#*************************************************************************** # _ _ ____ _ # Project ___| | | | _ \| | # / __| | | | |_) | | # | (__| |_| | _ <| |___ # \___|\___/|_| \_\_____| # # Copyright (C) Daniel Stenberg, , et al. # # This software is licensed as described in the file COPYING, which # you should have received as part of this distribution. The terms # are also available at https://curl.se/docs/copyright.html. # # You may opt to use, copy, modify, merge, publish, distribute and/or sell # copies of the Software, and permit persons to whom the Software is # furnished to do so, under the terms of the COPYING file. # # This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY # KIND, either express or implied. # # SPDX-License-Identifier: curl # ########################################################################### # This module contains entry points to run a single test. runner_init # determines whether they will run in a separate process or in the process of # the caller. The relevant interface is asynchronous so it will work in either # case. Program arguments are marshalled and then written to the end of a pipe # (in controlleripccall) which is later read from and the arguments # unmarshalled (in ipcrecv) before the desired function is called normally. # The function return values are then marshalled and written into another pipe # (again in ipcrecv) when is later read from and unmarshalled (in runnerar) # before being returned to the caller. package runner; use strict; use warnings; use 5.006; BEGIN { use base qw(Exporter); our @EXPORT = qw( checktestcmd prepro readtestkeywords restore_test_env runner_init runnerac_clearlocks runnerac_shutdown runnerac_stopservers runnerac_test_preprocess runnerac_test_run runnerar runnerar_ready stderrfilename stdoutfilename $DBGCURL $gdb $gdbthis $gdbxwin $shallow $tortalloc $valgrind_logfile $valgrind_tool ); # these are for debugging only our @EXPORT_OK = qw( singletest_preprocess ); } use B qw( svref_2object ); use Storable qw( freeze thaw ); use pathhelp qw( exe_ext ); use processhelp qw( portable_sleep ); use servers qw( checkcmd clearlocks serverfortest stopserver stopservers subvariables ); use getpart; use globalconfig; use testutil qw( clearlogs logmsg runclient shell_quote subbase64 subnewlines ); ####################################################################### # Global variables set elsewhere but used only by this package # These may only be set *before* runner_init is called our $DBGCURL=$CURL; #"../src/.libs/curl"; # alternative for debugging our $valgrind_logfile="--log-file"; # the option name for valgrind >=3 our $valgrind_tool="--tool=memcheck"; our $gdb = checktestcmd("gdb"); our $gdbthis; # run test case with gdb debugger our $gdbxwin; # use windowed gdb when using gdb # torture test variables our $shallow; our $tortalloc; # local variables my %oldenv; # environment variables before test is started my $UNITDIR="./unit"; my $CURLLOG="$LOGDIR/commands.log"; # all command lines run my $SERVERLOGS_LOCK="$LOGDIR/serverlogs.lock"; # server logs advisor read lock my $defserverlogslocktimeout = 2; # timeout to await server logs lock removal my $defpostcommanddelay = 0; # delay between command and postcheck sections my $multiprocess; # nonzero with a separate test runner process # pipes my $runnerr; # pipe that runner reads from my $runnerw; # pipe that runner writes to # per-runner variables, indexed by runner ID; these are used by controller only my %controllerr; # pipe that controller reads from my %controllerw; # pipe that controller writes to # redirected stdout/stderr to these files sub stdoutfilename { my ($logdir, $testnum)=@_; return "$logdir/stdout$testnum"; } sub stderrfilename { my ($logdir, $testnum)=@_; return "$logdir/stderr$testnum"; } ####################################################################### # Initialize the runner and prepare it to run tests # The runner ID returned by this function must be passed into the other # runnerac_* functions # Called by controller sub runner_init { my ($logdir, $jobs)=@_; $multiprocess = !!$jobs; # enable memory debugging if curl is compiled with it $ENV{'CURL_MEMDEBUG'} = "$LOGDIR/$MEMDUMP"; $ENV{'CURL_ENTROPY'}="12345678"; $ENV{'CURL_FORCETIME'}=1; # for debug NTLM magic $ENV{'CURL_GLOBAL_INIT'}=1; # debug curl_global_init/cleanup use $ENV{'HOME'}=$pwd; $ENV{'CURL_HOME'}=$ENV{'HOME'}; $ENV{'XDG_CONFIG_HOME'}=$ENV{'HOME'}; $ENV{'COLUMNS'}=79; # screen width! # create pipes for communication with runner my ($thisrunnerr, $thiscontrollerw, $thiscontrollerr, $thisrunnerw); pipe $thisrunnerr, $thiscontrollerw; pipe $thiscontrollerr, $thisrunnerw; my $thisrunnerid; if($multiprocess) { # Create a separate process in multiprocess mode my $child = fork(); if(0 == $child) { # TODO: set up a better signal handler $SIG{INT} = 'IGNORE'; $SIG{TERM} = 'IGNORE'; $thisrunnerid = $$; print "Runner $thisrunnerid starting\n" if($verbose); # Here we are the child (runner). close($thiscontrollerw); close($thiscontrollerr); $runnerr = $thisrunnerr; $runnerw = $thisrunnerw; # Set this directory as ours $LOGDIR = $logdir; mkdir("$LOGDIR/$PIDDIR", 0777); # handle IPC calls event_loop(); # Can't rely on logmsg here in case it's buffered print "Runner $thisrunnerid exiting\n" if($verbose); exit 0; } # Here we are the parent (controller). close($thisrunnerw); close($thisrunnerr); $thisrunnerid = $child; } else { # Create our pid directory mkdir("$LOGDIR/$PIDDIR", 0777); # Don't create a separate process $thisrunnerid = "integrated"; } $controllerw{$thisrunnerid} = $thiscontrollerw; $runnerr = $thisrunnerr; $runnerw = $thisrunnerw; $controllerr{$thisrunnerid} = $thiscontrollerr; return $thisrunnerid; } ####################################################################### # Loop to execute incoming IPC calls until the shutdown call sub event_loop { while () { if(ipcrecv()) { last; } } } ####################################################################### # Check for a command in the PATH of the machine running curl. # sub checktestcmd { my ($cmd)=@_; my @testpaths=("$LIBDIR/.libs", "$LIBDIR"); return checkcmd($cmd, @testpaths); } # See if Valgrind should actually be used sub use_valgrind { if($valgrind) { my @valgrindoption = getpart("verify", "valgrind"); if((!@valgrindoption) || ($valgrindoption[0] !~ /disable/)) { return 1; } } return 0; } # Massage the command result code into a useful form sub normalize_cmdres { my $cmdres = $_[0]; my $signal_num = $cmdres & 127; my $dumped_core = $cmdres & 128; if(!$anyway && ($signal_num || $dumped_core)) { $cmdres = 1000; } else { $cmdres >>= 8; $cmdres = (2000 + $signal_num) if($signal_num && !$cmdres); } return ($cmdres, $dumped_core); } # 'prepro' processes the input array and replaces %-variables in the array # etc. Returns the processed version of the array sub prepro { my $testnum = shift; my (@entiretest) = @_; my $show = 1; my @out; my $data_crlf; for my $s (@entiretest) { my $f = $s; if($s =~ /^ *%if (.*)/) { my $cond = $1; my $rev = 0; if($cond =~ /^!(.*)/) { $cond = $1; $rev = 1; } $rev ^= $feature{$cond} ? 1 : 0; $show = $rev; next; } elsif($s =~ /^ *%else/) { $show ^= 1; next; } elsif($s =~ /^ *%endif/) { $show = 1; next; } if($show) { # The processor does CRLF replacements in the sections if # necessary since those parts might be read by separate servers. if($s =~ /^ */) { if($1 =~ /crlf="yes"/ || ($feature{"hyper"} && ($keywords{"HTTP"} || $keywords{"HTTPS"}))) { $data_crlf = 1; } } elsif(($s =~ /^ *<\/data/) && $data_crlf) { $data_crlf = 0; } subvariables(\$s, $testnum, "%"); subbase64(\$s); subnewlines(0, \$s) if($data_crlf); push @out, $s; } } return @out; } ####################################################################### # Load test keywords into %keywords hash # sub readtestkeywords { my @info_keywords = getpart("info", "keywords"); # Clear the list of keywords from the last test %keywords = (); for my $k (@info_keywords) { chomp $k; $keywords{$k} = 1; } } ####################################################################### # Memory allocation test and failure torture testing. # sub torture { my ($testcmd, $testnum, $gdbline) = @_; # remove memdump first to be sure we get a new nice and clean one unlink("$LOGDIR/$MEMDUMP"); # First get URL from test server, ignore the output/result runclient($testcmd); logmsg " CMD: $testcmd\n" if($verbose); # memanalyze -v is our friend, get the number of allocations made my $count=0; my @out = `$memanalyze -v "$LOGDIR/$MEMDUMP"`; for(@out) { if(/^Operations: (\d+)/) { $count = $1; last; } } if(!$count) { logmsg " found no functions to make fail\n"; return 0; } my @ttests = (1 .. $count); if($shallow && ($shallow < $count)) { my $discard = scalar(@ttests) - $shallow; my $percent = sprintf("%.2f%%", $shallow * 100 / scalar(@ttests)); logmsg " $count functions found, but only fail $shallow ($percent)\n"; while($discard) { my $rm; do { # find a test to discard $rm = rand(scalar(@ttests)); } while(!$ttests[$rm]); $ttests[$rm] = undef; $discard--; } } else { logmsg " $count functions to make fail\n"; } for (@ttests) { my $limit = $_; my $fail; my $dumped_core; if(!defined($limit)) { # --shallow can undefine them next; } if($tortalloc && ($tortalloc != $limit)) { next; } if($verbose) { my ($sec,$min,$hour,$mday,$mon,$year,$wday,$yday,$isdst) = localtime(time()); my $now = sprintf("%02d:%02d:%02d ", $hour, $min, $sec); logmsg "Fail function no: $limit at $now\r"; } # make the memory allocation function number $limit return failure $ENV{'CURL_MEMLIMIT'} = $limit; # remove memdump first to be sure we get a new nice and clean one unlink("$LOGDIR/$MEMDUMP"); my $cmd = $testcmd; if($valgrind && !$gdbthis) { my @valgrindoption = getpart("verify", "valgrind"); if((!@valgrindoption) || ($valgrindoption[0] !~ /disable/)) { my $valgrindcmd = "$valgrind "; $valgrindcmd .= "$valgrind_tool " if($valgrind_tool); $valgrindcmd .= "--quiet --leak-check=yes "; $valgrindcmd .= "--suppressions=$srcdir/valgrind.supp "; # $valgrindcmd .= "--gen-suppressions=all "; $valgrindcmd .= "--num-callers=16 "; $valgrindcmd .= "${valgrind_logfile}=$LOGDIR/valgrind$testnum"; $cmd = "$valgrindcmd $testcmd"; } } logmsg "*** Function number $limit is now set to fail ***\n" if($gdbthis); my $ret = 0; if($gdbthis) { runclient($gdbline); } else { $ret = runclient($cmd); } #logmsg "$_ Returned " . ($ret >> 8) . "\n"; # Now clear the variable again delete $ENV{'CURL_MEMLIMIT'} if($ENV{'CURL_MEMLIMIT'}); if(-r "core") { # there's core file present now! logmsg " core dumped\n"; $dumped_core = 1; $fail = 2; } if($valgrind) { my @e = valgrindparse("$LOGDIR/valgrind$testnum"); if(@e && $e[0]) { if($automakestyle) { logmsg "FAIL: torture $testnum - valgrind\n"; } else { logmsg " valgrind ERROR "; logmsg @e; } $fail = 1; } } # verify that it returns a proper error code, doesn't leak memory # and doesn't core dump if(($ret & 255) || ($ret >> 8) >= 128) { logmsg " system() returned $ret\n"; $fail=1; } else { my @memdata=`$memanalyze "$LOGDIR/$MEMDUMP"`; my $leak=0; for(@memdata) { if($_ ne "") { # well it could be other memory problems as well, but # we call it leak for short here $leak=1; } } if($leak) { logmsg "** MEMORY FAILURE\n"; logmsg @memdata; logmsg `$memanalyze -l "$LOGDIR/$MEMDUMP"`; $fail = 1; } } if($fail) { logmsg " Failed on function number $limit in test.\n", " invoke with \"-t$limit\" to repeat this single case.\n"; stopservers($verbose); return 1; } } logmsg "\n" if($verbose); logmsg "torture OK\n"; return 0; } ####################################################################### # restore environment variables that were modified in test sub restore_test_env { my $deleteoldenv = $_[0]; # 1 to delete the saved contents after restore foreach my $var (keys %oldenv) { if($oldenv{$var} eq 'notset') { delete $ENV{$var} if($ENV{$var}); } else { $ENV{$var} = $oldenv{$var}; } if($deleteoldenv) { delete $oldenv{$var}; } } } ####################################################################### # Start the servers needed to run this test case sub singletest_startservers { my ($testnum, $testtimings) = @_; # remove old test server files before servers are started/verified unlink("$LOGDIR/$FTPDCMD"); unlink("$LOGDIR/$SERVERIN"); unlink("$LOGDIR/$PROXYIN"); # timestamp required servers verification start $$testtimings{"timesrvrini"} = Time::HiRes::time(); my $why; my $error; if (!$listonly) { my @what = getpart("client", "server"); if(!$what[0]) { warn "Test case $testnum has no server(s) specified"; $why = "no server specified"; $error = -1; } else { my $err; ($why, $err) = serverfortest(@what); if($err == 1) { # Error indicates an actual problem starting the server $error = -2; } else { $error = -1; } } } # timestamp required servers verification end $$testtimings{"timesrvrend"} = Time::HiRes::time(); return ($why, $error); } ####################################################################### # Generate preprocessed test file sub singletest_preprocess { my $testnum = $_[0]; # Save a preprocessed version of the entire test file. This allows more # "basic" test case readers to enjoy variable replacements. my @entiretest = fulltest(); my $otest = "$LOGDIR/test$testnum"; @entiretest = prepro($testnum, @entiretest); # save the new version open(my $fulltesth, ">", "$otest") || die "Failure writing test file"; foreach my $bytes (@entiretest) { print $fulltesth pack('a*', $bytes) or die "Failed to print '$bytes': $!"; } close($fulltesth) || die "Failure writing test file"; # in case the process changed the file, reload it loadtest("$LOGDIR/test${testnum}"); } ####################################################################### # Set up the test environment to run this test case sub singletest_setenv { my @setenv = getpart("client", "setenv"); foreach my $s (@setenv) { chomp $s; if($s =~ /([^=]*)=(.*)/) { my ($var, $content) = ($1, $2); # remember current setting, to restore it once test runs $oldenv{$var} = ($ENV{$var})?"$ENV{$var}":'notset'; # set new value if(!$content) { delete $ENV{$var} if($ENV{$var}); } else { if($var =~ /^LD_PRELOAD/) { if(exe_ext('TOOL') && (exe_ext('TOOL') eq '.exe')) { logmsg "Skipping LD_PRELOAD due to lack of OS support\n" if($verbose); next; } if($feature{"debug"} || !$has_shared) { logmsg "Skipping LD_PRELOAD due to no release shared build\n" if($verbose); next; } } $ENV{$var} = "$content"; logmsg "setenv $var = $content\n" if($verbose); } } } if($proxy_address) { $ENV{http_proxy} = $proxy_address; $ENV{HTTPS_PROXY} = $proxy_address; } } ####################################################################### # Check that test environment is fine to run this test case sub singletest_precheck { my $testnum = $_[0]; my $why; my @precheck = getpart("client", "precheck"); if(@precheck) { my $cmd = $precheck[0]; chomp $cmd; if($cmd) { my @p = split(/ /, $cmd); if($p[0] !~ /\//) { # the first word, the command, does not contain a slash so # we will scan the "improved" PATH to find the command to # be able to run it my $fullp = checktestcmd($p[0]); if($fullp) { $p[0] = $fullp; } $cmd = join(" ", @p); } my @o = `$cmd 2> $LOGDIR/precheck-$testnum`; if($o[0]) { $why = $o[0]; $why =~ s/[\r\n]//g; } elsif($?) { $why = "precheck command error"; } logmsg "prechecked $cmd\n" if($verbose); } } return $why; } ####################################################################### # Prepare the test environment to run this test case sub singletest_prepare { my ($testnum) = @_; if($feature{"TrackMemory"}) { unlink("$LOGDIR/$MEMDUMP"); } unlink("core"); # remove server output logfiles after servers are started/verified unlink("$LOGDIR/$SERVERIN"); unlink("$LOGDIR/$PROXYIN"); # if this section exists, it might be FTP server instructions: my @ftpservercmd = getpart("reply", "servercmd"); push @ftpservercmd, "Testnum $testnum\n"; # write the instructions to file writearray("$LOGDIR/$FTPDCMD", \@ftpservercmd); # create (possibly-empty) files before starting the test for my $partsuffix (('', '1', '2', '3', '4')) { my @inputfile=getpart("client", "file".$partsuffix); my %fileattr = getpartattr("client", "file".$partsuffix); my $filename=$fileattr{'name'}; if(@inputfile || $filename) { if(!$filename) { logmsg "ERROR: section client=>file has no name attribute\n"; return -1; } my $fileContent = join('', @inputfile); # make directories if needed my $path = $filename; # cut off the file name part $path =~ s/^(.*)\/[^\/]*/$1/; my @parts = split(/\//, $path); if($parts[0] eq $LOGDIR) { # the file is in $LOGDIR/ my $d = shift @parts; for(@parts) { $d .= "/$_"; mkdir $d; # 0777 } } if (open(my $outfile, ">", "$filename")) { binmode $outfile; # for crapage systems, use binary if($fileattr{'nonewline'}) { # cut off the final newline chomp($fileContent); } print $outfile $fileContent; close($outfile); } else { logmsg "ERROR: cannot write $filename\n"; } } } return 0; } ####################################################################### # Run the test command sub singletest_run { my ($testnum, $testtimings) = @_; # get the command line options to use my ($cmd, @blaha)= getpart("client", "command"); if($cmd) { # make some nice replace operations $cmd =~ s/\n//g; # no newlines please # substitute variables in the command line } else { # there was no command given, use something silly $cmd="-"; } my $CURLOUT="$LOGDIR/curl$testnum.out"; # curl output if not stdout # if stdout section exists, we verify that the stdout contained this: my $out=""; my %cmdhash = getpartattr("client", "command"); if((!$cmdhash{'option'}) || ($cmdhash{'option'} !~ /no-output/)) { #We may slap on --output! if (!partexists("verify", "stdout") || ($cmdhash{'option'} && $cmdhash{'option'} =~ /force-output/)) { $out=" --output $CURLOUT "; } } my @codepieces = getpart("client", "tool"); my $tool=""; if(@codepieces) { $tool = $codepieces[0]; chomp $tool; $tool .= exe_ext('TOOL'); } my $disablevalgrind; my $CMDLINE=""; my $cmdargs; my $cmdtype = $cmdhash{'type'} || "default"; my $fail_due_event_based = $run_event_based; if($cmdtype eq "perl") { # run the command line prepended with "perl" $cmdargs ="$cmd"; $CMDLINE = "$perl "; $tool=$CMDLINE; $disablevalgrind=1; } elsif($cmdtype eq "shell") { # run the command line prepended with "/bin/sh" $cmdargs ="$cmd"; $CMDLINE = "/bin/sh "; $tool=$CMDLINE; $disablevalgrind=1; } elsif(!$tool && !$keywords{"unittest"}) { # run curl, add suitable command line options my $inc=""; if((!$cmdhash{'option'}) || ($cmdhash{'option'} !~ /no-include/)) { $inc = " --include"; } $cmdargs = "$out$inc "; if($cmdhash{'option'} && ($cmdhash{'option'} =~ /binary-trace/)) { $cmdargs .= "--trace $LOGDIR/trace$testnum "; } else { $cmdargs .= "--trace-ascii $LOGDIR/trace$testnum "; } $cmdargs .= "--trace-time "; if($run_event_based) { $cmdargs .= "--test-event "; $fail_due_event_based--; } $cmdargs .= $cmd; if ($proxy_address) { $cmdargs .= " --proxy $proxy_address "; } } else { $cmdargs = " $cmd"; # $cmd is the command line for the test file $CURLOUT = stdoutfilename($LOGDIR, $testnum); # sends received data to stdout # Default the tool to a unit test with the same name as the test spec if($keywords{"unittest"} && !$tool) { $tool="unit$testnum"; } if($tool =~ /^lib/) { $CMDLINE="$LIBDIR/$tool"; } elsif($tool =~ /^unit/) { $CMDLINE="$UNITDIR/$tool"; } if(! -f $CMDLINE) { logmsg "The tool set in the test case for this: '$tool' does not exist\n"; return (-1, 0, 0, "", "", 0); } $DBGCURL=$CMDLINE; } if($fail_due_event_based) { logmsg "This test cannot run event based\n"; return (-1, 0, 0, "", "", 0); } if($gdbthis) { # gdb is incompatible with valgrind, so disable it when debugging # Perhaps a better approach would be to run it under valgrind anyway # with --db-attach=yes or --vgdb=yes. $disablevalgrind=1; } my @stdintest = getpart("client", "stdin"); if(@stdintest) { my $stdinfile="$LOGDIR/stdin-for-$testnum"; my %hash = getpartattr("client", "stdin"); if($hash{'nonewline'}) { # cut off the final newline from the final line of the stdin data chomp($stdintest[-1]); } writearray($stdinfile, \@stdintest); $cmdargs .= " <$stdinfile"; } if(!$tool) { $CMDLINE=shell_quote($CURL); } if(use_valgrind() && !$disablevalgrind) { my $valgrindcmd = "$valgrind "; $valgrindcmd .= "$valgrind_tool " if($valgrind_tool); $valgrindcmd .= "--quiet --leak-check=yes "; $valgrindcmd .= "--suppressions=$srcdir/valgrind.supp "; # $valgrindcmd .= "--gen-suppressions=all "; $valgrindcmd .= "--num-callers=16 "; $valgrindcmd .= "${valgrind_logfile}=$LOGDIR/valgrind$testnum"; $CMDLINE = "$valgrindcmd $CMDLINE"; } $CMDLINE .= "$cmdargs > " . stdoutfilename($LOGDIR, $testnum) . " 2> " . stderrfilename($LOGDIR, $testnum); if($verbose) { logmsg "$CMDLINE\n"; } open(my $cmdlog, ">", $CURLLOG) || die "Failure writing log file"; print $cmdlog "$CMDLINE\n"; close($cmdlog) || die "Failure writing log file"; my $dumped_core; my $cmdres; if($gdbthis) { my $gdbinit = "$TESTDIR/gdbinit$testnum"; open(my $gdbcmd, ">", "$LOGDIR/gdbcmd") || die "Failure writing gdb file"; print $gdbcmd "set args $cmdargs\n"; print $gdbcmd "show args\n"; print $gdbcmd "source $gdbinit\n" if -e $gdbinit; close($gdbcmd) || die "Failure writing gdb file"; } # Flush output. $| = 1; # timestamp starting of test command $$testtimings{"timetoolini"} = Time::HiRes::time(); # run the command line we built if ($torture) { $cmdres = torture($CMDLINE, $testnum, "$gdb --directory $LIBDIR " . shell_quote($DBGCURL) . " -x $LOGDIR/gdbcmd"); } elsif($gdbthis) { my $GDBW = ($gdbxwin) ? "-w" : ""; runclient("$gdb --directory $LIBDIR " . shell_quote($DBGCURL) . " $GDBW -x $LOGDIR/gdbcmd"); $cmdres=0; # makes it always continue after a debugged run } else { # Convert the raw result code into a more useful one ($cmdres, $dumped_core) = normalize_cmdres(runclient("$CMDLINE")); } # timestamp finishing of test command $$testtimings{"timetoolend"} = Time::HiRes::time(); return (0, $cmdres, $dumped_core, $CURLOUT, $tool, use_valgrind() && !$disablevalgrind); } ####################################################################### # Clean up after test command sub singletest_clean { my ($testnum, $dumped_core, $testtimings)=@_; if(!$dumped_core) { if(-r "core") { # there's core file present now! $dumped_core = 1; } } if($dumped_core) { logmsg "core dumped\n"; if(0 && $gdb) { logmsg "running gdb for post-mortem analysis:\n"; open(my $gdbcmd, ">", "$LOGDIR/gdbcmd2") || die "Failure writing gdb file"; print $gdbcmd "bt\n"; close($gdbcmd) || die "Failure writing gdb file"; runclient("$gdb --directory libtest -x $LOGDIR/gdbcmd2 -batch " . shell_quote($DBGCURL) . " core "); # unlink("$LOGDIR/gdbcmd2"); } } # If a server logs advisor read lock file exists, it is an indication # that the server has not yet finished writing out all its log files, # including server request log files used for protocol verification. # So, if the lock file exists the script waits here a certain amount # of time until the server removes it, or the given time expires. my $serverlogslocktimeout = $defserverlogslocktimeout; my %cmdhash = getpartattr("client", "command"); if($cmdhash{'timeout'}) { # test is allowed to override default server logs lock timeout if($cmdhash{'timeout'} =~ /(\d+)/) { $serverlogslocktimeout = $1 if($1 >= 0); } } if($serverlogslocktimeout) { my $lockretry = $serverlogslocktimeout * 20; while((-f $SERVERLOGS_LOCK) && $lockretry--) { portable_sleep(0.05); } if(($lockretry < 0) && ($serverlogslocktimeout >= $defserverlogslocktimeout)) { logmsg "Warning: server logs lock timeout ", "($serverlogslocktimeout seconds) expired\n"; } } # Test harness ssh server does not have this synchronization mechanism, # this implies that some ssh server based tests might need a small delay # once that the client command has run to avoid false test failures. # # gnutls-serv also lacks this synchronization mechanism, so gnutls-serv # based tests might need a small delay once that the client command has # run to avoid false test failures. my $postcommanddelay = $defpostcommanddelay; if($cmdhash{'delay'}) { # test is allowed to specify a delay after command is executed if($cmdhash{'delay'} =~ /(\d+)/) { $postcommanddelay = $1 if($1 > 0); } } portable_sleep($postcommanddelay) if($postcommanddelay); # timestamp removal of server logs advisor read lock $$testtimings{"timesrvrlog"} = Time::HiRes::time(); # test definition might instruct to stop some servers # stop also all servers relative to the given one my @killtestservers = getpart("client", "killserver"); if(@killtestservers) { foreach my $server (@killtestservers) { chomp $server; if(stopserver($server)) { logmsg " killserver FAILED\n"; return 1; # normal error if asked to fail on unexpected alive } } } return 0; } ####################################################################### # Verify that the postcheck succeeded sub singletest_postcheck { my ($testnum)=@_; # run the postcheck command my @postcheck= getpart("client", "postcheck"); if(@postcheck) { my $cmd = join("", @postcheck); chomp $cmd; if($cmd) { logmsg "postcheck $cmd\n" if($verbose); my $rc = runclient("$cmd"); # Must run the postcheck command in torture mode in order # to clean up, but the result can't be relied upon. if($rc != 0 && !$torture) { logmsg " postcheck FAILED\n"; return -1; } } } return 0; } ################################################################### # Get ready to run a single test case sub runner_test_preprocess { my ($testnum)=@_; my %testtimings; if(clearlogs()) { logmsg "Warning: log messages were lost\n"; } # timestamp test preparation start # TODO: this metric now shows only a portion of the prep time; better would # be to time singletest_preprocess below instead $testtimings{"timeprepini"} = Time::HiRes::time(); ################################################################### # Load test metadata # ignore any error here--if there were one, it would have been # caught during the selection phase and this test would not be # running now loadtest("${TESTDIR}/test${testnum}"); readtestkeywords(); ################################################################### # Restore environment variables that were modified in a previous run. # Test definition may instruct to (un)set environment vars. restore_test_env(1); ################################################################### # Start the servers needed to run this test case my ($why, $error) = singletest_startservers($testnum, \%testtimings); if(!$why) { ############################################################### # Generate preprocessed test file # This must be done after the servers are started so server # variables are available for substitution. singletest_preprocess($testnum); ############################################################### # Set up the test environment to run this test case singletest_setenv(); ############################################################### # Check that the test environment is fine to run this test case if (!$listonly) { $why = singletest_precheck($testnum); $error = -1; } } return ($why, $error, clearlogs(), \%testtimings); } ################################################################### # Run a single test case with an environment that already been prepared # Returns 0=success, -1=skippable failure, -2=permanent error, # 1=unskippable test failure, as first integer, plus any log messages, # plus more return values when error is 0 sub runner_test_run { my ($testnum)=@_; if(clearlogs()) { logmsg "Warning: log messages were lost\n"; } ####################################################################### # Prepare the test environment to run this test case my $error = singletest_prepare($testnum); if($error) { return (-2, clearlogs()); } ####################################################################### # Run the test command my %testtimings; my $cmdres; my $dumped_core; my $CURLOUT; my $tool; my $usedvalgrind; ($error, $cmdres, $dumped_core, $CURLOUT, $tool, $usedvalgrind) = singletest_run($testnum, \%testtimings); if($error) { return (-2, clearlogs(), \%testtimings); } ####################################################################### # Clean up after test command $error = singletest_clean($testnum, $dumped_core, \%testtimings); if($error) { return ($error, clearlogs(), \%testtimings); } ####################################################################### # Verify that the postcheck succeeded $error = singletest_postcheck($testnum); if($error) { return ($error, clearlogs(), \%testtimings); } ####################################################################### # restore environment variables that were modified restore_test_env(0); return (0, clearlogs(), \%testtimings, $cmdres, $CURLOUT, $tool, $usedvalgrind); } # Async call runner_clearlocks # Called by controller sub runnerac_clearlocks { controlleripccall(\&runner_clearlocks, @_); } # Async call runner_shutdown # This call does NOT generate an IPC response and must be the last IPC call # received. # Called by controller sub runnerac_shutdown { my ($runnerid)=$_[0]; controlleripccall(\&runner_shutdown, @_); # These have no more use close($controllerw{$runnerid}); undef $controllerw{$runnerid}; close($controllerr{$runnerid}); undef $controllerr{$runnerid}; } # Async call of runner_stopservers # Called by controller sub runnerac_stopservers { controlleripccall(\&runner_stopservers, @_); } # Async call of runner_test_preprocess # Called by controller sub runnerac_test_preprocess { controlleripccall(\&runner_test_preprocess, @_); } # Async call of runner_test_run # Called by controller sub runnerac_test_run { controlleripccall(\&runner_test_run, @_); } ################################################################### # Call an arbitrary function via IPC # The first argument is the function reference, the second is the runner ID # Called by controller (indirectly, via a more specific function) sub controlleripccall { my $funcref = shift @_; my $runnerid = shift @_; # Get the name of the function from the reference my $cv = svref_2object($funcref); my $gv = $cv->GV; # Prepend the name to the function arguments so it's marshalled along with them unshift @_, $gv->NAME; # Marshall the arguments into a flat string my $margs = freeze \@_; # Send IPC call via pipe syswrite($controllerw{$runnerid}, (pack "L", length($margs)) . $margs); if(!$multiprocess) { # Call the remote function here in single process mode ipcrecv(); } } ################################################################### # Receive async response of a previous call via IPC # The first return value is the runner ID # Called by controller sub runnerar { my ($runnerid) = @_; my $datalen; if (sysread($controllerr{$runnerid}, $datalen, 4) <= 0) { die "error in runnerar\n"; } my $len=unpack("L", $datalen); my $buf; if (sysread($controllerr{$runnerid}, $buf, $len) <= 0) { die "error in runnerar\n"; } # Decode response values my $resarrayref = thaw $buf; # First argument is runner ID # TODO: remove this; it's unneeded since it's passed in unshift @$resarrayref, $runnerid; return @$resarrayref; } ################################################################### # Returns runnder ID if a response from an async call is ready # argument is 0 for nonblocking, undef for blocking, anything else for timeout # Called by controller sub runnerar_ready { my ($blocking) = @_; my $rin = ""; my %idbyfileno; my $maxfileno=0; foreach my $p (keys(%controllerr)) { my $fd = fileno($controllerr{$p}); vec($rin, $fd, 1) = 1; $idbyfileno{$fd} = $p; # save the runner ID for each pipe fd if($fd > $maxfileno) { $maxfileno = $fd; } } # Wait for any pipe from any runner to be ready # TODO: this is relatively slow with hundreds of fds # TODO: handle errors if(select(my $rout=$rin, undef, undef, $blocking)) { for my $fd (0..$maxfileno) { if(vec($rin, $fd, 1)) { return $idbyfileno{$fd}; } } die "Internal pipe readiness inconsistency\n"; } return undef; } ################################################################### # Receive an IPC call in the runner and execute it # The IPC is read from the $runnerr pipe and the response is # written to the $runnerw pipe sub ipcrecv { my $datalen; if (sysread($runnerr, $datalen, 4) <= 0) { die "error in ipcrecv\n"; } my $len=unpack("L", $datalen); my $buf; if (sysread($runnerr, $buf, $len) <= 0) { die "error in ipcrecv\n"; } # Decode the function name and arguments my $argsarrayref = thaw $buf; # The name of the function to call is the frist argument my $funcname = shift @$argsarrayref; # print "ipcrecv $funcname\n"; # Synchronously call the desired function my @res; if($funcname eq "runner_clearlocks") { @res = runner_clearlocks(@$argsarrayref); } elsif($funcname eq "runner_shutdown") { runner_shutdown(@$argsarrayref); # Special case: no response return 1; } elsif($funcname eq "runner_stopservers") { @res = runner_stopservers(@$argsarrayref); } elsif($funcname eq "runner_test_preprocess") { @res = runner_test_preprocess(@$argsarrayref); } elsif($funcname eq "runner_test_run") { @res = runner_test_run(@$argsarrayref); } else { die "Unknown IPC function $funcname\n"; } # print "ipcrecv results\n"; # Marshall the results to return $buf = freeze \@res; syswrite($runnerw, (pack "L", length($buf)) . $buf); return 0; } ################################################################### # Kill the server processes that still have lock files in a directory sub runner_clearlocks { my ($lockdir)=@_; if(clearlogs()) { logmsg "Warning: log messages were lost\n"; } clearlocks($lockdir); return clearlogs(); } ################################################################### # Kill all server processes sub runner_stopservers { my $error = stopservers($verbose); my $logs = clearlogs(); return ($error, $logs); } ################################################################### # Shut down this runner sub runner_shutdown { close($runnerr); undef $runnerr; close($runnerw); undef $runnerw; } 1;