name $hostgroups{$string} = 1; @Global::hostgroups{keys %hostgroups} = values %hostgroups; my @unget = (); my $no_slash_string = $string; $no_slash_string =~ s/[^-a-z0-9:]/_/gi; return bless { 'string' => $string, 'jobs_running' => 0, 'jobs_completed' => 0, 'maxlength' => undef, 'max_jobs_running' => undef, 'orig_max_jobs_running' => undef, 'ncpus' => $ncpus, 'hostgroups' => \%hostgroups, 'sshcommand' => undef, 'serverlogin' => undef, 'control_path_dir' => undef, 'control_path' => undef, 'time_to_login' => undef, 'last_login_at' => undef, 'loadavg_file' => $ENV{'HOME'} . "/.parallel/tmp/loadavg-" . $no_slash_string, 'loadavg' => undef, 'last_loadavg_update' => 0, 'swap_activity_file' => $ENV{'HOME'} . "/.parallel/tmp/swap_activity-" . $no_slash_string, 'swap_activity' => undef, }, ref($class) || $class; } sub DESTROY { my $self = shift; # Remove temporary files if they are created. unlink $self->{'loadavg_file'}; unlink $self->{'swap_activity_file'}; } sub string { my $self = shift; return $self->{'string'}; } sub jobs_running { my $self = shift; return ($self->{'jobs_running'} || "0"); } sub inc_jobs_running { my $self = shift; $self->{'jobs_running'}++; } sub dec_jobs_running { my $self = shift; $self->{'jobs_running'}--; } sub set_maxlength { my $self = shift; $self->{'maxlength'} = shift; } sub maxlength { my $self = shift; return $self->{'maxlength'}; } sub jobs_completed { my $self = shift; return $self->{'jobs_completed'}; } sub in_hostgroups { # Input: # @hostgroups = the hostgroups to look for # Returns: # true if intersection of @hostgroups and the hostgroups of this # SSHLogin is non-empty my $self = shift; return grep { defined $self->{'hostgroups'}{$_} } @_; } sub hostgroups { my $self = shift; return keys %{$self->{'hostgroups'}}; } sub inc_jobs_completed { my $self = shift; $self->{'jobs_completed'}++; } sub set_max_jobs_running { my $self = shift; if(defined $self->{'max_jobs_running'}) { $Global::max_jobs_running -= $self->{'max_jobs_running'}; } $self->{'max_jobs_running'} = shift; if(defined $self->{'max_jobs_running'}) { # max_jobs_running could be resat if -j is a changed file $Global::max_jobs_running += $self->{'max_jobs_running'}; } # Initialize orig to the first non-zero value that comes around $self->{'orig_max_jobs_running'} ||= $self->{'max_jobs_running'}; } sub swapping { my $self = shift; my $swapping = $self->swap_activity(); return (not defined $swapping or $swapping) } sub swap_activity { # If the currently known swap activity is too old: # Recompute a new one in the background # Returns: # last swap activity computed my $self = shift; # Should we update the swap_activity file? my $update_swap_activity_file = 0; if(-r $self->{'swap_activity_file'}) { open(my $swap_fh, "<", $self->{'swap_activity_file'}) || ::die_bug("swap_activity_file-r"); my $swap_out = <$swap_fh>; close $swap_fh; if($swap_out =~ /^(\d+)$/) { $self->{'swap_activity'} = $1; ::debug("swap", "New swap_activity: ", $self->{'swap_activity'}); } ::debug("swap", "Last update: ", $self->{'last_swap_activity_update'}); if(time - $self->{'last_swap_activity_update'} > 10) { # last swap activity update was started 10 seconds ago ::debug("swap", "Older than 10 sec: ", $self->{'swap_activity_file'}); $update_swap_activity_file = 1; } } else { ::debug("swap", "No swap_activity file: ", $self->{'swap_activity_file'}); $self->{'swap_activity'} = undef; $update_swap_activity_file = 1; } if($update_swap_activity_file) { ::debug("swap", "Updating swap_activity file ", $self->{'swap_activity_file'}); $self->{'last_swap_activity_update'} = time; -e $ENV{'HOME'}."/.parallel" or mkdir $ENV{'HOME'}."/.parallel"; -e $ENV{'HOME'}."/.parallel/tmp" or mkdir $ENV{'HOME'}."/.parallel/tmp"; my $swap_activity; $swap_activity = swapactivityscript(); if($self->{'string'} ne ":") { $swap_activity = $self->sshcommand() . " " . $self->serverlogin() . " " . ::shell_quote_scalar($swap_activity); } # Run swap_activity measuring. # As the command can take long to run if run remote # save it to a tmp file before moving it to the correct file my $file = $self->{'swap_activity_file'}; my ($dummy_fh, $tmpfile) = ::tmpfile(SUFFIX => ".swp"); ::debug("swap", "\n", $swap_activity, "\n"); qx{ ($swap_activity > $tmpfile && mv $tmpfile $file || rm $tmpfile) & }; } return $self->{'swap_activity'}; } { my $script; sub swapactivityscript { # Returns: # shellscript for detecting swap activity # # arguments for vmstat are OS dependant # swap_in and swap_out are in different columns depending on OS # if(not $script) { my %vmstat = ( # linux: $7*$8 # $ vmstat 1 2 # procs -----------memory---------- ---swap-- -----io---- -system-- ----cpu---- # r b swpd free buff cache si so bi bo in cs us sy id wa # 5 0 51208 1701096 198012 18857888 0 0 37 153 28 19 56 11 33 1 # 3 0 51208 1701288 198012 18857972 0 0 0 0 3638 10412 15 3 82 0 'linux' => ['vmstat 1 2 | tail -n1', '$7*$8'], # solaris: $6*$7 # $ vmstat -S 1 2 # kthr memory page disk faults cpu # r b w swap free si so pi po fr de sr s3 s4 -- -- in sy cs us sy id # 0 0 0 4628952 3208408 0 0 3 1 1 0 0 -0 2 0 0 263 613 246 1 2 97 # 0 0 0 4552504 3166360 0 0 0 0 0 0 0 0 0 0 0 246 213 240 1 1 98 'solaris' => ['vmstat -S 1 2 | tail -1', '$6*$7'], # darwin (macosx): $21*$22 # $ vm_stat -c 2 1 # Mach Virtual Memory Statistics: (page size of 4096 bytes) # free active specul inactive throttle wired prgable faults copy 0fill reactive purged file-backed anonymous cmprssed cmprssor dcomprs comprs pageins pageout swapins swapouts # 346306 829050 74871 606027 0 240231 90367 544858K 62343596 270837K 14178 415070 570102 939846 356 370 116 922 4019813 4 0 0 # 345740 830383 74875 606031 0 239234 90369 2696 359 553 0 0 570110 941179 356 370 0 0 0 0 0 0 'darwin' => ['vm_stat -c 2 1 | tail -n1', '$21*$22'], # ultrix: $12*$13 # $ vmstat -S 1 2 # procs faults cpu memory page disk # r b w in sy cs us sy id avm fre si so pi po fr de sr s0 # 1 0 0 4 23 2 3 0 97 7743 217k 0 0 0 0 0 0 0 0 # 1 0 0 6 40 8 0 1 99 7743 217k 0 0 3 0 0 0 0 0 'ultrix' => ['vmstat -S 1 2 | tail -1', '$12*$13'], # aix: $6*$7 # $ vmstat 1 2 # System configuration: lcpu=1 mem=2048MB # # kthr memory page faults cpu # ----- ----------- ------------------------ ------------ ----------- # r b avm fre re pi po fr sr cy in sy cs us sy id wa # 0 0 333933 241803 0 0 0 0 0 0 10 143 90 0 0 99 0 # 0 0 334125 241569 0 0 0 0 0 0 37 5368 184 0 9 86 5 'aix' => ['vmstat 1 2 | tail -n1', '$6*$7'], # freebsd: $8*$9 # $ vmstat -H 1 2 # procs memory page disks faults cpu # r b w avm fre flt re pi po fr sr ad0 ad1 in sy cs us sy id # 1 0 0 596716 19560 32 0 0 0 33 8 0 0 11 220 277 0 0 99 # 0 0 0 596716 19560 2 0 0 0 0 0 0 0 11 144 263 0 1 99 'freebsd' => ['vmstat -H 1 2 | tail -n1', '$8*$9'], # mirbsd: $8*$9 # $ vmstat 1 2 # procs memory page disks traps cpu # r b w avm fre flt re pi po fr sr wd0 cd0 int sys cs us sy id # 0 0 0 25776 164968 34 0 0 0 0 0 0 0 230 259 38 4 0 96 # 0 0 0 25776 164968 24 0 0 0 0 0 0 0 237 275 37 0 0 100 'mirbsd' => ['vmstat 1 2 | tail -n1', '$8*$9'], # netbsd: $7*$8 # $ vmstat 1 2 # procs memory page disks faults cpu # r b avm fre flt re pi po fr sr w0 w1 in sy cs us sy id # 0 0 138452 6012 54 0 0 0 1 2 3 0 4 100 23 0 0 100 # 0 0 138456 6008 1 0 0 0 0 0 0 0 7 26 19 0 0 100 'netbsd' => ['vmstat 1 2 | tail -n1', '$7*$8'], # openbsd: $8*$9 # $ vmstat 1 2 # procs memory page disks traps cpu # r b w avm fre flt re pi po fr sr wd0 wd1 int sys cs us sy id # 0 0 0 76596 109944 73 0 0 0 0 0 0 1 5 259 22 0 1 99 # 0 0 0 76604 109936 24 0 0 0 0 0 0 0 7 114 20 0 1 99 'openbsd' => ['vmstat 1 2 | tail -n1', '$8*$9'], # hpux: $8*$9 # $ vmstat 1 2 # procs memory page faults cpu # r b w avm free re at pi po fr de sr in sy cs us sy id # 1 0 0 247211 216476 4 1 0 0 0 0 0 102 73005 54 6 11 83 # 1 0 0 247211 216421 43 9 0 0 0 0 0 144 1675 96 25269512791222387000 25269512791222387000 105 'hpux' => ['vmstat 1 2 | tail -n1', '$8*$9'], # dec_osf (tru64): $11*$12 # $ vmstat 1 2 # Virtual Memory Statistics: (pagesize = 8192) # procs memory pages intr cpu # r w u act free wire fault cow zero react pin pout in sy cs us sy id # 3 181 36 51K 1895 8696 348M 59M 122M 259 79M 0 5 218 302 4 1 94 # 3 181 36 51K 1893 8696 3 15 21 0 28 0 4 81 321 1 1 98 'dec_osf' => ['vmstat 1 2 | tail -n1', '$11*$12'], # gnu (hurd): $7*$8 # $ vmstat -k 1 2 # (pagesize: 4, size: 512288, swap size: 894972) # free actv inact wired zeroed react pgins pgouts pfaults cowpfs hrat caobj cache swfree # 371940 30844 89228 20276 298348 0 48192 19016 756105 99808 98% 876 20628 894972 # 371940 30844 89228 20276 +0 +0 +0 +0 +42 +2 98% 876 20628 894972 'gnu' => ['vmstat -k 1 2 | tail -n1', '$7*$8'], # -nto (qnx has no swap) #-irix #-svr5 (scosysv) ); my $perlscript = ""; for my $os (keys %vmstat) { #q[ { vmstat 1 2 2> /dev/null || vmstat -c 1 2; } | ]. # q[ awk 'NR!=4{next} NF==17||NF==16{print $7*$8} NF==22{print $21*$22} {exit}' ]; $vmstat{$os}[1] =~ s/\$/\\\\\\\$/g; # $ => \\\$ $perlscript .= 'if($^O eq "'.$os.'") { print `'.$vmstat{$os}[0].' | awk "{print ' . $vmstat{$os}[1] . '}"` }'; } $perlscript = "perl -e " . ::shell_quote_scalar($perlscript); $script = $Global::envvar. " " .$perlscript; } return $script; } } sub too_fast_remote_login { my $self = shift; if($self->{'last_login_at'} and $self->{'time_to_login'}) { # sshd normally allows 10 simultaneous logins # A login takes time_to_login # So time_to_login/5 should be safe # If now <= last_login + time_to_login/5: Then it is too soon. my $too_fast = (::now() <= $self->{'last_login_at'} + $self->{'time_to_login'}/5); ::debug("run", "Too fast? $too_fast "); return $too_fast; } else { # No logins so far (or time_to_login not computed): it is not too fast return 0; } } sub last_login_at { my $self = shift; return $self->{'last_login_at'}; } sub set_last_login_at { my $self = shift; $self->{'last_login_at'} = shift; } sub loadavg_too_high { my $self = shift; my $loadavg = $self->loadavg(); return (not defined $loadavg or $loadavg > $self->max_loadavg()); } sub loadavg { # If the currently know loadavg is too old: # Recompute a new one in the background # The load average is computed as the number of processes waiting for disk # or CPU right now. So it is the server load this instant and not averaged over # several minutes. This is needed so GNU Parallel will at most start one job # that will push the load over the limit. # # Returns: # $last_loadavg = last load average computed (undef if none) my $self = shift; # Should we update the loadavg file? my $update_loadavg_file = 0; if(open(my $load_fh, "<", $self->{'loadavg_file'})) { local $/ = undef; my $load_out = <$load_fh>; close $load_fh; my $load =()= ($load_out=~/(^[DR]....[^\[])/gm); if($load > 0) { # load is overestimated by 1 $self->{'loadavg'} = $load - 1; ::debug("load", "New loadavg: ", $self->{'loadavg'}); } else { ::die_bug("loadavg_invalid_content: $load_out"); } ::debug("load", "Last update: ", $self->{'last_loadavg_update'}); if(time - $self->{'last_loadavg_update'} > 10) { # last loadavg was started 10 seconds ago ::debug("load", time - $self->{'last_loadavg_update'}, " secs old: ", $self->{'loadavg_file'}); $update_loadavg_file = 1; } } else { ::debug("load", "No loadavg file: ", $self->{'loadavg_file'}); $self->{'loadavg'} = undef; $update_loadavg_file = 1; } if($update_loadavg_file) { ::debug("load", "Updating loadavg file", $self->{'loadavg_file'}, "\n"); $self->{'last_loadavg_update'} = time; -e $ENV{'HOME'}."/.parallel" or mkdir $ENV{'HOME'}."/.parallel"; -e $ENV{'HOME'}."/.parallel/tmp" or mkdir $ENV{'HOME'}."/.parallel/tmp"; my $cmd = ""; if($self->{'string'} ne ":") { $cmd = $self->sshcommand() . " " . $self->serverlogin() . " "; } # TODO Is is called 'ps ax -o state,command' on other platforms? $cmd .= "ps ax -o state,command"; # As the command can take long to run if run remote # save it to a tmp file before moving it to the correct file my $file = $self->{'loadavg_file'}; my ($dummy_fh, $tmpfile) = ::tmpfile(SUFFIX => ".loa"); qx{ ($cmd > $tmpfile && mv $tmpfile $file || rm $tmpfile) & }; } return $self->{'loadavg'}; } sub max_loadavg { my $self = shift; # If --load is a file it might be changed if($Global::max_load_file) { my $mtime = (stat($Global::max_load_file))[9]; if($mtime > $Global::max_load_file_last_mod) { $Global::max_load_file_last_mod = $mtime; for my $sshlogin (values %Global::host) { $sshlogin->set_max_loadavg(undef); } } } if(not defined $self->{'max_loadavg'}) { $self->{'max_loadavg'} = $self->compute_max_loadavg($opt::load); } ::debug("load", "max_loadavg: ", $self->string(), " ", $self->{'max_loadavg'}); return $self->{'max_loadavg'}; } sub set_max_loadavg { my $self = shift; $self->{'max_loadavg'} = shift; } sub compute_max_loadavg { # Parse the max loadaverage that the user asked for using --load # Returns: # max loadaverage my $self = shift; my $loadspec = shift; my $load; if(defined $loadspec) { if($loadspec =~ /^\+(\d+)$/) { # E.g. --load +2 my $j = $1; $load = $self->ncpus() + $j; } elsif ($loadspec =~ /^-(\d+)$/) { # E.g. --load -2 my $j = $1; $load = $self->ncpus() - $j; } elsif ($loadspec =~ /^(\d+)\%$/) { my $j = $1; $load = $self->ncpus() * $j / 100; } elsif ($loadspec =~ /^(\d+(\.\d+)?)$/) { $load = $1; } elsif (-f $loadspec) { $Global::max_load_file = $loadspec; $Global::max_load_file_last_mod = (stat($Global::max_load_file))[9]; if(open(my $in_fh, "<", $Global::max_load_file)) { my $opt_load_file = join("",<$in_fh>); close $in_fh; $load = $self->compute_max_loadavg($opt_load_file); } else { print $Global::original_stderr "Cannot open $loadspec\n"; ::wait_and_exit(255); } } else { print $Global::original_stderr "Parsing of --load failed\n"; ::die_usage(); } if($load < 0.01) { $load = 0.01; } } return $load; } sub time_to_login { my $self = shift; return $self->{'time_to_login'}; } sub set_time_to_login { my $self = shift; $self->{'time_to_login'} = shift; } sub max_jobs_running { my $self = shift; if(not defined $self->{'max_jobs_running'}) { my $nproc = $self->compute_number_of_processes($opt::jobs); $self->set_max_jobs_running($nproc); } return $self->{'max_jobs_running'}; } sub orig_max_jobs_running { my $self = shift; return $self->{'orig_max_jobs_running'}; } sub compute_number_of_processes { # Number of processes wanted and limited by system resources # Returns: # Number of processes my $self = shift; my $opt_P = shift; my $wanted_processes = $self->user_requested_processes($opt_P); if(not defined $wanted_processes) { $wanted_processes = $Global::default_simultaneous_sshlogins; } ::debug("load", "Wanted procs: $wanted_processes\n"); my $system_limit = $self->processes_available_by_system_limit($wanted_processes); ::debug("load", "Limited to procs: $system_limit\n"); return $system_limit; } sub processes_available_by_system_limit { # If the wanted number of processes is bigger than the system limits: # Limit them to the system limits # Limits are: File handles, number of input lines, processes, # and taking > 1 second to spawn 10 extra processes # Returns: # Number of processes my $self = shift; my $wanted_processes = shift; my $system_limit = 0; my @jobs = (); my $job; my @args = (); my $arg; my $more_filehandles = 1; my $max_system_proc_reached = 0; my $slow_spawining_warning_printed = 0; my $time = time; my %fh; my @children; # Reserve filehandles # perl uses 7 filehandles for something? # parallel uses 1 for memory_usage # parallel uses 4 for ? for my $i (1..12) { open($fh{"init-$i"}, "<", "/dev/null"); } for(1..2) { # System process limit my $child; if($child = fork()) { push (@children,$child); $Global::unkilled_children{$child} = 1; } elsif(defined $child) { # The child takes one process slot # It will be killed later $SIG{TERM} = $Global::original_sig{TERM}; sleep 10000000; exit(0); } else { $max_system_proc_reached = 1; } } my $count_jobs_already_read = $Global::JobQueue->next_seq(); my $wait_time_for_getting_args = 0; my $start_time = time; while(1) { $system_limit >= $wanted_processes and last; not $more_filehandles and last; $max_system_proc_reached and last; my $before_getting_arg = time; if($Global::semaphore or $opt::pipe) { # Skip: No need to get args } elsif(defined $opt::retries and $count_jobs_already_read) { # For retries we may need to run all jobs on this sshlogin # so include the already read jobs for this sshlogin $count_jobs_already_read--; } else { if($opt::X or $opt::m) { # The arguments may have to be re-spread over several jobslots # So pessimistically only read one arg per jobslot # instead of a full commandline if($Global::JobQueue->{'commandlinequeue'}->{'arg_queue'}->empty()) { if($Global::JobQueue->empty()) { last; } else { ($job) = $Global::JobQueue->get(); push(@jobs, $job); } } else { ($arg) = $Global::JobQueue->{'commandlinequeue'}->{'arg_queue'}->get(); push(@args, $arg); } } else { # If there are no more command lines, then we have a process # per command line, so no need to go further $Global::JobQueue->empty() and last; ($job) = $Global::JobQueue->get(); push(@jobs, $job); } } $wait_time_for_getting_args += time - $before_getting_arg; $system_limit++; # Every simultaneous process uses 2 filehandles when grouping # Every simultaneous process uses 2 filehandles when compressing $more_filehandles = open($fh{$system_limit*10}, "<", "/dev/null") && open($fh{$system_limit*10+2}, "<", "/dev/null") && open($fh{$system_limit*10+3}, "<", "/dev/null") && open($fh{$system_limit*10+4}, "<", "/dev/null"); # System process limit my $child; if($child = fork()) { push (@children,$child); $Global::unkilled_children{$child} = 1; } elsif(defined $child) { # The child takes one process slot # It will be killed later $SIG{TERM} = $Global::original_sig{TERM}; sleep 10000000; exit(0); } else { $max_system_proc_reached = 1; } my $forktime = time - $time - $wait_time_for_getting_args; ::debug("run", "Time to fork $system_limit procs: $wait_time_for_getting_args ", $forktime, " (processes so far: ", $system_limit,")\n"); if($system_limit > 10 and $forktime > 1 and $forktime > $system_limit * 0.01 and not $slow_spawining_warning_printed) { # It took more than 0.01 second to fork a processes on avg. # Give the user a warning. He can press Ctrl-C if this # sucks. print $Global::original_stderr ("parallel: Warning: Starting $system_limit processes took > $forktime sec.\n", "Consider adjusting -j. Press CTRL-C to stop.\n"); $slow_spawining_warning_printed = 1; } } # Cleanup: Close the files for (values %fh) { close $_ } # Cleanup: Kill the children for my $pid (@children) { kill 9, $pid; waitpid($pid,0); delete $Global::unkilled_children{$pid}; } # Cleanup: Unget the command_lines or the @args $Global::JobQueue->{'commandlinequeue'}->{'arg_queue'}->unget(@args); $Global::JobQueue->unget(@jobs); if($system_limit < $wanted_processes) { # The system_limit is less than the wanted_processes if($system_limit < 1 and not $Global::JobQueue->empty()) { ::warning("Cannot spawn any jobs. Raising ulimit -u or /etc/security/limits.conf\n", "or /proc/sys/kernel/pid_max may help.\n"); ::wait_and_exit(255); } if(not $more_filehandles) { ::warning("Only enough file handles to run ", $system_limit, " jobs in parallel.\n", "Running 'parallel -j0 -N", $system_limit, " --pipe parallel -j0' or ", "raising ulimit -n or /etc/security/limits.conf may help.\n"); } if($max_system_proc_reached) { ::warning("Only enough available processes to run ", $system_limit, " jobs in parallel. Raising ulimit -u or /etc/security/limits.conf\n", "or /proc/sys/kernel/pid_max may help.\n"); } } if($] == 5.008008 and $system_limit > 1000) { # https://savannah.gnu.org/bugs/?36942 $system_limit = 1000; } if($Global::JobQueue->empty()) { $system_limit ||= 1; } if($self->string() ne ":" and $system_limit > $Global::default_simultaneous_sshlogins) { $system_limit = $self->simultaneous_sshlogin_limit($system_limit); } return $system_limit; } sub simultaneous_sshlogin_limit { # Test by logging in wanted number of times simultaneously # Returns: # min($wanted_processes,$working_simultaneous_ssh_logins-1) my $self = shift; my $wanted_processes = shift; if($self->{'time_to_login'}) { return $wanted_processes; } # Try twice because it guesses wrong sometimes # Choose the minimal my $ssh_limit = ::min($self->simultaneous_sshlogin($wanted_processes), $self->simultaneous_sshlogin($wanted_processes)); if($ssh_limit < $wanted_processes) { my $serverlogin = $self->serverlogin(); ::warning("ssh to $serverlogin only allows ", "for $ssh_limit simultaneous logins.\n", "You may raise this by changing ", "/etc/ssh/sshd_config:MaxStartups and MaxSessions on $serverlogin.\n", "Using only ",$ssh_limit-1," connections ", "to avoid race conditions.\n"); } # Race condition can cause problem if using all sshs. if($ssh_limit > 1) { $ssh_limit -= 1; } return $ssh_limit; } sub simultaneous_sshlogin { # Using $sshlogin try to see if we can do $wanted_processes # simultaneous logins # (ssh host echo simultaneouslogin & ssh host echo simultaneouslogin & ...)|grep simul|wc -l # Returns: # Number of succesful logins my $self = shift; my $wanted_processes = shift; my $sshcmd = $self->sshcommand(); my $serverlogin = $self->serverlogin(); my $sshdelay = $opt::sshdelay ? "sleep $opt::sshdelay;" : ""; my $cmd = "$sshdelay$sshcmd $serverlogin echo simultaneouslogin &1 &"x$wanted_processes; ::debug("init", "Trying $wanted_processes logins at $serverlogin\n"); open (my $simul_fh, "-|", "($cmd)|grep simultaneouslogin | wc -l") or ::die_bug("simultaneouslogin"); my $ssh_limit = <$simul_fh>; close $simul_fh; chomp $ssh_limit; return $ssh_limit; } sub set_ncpus { my $self = shift; $self->{'ncpus'} = shift; } sub user_requested_processes { # Parse the number of processes that the user asked for using -j # Returns: # the number of processes to run on this sshlogin my $self = shift; my $opt_P = shift; my $processes; if(defined $opt_P) { if($opt_P =~ /^\+(\d+)$/) { # E.g. -P +2 my $j = $1; $processes = $self->ncpus() + $j; } elsif ($opt_P =~ /^-(\d+)$/) { # E.g. -P -2 my $j = $1; $processes = $self->ncpus() - $j; } elsif ($opt_P =~ /^(\d+(\.\d+)?)\%$/) { # E.g. -P 10.5% my $j = $1; $processes = $self->ncpus() * $j / 100; } elsif ($opt_P =~ /^(\d+)$/) { $processes = $1; if($processes == 0) { # -P 0 = infinity (or at least close) $processes = $Global::infinity; } } elsif (-f $opt_P) { $Global::max_procs_file = $opt_P; $Global::max_procs_file_last_mod = (stat($Global::max_procs_file))[9]; if(open(my $in_fh, "<", $Global::max_procs_file)) { my $opt_P_file = join("",<$in_fh>); close $in_fh; $processes = $self->user_requested_processes($opt_P_file); } else { ::error("Cannot open $opt_P.\n"); ::wait_and_exit(255); } } else { ::error("Parsing of --jobs/-j/--max-procs/-P failed.\n"); ::die_usage(); } $processes = ::ceil($processes); } return $processes; } sub ncpus { my $self = shift; if(not defined $self->{'ncpus'}) { my $sshcmd = $self->sshcommand(); my $serverlogin = $self->serverlogin(); if($serverlogin eq ":") { if($opt::use_cpus_instead_of_cores) { $self->{'ncpus'} = no_of_cpus(); } else { $self->{'ncpus'} = no_of_cores(); } } else { my $ncpu; my $sqe = ::shell_quote_scalar($Global::envvar); if($opt::use_cpus_instead_of_cores) { $ncpu = qx(echo|$sshcmd $serverlogin $sqe parallel --number-of-cpus); } else { ::debug("init",qq(echo|$sshcmd $serverlogin $sqe parallel --number-of-cores\n)); $ncpu = qx(echo|$sshcmd $serverlogin $sqe parallel --number-of-cores); } chomp $ncpu; if($ncpu =~ /^\s*[0-9]+\s*$/s) { $self->{'ncpus'} = $ncpu; } else { ::warning("Could not figure out ", "number of cpus on $serverlogin ($ncpu). Using 1.\n"); $self->{'ncpus'} = 1; } } } return $self->{'ncpus'}; } sub no_of_cpus { # Returns: # Number of physical CPUs local $/="\n"; # If delimiter is set, then $/ will be wrong my $no_of_cpus; if ($^O eq 'linux') { $no_of_cpus = no_of_cpus_gnu_linux() || no_of_cores_gnu_linux(); } elsif ($^O eq 'freebsd') { $no_of_cpus = no_of_cpus_freebsd(); } elsif ($^O eq 'netbsd') { $no_of_cpus = no_of_cpus_netbsd(); } elsif ($^O eq 'openbsd') { $no_of_cpus = no_of_cpus_openbsd(); } elsif ($^O eq 'gnu') { $no_of_cpus = no_of_cpus_hurd(); } elsif ($^O eq 'darwin') { $no_of_cpus = no_of_cpus_darwin(); } elsif ($^O eq 'solaris') { $no_of_cpus = no_of_cpus_solaris(); } elsif ($^O eq 'aix') { $no_of_cpus = no_of_cpus_aix(); } elsif ($^O eq 'hpux') { $no_of_cpus = no_of_cpus_hpux(); } elsif ($^O eq 'nto') { $no_of_cpus = no_of_cpus_qnx(); } elsif ($^O eq 'svr5') { $no_of_cpus = no_of_cpus_openserver(); } elsif ($^O eq 'irix') { $no_of_cpus = no_of_cpus_irix(); } elsif ($^O eq 'dec_osf') { $no_of_cpus = no_of_cpus_tru64(); } else { $no_of_cpus = (no_of_cpus_gnu_linux() || no_of_cpus_freebsd() || no_of_cpus_netbsd() || no_of_cpus_openbsd() || no_of_cpus_hurd() || no_of_cpus_darwin() || no_of_cpus_solaris() || no_of_cpus_aix() || no_of_cpus_hpux() || no_of_cpus_qnx() || no_of_cpus_openserver() || no_of_cpus_irix() || no_of_cpus_tru64() # Number of cores is better than no guess for #CPUs || nproc() ); } if($no_of_cpus) { chomp $no_of_cpus; return $no_of_cpus; } else { ::warning("Cannot figure out number of cpus. Using 1.\n"); return 1; } } sub no_of_cores { # Returns: # Number of CPU cores local $/="\n"; # If delimiter is set, then $/ will be wrong my $no_of_cores; if ($^O eq 'linux') { $no_of_cores = no_of_cores_gnu_linux(); } elsif ($^O eq 'freebsd') { $no_of_cores = no_of_cores_freebsd(); } elsif ($^O eq 'netbsd') { $no_of_cores = no_of_cores_netbsd(); } elsif ($^O eq 'openbsd') { $no_of_cores = no_of_cores_openbsd(); } elsif ($^O eq 'gnu') { $no_of_cores = no_of_cores_hurd(); } elsif ($^O eq 'darwin') { $no_of_cores = no_of_cores_darwin(); } elsif ($^O eq 'solaris') { $no_of_cores = no_of_cores_solaris(); } elsif ($^O eq 'aix') { $no_of_cores = no_of_cores_aix(); } elsif ($^O eq 'hpux') { $no_of_cores = no_of_cores_hpux(); } elsif ($^O eq 'nto') { $no_of_cores = no_of_cores_qnx(); } elsif ($^O eq 'svr5') { $no_of_cores = no_of_cores_openserver(); } elsif ($^O eq 'irix') { $no_of_cores = no_of_cores_irix(); } elsif ($^O eq 'dec_osf') { $no_of_cores = no_of_cores_tru64(); } else { $no_of_cores = (no_of_cores_gnu_linux() || no_of_cores_freebsd() || no_of_cores_netbsd() || no_of_cores_openbsd() || no_of_cores_hurd() || no_of_cores_darwin() || no_of_cores_solaris() || no_of_cores_aix() || no_of_cores_hpux() || no_of_cores_qnx() || no_of_cores_openserver() || no_of_cores_irix() || no_of_cores_tru64() || nproc() ); } if($no_of_cores) { chomp $no_of_cores; return $no_of_cores; } else { ::warning("Cannot figure out number of CPU cores. Using 1.\n"); return 1; } } sub nproc { # Returns: # Number of cores using `nproc` my $no_of_cores = `nproc 2>/dev/null`; return $no_of_cores; } sub no_of_cpus_gnu_linux { # Returns: # Number of physical CPUs on GNU/Linux # undef if not GNU/Linux my $no_of_cpus; my $no_of_cores; if(-e "/proc/cpuinfo") { $no_of_cpus = 0; $no_of_cores = 0; my %seen; open(my $in_fh, "<", "/proc/cpuinfo") || return undef; while(<$in_fh>) { if(/^physical id.*[:](.*)/ and not $seen{$1}++) { $no_of_cpus++; } /^processor.*[:]/i and $no_of_cores++; } close $in_fh; } return ($no_of_cpus||$no_of_cores); } sub no_of_cores_gnu_linux { # Returns: # Number of CPU cores on GNU/Linux # undef if not GNU/Linux my $no_of_cores; if(-e "/proc/cpuinfo") { $no_of_cores = 0; open(my $in_fh, "<", "/proc/cpuinfo") || return undef; while(<$in_fh>) { /^processor.*[:]/i and $no_of_cores++; } close $in_fh; } return $no_of_cores; } sub no_of_cpus_freebsd { # Returns: # Number of physical CPUs on FreeBSD # undef if not FreeBSD my $no_of_cpus = (`sysctl -a dev.cpu 2>/dev/null | grep \%parent | awk '{ print \$2 }' | uniq | wc -l | awk '{ print \$1 }'` or `sysctl hw.ncpu 2>/dev/null | awk '{ print \$2 }'`); chomp $no_of_cpus; return $no_of_cpus; } sub no_of_cores_freebsd { # Returns: # Number of CPU cores on FreeBSD # undef if not FreeBSD my $no_of_cores = (`sysctl hw.ncpu 2>/dev/null | awk '{ print \$2 }'` or `sysctl -a hw 2>/dev/null | grep [^a-z]logicalcpu[^a-z] | awk '{ print \$2 }'`); chomp $no_of_cores; return $no_of_cores; } sub no_of_cpus_netbsd { # Returns: # Number of physical CPUs on NetBSD # undef if not NetBSD my $no_of_cpus = `sysctl -n hw.ncpu 2>/dev/null`; chomp $no_of_cpus; return $no_of_cpus; } sub no_of_cores_netbsd { # Returns: # Number of CPU cores on NetBSD # undef if not NetBSD my $no_of_cores = `sysctl -n hw.ncpu 2>/dev/null`; chomp $no_of_cores; return $no_of_cores; } sub no_of_cpus_openbsd { # Returns: # Number of physical CPUs on OpenBSD # undef if not OpenBSD my $no_of_cpus = `sysctl -n hw.ncpu 2>/dev/null`; chomp $no_of_cpus; return $no_of_cpus; } sub no_of_cores_openbsd { # Returns: # Number of CPU cores on OpenBSD # undef if not OpenBSD my $no_of_cores = `sysctl -n hw.ncpu 2>/dev/null`; chomp $no_of_cores; return $no_of_cores; } sub no_of_cpus_hurd { # Returns: # Number of physical CPUs on HURD # undef if not HURD my $no_of_cpus = `nproc`; chomp $no_of_cpus; return $no_of_cpus; } sub no_of_cores_hurd { # Returns: # Number of physical CPUs on HURD # undef if not HURD my $no_of_cores = `nproc`; chomp $no_of_cores; return $no_of_cores; } sub no_of_cpus_darwin { # Returns: # Number of physical CPUs on Mac Darwin # undef if not Mac Darwin my $no_of_cpus = (`sysctl -n hw.physicalcpu 2>/dev/null` or `sysctl -a hw 2>/dev/null | grep [^a-z]physicalcpu[^a-z] | awk '{ print \$2 }'`); return $no_of_cpus; } sub no_of_cores_darwin { # Returns: # Number of CPU cores on Mac Darwin # undef if not Mac Darwin my $no_of_cores = (`sysctl -n hw.logicalcpu 2>/dev/null` or `sysctl -a hw 2>/dev/null | grep [^a-z]logicalcpu[^a-z] | awk '{ print \$2 }'`); return $no_of_cores; } sub no_of_cpus_solaris { # Returns: # Number of physical CPUs on Solaris # undef if not Solaris if(-x "/usr/sbin/psrinfo") { my @psrinfo = `/usr/sbin/psrinfo`; if($#psrinfo >= 0) { return $#psrinfo +1; } } if(-x "/usr/sbin/prtconf") { my @prtconf = `/usr/sbin/prtconf | grep cpu..instance`; if($#prtconf >= 0) { return $#prtconf +1; } } return undef; } sub no_of_cores_solaris { # Returns: # Number of CPU cores on Solaris # undef if not Solaris if(-x "/usr/sbin/psrinfo") { my @psrinfo = `/usr/sbin/psrinfo`; if($#psrinfo >= 0) { return $#psrinfo +1; } } if(-x "/usr/sbin/prtconf") { my @prtconf = `/usr/sbin/prtconf | grep cpu..instance`; if($#prtconf >= 0) { return $#prtconf +1; } } return undef; } sub no_of_cpus_aix { # Returns: # Number of physical CPUs on AIX # undef if not AIX my $no_of_cpus = 0; if(-x "/usr/sbin/lscfg") { open(my $in_fh, "-|", "/usr/sbin/lscfg -vs |grep proc | wc -l|tr -d ' '") || return undef; $no_of_cpus = <$in_fh>; chomp ($no_of_cpus); close $in_fh; } return $no_of_cpus; } sub no_of_cores_aix { # Returns: # Number of CPU cores on AIX # undef if not AIX my $no_of_cores; if(-x "/usr/bin/vmstat") { open(my $in_fh, "-|", "/usr/bin/vmstat 1 1") || return undef; while(<$in_fh>) { /lcpu=([0-9]*) / and $no_of_cores = $1; } close $in_fh; } return $no_of_cores; } sub no_of_cpus_hpux { # Returns: # Number of physical CPUs on HP-UX # undef if not HP-UX my $no_of_cpus = (`/usr/bin/mpsched -s 2>&1 | grep 'Locality Domain Count' | awk '{ print \$4 }'`); return $no_of_cpus; } sub no_of_cores_hpux { # Returns: # Number of CPU cores on HP-UX # undef if not HP-UX my $no_of_cores = (`/usr/bin/mpsched -s 2>&1 | grep 'Processor Count' | awk '{ print \$3 }'`); return $no_of_cores; } sub no_of_cpus_qnx { # Returns: # Number of physical CPUs on QNX # undef if not QNX # BUG: It is now known how to calculate this. my $no_of_cpus = 0; return $no_of_cpus; } sub no_of_cores_qnx { # Returns: # Number of CPU cores on QNX # undef if not QNX # BUG: It is now known how to calculate this. my $no_of_cores = 0; return $no_of_cores; } sub no_of_cpus_openserver { # Returns: # Number of physical CPUs on SCO OpenServer # undef if not SCO OpenServer my $no_of_cpus = 0; if(-x "/usr/sbin/psrinfo") { my @psrinfo = `/usr/sbin/psrinfo`; if($#psrinfo >= 0) { return $#psrinfo +1; } } return $no_of_cpus; } sub no_of_cores_openserver { # Returns: # Number of CPU cores on SCO OpenServer # undef if not SCO OpenServer my $no_of_cores = 0; if(-x "/usr/sbin/psrinfo") { my @psrinfo = `/usr/sbin/psrinfo`; if($#psrinfo >= 0) { return $#psrinfo +1; } } return $no_of_cores; } sub no_of_cpus_irix { # Returns: # Number of physical CPUs on IRIX # undef if not IRIX my $no_of_cpus = `hinv | grep HZ | grep Processor | awk '{print \$1}'`; return $no_of_cpus; } sub no_of_cores_irix { # Returns: # Number of CPU cores on IRIX # undef if not IRIX my $no_of_cores = `hinv | grep HZ | grep Processor | awk '{print \$1}'`; return $no_of_cores; } sub no_of_cpus_tru64 { # Returns: # Number of physical CPUs on Tru64 # undef if not Tru64 my $no_of_cpus = `sizer -pr`; return $no_of_cpus; } sub no_of_cores_tru64 { # Returns: # Number of CPU cores on Tru64 # undef if not Tru64 my $no_of_cores = `sizer -pr`; return $no_of_cores; } sub sshcommand { my $self = shift; if (not defined $self->{'sshcommand'}) { $self->sshcommand_of_sshlogin(); } return $self->{'sshcommand'}; } sub serverlogin { my $self = shift; if (not defined $self->{'serverlogin'}) { $self->sshcommand_of_sshlogin(); } return $self->{'serverlogin'}; } sub sshcommand_of_sshlogin { # 'server' -> ('ssh -S /tmp/parallel-ssh-RANDOM/host-','server') # 'user@server' -> ('ssh','user@server') # 'myssh user@server' -> ('myssh','user@server') # 'myssh -l user server' -> ('myssh -l user','server') # '/usr/bin/myssh -l user server' -> ('/usr/bin/myssh -l user','server') # Returns: # sshcommand - defaults to 'ssh' # login@host my $self = shift; my ($sshcmd, $serverlogin); if($self->{'string'} =~ /(.+) (\S+)$/) { # Own ssh command $sshcmd = $1; $serverlogin = $2; } else { # Normal ssh if($opt::controlmaster) { # Use control_path to make ssh faster my $control_path = $self->control_path_dir()."/ssh-%r@%h:%p"; $sshcmd = "ssh -S ".$control_path; $serverlogin = $self->{'string'}; if(not $self->{'control_path'}{$control_path}++) { # Master is not running for this control_path # Start it my $pid = fork(); if($pid) { $Global::sshmaster{$pid} ||= 1; } else { $SIG{'TERM'} = undef; # Ignore the 'foo' being printed open(STDOUT,">","/dev/null"); # OpenSSH_3.6.1p2 gives 'tcgetattr: Invalid argument' with -tt # STDERR >/dev/null to ignore "process_mux_new_session: tcgetattr: Invalid argument" open(STDERR,">","/dev/null"); open(STDIN,"<","/dev/null"); # Run a sleep that outputs data, so it will discover if the ssh connection closes. my $sleep = ::shell_quote_scalar('$|=1;while(1){sleep 1;print "foo\n"}'); my @master = ("ssh", "-tt", "-MTS", $control_path, $serverlogin, "perl", "-e", $sleep); exec(@master); } } } else { $sshcmd = "ssh"; $serverlogin = $self->{'string'}; } } $self->{'sshcommand'} = $sshcmd; $self->{'serverlogin'} = $serverlogin; } sub control_path_dir { # Returns: # path to directory my $self = shift; if(not defined $self->{'control_path_dir'}) { -e $ENV{'HOME'}."/.parallel" or mkdir $ENV{'HOME'}."/.parallel"; -e $ENV{'HOME'}."/.parallel/tmp" or mkdir $ENV{'HOME'}."/.parallel/tmp"; $self->{'control_path_dir'} = File::Temp::tempdir($ENV{'HOME'} . "/.parallel/tmp/control_path_dir-XXXX", CLEANUP => 1); } return $self->{'control_path_dir'}; } sub rsync_transfer_cmd { # Command to run to transfer a file # Input: # $file = filename of file to transfer # $workdir = destination dir # Returns: # $cmd = rsync command to run to transfer $file ("" if unreadable) my $self = shift; my $file = shift; my $workdir = shift; if(not -r $file) { ::warning($file, " is not readable and will not be transferred.\n"); return "true"; } my $rsync_destdir; if($file =~ m:^/:) { # rsync /foo/bar / $rsync_destdir = "/"; } else { $rsync_destdir = ::shell_quote_file($workdir); } $file = ::shell_quote_file($file); my $sshcmd = $self->sshcommand(); my $rsync_opt = "-rlDzR -e" . ::shell_quote_scalar($sshcmd); my $serverlogin = $self->serverlogin(); # Make dir if it does not exist return "( $sshcmd $serverlogin mkdir -p $rsync_destdir;" . rsync()." $rsync_opt $file $serverlogin:$rsync_destdir )"; } sub cleanup_cmd { # Command to run to remove the remote file # Input: # $file = filename to remove # $workdir = destination dir # Returns: # $cmd = ssh command to run to remove $file and empty parent dirs my $self = shift; my $file = shift; my $workdir = shift; my $f = $file; if($f =~ m:/\./:) { # foo/bar/./baz/quux => workdir/baz/quux # /foo/bar/./baz/quux => workdir/baz/quux $f =~ s:.*/\./:$workdir/:; } elsif($f =~ m:^[^/]:) { # foo/bar => workdir/foo/bar $f = $workdir."/".$f; } my @subdirs = split m:/:, ::dirname($f); my @rmdir; my $dir = ""; for(@subdirs) { $dir .= $_."/"; unshift @rmdir, ::shell_quote_file($dir); } my $rmdir = @rmdir ? "rmdir @rmdir 2>/dev/null;" : ""; if(defined $opt::workdir and $opt::workdir eq "...") { $rmdir .= "rm -rf " . ::shell_quote_file($workdir).';'; } $f = ::shell_quote_file($f); my $sshcmd = $self->sshcommand(); my $serverlogin = $self->serverlogin(); return "$sshcmd $serverlogin ".::shell_quote_scalar("(rm -f $f; $rmdir)"); } { my $rsync; sub rsync { # rsync 3.1.x uses protocol 31 which is unsupported by 2.5.7. # If the version >= 3.1.0: downgrade to protocol 30 if(not $rsync) { my @out = `rsync --version`; for (@out) { if(/version (\d+.\d+)(.\d+)?/) { if($1 >= 3.1) { # Version 3.1.0 or later: Downgrade to protocol 30 $rsync = "rsync --protocol 30"; } else { $rsync = "rsync"; } } } $rsync or ::die_bug("Cannot figure out version of rsync: @out"); } return $rsync; } } package JobQueue; sub new { my $class = shift; my $commandref = shift; my $read_from = shift; my $context_replace = shift; my $max_number_of_args = shift; my $return_files = shift; my $commandlinequeue = CommandLineQueue->new ($commandref, $read_from, $context_replace, $max_number_of_args, $return_files); my @unget = (); return bless { 'unget' => \@unget, 'commandlinequeue' => $commandlinequeue, 'total_jobs' => undef, }, ref($class) || $class; } sub get { my $self = shift; if(@{$self->{'unget'}}) { my $job = shift @{$self->{'unget'}}; return ($job); } else { my $commandline = $self->{'commandlinequeue'}->get(); if(defined $commandline) { my $job = Job->new($commandline); return $job; } else { return undef; } } } sub unget { my $self = shift; unshift @{$self->{'unget'}}, @_; } sub empty { my $self = shift; my $empty = (not @{$self->{'unget'}}) && $self->{'commandlinequeue'}->empty(); ::debug("run", "JobQueue->empty $empty "); return $empty; } sub total_jobs { my $self = shift; if(not defined $self->{'total_jobs'}) { my $job; my @queue; my $start = time; while($job = $self->get()) { if(time - $start > 10) { ::warning("Reading all arguments takes longer than 10 seconds.\n"); $opt::eta && ::warning("Consider removing --eta.\n"); $opt::bar && ::warning("Consider removing --bar.\n"); last; } push @queue, $job; } while($job = $self->get()) { push @queue, $job; } $self->unget(@queue); $self->{'total_jobs'} = $#queue+1; } return $self->{'total_jobs'}; } sub next_seq { my $self = shift; return $self->{'commandlinequeue'}->seq(); } sub quote_args { my $self = shift; return $self->{'commandlinequeue'}->quote_args(); } package Job; sub new { my $class = shift; my $commandlineref = shift; return bless { 'commandline' => $commandlineref, # CommandLine object 'workdir' => undef, # --workdir 'stdin' => undef, # filehandle for stdin (used for --pipe) # filename for writing stdout to (used for --files) 'remaining' => "", # remaining data not sent to stdin (used for --pipe) 'datawritten' => 0, # amount of data sent via stdin (used for --pipe) 'transfersize' => 0, # size of files using --transfer 'returnsize' => 0, # size of files using --return 'pid' => undef, # hash of { SSHLogins => number of times the command failed there } 'failed' => undef, 'sshlogin' => undef, # The commandline wrapped with rsync and ssh 'sshlogin_wrap' => undef, 'exitstatus' => undef, 'exitsignal' => undef, # Timestamp for timeout if any 'timeout' => undef, 'virgin' => 1, }, ref($class) || $class; } sub replaced { my $self = shift; $self->{'commandline'} or ::die_bug("commandline empty"); return $self->{'commandline'}->replaced(); } sub seq { my $self = shift; return $self->{'commandline'}->seq(); } sub slot { my $self = shift; return $self->{'commandline'}->slot(); } { my($cattail); sub cattail { # Returns: # $cattail = perl program for: cattail "decompress program" writerpid [file_to_decompress or stdin] [file_to_unlink] if(not $cattail) { $cattail = q{ # cat followed by tail. # If $writerpid dead: finish after this round use Fcntl; $|=1; my ($cmd, $writerpid, $read_file, $unlink_file) = @ARGV; if($read_file) { open(IN,"<",$read_file) || die("cattail: Cannot open $read_file"); } else { *IN = *STDIN; } my $flags; fcntl(IN, F_GETFL, $flags) || die $!; # Get the current flags on the filehandle $flags |= O_NONBLOCK; # Add non-blocking to the flags fcntl(IN, F_SETFL, $flags) || die $!; # Set the flags on the filehandle open(OUT,"|-",$cmd) || die("cattail: Cannot run $cmd"); while(1) { # clear EOF seek(IN,0,1); my $writer_running = kill 0, $writerpid; $read = sysread(IN,$buf,32768); if($read) { # We can unlink the file now: The writer has written something -e $unlink_file and unlink $unlink_file; # Blocking print while($buf) { my $bytes_written = syswrite(OUT,$buf); # syswrite may be interrupted by SIGHUP substr($buf,0,$bytes_written) = ""; } # Something printed: Wait less next time $sleep /= 2; } else { if(eof(IN) and not $writer_running) { # Writer dead: There will never be more to read => exit exit; } # TODO This could probably be done more efficiently using select(2) # Nothing read: Wait longer before next read # Up to 30 milliseconds $sleep = ($sleep < 30) ? ($sleep * 1.001 + 0.01) : ($sleep); usleep($sleep); } } sub usleep { # Sleep this many milliseconds. my $secs = shift; select(undef, undef, undef, $secs/1000); } }; $cattail =~ s/#.*//mg; $cattail =~ s/\s+/ /g; } return $cattail; } } sub openoutputfiles { # Open files for STDOUT and STDERR # Set file handles in $self->fh my $self = shift; my ($outfhw, $errfhw, $outname, $errname); if($opt::results) { my $args_as_dirname = $self->{'commandline'}->args_as_dirname(); # Output in: prefix/name1/val1/name2/val2/stdout my $dir = $opt::results."/".$args_as_dirname; if(eval{ File::Path::mkpath($dir); }) { # OK } else { # mkpath failed: Argument probably too long. # Set $Global::max_file_length, which will keep the individual # dir names shorter than the max length max_file_name_length($opt::results); $args_as_dirname = $self->{'commandline'}->args_as_dirname(); # prefix/name1/val1/name2/val2/ $dir = $opt::results."/".$args_as_dirname; File::Path::mkpath($dir); } # prefix/name1/val1/name2/val2/stdout $outname = "$dir/stdout"; if(not open($outfhw, "+>", $outname)) { ::error("Cannot write to `$outname'.\n"); ::wait_and_exit(255); } # prefix/name1/val1/name2/val2/stderr $errname = "$dir/stderr"; if(not open($errfhw, "+>", $errname)) { ::error("Cannot write to `$errname'.\n"); ::wait_and_exit(255); } $self->set_fh(1,"unlink",""); $self->set_fh(2,"unlink",""); } elsif(not $opt::ungroup) { # To group we create temporary files for STDOUT and STDERR # To avoid the cleanup unlink the files immediately (but keep them open) if(@Global::tee_jobs) { # files must be removed when the tee is done } elsif($opt::files) { ($outfhw, $outname) = ::tmpfile(SUFFIX => ".par"); ($errfhw, $errname) = ::tmpfile(SUFFIX => ".par"); # --files => only remove stderr $self->set_fh(1,"unlink",""); $self->set_fh(2,"unlink",$errname); } else { ($outfhw, $outname) = ::tmpfile(SUFFIX => ".par"); ($errfhw, $errname) = ::tmpfile(SUFFIX => ".par"); $self->set_fh(1,"unlink",$outname); $self->set_fh(2,"unlink",$errname); } } else { # --ungroup open($outfhw,">&",$Global::fd{1}) || die; open($errfhw,">&",$Global::fd{2}) || die; # File name must be empty as it will otherwise be printed $outname = ""; $errname = ""; $self->set_fh(1,"unlink",$outname); $self->set_fh(2,"unlink",$errname); } # Set writing FD $self->set_fh(1,'w',$outfhw); $self->set_fh(2,'w',$errfhw); $self->set_fh(1,'name',$outname); $self->set_fh(2,'name',$errname); if($opt::compress) { # Send stdout to stdin for $opt::compress_program(1) # Send stderr to stdin for $opt::compress_program(2) # cattail get pid: $pid = $self->fh($fdno,'rpid'); my $cattail = cattail(); for my $fdno (1,2) { my $wpid = open(my $fdw,"|-","$opt::compress_program >>". $self->fh($fdno,'name')) || die $?; $self->set_fh($fdno,'w',$fdw); $self->set_fh($fdno,'wpid',$wpid); my $rpid = open(my $fdr, "-|", "perl", "-e", $cattail, $opt::decompress_program, $wpid, $self->fh($fdno,'name'),$self->fh($fdno,'unlink')) || die $?; $self->set_fh($fdno,'r',$fdr); $self->set_fh($fdno,'rpid',$rpid); } } elsif(not $opt::ungroup) { # Set reading FD if using --group (--ungroup does not need) for my $fdno (1,2) { # Re-open the file for reading # so fdw can be closed separately # and fdr can be seeked separately (for --line-buffer) open(my $fdr,"<", $self->fh($fdno,'name')) || ::die_bug("fdr: Cannot open ".$self->fh($fdno,'name')); $self->set_fh($fdno,'r',$fdr); # Unlink if required $Global::debug or unlink $self->fh($fdno,"unlink"); } } if($opt::linebuffer) { # Set non-blocking when using --linebuffer $Global::use{"Fcntl"} ||= eval "use Fcntl qw(:DEFAULT :flock); 1;"; for my $fdno (1,2) { my $fdr = $self->fh($fdno,'r'); my $flags; fcntl($fdr, &F_GETFL, $flags) || die $!; # Get the current flags on the filehandle $flags |= &O_NONBLOCK; # Add non-blocking to the flags fcntl($fdr, &F_SETFL, $flags) || die $!; # Set the flags on the filehandle } } } sub max_file_name_length { # Figure out the max length of a subdir # TODO and the max total length # Ext4 = 255,130816 my $testdir = shift; my $upper = 8_000_000; my $len = 8; my $dir="x"x$len; do { rmdir($testdir."/".$dir); $len *= 16; $dir="x"x$len; } while (mkdir $testdir."/".$dir); # Then search for the actual max length between $len/16 and $len my $min = $len/16; my $max = $len; while($max-$min > 5) { # If we are within 5 chars of the exact value: # it is not worth the extra time to find the exact value my $test = int(($min+$max)/2); $dir="x"x$test; if(mkdir $testdir."/".$dir) { rmdir($testdir."/".$dir); $min = $test; } else { $max = $test; } } $Global::max_file_length = $min; return $min; } sub set_fh { # Set file handle my ($self, $fd_no, $key, $fh) = @_; $self->{'fd'}{$fd_no,$key} = $fh; } sub fh { # Get file handle my ($self, $fd_no, $key) = @_; return $self->{'fd'}{$fd_no,$key}; } sub write { my $self = shift; my $remaining_ref = shift; my $stdin_fh = $self->fh(0,"w"); syswrite($stdin_fh,$$remaining_ref); } sub set_stdin_buffer { # Copy stdin buffer from $block_ref up to $endpos # Prepend with $header_ref # Remove $recstart and $recend if needed # Input: # $header_ref = ref to $header to prepend # $block_ref = ref to $block to pass on # $endpos = length of $block to pass on # $recstart = --recstart regexp # $recend = --recend regexp # Returns: # N/A my $self = shift; my ($header_ref,$block_ref,$endpos,$recstart,$recend) = @_; $self->{'stdin_buffer'} = ($self->virgin() ? $$header_ref : "").substr($$block_ref,0,$endpos); if($opt::remove_rec_sep) { remove_rec_sep(\$self->{'stdin_buffer'},$recstart,$recend); } $self->{'stdin_buffer_length'} = length $self->{'stdin_buffer'}; $self->{'stdin_buffer_pos'} = 0; } sub stdin_buffer_length { my $self = shift; return $self->{'stdin_buffer_length'}; } sub remove_rec_sep { my ($block_ref,$recstart,$recend) = @_; # Remove record separator $$block_ref =~ s/$recend$recstart//gos; $$block_ref =~ s/^$recstart//os; $$block_ref =~ s/$recend$//os; } sub non_block_write { my $self = shift; my $something_written = 0; use POSIX qw(:errno_h); # use Fcntl; # my $flags = ''; for my $buf (substr($self->{'stdin_buffer'},$self->{'stdin_buffer_pos'})) { my $in = $self->fh(0,"w"); # fcntl($in, F_GETFL, $flags) # or die "Couldn't get flags for HANDLE : $!\n"; # $flags |= O_NONBLOCK; # fcntl($in, F_SETFL, $flags) # or die "Couldn't set flags for HANDLE: $!\n"; my $rv = syswrite($in, $buf); if (!defined($rv) && $! == EAGAIN) { # would block $something_written = 0; } elsif ($self->{'stdin_buffer_pos'}+$rv != $self->{'stdin_buffer_length'}) { # incomplete write # Remove the written part $self->{'stdin_buffer_pos'} += $rv; $something_written = $rv; } else { # successfully wrote everything my $a=""; $self->set_stdin_buffer(\$a,\$a,"",""); $something_written = $rv; } } ::debug("pipe", "Non-block: ", $something_written); return $something_written; } sub virgin { my $self = shift; return $self->{'virgin'}; } sub set_virgin { my $self = shift; $self->{'virgin'} = shift; } sub pid { my $self = shift; return $self->{'pid'}; } sub set_pid { my $self = shift; $self->{'pid'} = shift; } sub starttime { # Returns: # UNIX-timestamp this job started my $self = shift; return sprintf("%.3f",$self->{'starttime'}); } sub set_starttime { my $self = shift; my $starttime = shift || ::now(); $self->{'starttime'} = $starttime; } sub runtime { # Returns: # Run time in seconds my $self = shift; return sprintf("%.3f",int(($self->endtime() - $self->starttime())*1000)/1000); } sub endtime { # Returns: # UNIX-timestamp this job ended # 0 if not ended yet my $self = shift; return ($self->{'endtime'} || 0); } sub set_endtime { my $self = shift; my $endtime = shift; $self->{'endtime'} = $endtime; } sub timedout { # Is the job timedout? # Input: # $delta_time = time that the job may run # Returns: # True or false my $self = shift; my $delta_time = shift; return time > $self->{'starttime'} + $delta_time; } sub kill { # Kill the job. # Send the signals to (grand)*children and pid. # If no signals: TERM TERM KILL # Wait 200 ms after each TERM. # Input: # @signals = signals to send my $self = shift; my @signals = @_; my @family_pids = $self->family_pids(); # Record this jobs as failed $self->set_exitstatus(-1); # Send two TERMs to give time to clean up ::debug("run", "Kill seq ", $self->seq(), "\n"); my @send_signals = @signals || ("TERM", "TERM", "KILL"); for my $signal (@send_signals) { my $alive = 0; for my $pid (@family_pids) { if(kill 0, $pid) { # The job still running kill $signal, $pid; $alive = 1; } } # If a signal was given as input, do not do the sleep below @signals and next; if($signal eq "TERM" and $alive) { # Wait up to 200 ms between TERMs - but only if any pids are alive my $sleep = 1; for (my $sleepsum = 0; kill 0, $family_pids[0] and $sleepsum < 200; $sleepsum += $sleep) { $sleep = ::reap_usleep($sleep); } } } } sub family_pids { # Find the pids with this->pid as (grand)*parent # Returns: # @pids = pids of (grand)*children my $self = shift; my $pid = $self->pid(); my @pids; my ($children_of_ref, $parent_of_ref, $name_of_ref) = ::pid_table(); my @more = ($pid); # While more (grand)*children while(@more) { my @m; push @pids, @more; for my $parent (@more) { if($children_of_ref->{$parent}) { # add the children of this parent push @m, @{$children_of_ref->{$parent}}; } } @more = @m; } return (@pids); } sub failed { # return number of times failed for this $sshlogin # Input: # $sshlogin # Returns: # Number of times failed for $sshlogin my $self = shift; my $sshlogin = shift; return $self->{'failed'}{$sshlogin}; } sub failed_here { # return number of times failed for the current $sshlogin # Returns: # Number of times failed for this sshlogin my $self = shift; return $self->{'failed'}{$self->sshlogin()}; } sub add_failed { # increase the number of times failed for this $sshlogin my $self = shift; my $sshlogin = shift; $self->{'failed'}{$sshlogin}++; } sub add_failed_here { # increase the number of times failed for the current $sshlogin my $self = shift; $self->{'failed'}{$self->sshlogin()}++; } sub reset_failed { # increase the number of times failed for this $sshlogin my $self = shift; my $sshlogin = shift; delete $self->{'failed'}{$sshlogin}; } sub reset_failed_here { # increase the number of times failed for this $sshlogin my $self = shift; delete $self->{'failed'}{$self->sshlogin()}; } sub min_failed { # Returns: # the number of sshlogins this command has failed on # the minimal number of times this command has failed my $self = shift; my $min_failures = ::min(map { $self->{'failed'}{$_} } keys %{$self->{'failed'}}); my $number_of_sshlogins_failed_on = scalar keys %{$self->{'failed'}}; return ($number_of_sshlogins_failed_on,$min_failures); } sub total_failed { # Returns: # $total_failures = the number of times this command has failed my $self = shift; my $total_failures = 0; for (values %{$self->{'failed'}}) { $total_failures += $_; } return $total_failures; } sub wrapped { # Wrap command with: # * --shellquote # * --nice # * --cat # * --fifo # * --sshlogin # * --pipepart (@Global::cat_partials) # * --pipe # * --tmux # The ordering of the wrapping is important: # * --nice/--cat/--fifo should be done on the remote machine # * --pipepart/--pipe should be done on the local machine inside --tmux # Uses: # $Global::envvar # $opt::shellquote # $opt::nice # $Global::shell # $opt::cat # $opt::fifo # @Global::cat_partials # $opt::pipe # $opt::tmux # Returns: # $self->{'wrapped'} = the command wrapped with the above my $self = shift; if(not defined $self->{'wrapped'}) { my $command = $Global::envvar.$self->replaced(); if($opt::shellquote) { # Prepend echo # and quote twice $command = "echo " . ::shell_quote_scalar(::shell_quote_scalar($command)); } if($opt::nice) { # Prepend \nice -n19 $SHELL -c # and quote. # The '\' before nice is needed to avoid tcsh's built-in $command = '\nice'. " -n". $opt::nice. " ". $Global::shell. " -c ". ::shell_quote_scalar($command); } if($opt::cat) { # Prepend 'cat > {};' # Append '_EXIT=$?;(rm {};exit $_EXIT)' $command = $self->{'commandline'}->replace_placeholders(["cat > \257<\257>; "], 0, 0). $command. $self->{'commandline'}->replace_placeholders( ["; _EXIT=\$?; rm \257<\257>; exit \$_EXIT"], 0, 0); } elsif($opt::fifo) { # Prepend 'mkfifo {}; (' # Append ') & _PID=$!; cat > {}; wait $_PID; _EXIT=$?;(rm {};exit $_EXIT)' $command = $self->{'commandline'}->replace_placeholders(["mkfifo \257<\257>; ("], 0, 0). $command. $self->{'commandline'}->replace_placeholders([") & _PID=\$!; cat > \257<\257>; ", "wait \$_PID; _EXIT=\$?; ", "rm \257<\257>; exit \$_EXIT"], 0,0); } # Wrap with ssh + tranferring of files $command = $self->sshlogin_wrap($command); if(@Global::cat_partials) { # Prepend: # < /tmp/foo perl -e 'while(@ARGV) { sysseek(STDIN,shift,0) || die; $left = shift; while($read = sysread(STDIN,$buf, ($left > 32768 ? 32768 : $left))){ $left -= $read; syswrite(STDOUT,$buf); } }' 0 0 0 11 | $command = (shift @Global::cat_partials). "|". "(". $command. ")"; } elsif($opt::pipe) { # Prepend EOF-detector to avoid starting $command if EOF. # The $tmpfile might exist if run on a remote system - we accept that risk my ($dummy_fh, $tmpfile) = ::tmpfile(SUFFIX => ".chr"); # Unlink to avoid leaving files if --dry-run or --sshlogin unlink $tmpfile; $command = # Exit value: # empty input = true # some input = exit val from command qq{ sh -c 'dd bs=1 count=1 of=$tmpfile 2>/dev/null'; }. qq{ test \! -s "$tmpfile" && rm -f "$tmpfile" && exec true; }. qq{ (cat $tmpfile; rm $tmpfile; cat - ) | }. "($command);"; } if($opt::tmux) { # Wrap command with 'tmux' $command = $self->tmux_wrap($command); } $self->{'wrapped'} = $command; } return $self->{'wrapped'}; } sub set_sshlogin { my $self = shift; my $sshlogin = shift; $self->{'sshlogin'} = $sshlogin; delete $self->{'sshlogin_wrap'}; # If sshlogin is changed the wrap is wrong delete $self->{'wrapped'}; } sub sshlogin { my $self = shift; return $self->{'sshlogin'}; } sub sshlogin_wrap { # Wrap the command with the commands needed to run remotely # Returns: # $self->{'sshlogin_wrap'} = command wrapped with ssh+transfer commands my $self = shift; my $command = shift; if(not defined $self->{'sshlogin_wrap'}) { my $sshlogin = $self->sshlogin(); my $sshcmd = $sshlogin->sshcommand(); my $serverlogin = $sshlogin->serverlogin(); my ($pre,$post,$cleanup)=("","",""); if($serverlogin eq ":") { # No transfer neeeded $self->{'sshlogin_wrap'} = $command; } else { # --transfer $pre .= $self->sshtransfer(); # --return $post .= $self->sshreturn(); # --cleanup $post .= $self->sshcleanup(); if($post) { # We need to save the exit status of the job $post = '_EXIT_status=$?; ' . $post . ' exit $_EXIT_status;'; } # If the remote login shell is (t)csh then use 'setenv' # otherwise use 'export' # We cannot use parse_env_var(), as PARALLEL_SEQ changes # for each command my $parallel_env = ($Global::envwarn . q{ 'eval `echo $SHELL | grep "/t\\{0,1\\}csh" > /dev/null } . q{ && echo setenv PARALLEL_SEQ '$PARALLEL_SEQ'\; } . q{ setenv PARALLEL_PID '$PARALLEL_PID' } . q{ || echo PARALLEL_SEQ='$PARALLEL_SEQ'\;export PARALLEL_SEQ\; } . q{ PARALLEL_PID='$PARALLEL_PID'\;export PARALLEL_PID` ;' }); my $remote_pre = ""; my $ssh_options = ""; if(($opt::pipe or $opt::pipepart) and $opt::ctrlc or not ($opt::pipe or $opt::pipepart) and not $opt::noctrlc) { # TODO Determine if this is needed # Propagating CTRL-C to kill remote jobs requires # remote jobs to be run with a terminal. $ssh_options = "-tt -oLogLevel=quiet"; # $ssh_options = ""; # tty - check if we have a tty. # stty: # -onlcr - make output 8-bit clean # isig - pass CTRL-C as signal # -echo - do not echo input $remote_pre .= ::shell_quote_scalar('tty >/dev/null && stty isig -onlcr -echo;'); } if($opt::workdir) { my $wd = ::shell_quote_file($self->workdir()); $remote_pre .= ::shell_quote_scalar("mkdir -p ") . $wd . ::shell_quote_scalar("; cd ") . $wd . # exit 255 (instead of exec false) would be the correct thing, # but that fails on tcsh ::shell_quote_scalar(qq{ || exec false;}); } # This script is to solve the problem of # * not mixing STDERR and STDOUT # * terminating with ctrl-c # It works on Linux but not Solaris # Finishes on Solaris, but wrong exit code: # $SIG{CHLD} = sub {exit ($?&127 ? 128+($?&127) : 1+$?>>8)}; # Hangs on Solaris, but correct exit code on Linux: # $SIG{CHLD} = sub { $done = 1 }; # $p->poll; my $signal_script = "perl -e '". q{ use IO::Poll; $SIG{CHLD} = sub { $done = 1 }; $p = IO::Poll->new; $p->mask(STDOUT, POLLHUP); $pid=fork; unless($pid) {setpgrp; exec $ENV{SHELL}, "-c", @ARGV; die "exec: $!\n"} $p->poll; kill SIGHUP, -${pid} unless $done; wait; exit ($?&127 ? 128+($?&127) : 1+$?>>8) } . "' "; $signal_script =~ s/\s+/ /g; $self->{'sshlogin_wrap'} = ($pre . "$sshcmd $ssh_options $serverlogin $parallel_env " . $remote_pre # . ::shell_quote_scalar($signal_script . ::shell_quote_scalar($command)) . ::shell_quote_scalar($command) . ";" . $post); } } return $self->{'sshlogin_wrap'}; } sub transfer { # Files to transfer # Returns: # @transfer - File names of files to transfer my $self = shift; my @transfer = (); $self->{'transfersize'} = 0; if($opt::transfer) { for my $record (@{$self->{'commandline'}{'arg_list'}}) { # Merge arguments from records into args for my $arg (@$record) { CORE::push @transfer, $arg->orig(); # filesize if(-e $arg->orig()) { $self->{'transfersize'} += (stat($arg->orig()))[7]; } } } } return @transfer; } sub transfersize { my $self = shift; return $self->{'transfersize'}; } sub sshtransfer { # Returns for each transfer file: # rsync $file remote:$workdir my $self = shift; my @pre; my $sshlogin = $self->sshlogin(); my $workdir = $self->workdir(); for my $file ($self->transfer()) { push @pre, $sshlogin->rsync_transfer_cmd($file,$workdir).";"; } return join("",@pre); } sub return { # Files to return # Non-quoted and with {...} substituted # Returns: # @non_quoted_filenames my $self = shift; return $self->{'commandline'}-> replace_placeholders($self->{'commandline'}{'return_files'},0,0); } sub returnsize { # This is called after the job has finished # Returns: # $number_of_bytes transferred in return my $self = shift; for my $file ($self->return()) { if(-e $file) { $self->{'returnsize'} += (stat($file))[7]; } } return $self->{'returnsize'}; } sub sshreturn { # Returns for each return-file: # rsync remote:$workdir/$file . my $self = shift; my $sshlogin = $self->sshlogin(); my $sshcmd = $sshlogin->sshcommand(); my $serverlogin = $sshlogin->serverlogin(); my $rsync_opt = "-rlDzR -e".::shell_quote_scalar($sshcmd); my $pre = ""; for my $file ($self->return()) { $file =~ s:^\./::g; # Remove ./ if any my $relpath = ($file !~ m:^/:); # Is the path relative? my $cd = ""; my $wd = ""; if($relpath) { # rsync -avR /foo/./bar/baz.c remote:/tmp/ # == (on old systems) # rsync -avR --rsync-path="cd /foo; rsync" remote:bar/baz.c /tmp/ $wd = ::shell_quote_file($self->workdir()."/"); } # Only load File::Basename if actually needed $Global::use{"File::Basename"} ||= eval "use File::Basename; 1;"; # dir/./file means relative to dir, so remove dir on remote $file =~ m:(.*)/\./:; my $basedir = $1 ? ::shell_quote_file($1."/") : ""; my $nobasedir = $file; $nobasedir =~ s:.*/\./::; $cd = ::shell_quote_file(::dirname($nobasedir)); my $rsync_cd = '--rsync-path='.::shell_quote_scalar("cd $wd$cd; rsync"); my $basename = ::shell_quote_scalar(::shell_quote_file(basename($file))); # --return # mkdir -p /home/tange/dir/subdir/; # rsync (--protocol 30) -rlDzR --rsync-path="cd /home/tange/dir/subdir/; rsync" # server:file.gz /home/tange/dir/subdir/ $pre .= "mkdir -p $basedir$cd; ".$sshlogin->rsync()." $rsync_cd $rsync_opt $serverlogin:". $basename . " ".$basedir.$cd.";"; } return $pre; } sub sshcleanup { # Return the sshcommand needed to remove the file # Returns: # ssh command needed to remove files from sshlogin my $self = shift; my $sshlogin = $self->sshlogin(); my $sshcmd = $sshlogin->sshcommand(); my $serverlogin = $sshlogin->serverlogin(); my $workdir = $self->workdir(); my $cleancmd = ""; for my $file ($self->cleanup()) { my @subworkdirs = parentdirs_of($file); $cleancmd .= $sshlogin->cleanup_cmd($file,$workdir).";"; } if(defined $opt::workdir and $opt::workdir eq "...") { $cleancmd .= "$sshcmd $serverlogin rm -rf " . ::shell_quote_scalar($workdir).';'; } return $cleancmd; } sub cleanup { # Returns: # Files to remove at cleanup my $self = shift; if($opt::cleanup) { my @transfer = $self->transfer(); my @return = $self->return(); return (@transfer,@return); } else { return (); } } sub workdir { # Returns: # the workdir on a remote machine my $self = shift; if(not defined $self->{'workdir'}) { my $workdir; if(defined $opt::workdir) { if($opt::workdir eq ".") { # . means current dir my $home = $ENV{'HOME'}; eval 'use Cwd'; my $cwd = cwd(); $workdir = $cwd; if($home) { # If homedir exists: remove the homedir from # workdir if cwd starts with homedir # E.g. /home/foo/my/dir => my/dir # E.g. /tmp/my/dir => /tmp/my/dir my ($home_dev, $home_ino) = (stat($home))[0,1]; my $parent = ""; my @dir_parts = split(m:/:,$cwd); my $part; while(defined ($part = shift @dir_parts)) { $part eq "" and next; $parent .= "/".$part; my ($parent_dev, $parent_ino) = (stat($parent))[0,1]; if($parent_dev == $home_dev and $parent_ino == $home_ino) { # dev and ino is the same: We found the homedir. $workdir = join("/",@dir_parts); last; } } } if($workdir eq "") { $workdir = "."; } } elsif($opt::workdir eq "...") { $workdir = ".parallel/tmp/" . ::hostname() . "-" . $$ . "-" . $self->seq(); } else { $workdir = $opt::workdir; # Rsync treats /./ special. We don't want that $workdir =~ s:/\./:/:g; # Remove /./ $workdir =~ s:/+$::; # Remove ending / if any $workdir =~ s:^\./::g; # Remove starting ./ if any } } else { $workdir = "."; } $self->{'workdir'} = ::shell_quote_scalar($workdir); } return $self->{'workdir'}; } sub parentdirs_of { # Return: # all parentdirs except . of this dir or file - sorted desc by length my $d = shift; my @parents = (); while($d =~ s:/[^/]+$::) { if($d ne ".") { push @parents, $d; } } return @parents; } sub start { # Setup STDOUT and STDERR for a job and start it. # Returns: # job-object or undef if job not to run my $job = shift; # Get the shell command to be executed (possibly with ssh infront). my $command = $job->wrapped(); if($Global::interactive or $Global::stderr_verbose) { if($Global::interactive) { print $Global::original_stderr "$command ?..."; open(my $tty_fh, "<", "/dev/tty") || ::die_bug("interactive-tty"); my $answer = <$tty_fh>; close $tty_fh; my $run_yes = ($answer =~ /^\s*y/i); if (not $run_yes) { $command = "true"; # Run the command 'true' } } else { print $Global::original_stderr "$command\n"; } } my $pid; $job->openoutputfiles(); my($stdout_fh,$stderr_fh) = ($job->fh(1,"w"),$job->fh(2,"w")); local (*IN,*OUT,*ERR); open OUT, '>&', $stdout_fh or ::die_bug("Can't redirect STDOUT: $!"); open ERR, '>&', $stderr_fh or ::die_bug("Can't dup STDOUT: $!"); if(($opt::dryrun or $Global::verbose) and $opt::ungroup) { if($Global::verbose <= 1) { print $stdout_fh $job->replaced(),"\n"; } else { # Verbose level > 1: Print the rsync and stuff print $stdout_fh $command,"\n"; } } if($opt::dryrun) { $command = "true"; } $ENV{'PARALLEL_SEQ'} = $job->seq(); $ENV{'PARALLEL_PID'} = $$; ::debug("run", $Global::total_running, " processes . Starting (", $job->seq(), "): $command\n"); if($opt::pipe) { my ($stdin_fh); # The eval is needed to catch exception from open3 eval { $pid = ::open3($stdin_fh, ">&OUT", ">&ERR", $Global::shell, "-c", $command) || ::die_bug("open3-pipe"); 1; }; $job->set_fh(0,"w",$stdin_fh); } elsif(@opt::a and not $Global::stdin_in_opt_a and $job->seq() == 1 and $job->sshlogin()->string() eq ":") { # Give STDIN to the first job if using -a (but only if running # locally - otherwise CTRL-C does not work for other jobs Bug#36585) *IN = *STDIN; # The eval is needed to catch exception from open3 eval { $pid = ::open3("<&IN", ">&OUT", ">&ERR", $Global::shell, "-c", $command) || ::die_bug("open3-a"); 1; }; # Re-open to avoid complaining open(STDIN, "<&", $Global::original_stdin) or ::die_bug("dup-\$Global::original_stdin: $!"); } elsif ($opt::tty and not $Global::tty_taken and -c "/dev/tty" and open(my $devtty_fh, "<", "/dev/tty")) { # Give /dev/tty to the command if no one else is using it *IN = $devtty_fh; # The eval is needed to catch exception from open3 eval { $pid = ::open3("<&IN", ">&OUT", ">&ERR", $Global::shell, "-c", $command) || ::die_bug("open3-/dev/tty"); $Global::tty_taken = $pid; close $devtty_fh; 1; }; } else { # The eval is needed to catch exception from open3 eval { $pid = ::open3(::gensym, ">&OUT", ">&ERR", $Global::shell, "-c", $command) || ::die_bug("open3-gensym"); 1; }; } if($pid) { # A job was started $Global::total_running++; $Global::total_started++; $job->set_pid($pid); $job->set_starttime(); $Global::running{$job->pid()} = $job; if($opt::timeout) { $Global::timeoutq->insert($job); } $Global::newest_job = $job; $Global::newest_starttime = ::now(); return $job; } else { # No more processes ::debug("run", "Cannot spawn more jobs.\n"); return undef; } } sub tmux_wrap { # Wrap command with tmux for session pPID # Input: # $actual_command = the actual command being run (incl ssh wrap) my $self = shift; my $actual_command = shift; # Temporary file name. Used for fifo to communicate exit val my ($fh, $tmpfile) = ::tmpfile(SUFFIX => ".tmx"); $Global::unlink{$tmpfile}=1; close $fh; unlink $tmpfile; my $visual_command = $self->replaced(); my $title = $visual_command; # ; causes problems # ascii 194-245 annoys tmux $title =~ tr/[\011-\016;\302-\365]//d; my $tmux; if($Global::total_running == 0) { $tmux = "tmux new-session -s p$$ -d -n ". ::shell_quote_scalar($title); print $Global::original_stderr "See output with: tmux attach -t p$$\n"; } else { $tmux = "tmux new-window -t p$$ -n ".::shell_quote_scalar($title); } return "mkfifo $tmpfile; $tmux ". # Run in tmux ::shell_quote_scalar( "(".$actual_command.');(echo $?$status;echo 255) >'.$tmpfile."&". "echo ".::shell_quote_scalar($visual_command).";". "echo \007Job finished at: `date`;sleep 10"). # Run outside tmux # Read the first line from the fifo and use that as status code "; exit `perl -ne 'unlink \$ARGV; 1..1 and print' $tmpfile` "; } sub is_already_in_results { # Do we already have results for this job? # Returns: # $job_already_run = bool whether there is output for this or not my $job = $_[0]; my $args_as_dirname = $job->{'commandline'}->args_as_dirname(); # prefix/name1/val1/name2/val2/ my $dir = $opt::results."/".$args_as_dirname; ::debug("run", "Test $dir/stdout", -e "$dir/stdout", "\n"); return -e "$dir/stdout"; } sub is_already_in_joblog { my $job = shift; return vec($Global::job_already_run,$job->seq(),1); } sub set_job_in_joblog { my $job = shift; vec($Global::job_already_run,$job->seq(),1) = 1; } sub should_be_retried { # Should this job be retried? # Returns # 0 - do not retry # 1 - job queued for retry my $self = shift; if (not $opt::retries) { return 0; } if(not $self->exitstatus()) { # Completed with success. If there is a recorded failure: forget it $self->reset_failed_here(); return 0 } else { # The job failed. Should it be retried? $self->add_failed_here(); if($self->total_failed() == $opt::retries) { # This has been retried enough return 0; } else { # This command should be retried $self->set_endtime(undef); $Global::JobQueue->unget($self); ::debug("run", "Retry ", $self->seq(), "\n"); return 1; } } } sub print { # Print the output of the jobs # Returns: N/A my $self = shift; ::debug("print", ">>joboutput ", $self->replaced(), "\n"); if($opt::dryrun) { # Nothing was printed to this job: # cleanup tmp files if --files was set unlink $self->fh(1,"name"); } if($opt::pipe and $self->virgin()) { # Skip --joblog, --dryrun, --verbose } else { if($Global::joblog and defined $self->{'exitstatus'}) { # Add to joblog when finished $self->print_joblog(); } # Printing is only relevant for grouped/--line-buffer output. $opt::ungroup and return; # Check for disk full exit_if_disk_full(); if(($opt::dryrun or $Global::verbose) and not $self->{'verbose_printed'}) { $self->{'verbose_printed'}++; if($Global::verbose <= 1) { print STDOUT $self->replaced(),"\n"; } else { # Verbose level > 1: Print the rsync and stuff print STDOUT $self->wrapped(),"\n"; } # If STDOUT and STDERR are merged, # we want the command to be printed first # so flush to avoid STDOUT being buffered flush STDOUT; } } for my $fdno (sort { $a <=> $b } keys %Global::fd) { # Sort by file descriptor numerically: 1,2,3,..,9,10,11 $fdno == 0 and next; my $out_fd = $Global::fd{$fdno}; my $in_fh = $self->fh($fdno,"r"); if(not $in_fh) { if(not $Job::file_descriptor_warning_printed{$fdno}++) { # ::warning("File descriptor $fdno not defined\n"); } next; } ::debug("print", "File descriptor $fdno (", $self->fh($fdno,"name"), "):"); if($opt::files) { # If --compress: $in_fh must be closed first. close $self->fh($fdno,"w"); close $in_fh; if($opt::pipe and $self->virgin()) { # Nothing was printed to this job: # cleanup unused tmp files if --files was set for my $fdno (1,2) { unlink $self->fh($fdno,"name"); unlink $self->fh($fdno,"unlink"); } } elsif($fdno == 1 and $self->fh($fdno,"name")) { print $out_fd $self->fh($fdno,"name"),"\n"; } } elsif($opt::linebuffer) { # Line buffered print out $self->linebuffer_print($fdno,$in_fh,$out_fd); } else { my $buf; close $self->fh($fdno,"w"); seek $in_fh, 0, 0; # $in_fh is now ready for reading at position 0 if($opt::tag or defined $opt::tagstring) { my $tag = $self->tag(); if($fdno == 2) { # OpenSSH_3.6.1p2 gives 'tcgetattr: Invalid argument' with -tt # This is a crappy way of ignoring it. while(<$in_fh>) { if(/^(client_process_control: )?tcgetattr: Invalid argument\n/) { # Skip } else { print $out_fd $tag,$_; } # At most run the loop once last; } } while(<$in_fh>) { print $out_fd $tag,$_; } } else { my $buf; if($fdno == 2) { # OpenSSH_3.6.1p2 gives 'tcgetattr: Invalid argument' with -tt # This is a crappy way of ignoring it. sysread($in_fh,$buf,1_000); $buf =~ s/^(client_process_control: )?tcgetattr: Invalid argument\n//; print $out_fd $buf; } while(sysread($in_fh,$buf,32768)) { print $out_fd $buf; } } close $in_fh; } flush $out_fd; } ::debug("print", "<{'partial_line',$fdno}; if(defined $self->{'exitstatus'}) { # If the job is dead: close printing fh. Needed for --compress close $self->fh($fdno,"w"); if($opt::compress) { # Blocked reading in final round $Global::use{"Fcntl"} ||= eval "use Fcntl qw(:DEFAULT :flock); 1;"; for my $fdno (1,2) { my $fdr = $self->fh($fdno,'r'); my $flags; fcntl($fdr, &F_GETFL, $flags) || die $!; # Get the current flags on the filehandle $flags &= ~&O_NONBLOCK; # Remove non-blocking to the flags fcntl($fdr, &F_SETFL, $flags) || die $!; # Set the flags on the filehandle } } } # This seek will clear EOF seek $in_fh, tell($in_fh), 0; # The read is non-blocking: The $in_fh is set to non-blocking. # 32768 --tag = 5.1s # 327680 --tag = 4.4s # 1024000 --tag = 4.4s # 3276800 --tag = 4.3s # 32768000 --tag = 4.7s # 10240000 --tag = 4.3s while(read($in_fh,substr($$partial,length $$partial),3276800)) { # Append to $$partial # Find the last \n my $i = rindex($$partial,"\n"); if($i != -1) { # One or more complete lines were found if($fdno == 2 and not $self->{'printed_first_line',$fdno}++) { # OpenSSH_3.6.1p2 gives 'tcgetattr: Invalid argument' with -tt # This is a crappy way of ignoring it. $$partial =~ s/^(client_process_control: )?tcgetattr: Invalid argument\n//; # Length of partial line has changed: Find the last \n again $i = rindex($$partial,"\n"); } if($opt::tag or defined $opt::tagstring) { # Replace ^ with $tag within the full line my $tag = $self->tag(); substr($$partial,0,$i+1) =~ s/^/$tag/gm; # Length of partial line has changed: Find the last \n again $i = rindex($$partial,"\n"); } # Print up to and including the last \n print $out_fd substr($$partial,0,$i+1); # Remove the printed part substr($$partial,0,$i+1)=""; } } if(defined $self->{'exitstatus'}) { # If the job is dead: print the remaining partial line # read remaining if($$partial and ($opt::tag or defined $opt::tagstring)) { my $tag = $self->tag(); $$partial =~ s/^/$tag/gm; } print $out_fd $$partial; # Release the memory $$partial = undef; if($self->fh($fdno,"rpid") and CORE::kill 0, $self->fh($fdno,"rpid")) { # decompress still running } else { # decompress done: close fh close $in_fh; } } } sub print_joblog { my $self = shift; my $cmd; if($Global::verbose <= 1) { $cmd = $self->replaced(); } else { # Verbose level > 1: Print the rsync and stuff $cmd = "@command"; } print $Global::joblog join("\t", $self->seq(), $self->sshlogin()->string(), $self->starttime(), sprintf("%10.3f",$self->runtime()), $self->transfersize(), $self->returnsize(), $self->exitstatus(), $self->exitsignal(), $cmd ). "\n"; flush $Global::joblog; $self->set_job_in_joblog(); } sub tag { my $self = shift; if(not defined $self->{'tag'}) { $self->{'tag'} = $self->{'commandline'}-> replace_placeholders([$opt::tagstring],0,0)."\t"; } return $self->{'tag'}; } sub hostgroups { my $self = shift; if(not defined $self->{'hostgroups'}) { $self->{'hostgroups'} = $self->{'commandline'}->{'arg_list'}[0][0]->{'hostgroups'}; } return @{$self->{'hostgroups'}}; } sub exitstatus { my $self = shift; return $self->{'exitstatus'}; } sub set_exitstatus { my $self = shift; my $exitstatus = shift; if($exitstatus) { # Overwrite status if non-zero $self->{'exitstatus'} = $exitstatus; } else { # Set status but do not overwrite # Status may have been set by --timeout $self->{'exitstatus'} ||= $exitstatus; } } sub exitsignal { my $self = shift; return $self->{'exitsignal'}; } sub set_exitsignal { my $self = shift; my $exitsignal = shift; $self->{'exitsignal'} = $exitsignal; } { my ($disk_full_fh, $b8193, $name); sub exit_if_disk_full { # Checks if $TMPDIR is full by writing 8kb to a tmpfile # If the disk is full: Exit immediately. # Returns: # N/A if(not $disk_full_fh) { ($disk_full_fh, $name) = ::tmpfile(SUFFIX => ".df"); unlink $name; $b8193 = "x"x8193; } # Linux does not discover if a disk is full if writing <= 8192 # Tested on: # bfs btrfs cramfs ext2 ext3 ext4 ext4dev jffs2 jfs minix msdos # ntfs reiserfs tmpfs ubifs vfat xfs # TODO this should be tested on different OS similar to this: # # doit() { # sudo mount /dev/ram0 /mnt/loop; sudo chmod 1777 /mnt/loop # seq 100000 | parallel --tmpdir /mnt/loop/ true & # seq 6900000 > /mnt/loop/i && echo seq OK # seq 6980868 > /mnt/loop/i # seq 10000 > /mnt/loop/ii # sleep 3 # sudo umount /mnt/loop/ || sudo umount -l /mnt/loop/ # echo >&2 # } print $disk_full_fh $b8193; if(not $disk_full_fh or tell $disk_full_fh == 0) { ::error("Output is incomplete. Cannot append to buffer file in $ENV{'TMPDIR'}. Is the disk full?\n"); ::error("Change \$TMPDIR with --tmpdir or use --compress.\n"); ::wait_and_exit(255); } truncate $disk_full_fh, 0; seek($disk_full_fh, 0, 0) || die; } } package CommandLine; sub new { my $class = shift; my $seq = shift; my $commandref = shift; $commandref || die; my $arg_queue = shift; my $context_replace = shift; my $max_number_of_args = shift; # for -N and normal (-n1) my $return_files = shift; my $replacecount_ref = shift; my $len_ref = shift; my %replacecount = %$replacecount_ref; my %len = %$len_ref; for (keys %$replacecount_ref) { # Total length of this replacement string {} replaced with all args $len{$_} = 0; } return bless { 'command' => $commandref, 'seq' => $seq, 'len' => \%len, 'arg_list' => [], 'arg_queue' => $arg_queue, 'max_number_of_args' => $max_number_of_args, 'replacecount' => \%replacecount, 'context_replace' => $context_replace, 'return_files' => $return_files, 'replaced' => undef, }, ref($class) || $class; } sub seq { my $self = shift; return $self->{'seq'}; } { my $max_slot_number; sub slot { # Find the number of a free job slot and return it # Uses: # @Global::slots # Returns: # $jobslot = number of jobslot my $self = shift; if(not $self->{'slot'}) { if(not @Global::slots) { # $Global::max_slot_number will typically be $Global::max_jobs_running push @Global::slots, ++$max_slot_number; } $self->{'slot'} = shift @Global::slots; } return $self->{'slot'}; } } sub populate { # Add arguments from arg_queue until the number of arguments or # max line length is reached # Uses: # $Global::minimal_command_line_length # $opt::cat # $opt::fifo # $Global::JobQueue # $opt::m # $opt::X # $CommandLine::already_spread # $Global::max_jobs_running # Returns: N/A my $self = shift; my $next_arg; my $max_len = $Global::minimal_command_line_length || Limits::Command::max_length(); if($opt::cat or $opt::fifo) { # Generate a tempfile name that will be used as {} my($outfh,$name) = ::tmpfile(SUFFIX => ".pip"); close $outfh; # Unlink is needed if: ssh otheruser@localhost unlink $name; $Global::JobQueue->{'commandlinequeue'}->{'arg_queue'}->unget([Arg->new($name)]); } while (not $self->{'arg_queue'}->empty()) { $next_arg = $self->{'arg_queue'}->get(); if(not defined $next_arg) { next; } $self->push($next_arg); if($self->len() >= $max_len) { # Command length is now > max_length # If there are arguments: remove the last # If there are no arguments: Error # TODO stuff about -x opt_x if($self->number_of_args() > 1) { # There is something to work on $self->{'arg_queue'}->unget($self->pop()); last; } else { my $args = join(" ", map { $_->orig() } @$next_arg); ::error("Command line too long (", $self->len(), " >= ", $max_len, ") at number ", $self->{'arg_queue'}->arg_number(), ": ". (substr($args,0,50))."...\n"); $self->{'arg_queue'}->unget($self->pop()); ::wait_and_exit(255); } } if(defined $self->{'max_number_of_args'}) { if($self->number_of_args() >= $self->{'max_number_of_args'}) { last; } } } if(($opt::m or $opt::X) and not $CommandLine::already_spread and $self->{'arg_queue'}->empty() and $Global::max_jobs_running) { # -m or -X and EOF => Spread the arguments over all jobslots # (unless they are already spread) $CommandLine::already_spread ||= 1; if($self->number_of_args() > 1) { $self->{'max_number_of_args'} = ::ceil($self->number_of_args()/$Global::max_jobs_running); $Global::JobQueue->{'commandlinequeue'}->{'max_number_of_args'} = $self->{'max_number_of_args'}; $self->{'arg_queue'}->unget($self->pop_all()); while($self->number_of_args() < $self->{'max_number_of_args'}) { $self->push($self->{'arg_queue'}->get()); } } } } sub push { # Add one or more records as arguments # Returns: N/A my $self = shift; my $record = shift; push @{$self->{'arg_list'}}, $record; my $quote_arg = $Global::noquote ? 0 : not $Global::quoting; my $rep; for my $arg (@$record) { if(defined $arg) { for my $perlexpr (keys %{$self->{'replacecount'}}) { # 50% faster than below $self->{'len'}{$perlexpr} += length $arg->replace($perlexpr,$quote_arg,$self); # $rep = $arg->replace($perlexpr,$quote_arg,$self); # $self->{'len'}{$perlexpr} += length $rep; # ::debug("length", "Length: ", length $rep, # "(", $perlexpr, "=>", $rep, ")\n"); } } } } sub pop { # Remove last argument # Returns: # the last record my $self = shift; my $record = pop @{$self->{'arg_list'}}; my $quote_arg = $Global::noquote ? 0 : not $Global::quoting; for my $arg (@$record) { if(defined $arg) { for my $perlexpr (keys %{$self->{'replacecount'}}) { $self->{'len'}{$perlexpr} -= length $arg->replace($perlexpr,$quote_arg,$self); } } } return $record; } sub pop_all { # Remove all arguments and zeros the length of replacement strings # Returns: # all records my $self = shift; my @popped = @{$self->{'arg_list'}}; for my $replacement_string (keys %{$self->{'replacecount'}}) { $self->{'len'}{$replacement_string} = 0; } $self->{'arg_list'} = []; return @popped; } sub number_of_args { # The number of records # Returns: # number of records my $self = shift; # Ftq rudef oaawuq ime dqxqmeqp az 2011-01-24 mzp ime iaz nk MQhmd # Mdzrvadp Nvmdymeaz az 2011-04-10. Ftue oaawuq dqxqmeqp az # 2013-08-18 ue m nuf tmdpqd me kag tmhq fa geq daf14. Bxqmeq # qymux oaawuq@fmzsq.pw itqz kag dqmp ftue. # # U my ftq ymuzfmuzqd ar m buqoq ar rdqq earfimdq omxxqp SZG # Bmdmxxqx. Rdqq earfimdq sgmdmzfqqe kag mooqee fa ftq eagdoq # oapq, ngf U tmhq nqqz iazpqduzs tai ymzk mofgmxxk _dqmp_ ftq # eagdoq oapq. # # Fa fqef ftue U bgf uz m oayyqzf fqxxuzs bqabxq fa qymux yq itqz # ftqk dqmp ftue. Ftq oayyqzf ime bgf uz m eqofuaz ar ftq oapq # ftmf za azq iagxp xaaw fa ruj ad uybdahq ftq earfimdq - ea ftq # eagdoq oapq qcguhmxqzf fa m pgefk oadzqd. Fa ymwq egdq ftq # oayyqzf iagxp zaf etai gb ur eayq azq vgef sdqbbqp ftdagst ftq # eagdoq oapq U daf13'qp ftq eagdoq oapq # tffb://qz.iuwubqpum.ads/iuwu/DAF13 # # 2.5 yazfte xmfqd U dqoquhqp mz qymux rday eayqazq ita zaf azxk # ymzmsqp fa ruzp ftq oayyqzf, ngf mxea ymzmsqp fa sgqee ftq oapq # tmp fa nq daf13'qp. # # Ftue nduzse yq fa ftq oazoxgeuaz ftmf ftqdq _mdq_ bqabxq, ita # mdq zaf mrruxumfqp iuft ftq bdavqof, ftmf iuxx dqmp ftq eagdoq # oapq - ftagst uf ymk zaf tmbbqz hqdk arfqz. # # This is really the number of records return $#{$self->{'arg_list'}}+1; } sub number_of_recargs { # The number of args in records # Returns: # number of args records my $self = shift; my $sum = 0; my $nrec = scalar @{$self->{'arg_list'}}; if($nrec) { $sum = $nrec * (scalar @{$self->{'arg_list'}[0]}); } return $sum; } sub args_as_string { # Returns: # all unmodified arguments joined with ' ' (similar to {}) my $self = shift; return (join " ", map { $_->orig() } map { @$_ } @{$self->{'arg_list'}}); } sub args_as_dirname { # Returns: # all unmodified arguments joined with '/' (similar to {}) # \t \0 \\ and / are quoted as: \t \0 \\ \_ # If $Global::max_file_length: Keep subdirs < $Global::max_file_length my $self = shift; my @res = (); for my $rec_ref (@{$self->{'arg_list'}}) { # If headers are used, sort by them. # Otherwise keep the order from the command line. my @header_indexes_sorted = header_indexes_sorted($#$rec_ref+1); for my $n (@header_indexes_sorted) { CORE::push(@res, $Global::input_source_header{$n}, map { my $s = $_; # \t \0 \\ and / are quoted as: \t \0 \\ \_ $s =~ s/\\/\\\\/g; $s =~ s/\t/\\t/g; $s =~ s/\0/\\0/g; $s =~ s:/:\\_:g; if($Global::max_file_length) { # Keep each subdir shorter than the longest # allowed file name $s = substr($s,0,$Global::max_file_length); } $s; } $rec_ref->[$n-1]->orig()); } } return join "/", @res; } sub header_indexes_sorted { # Sort headers first by number then by name. # E.g.: 1a 1b 11a 11b # Returns: # Indexes of %Global::input_source_header sorted my $max_col = shift; no warnings 'numeric'; for my $col (1 .. $max_col) { # Make sure the header is defined. If it is not: use column number if(not defined $Global::input_source_header{$col}) { $Global::input_source_header{$col} = $col; } } my @header_indexes_sorted = sort { # Sort headers numerically then asciibetically $Global::input_source_header{$a} <=> $Global::input_source_header{$b} or $Global::input_source_header{$a} cmp $Global::input_source_header{$b} } 1 .. $max_col; return @header_indexes_sorted; } sub len { # Uses: # $opt::shellquote # The length of the command line with args substituted my $self = shift; my $len = 0; # Add length of the original command with no args # Length of command w/ all replacement args removed $len += $self->{'len'}{'noncontext'} + @{$self->{'command'}} -1; ::debug("length", "noncontext + command: $len\n"); my $recargs = $self->number_of_recargs(); if($self->{'context_replace'}) { # Context is duplicated for each arg $len += $recargs * $self->{'len'}{'context'}; for my $replstring (keys %{$self->{'replacecount'}}) { # If the replacements string is more than once: mulitply its length $len += $self->{'len'}{$replstring} * $self->{'replacecount'}{$replstring}; ::debug("length", $replstring, " ", $self->{'len'}{$replstring}, "*", $self->{'replacecount'}{$replstring}, "\n"); } # echo 11 22 33 44 55 66 77 88 99 1010 # echo 1 2 3 4 5 6 7 8 9 10 1 2 3 4 5 6 7 8 9 10 # 5 + ctxgrp*arg ::debug("length", "Ctxgrp: ", $self->{'len'}{'contextgroups'}, " Groups: ", $self->{'len'}{'noncontextgroups'}, "\n"); # Add space between context groups $len += ($recargs-1) * ($self->{'len'}{'contextgroups'}); } else { # Each replacement string may occur several times # Add the length for each time $len += 1*$self->{'len'}{'context'}; ::debug("length", "context+noncontext + command: $len\n"); for my $replstring (keys %{$self->{'replacecount'}}) { # (space between regargs + length of replacement) # * number this replacement is used $len += ($recargs -1 + $self->{'len'}{$replstring}) * $self->{'replacecount'}{$replstring}; } } if($opt::nice) { # Pessimistic length if --nice is set # Worse than worst case: every char needs to be quoted with \ $len *= 2; } if($Global::quoting) { # Pessimistic length if -q is set # Worse than worst case: every char needs to be quoted with \ $len *= 2; } if($opt::shellquote) { # Pessimistic length if --shellquote is set # Worse than worst case: every char needs to be quoted with \ twice $len *= 4; } # If we are using --env, add the prefix for that, too. $len += $Global::envvarlen; return $len; } sub replaced { # Uses: # $Global::noquote # $Global::quoting # Returns: # $replaced = command with place holders replaced and prepended my $self = shift; if(not defined $self->{'replaced'}) { # Don't quote arguments if the input is the full command line my $quote_arg = $Global::noquote ? 0 : not $Global::quoting; $self->{'replaced'} = $self->replace_placeholders($self->{'command'},$Global::quoting,$quote_arg); my $len = length $self->{'replaced'}; if ($len != $self->len()) { ::debug("length", $len, " != ", $self->len(), " ", $self->{'replaced'}, "\n"); } else { ::debug("length", $len, " == ", $self->len(), " ", $self->{'replaced'}, "\n"); } } return $self->{'replaced'}; } sub replace_placeholders { # Replace foo{}bar with fooargbar # Input: # $targetref = command as shell words # $quote = should everything be quoted? # $quote_arg = should replaced arguments be quoted? # Returns: # @target with placeholders replaced my $self = shift; my $targetref = shift; my $quote = shift; my $quote_arg = shift; my $context_replace = $self->{'context_replace'}; my @target = @$targetref; ::debug("replace", "Replace @target\n"); # -X = context replace # maybe multiple input sources # maybe --xapply if(not @target) { # @target is empty: Return empty array return @target; } # Fish out the words that have replacement strings in them my %word; for (@target) { my $tt = $_; ::debug("replace", "Target: $tt"); # a{1}b{}c{}d # a{=1 $_=$_ =}b{= $_=$_ =}c{= $_=$_ =}d # a\257<1 $_=$_ \257>b\257< $_=$_ \257>c\257< $_=$_ \257>d # A B C => aAbA B CcA B Cd # -X A B C => aAbAcAd aAbBcBd aAbCcCd if($context_replace) { while($tt =~ s/([^\s\257]* # before {= (?: \257< # {= [^\257]*? # The perl expression \257> # =} [^\s\257]* # after =} )+)/ /x) { # $1 = pre \257 perlexpr \257 post $word{"$1"} ||= 1; } } else { while($tt =~ s/( (?: \257<([^\257]*?)\257>) )//x) { # $f = \257 perlexpr \257 $word{$1} ||= 1; } } } my @word = keys %word; my %replace; my @arg; for my $record (@{$self->{'arg_list'}}) { # $self->{'arg_list'} = [ [Arg11, Arg12], [Arg21, Arg22], [Arg31, Arg32] ] # Merge arg-objects from records into @arg for easy access CORE::push @arg, @$record; } # Add one arg if empty to allow {#} and {%} to be computed only once if(not @arg) { @arg = (Arg->new("")); } # Number of arguments - used for positional arguments my $n = $#_+1; # This is actually a CommandLine-object, # but it looks nice to be able to say {= $job->slot() =} my $job = $self; for my $word (@word) { # word = AB \257< perlexpr \257> CD \257< perlexpr \257> EF my $w = $word; ::debug("replace", "Replacing in $w\n"); # Replace positional arguments $w =~ s< ([^\s\257]*) # before {= \257< # {= (-?\d+) # Position (eg. -2 or 3) ([^\257]*?) # The perl expression \257> # =} ([^\s\257]*) # after =} > { $1. # Context (pre) ( $arg[$2 > 0 ? $2-1 : $n+$2] ? # If defined: replace $arg[$2 > 0 ? $2-1 : $n+$2]->replace($3,$quote_arg,$self) : "") .$4 }egx;# Context (post) ::debug("replace", "Positional replaced $word with: $w\n"); if($w !~ /\257/) { # No more replacement strings in $w: No need to do more if($quote) { CORE::push(@{$replace{::shell_quote($word)}}, $w); } else { CORE::push(@{$replace{$word}}, $w); } next; } # for each arg: # compute replacement for each string # replace replacement strings with replacement in the word value # push to replace word value ::debug("replace", "Positional done: $w\n"); for my $arg (@arg) { my $val = $w; my $number_of_replacements = 0; for my $perlexpr (keys %{$self->{'replacecount'}}) { # Replace {= perl expr =} with value for each arg $number_of_replacements += $val =~ s{\257<\Q$perlexpr\E\257>} {$arg ? $arg->replace($perlexpr,$quote_arg,$self) : ""}eg; } my $ww = $word; if($quote) { $ww = ::shell_quote_scalar($word); $val = ::shell_quote_scalar($val); } if($number_of_replacements) { CORE::push(@{$replace{$ww}}, $val); } } } if($quote) { @target = ::shell_quote(@target); } # ::debug("replace", "%replace=",::my_dump(%replace),"\n"); if(%replace) { # Substitute the replace strings with the replacement values # Must be sorted by length if a short word is a substring of a long word my $regexp = join('|', map { my $s = $_; $s =~ s/(\W)/\\$1/g; $s } sort { length $b <=> length $a } keys %replace); for(@target) { s/($regexp)/join(" ",@{$replace{$1}})/ge; } } ::debug("replace", "Return @target\n"); return wantarray ? @target : "@target"; } package CommandLineQueue; sub new { my $class = shift; my $commandref = shift; my $read_from = shift; my $context_replace = shift; my $max_number_of_args = shift; my $return_files = shift; my @unget = (); my ($count,%replacecount,$posrpl,$perlexpr,%len); my @command = @$commandref; # If the first command start with '-' it is probably an option if($command[0] =~ /^\s*(-\S+)/) { # Is this really a command in $PATH starting with '-'? my $cmd = $1; if(not ::which($cmd)) { ::error("Command ($cmd) starts with '-'. Is this a wrong option?\n"); ::wait_and_exit(255); } } # Replace replacement strings with {= perl expr =} # Protect matching inside {= perl expr =} # by replacing {= and =} with \257< and \257> for(@command) { if(/\257/) { ::error("Command cannot contain the character \257. Use a function for that.\n"); ::wait_and_exit(255); } s/\Q$Global::parensleft\E(.*?)\Q$Global::parensright\E/\257<$1\257>/gx; } for my $rpl (keys %Global::rpl) { # Replace the short hand string with the {= perl expr =} in $command and $opt::tagstring # Avoid replacing inside existing {= perl expr =} for(@command,@Global::ret_files) { while(s/((^|\257>)[^\257]*?) # Don't replace after \257 unless \257> \Q$rpl\E/$1\257<$Global::rpl{$rpl}\257>/xg) { } } if(defined $opt::tagstring) { for($opt::tagstring) { while(s/((^|\257>)[^\257]*?) # Don't replace after \257 unless \257> \Q$rpl\E/$1\257<$Global::rpl{$rpl}\257>/x) {} } } # Do the same for the positional replacement strings # A bit harder as we have to put in the position number $posrpl = $rpl; if($posrpl =~ s/^\{//) { # Only do this if the shorthand start with { for(@command,@Global::ret_files) { s/\{(-?\d+)\Q$posrpl\E/\257<$1 $Global::rpl{$rpl}\257>/g; } if(defined $opt::tagstring) { $opt::tagstring =~ s/\{(-?\d+)\Q$posrpl\E/\257<$1 $perlexpr\257>/g; } } } my $sum = 0; while($sum == 0) { # Count how many times each replacement string is used my @cmd = @command; my $contextlen = 0; my $noncontextlen = 0; my $contextgroups = 0; for my $c (@cmd) { while($c =~ s/ \257<([^\257]*?)\257> /\000/x) { # %replacecount = { "perlexpr" => number of times seen } # e.g { "$_++" => 2 } $replacecount{$1} ++; $sum++; } # Measure the length of the context around the {= perl expr =} # Use that {=...=} has been replaced with \000 above # So there is no need to deal with \257< while($c =~ s/ (\S*\000\S*) //x) { my $w = $1; $w =~ tr/\000//d; # Remove all \000's $contextlen += length($w); $contextgroups++; } # All {= perl expr =} have been removed: The rest is non-context $noncontextlen += length $c; } if($opt::tagstring) { my $t = $opt::tagstring; while($t =~ s/ \257<([^\257]*)\257> //x) { # %replacecount = { "perlexpr" => number of times seen } # e.g { "$_++" => 2 } # But for tagstring we just need to mark it as seen $replacecount{$1}||=1; } } $len{'context'} = 0+$contextlen; $len{'noncontext'} = $noncontextlen; $len{'contextgroups'} = $contextgroups; $len{'noncontextgroups'} = @cmd-$contextgroups; ::debug("length", "@command Context: ", $len{'context'}, " Non: ", $len{'noncontext'}, " Ctxgrp: ", $len{'contextgroups'}, " NonCtxGrp: ", $len{'noncontextgroups'}, "\n"); if($sum == 0) { # Default command = {} # If not replacement string: append {} if(not @command) { @command = ("\257<\257>"); $Global::noquote = 1; } elsif(($opt::pipe or $opt::pipepart) and not $opt::fifo and not $opt::cat) { # With --pipe / --pipe-part you can have no replacement last; } else { # Append {} to the command if there are no {...}'s and no {=...=} push @command, ("\257<\257>"); } } } return bless { 'unget' => \@unget, 'command' => \@command, 'replacecount' => \%replacecount, 'arg_queue' => RecordQueue->new($read_from,$opt::colsep), 'context_replace' => $context_replace, 'len' => \%len, 'max_number_of_args' => $max_number_of_args, 'size' => undef, 'return_files' => $return_files, 'seq' => 1, }, ref($class) || $class; } sub get { my $self = shift; if(@{$self->{'unget'}}) { my $cmd_line = shift @{$self->{'unget'}}; return ($cmd_line); } else { my $cmd_line; $cmd_line = CommandLine->new($self->seq(), $self->{'command'}, $self->{'arg_queue'}, $self->{'context_replace'}, $self->{'max_number_of_args'}, $self->{'return_files'}, $self->{'replacecount'}, $self->{'len'}, ); $cmd_line->populate(); ::debug("init","cmd_line->number_of_args ", $cmd_line->number_of_args(), "\n"); if($opt::pipe or $opt::pipepart) { if($cmd_line->replaced() eq "") { # Empty command - pipe requires a command ::error("--pipe must have a command to pipe into (e.g. 'cat').\n"); ::wait_and_exit(255); } } else { if($cmd_line->number_of_args() == 0) { # We did not get more args - maybe at EOF string? return undef; } elsif($cmd_line->replaced() eq "") { # Empty command - get the next instead return $self->get(); } } $self->set_seq($self->seq()+1); return $cmd_line; } } sub unget { my $self = shift; unshift @{$self->{'unget'}}, @_; } sub empty { my $self = shift; my $empty = (not @{$self->{'unget'}}) && $self->{'arg_queue'}->empty(); ::debug("run", "CommandLineQueue->empty $empty"); return $empty; } sub seq { my $self = shift; return $self->{'seq'}; } sub set_seq { my $self = shift; $self->{'seq'} = shift; } sub quote_args { my $self = shift; # If there is not command emulate |bash return $self->{'command'}; } sub size { my $self = shift; if(not $self->{'size'}) { my @all_lines = (); while(not $self->{'arg_queue'}->empty()) { push @all_lines, CommandLine->new($self->{'command'}, $self->{'arg_queue'}, $self->{'context_replace'}, $self->{'max_number_of_args'}); } $self->{'size'} = @all_lines; $self->unget(@all_lines); } return $self->{'size'}; } package Limits::Command; # Maximal command line length (for -m and -X) sub max_length { # Find the max_length of a command line and cache it # Returns: # number of chars on the longest command line allowed if(not $Limits::Command::line_max_len) { # Disk cache of max command line length my $len_cache = $ENV{'HOME'} . "/.parallel/tmp/linelen-" . ::hostname(); my $cached_limit; if(-e $len_cache) { open(my $fh, "<", $len_cache) || ::die_bug("Cannot read $len_cache"); $cached_limit = <$fh>; close $fh; } else { $cached_limit = real_max_length(); # If $HOME is write protected: Do not fail mkdir($ENV{'HOME'} . "/.parallel"); mkdir($ENV{'HOME'} . "/.parallel/tmp"); open(my $fh, ">", $len_cache); print $fh $cached_limit; close $fh; } $Limits::Command::line_max_len = $cached_limit; if($opt::max_chars) { if($opt::max_chars <= $cached_limit) { $Limits::Command::line_max_len = $opt::max_chars; } else { ::warning("Value for -s option ", "should be < $cached_limit.\n"); } } } return $Limits::Command::line_max_len; } sub real_max_length { # Find the max_length of a command line # Returns: # The maximal command line length # Use an upper bound of 8 MB if the shell allows for for infinite long lengths my $upper = 8_000_000; my $len = 8; do { if($len > $upper) { return $len }; $len *= 16; } while (is_acceptable_command_line_length($len)); # Then search for the actual max length between 0 and upper bound return binary_find_max_length(int($len/16),$len); } sub binary_find_max_length { # Given a lower and upper bound find the max_length of a command line # Returns: # number of chars on the longest command line allowed my ($lower, $upper) = (@_); if($lower == $upper or $lower == $upper-1) { return $lower; } my $middle = int (($upper-$lower)/2 + $lower); ::debug("init", "Maxlen: $lower,$upper,$middle : "); if (is_acceptable_command_line_length($middle)) { return binary_find_max_length($middle,$upper); } else { return binary_find_max_length($lower,$middle); } } sub is_acceptable_command_line_length { # Test if a command line of this length can run # Returns: # 0 if the command line length is too long # 1 otherwise my $len = shift; local *STDERR; open (STDERR, ">", "/dev/null"); system "true "."x"x$len; close STDERR; ::debug("init", "$len=$? "); return not $?; } package RecordQueue; sub new { my $class = shift; my $fhs = shift; my $colsep = shift; my @unget = (); my $arg_sub_queue; if($colsep) { # Open one file with colsep $arg_sub_queue = RecordColQueue->new($fhs); } else { # Open one or more files if multiple -a $arg_sub_queue = MultifileQueue->new($fhs); } return bless { 'unget' => \@unget, 'arg_number' => 0, 'arg_sub_queue' => $arg_sub_queue, }, ref($class) || $class; } sub get { # Returns: # reference to array of Arg-objects my $self = shift; if(@{$self->{'unget'}}) { $self->{'arg_number'}++; return shift @{$self->{'unget'}}; } my $ret = $self->{'arg_sub_queue'}->get(); if(defined $Global::max_number_of_args and $Global::max_number_of_args == 0) { ::debug("run", "Read 1 but return 0 args\n"); return [Arg->new("")]; } else { return $ret; } } sub unget { my $self = shift; ::debug("run", "RecordQueue-unget '@_'\n"); $self->{'arg_number'} -= @_; unshift @{$self->{'unget'}}, @_; } sub empty { my $self = shift; my $empty = not @{$self->{'unget'}}; $empty &&= $self->{'arg_sub_queue'}->empty(); ::debug("run", "RecordQueue->empty $empty"); return $empty; } sub arg_number { my $self = shift; return $self->{'arg_number'}; } package RecordColQueue; sub new { my $class = shift; my $fhs = shift; my @unget = (); my $arg_sub_queue = MultifileQueue->new($fhs); return bless { 'unget' => \@unget, 'arg_sub_queue' => $arg_sub_queue, }, ref($class) || $class; } sub get { # Returns: # reference to array of Arg-objects my $self = shift; if(@{$self->{'unget'}}) { return shift @{$self->{'unget'}}; } my $unget_ref=$self->{'unget'}; if($self->{'arg_sub_queue'}->empty()) { return undef; } my $in_record = $self->{'arg_sub_queue'}->get(); if(defined $in_record) { my @out_record = (); for my $arg (@$in_record) { ::debug("run", "RecordColQueue::arg $arg\n"); my $line = $arg->orig(); ::debug("run", "line='$line'\n"); if($line ne "") { for my $s (split /$opt::colsep/o, $line, -1) { push @out_record, Arg->new($s); } } else { push @out_record, Arg->new(""); } } return \@out_record; } else { return undef; } } sub unget { my $self = shift; ::debug("run", "RecordColQueue-unget '@_'\n"); unshift @{$self->{'unget'}}, @_; } sub empty { my $self = shift; my $empty = (not @{$self->{'unget'}} and $self->{'arg_sub_queue'}->empty()); ::debug("run", "RecordColQueue->empty $empty"); return $empty; } package MultifileQueue; @Global::unget_argv=(); sub new { my $class = shift; my $fhs = shift; for my $fh (@$fhs) { if(-t $fh) { ::warning("Input is read from the terminal. ". "Only experts do this on purpose. ". "Press CTRL-D to exit.\n"); } } return bless { 'unget' => \@Global::unget_argv, 'fhs' => $fhs, 'arg_matrix' => undef, }, ref($class) || $class; } sub get { my $self = shift; if($opt::xapply) { return $self->xapply_get(); } else { return $self->nest_get(); } } sub unget { my $self = shift; ::debug("run", "MultifileQueue-unget '@_'\n"); unshift @{$self->{'unget'}}, @_; } sub empty { my $self = shift; my $empty = (not @Global::unget_argv and not @{$self->{'unget'}}); for my $fh (@{$self->{'fhs'}}) { $empty &&= eof($fh); } ::debug("run", "MultifileQueue->empty $empty "); return $empty; } sub xapply_get { my $self = shift; if(@{$self->{'unget'}}) { return shift @{$self->{'unget'}}; } my @record = (); my $prepend = undef; my $empty = 1; for my $fh (@{$self->{'fhs'}}) { my $arg = read_arg_from_fh($fh); if(defined $arg) { # Record $arg for recycling at end of file push @{$self->{'arg_matrix'}{$fh}}, $arg; push @record, $arg; $empty = 0; } else { ::debug("run", "EOA "); # End of file: Recycle arguments push @{$self->{'arg_matrix'}{$fh}}, shift @{$self->{'arg_matrix'}{$fh}}; # return last @{$args->{'args'}{$fh}}; push @record, @{$self->{'arg_matrix'}{$fh}}[-1]; } } if($empty) { return undef; } else { return \@record; } } sub nest_get { my $self = shift; if(@{$self->{'unget'}}) { return shift @{$self->{'unget'}}; } my @record = (); my $prepend = undef; my $empty = 1; my $no_of_inputsources = $#{$self->{'fhs'}} + 1; if(not $self->{'arg_matrix'}) { # Initialize @arg_matrix with one arg from each file # read one line from each file my @first_arg_set; my $all_empty = 1; for (my $fhno = 0; $fhno < $no_of_inputsources ; $fhno++) { my $arg = read_arg_from_fh($self->{'fhs'}[$fhno]); if(defined $arg) { $all_empty = 0; } $self->{'arg_matrix'}[$fhno][0] = $arg || Arg->new(""); push @first_arg_set, $self->{'arg_matrix'}[$fhno][0]; } if($all_empty) { # All filehandles were at eof or eof-string return undef; } return [@first_arg_set]; } # Treat the case with one input source special. For multiple # input sources we need to remember all previously read values to # generate all combinations. But for one input source we can # forget the value after first use. if($no_of_inputsources == 1) { my $arg = read_arg_from_fh($self->{'fhs'}[0]); if(defined($arg)) { return [$arg]; } return undef; } for (my $fhno = $no_of_inputsources - 1; $fhno >= 0; $fhno--) { if(eof($self->{'fhs'}[$fhno])) { next; } else { # read one my $arg = read_arg_from_fh($self->{'fhs'}[$fhno]); defined($arg) || next; # If we just read an EOF string: Treat this as EOF my $len = $#{$self->{'arg_matrix'}[$fhno]} + 1; $self->{'arg_matrix'}[$fhno][$len] = $arg; # make all new combinations my @combarg = (); for (my $fhn = 0; $fhn < $no_of_inputsources; $fhn++) { push @combarg, [0, $#{$self->{'arg_matrix'}[$fhn]}]; } $combarg[$fhno] = [$len,$len]; # Find only combinations with this new entry # map combinations # [ 1, 3, 7 ], [ 2, 4, 1 ] # => # [ m[0][1], m[1][3], m[3][7] ], [ m[0][2], m[1][4], m[2][1] ] my @mapped; for my $c (expand_combinations(@combarg)) { my @a; for my $n (0 .. $no_of_inputsources - 1 ) { push @a, $self->{'arg_matrix'}[$n][$$c[$n]]; } push @mapped, \@a; } # append the mapped to the ungotten arguments push @{$self->{'unget'}}, @mapped; # get the first return shift @{$self->{'unget'}}; } } # all are eof or at EOF string; return from the unget queue return shift @{$self->{'unget'}}; } sub read_arg_from_fh { # Read one Arg from filehandle # Returns: # Arg-object with one read line # undef if end of file my $fh = shift; my $prepend = undef; my $arg; do {{ # This makes 10% faster if(not ($arg = <$fh>)) { if(defined $prepend) { return Arg->new($prepend); } else { return undef; } } # ::debug("run", "read $arg\n"); # Remove delimiter $arg =~ s:$/$::; if($Global::end_of_file_string and $arg eq $Global::end_of_file_string) { # Ignore the rest of input file close $fh; ::debug("run", "EOF-string ($arg) met\n"); if(defined $prepend) { return Arg->new($prepend); } else { return undef; } } if(defined $prepend) { $arg = $prepend.$arg; # For line continuation $prepend = undef; #undef; } if($Global::ignore_empty) { if($arg =~ /^\s*$/) { redo; # Try the next line } } if($Global::max_lines) { if($arg =~ /\s$/) { # Trailing space => continued on next line $prepend = $arg; redo; } } }} while (1 == 0); # Dummy loop {{}} for redo if(defined $arg) { return Arg->new($arg); } else { ::die_bug("multiread arg undefined"); } } sub expand_combinations { # Input: # ([xmin,xmax], [ymin,ymax], ...) # Returns: ([x,y,...],[x,y,...]) # where xmin <= x <= xmax and ymin <= y <= ymax my $minmax_ref = shift; my $xmin = $$minmax_ref[0]; my $xmax = $$minmax_ref[1]; my @p; if(@_) { # If there are more columns: Compute those recursively my @rest = expand_combinations(@_); for(my $x = $xmin; $x <= $xmax; $x++) { push @p, map { [$x, @$_] } @rest; } } else { for(my $x = $xmin; $x <= $xmax; $x++) { push @p, [$x]; } } return @p; } package Arg; sub new { my $class = shift; my $orig = shift; my @hostgroups; if($opt::hostgroups) { if($orig =~ s:@(.+)::) { # We found hostgroups on the arg @hostgroups = split(/\+/, $1); if(not grep { defined $Global::hostgroups{$_} } @hostgroups) { ::warning("No such hostgroup (@hostgroups)\n"); @hostgroups = (keys %Global::hostgroups); } } else { @hostgroups = (keys %Global::hostgroups); } } return bless { 'orig' => $orig, 'hostgroups' => \@hostgroups, }, ref($class) || $class; } sub replace { # Calculates the corresponding value for a given perl expression # Returns: # The calculated string (quoted if asked for) my $self = shift; my $perlexpr = shift; # E.g. $_=$_ or s/.gz// my $quote = (shift) ? 1 : 0; # should the string be quoted? # This is actually a CommandLine-object, # but it looks nice to be able to say {= $job->slot() =} my $job = shift; $perlexpr =~ s/^-?\d+ //; # Positional replace treated as normal replace if(not defined $self->{"rpl",0,$perlexpr}) { local $_; if($Global::trim eq "n") { $_ = $self->{'orig'}; } else { $_ = trim_of($self->{'orig'}); } ::debug("replace", "eval ", $perlexpr, " ", $_, "\n"); if(not $Global::perleval{$perlexpr}) { # Make an anonymous function of the $perlexpr # And more importantly: Compile it only once if($Global::perleval{$perlexpr} = eval('sub { no strict; no warnings; my $job = shift; '. $perlexpr.' }')) { # All is good } else { # The eval failed. Maybe $perlexpr is invalid perl? ::error("Cannot use $perlexpr: $@\n"); ::wait_and_exit(255); } } # Execute the function $Global::perleval{$perlexpr}->($job); $self->{"rpl",0,$perlexpr} = $_; } if(not defined $self->{"rpl",$quote,$perlexpr}) { $self->{"rpl",1,$perlexpr} = ::shell_quote_scalar($self->{"rpl",0,$perlexpr}); } return $self->{"rpl",$quote,$perlexpr}; } sub orig { my $self = shift; return $self->{'orig'}; } sub trim_of { # Removes white space as specifed by --trim: # n = nothing # l = start # r = end # lr|rl = both # Returns: # string with white space removed as needed my @strings = map { defined $_ ? $_ : "" } (@_); my $arg; if($Global::trim eq "n") { # skip } elsif($Global::trim eq "l") { for my $arg (@strings) { $arg =~ s/^\s+//; } } elsif($Global::trim eq "r") { for my $arg (@strings) { $arg =~ s/\s+$//; } } elsif($Global::trim eq "rl" or $Global::trim eq "lr") { for my $arg (@strings) { $arg =~ s/^\s+//; $arg =~ s/\s+$//; } } else { ::error("--trim must be one of: r l rl lr.\n"); ::wait_and_exit(255); } return wantarray ? @strings : "@strings"; } package TimeoutQueue; sub new { my $class = shift; my $delta_time = shift; my ($pct); if($delta_time =~ /(\d+(\.\d+)?)%/) { # Timeout in percent $pct = $1/100; $delta_time = 1_000_000; } return bless { 'queue' => [], 'delta_time' => $delta_time, 'pct' => $pct, 'remedian_idx' => 0, 'remedian_arr' => [], 'remedian' => undef, }, ref($class) || $class; } sub delta_time { my $self = shift; return $self->{'delta_time'}; } sub set_delta_time { my $self = shift; $self->{'delta_time'} = shift; } sub remedian { my $self = shift; return $self->{'remedian'}; } sub set_remedian { # Set median of the last 999^3 (=997002999) values using Remedian # # Rousseeuw, Peter J., and Gilbert W. Bassett Jr. "The remedian: A # robust averaging method for large data sets." Journal of the # American Statistical Association 85.409 (1990): 97-104. my $self = shift; my $val = shift; my $i = $self->{'remedian_idx'}++; my $rref = $self->{'remedian_arr'}; $rref->[0][$i%999] = $val; $rref->[1][$i/999%999] = (sort @{$rref->[0]})[$#{$rref->[0]}/2]; $rref->[2][$i/999/999%999] = (sort @{$rref->[1]})[$#{$rref->[1]}/2]; $self->{'remedian'} = (sort @{$rref->[2]})[$#{$rref->[2]}/2]; } sub update_delta_time { # Update delta_time based on runtime of finished job if timeout is # a percentage my $self = shift; my $runtime = shift; if($self->{'pct'}) { $self->set_remedian($runtime); $self->{'delta_time'} = $self->{'pct'} * $self->remedian(); ::debug("run", "Timeout: $self->{'delta_time'}s "); } } sub process_timeouts { # Check if there was a timeout my $self = shift; # $self->{'queue'} is sorted by start time while (@{$self->{'queue'}}) { my $job = $self->{'queue'}[0]; if($job->endtime()) { # Job already finished. No need to timeout the job # This could be because of --keep-order shift @{$self->{'queue'}}; } elsif($job->timedout($self->{'delta_time'})) { # Need to shift off queue before kill # because kill calls usleep that calls process_timeouts shift @{$self->{'queue'}}; $job->kill(); } else { # Because they are sorted by start time the rest are later last; } } } sub insert { my $self = shift; my $in = shift; push @{$self->{'queue'}}, $in; } package Semaphore; # This package provides a counting semaphore # # If a process dies without releasing the semaphore the next process # that needs that entry will clean up dead semaphores # # The semaphores are stored in ~/.parallel/semaphores/id- Each # file in ~/.parallel/semaphores/id-/ is the process ID of the # process holding the entry. If the process dies, the entry can be # taken by another process. sub new { my $class = shift; my $id = shift; my $count = shift; $id=~s/([^-_a-z0-9])/unpack("H*",$1)/ige; # Convert non-word chars to hex $id="id-".$id; # To distinguish it from a process id my $parallel_dir = $ENV{'HOME'}."/.parallel"; -d $parallel_dir or mkdir_or_die($parallel_dir); my $parallel_locks = $parallel_dir."/semaphores"; -d $parallel_locks or mkdir_or_die($parallel_locks); my $lockdir = "$parallel_locks/$id"; my $lockfile = $lockdir.".lock"; if($count < 1) { ::die_bug("semaphore-count: $count"); } return bless { 'lockfile' => $lockfile, 'lockfh' => Symbol::gensym(), 'lockdir' => $lockdir, 'id' => $id, 'idfile' => $lockdir."/".$id, 'pid' => $$, 'pidfile' => $lockdir."/".$$.'@'.::hostname(), 'count' => $count + 1 # nlinks returns a link for the 'id-' as well }, ref($class) || $class; } sub acquire { my $self = shift; my $sleep = 1; # 1 ms my $start_time = time; while(1) { $self->atomic_link_if_count_less_than() and last; ::debug("sem", "Remove dead locks"); my $lockdir = $self->{'lockdir'}; for my $d (glob "$lockdir/*") { ::debug("sem", "Lock $d $lockdir\n"); $d =~ m:$lockdir/([0-9]+)\@([-\._a-z0-9]+)$:o or next; my ($pid, $host) = ($1, $2); if($host eq ::hostname()) { if(not kill 0, $1) { ::debug("sem", "Dead: $d"); unlink $d; } else { ::debug("sem", "Alive: $d"); } } } # try again $self->atomic_link_if_count_less_than() and last; # Retry slower and slower up to 1 second $sleep = ($sleep < 1000) ? ($sleep * 1.1) : ($sleep); # Random to avoid every sleeping job waking up at the same time ::usleep(rand()*$sleep); if(defined($opt::timeout) and $start_time + $opt::timeout > time) { # Acquire the lock anyway if(not -e $self->{'idfile'}) { open (my $fh, ">", $self->{'idfile'}) or ::die_bug("timeout_write_idfile: $self->{'idfile'}"); close $fh; } link $self->{'idfile'}, $self->{'pidfile'}; last; } } ::debug("sem", "acquired $self->{'pid'}\n"); } sub release { my $self = shift; unlink $self->{'pidfile'}; if($self->nlinks() == 1) { # This is the last link, so atomic cleanup $self->lock(); if($self->nlinks() == 1) { unlink $self->{'idfile'}; rmdir $self->{'lockdir'}; } $self->unlock(); } ::debug("run", "released $self->{'pid'}\n"); } sub _release { my $self = shift; unlink $self->{'pidfile'}; $self->lock(); my $nlinks = $self->nlinks(); ::debug("sem", $nlinks, "<", $self->{'count'}); if($nlinks-- > 1) { unlink $self->{'idfile'}; open (my $fh, ">", $self->{'idfile'}) or ::die_bug("write_idfile: $self->{'idfile'}"); print $fh "#"x$nlinks; close $fh; } else { unlink $self->{'idfile'}; rmdir $self->{'lockdir'}; } $self->unlock(); ::debug("sem", "released $self->{'pid'}\n"); } sub atomic_link_if_count_less_than { # Link $file1 to $file2 if nlinks to $file1 < $count my $self = shift; my $retval = 0; $self->lock(); ::debug($self->nlinks(), "<", $self->{'count'}); if($self->nlinks() < $self->{'count'}) { -d $self->{'lockdir'} or mkdir_or_die($self->{'lockdir'}); if(not -e $self->{'idfile'}) { open (my $fh, ">", $self->{'idfile'}) or ::die_bug("write_idfile: $self->{'idfile'}"); close $fh; } $retval = link $self->{'idfile'}, $self->{'pidfile'}; } $self->unlock(); ::debug("run", "atomic $retval"); return $retval; } sub _atomic_link_if_count_less_than { # Link $file1 to $file2 if nlinks to $file1 < $count my $self = shift; my $retval = 0; $self->lock(); my $nlinks = $self->nlinks(); ::debug("sem", $nlinks, "<", $self->{'count'}); if($nlinks++ < $self->{'count'}) { -d $self->{'lockdir'} or mkdir_or_die($self->{'lockdir'}); if(not -e $self->{'idfile'}) { open (my $fh, ">", $self->{'idfile'}) or ::die_bug("write_idfile: $self->{'idfile'}"); close $fh; } open (my $fh, ">", $self->{'idfile'}) or ::die_bug("write_idfile: $self->{'idfile'}"); print $fh "#"x$nlinks; close $fh; $retval = link $self->{'idfile'}, $self->{'pidfile'}; } $self->unlock(); ::debug("sem", "atomic $retval"); return $retval; } sub nlinks { my $self = shift; if(-e $self->{'idfile'}) { ::debug("sem", "nlinks", (stat(_))[3], "size", (stat(_))[7], "\n"); return (stat(_))[3]; } else { return 0; } } sub lock { my $self = shift; my $sleep = 100; # 100 ms my $total_sleep = 0; $Global::use{"Fcntl"} ||= eval "use Fcntl qw(:DEFAULT :flock); 1;"; my $locked = 0; while(not $locked) { if(tell($self->{'lockfh'}) == -1) { # File not open open($self->{'lockfh'}, ">", $self->{'lockfile'}) or ::debug("run", "Cannot open $self->{'lockfile'}"); } if($self->{'lockfh'}) { # File is open chmod 0666, $self->{'lockfile'}; # assuming you want it a+rw if(flock($self->{'lockfh'}, LOCK_EX()|LOCK_NB())) { # The file is locked: No need to retry $locked = 1; last; } else { if ($! =~ m/Function not implemented/) { ::warning("flock: $!"); ::warning("Will wait for a random while\n"); ::usleep(rand(5000)); # File cannot be locked: No need to retry $locked = 2; last; } } } # Locking failed in first round # Sleep and try again $sleep = ($sleep < 1000) ? ($sleep * 1.1) : ($sleep); # Random to avoid every sleeping job waking up at the same time ::usleep(rand()*$sleep); $total_sleep += $sleep; if($opt::semaphoretimeout) { if($total_sleep/1000 > $opt::semaphoretimeout) { # Timeout: bail out ::warning("Semaphore timed out. Ignoring timeout."); $locked = 3; last; } } else { if($total_sleep/1000 > 30) { ::warning("Semaphore stuck for 30 seconds. Consider using --semaphoretimeout."); } } } ::debug("run", "locked $self->{'lockfile'}"); } sub unlock { my $self = shift; unlink $self->{'lockfile'}; close $self->{'lockfh'}; ::debug("run", "unlocked\n"); } sub mkdir_or_die { # If dir is not writable: die my $dir = shift; my @dir_parts = split(m:/:,$dir); my ($ddir,$part); while(defined ($part = shift @dir_parts)) { $part eq "" and next; $ddir .= "/".$part; -d $ddir and next; mkdir $ddir; } if(not -w $dir) { ::error("Cannot write to $dir: $!\n"); ::wait_and_exit(255); } } # Keep perl -w happy $opt::x = $Semaphore::timeout = $Semaphore::wait = $Job::file_descriptor_warning_printed = 0;