#!/usr/bin/env perl #*************************************************************************** # _ _ ____ _ # 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 # ########################################################################### # For documentation, run `man ./runtests.1` and see README.md. # Experimental hooks are available to run tests remotely on machines that # are able to run curl but are unable to run the test harness. # The following sections need to be modified: # # $HOSTIP, $HOST6IP - Set to the address of the host running the test suite # $CLIENTIP, $CLIENT6IP - Set to the address of the host running curl # runclient, runclientoutput - Modify to copy all the files in the log/ # directory to the system running curl, run the given command remotely # and save the return code or returned stdout (respectively), then # copy all the files from the remote system's log/ directory back to # the host running the test suite. This can be done a few ways, such # as using scp & ssh, rsync & telnet, or using a NFS shared directory # and ssh. # # 'make && make test' needs to be done on both machines before making the # above changes and running runtests.pl manually. In the shared NFS case, # the contents of the tests/server/ directory must be from the host # running the test suite, while the rest must be from the host running curl. # # Note that even with these changes a number of tests will still fail (mainly # to do with cookies, those that set environment variables, or those that # do more than touch the file system in a or # section). These can be added to the $TESTCASES line below, # e.g. $TESTCASES="!8 !31 !63 !cookies..." # # Finally, to properly support -g and -n, checktestcmd needs to change # to check the remote system's PATH, and the places in the code where # the curl binary is read directly to determine its type also need to be # fixed. As long as the -g option is never given, and the -n is always # given, this won't be a problem. use strict; # Promote all warnings to fatal use warnings FATAL => 'all'; use 5.006; use POSIX qw(strftime); # These should be the only variables that might be needed to get edited: BEGIN { # Define srcdir to the location of the tests source directory. This is # usually set by the Makefile, but for out-of-tree builds with direct # invocation of runtests.pl, it may not be set. if(!defined $ENV{'srcdir'}) { use File::Basename; $ENV{'srcdir'} = dirname(__FILE__); } push(@INC, $ENV{'srcdir'}); # run time statistics needs Time::HiRes eval { no warnings "all"; require Time::HiRes; import Time::HiRes qw( time ); } } use Digest::MD5 qw(md5); use List::Util 'sum'; use pathhelp qw( exe_ext sys_native_current_path ); use processhelp qw( portable_sleep ); use appveyor; use azure; use getpart; # array functions use servers; use valgrind; # valgrind report parser use globalconfig; use runner; use testutil; my %custom_skip_reasons; my $ACURL=$VCURL; # what curl binary to use to talk to APIs (relevant for CI) # ACURL is handy to set to the system one for reliability my $CURLCONFIG="../curl-config"; # curl-config from current build # Normally, all test cases should be run, but at times it is handy to # simply run a particular one: my $TESTCASES="all"; # To run specific test cases, set them like: # $TESTCASES="1 2 3 7 8"; ####################################################################### # No variables below this point should need to be modified # my $libtool; my $repeat = 0; my $start; # time at which testing started my $uname_release = `uname -r`; my $is_wsl = $uname_release =~ /Microsoft$/; my $http_ipv6; # set if HTTP server has IPv6 support my $http_unix; # set if HTTP server has Unix sockets support my $ftp_ipv6; # set if FTP server has IPv6 support my $resolver; # name of the resolver backend (for human presentation) my %skipped; # skipped{reason}=counter, reasons for skip my @teststat; # teststat[testnum]=reason, reasons for skip my %disabled_keywords; # key words of tests to skip my %ignored_keywords; # key words of tests to ignore results my %enabled_keywords; # key words of tests to run my %disabled; # disabled test cases my %ignored; # ignored results of test cases my %ignoretestcodes; # if test results are to be ignored my $passedign; # tests passed with results ignored my $timestats; # time stamping and stats generation my $fullstats; # show time stats for every single test my %timeprepini; # timestamp for each test preparation start my %timesrvrini; # timestamp for each test required servers verification start my %timesrvrend; # timestamp for each test required servers verification end my %timetoolini; # timestamp for each test command run starting my %timetoolend; # timestamp for each test command run stopping my %timesrvrlog; # timestamp for each test server logs lock removal my %timevrfyend; # timestamp for each test result verification end my $globalabort; # flag signalling program abort # values for $singletest_state use constant { ST_INIT => 0, ST_CLEARLOCKS => 1, ST_INITED => 2, ST_PREPROCESS => 3, ST_RUN => 4, }; my %singletest_state; # current state of singletest() by runner ID my %singletest_logs; # log messages while in singletest array ref by runner my $singletest_bufferedrunner; # runner ID which is buffering logs my %runnerids; # runner IDs by number my @runnersidle; # runner IDs idle and ready to execute a test my %countforrunner; # test count by runner ID my %runnersrunning; # tests currently running by runner ID ####################################################################### # variables that command line options may set # my $short; my $no_debuginfod; my $keepoutfiles; # keep stdout and stderr files after tests my $clearlocks; # force removal of files by killing locking processes my $postmortem; # display detailed info about failed tests my $run_disabled; # run the specific tests even if listed in DISABLED my $scrambleorder; my $jobs = 0; # Azure Pipelines specific variables my $AZURE_RUN_ID = 0; my $AZURE_RESULT_ID = 0; ####################################################################### # logmsg is our general message logging subroutine. # sub logmsg { if($singletest_bufferedrunner) { # Logs are currently being buffered return singletest_logmsg(@_); } for(@_) { my $line = $_; if(!$line) { next; } if ($is_wsl) { # use \r\n for WSL shell $line =~ s/\r?\n$/\r\n/g; } print "$line"; } } ####################################################################### # enable logmsg buffering for the given runner ID # sub logmsg_bufferfortest { my ($runnerid)=@_; if($jobs) { # Only enable buffering in multiprocess mode $singletest_bufferedrunner = $runnerid; } } ####################################################################### # Store a log message in a buffer for this test # The messages can then be displayed all at once at the end of the test # which prevents messages from different tests from being interleaved. sub singletest_logmsg { if(!exists $singletest_logs{$singletest_bufferedrunner}) { # initialize to a reference to an empty anonymous array $singletest_logs{$singletest_bufferedrunner} = []; } my $logsref = $singletest_logs{$singletest_bufferedrunner}; push @$logsref, @_; } ####################################################################### # Stop buffering log messages, but don't touch them sub singletest_unbufferlogs { undef $singletest_bufferedrunner; } ####################################################################### # Clear the buffered log messages & stop buffering after returning them sub singletest_dumplogs { if(!defined $singletest_bufferedrunner) { # probably not multiprocess mode and logs weren't buffered return undef; } my $logsref = $singletest_logs{$singletest_bufferedrunner}; my $msg = join("", @$logsref); delete $singletest_logs{$singletest_bufferedrunner}; singletest_unbufferlogs(); return $msg; } sub catch_zap { my $signame = shift; print "runtests.pl received SIG$signame, exiting\r\n"; $globalabort = 1; } $SIG{INT} = \&catch_zap; $SIG{TERM} = \&catch_zap; sub catch_usr1 { print "runtests.pl internal state:\r\n"; print scalar(%runnersrunning) . " busy test runner(s) of " . scalar(keys %runnerids) . "\r\n"; foreach my $rid (sort(keys(%runnersrunning))) { my $runnernum = "unknown"; foreach my $rnum (keys %runnerids) { if($runnerids{$rnum} == $rid) { $runnernum = $rnum; last; } } print "Runner $runnernum (id $rid) running test $runnersrunning{$rid} in state $singletest_state{$rid}\r\n"; } } eval { # some msys2 perl versions don't define SIGUSR1 $SIG{USR1} = \&catch_usr1; }; $SIG{PIPE} = 'IGNORE'; # these errors are captured in the read/write calls ########################################################################## # Clear all possible '*_proxy' environment variables for various protocols # to prevent them to interfere with our testing! foreach my $protocol (('ftp', 'http', 'ftps', 'https', 'no', 'all')) { my $proxy = "${protocol}_proxy"; # clear lowercase version delete $ENV{$proxy} if($ENV{$proxy}); # clear uppercase version delete $ENV{uc($proxy)} if($ENV{uc($proxy)}); } # make sure we don't get affected by other variables that control our # behavior delete $ENV{'SSL_CERT_DIR'} if($ENV{'SSL_CERT_DIR'}); delete $ENV{'SSL_CERT_PATH'} if($ENV{'SSL_CERT_PATH'}); delete $ENV{'CURL_CA_BUNDLE'} if($ENV{'CURL_CA_BUNDLE'}); # provide defaults from our config file for ENV vars not explicitly # set by the caller if (open(my $fd, "<", "config")) { while(my $line = <$fd>) { next if ($line =~ /^#/); chomp $line; my ($name, $val) = split(/\s*:\s*/, $line, 2); $ENV{$name} = $val if(!$ENV{$name}); } close($fd); } # Check if we have nghttpx available and if it talks http/3 my $nghttpx_h3 = 0; if (!$ENV{"NGHTTPX"}) { $ENV{"NGHTTPX"} = checktestcmd("nghttpx"); } if ($ENV{"NGHTTPX"}) { my $nghttpx_version=join(' ', `"$ENV{'NGHTTPX'}" -v 2>/dev/null`); $nghttpx_h3 = $nghttpx_version =~ /nghttp3\//; chomp $nghttpx_h3; } ####################################################################### # Get the list of tests that the tests/data/Makefile.am knows about! # my $disttests = ""; sub get_disttests { # If a non-default $TESTDIR is being used there may not be any # Makefile.am in which case there's nothing to do. open(my $dh, "<", "$TESTDIR/Makefile.am") or return; while(<$dh>) { chomp $_; if(($_ =~ /^#/) ||($_ !~ /test/)) { next; } $disttests .= $_; } close($dh); } ####################################################################### # Remove all files in the specified directory # sub cleardir { my $dir = $_[0]; my $done = 1; # success my $file; # Get all files opendir(my $dh, $dir) || return 0; # can't open dir while($file = readdir($dh)) { # Don't clear the $PIDDIR or $LOCKDIR since those need to live beyond # one test if(($file !~ /^(\.|\.\.)\z/) && "$file" ne $PIDDIR && "$file" ne $LOCKDIR) { if(-d "$dir/$file") { if(!cleardir("$dir/$file")) { $done = 0; } if(!rmdir("$dir/$file")) { $done = 0; } } else { # Ignore stunnel since we cannot do anything about its locks if(!unlink("$dir/$file") && "$file" !~ /_stunnel\.log$/) { $done = 0; } } } } closedir $dh; return $done; } ####################################################################### # Given two array references, this function will store them in two temporary # files, run 'diff' on them, store the result and return the diff output! sub showdiff { my ($logdir, $firstref, $secondref)=@_; my $file1="$logdir/check-generated"; my $file2="$logdir/check-expected"; open(my $temp, ">", "$file1") || die "Failure writing diff file"; for(@$firstref) { my $l = $_; $l =~ s/\r/[CR]/g; $l =~ s/\n/[LF]/g; $l =~ s/([^\x20-\x7f])/sprintf "%%%02x", ord $1/eg; print $temp $l; print $temp "\n"; } close($temp) || die "Failure writing diff file"; open($temp, ">", "$file2") || die "Failure writing diff file"; for(@$secondref) { my $l = $_; $l =~ s/\r/[CR]/g; $l =~ s/\n/[LF]/g; $l =~ s/([^\x20-\x7f])/sprintf "%%%02x", ord $1/eg; print $temp $l; print $temp "\n"; } close($temp) || die "Failure writing diff file"; my @out = `diff -u $file2 $file1 2>/dev/null`; if(!$out[0]) { @out = `diff -c $file2 $file1 2>/dev/null`; } return @out; } ####################################################################### # compare test results with the expected output, we might filter off # some pattern that is allowed to differ, output test results # sub compare { my ($runnerid, $testnum, $testname, $subject, $firstref, $secondref)=@_; my $result = compareparts($firstref, $secondref); if($result) { # timestamp test result verification end $timevrfyend{$testnum} = Time::HiRes::time(); if(!$short) { logmsg "\n $testnum: $subject FAILED:\n"; my $logdir = getrunnerlogdir($runnerid); logmsg showdiff($logdir, $firstref, $secondref); } elsif(!$automakestyle) { logmsg "FAILED\n"; } else { # automakestyle logmsg "FAIL: $testnum - $testname - $subject\n"; } } return $result; } ####################################################################### # Numeric-sort words in a string sub numsortwords { my ($string)=@_; return join(' ', sort { $a <=> $b } split(' ', $string)); } ####################################################################### # Parse and store the protocols in curl's Protocols: line sub parseprotocols { my ($line)=@_; @protocols = split(' ', lc($line)); # Generate a "proto-ipv6" version of each protocol to match the # IPv6 name and a "proto-unix" to match the variant which # uses Unix domain sockets. This works even if support isn't # compiled in because the test will fail. push @protocols, map(("$_-ipv6", "$_-unix"), @protocols); # 'http-proxy' is used in test cases to do CONNECT through push @protocols, 'http-proxy'; # 'none' is used in test cases to mean no server push @protocols, 'none'; } ####################################################################### # Check & display information about curl and the host the test suite runs on. # Information to do with servers is displayed in displayserverfeatures, after # the server initialization is performed. sub checksystemfeatures { my $feat; my $curl; my $libcurl; my $versretval; my $versnoexec; my @version=(); my @disabled; my $dis = ""; my $curlverout="$LOGDIR/curlverout.log"; my $curlvererr="$LOGDIR/curlvererr.log"; my $versioncmd=shell_quote($CURL) . " --version 1>$curlverout 2>$curlvererr"; unlink($curlverout); unlink($curlvererr); $versretval = runclient($versioncmd); $versnoexec = $!; my $current_time = int(time()); $ENV{'SOURCE_DATE_EPOCH'} = $current_time; $DATE = strftime "%Y-%m-%d", gmtime($current_time); open(my $versout, "<", "$curlverout"); @version = <$versout>; close($versout); open(my $disabledh, "-|", "server/disabled".exe_ext('TOOL')); @disabled = <$disabledh>; close($disabledh); if($disabled[0]) { s/[\r\n]//g for @disabled; $dis = join(", ", @disabled); } $resolver="stock"; for(@version) { chomp; if($_ =~ /^curl ([^ ]*)/) { $curl = $_; $CURLVERSION = $1; $CURLVERNUM = $CURLVERSION; $CURLVERNUM =~ s/^([0-9.]+)(.*)/$1/; # leading dots and numbers $curl =~ s/^(.*)(libcurl.*)/$1/g || die "Failure determining curl binary version"; $libcurl = $2; if($curl =~ /linux|bsd|solaris/) { # system support LD_PRELOAD; may be disabled later $feature{"ld_preload"} = 1; } if($curl =~ /win32|Windows|mingw(32|64)/) { # This is a Windows MinGW build or native build, we need to use # Windows-style path. $pwd = sys_native_current_path(); $feature{"win32"} = 1; # set if built with MinGW (as opposed to MinGW-w64) $feature{"MinGW"} = 1 if ($curl =~ /-pc-mingw32/); } if ($libcurl =~ /\s(winssl|schannel)\b/i) { $feature{"Schannel"} = 1; $feature{"SSLpinning"} = 1; } elsif ($libcurl =~ /\sopenssl\b/i) { $feature{"OpenSSL"} = 1; $feature{"SSLpinning"} = 1; } elsif ($libcurl =~ /\sgnutls\b/i) { $feature{"GnuTLS"} = 1; $feature{"SSLpinning"} = 1; } elsif ($libcurl =~ /\srustls-ffi\b/i) { $feature{"rustls"} = 1; } elsif ($libcurl =~ /\swolfssl\b/i) { $feature{"wolfssl"} = 1; $feature{"SSLpinning"} = 1; } elsif ($libcurl =~ /\sbearssl\b/i) { $feature{"bearssl"} = 1; } elsif ($libcurl =~ /\ssecuretransport\b/i) { $feature{"sectransp"} = 1; $feature{"SSLpinning"} = 1; } elsif ($libcurl =~ /\sBoringSSL\b/i) { # OpenSSL compatible API $feature{"OpenSSL"} = 1; $feature{"SSLpinning"} = 1; } elsif ($libcurl =~ /\slibressl\b/i) { # OpenSSL compatible API $feature{"OpenSSL"} = 1; $feature{"SSLpinning"} = 1; } elsif ($libcurl =~ /\squictls\b/i) { # OpenSSL compatible API $feature{"OpenSSL"} = 1; $feature{"SSLpinning"} = 1; } elsif ($libcurl =~ /\smbedTLS\b/i) { $feature{"mbedtls"} = 1; $feature{"SSLpinning"} = 1; } if ($libcurl =~ /ares/i) { $feature{"c-ares"} = 1; $resolver="c-ares"; } if ($libcurl =~ /Hyper/i) { $feature{"hyper"} = 1; } if ($libcurl =~ /nghttp2/i) { # nghttp2 supports h2c, hyper does not $feature{"h2c"} = 1; } if ($libcurl =~ /AppleIDN/) { $feature{"AppleIDN"} = 1; } if ($libcurl =~ /WinIDN/) { $feature{"WinIDN"} = 1; } if ($libcurl =~ /libidn2/) { $feature{"libidn2"} = 1; } if ($libcurl =~ /libssh2/i) { $feature{"libssh2"} = 1; } if ($libcurl =~ /libssh\/([0-9.]*)\//i) { $feature{"libssh"} = 1; if($1 =~ /(\d+)\.(\d+).(\d+)/) { my $v = $1 * 100 + $2 * 10 + $3; if($v < 94) { # before 0.9.4 $feature{"oldlibssh"} = 1; } } } if ($libcurl =~ /wolfssh/i) { $feature{"wolfssh"} = 1; } } elsif($_ =~ /^Protocols: (.*)/i) { # these are the protocols compiled in to this libcurl parseprotocols($1); } elsif($_ =~ /^Features: (.*)/i) { $feat = $1; # built with memory tracking support (--enable-curldebug); may be disabled later $feature{"TrackMemory"} = $feat =~ /TrackMemory/i; # curl was built with --enable-debug $feature{"Debug"} = $feat =~ /Debug/i; # ssl enabled $feature{"SSL"} = $feat =~ /SSL/i; # multiple ssl backends available. $feature{"MultiSSL"} = $feat =~ /MultiSSL/i; # large file support $feature{"Largefile"} = $feat =~ /Largefile/i; # IDN support $feature{"IDN"} = $feat =~ /IDN/i; # IPv6 support $feature{"IPv6"} = $feat =~ /IPv6/i; # Unix sockets support $feature{"UnixSockets"} = $feat =~ /UnixSockets/i; # libz compression $feature{"libz"} = $feat =~ /libz/i; # Brotli compression $feature{"brotli"} = $feat =~ /brotli/i; # Zstd compression $feature{"zstd"} = $feat =~ /zstd/i; # NTLM enabled $feature{"NTLM"} = $feat =~ /NTLM/i; # NTLM delegation to winbind daemon ntlm_auth helper enabled $feature{"NTLM_WB"} = $feat =~ /NTLM_WB/i; # SSPI enabled $feature{"SSPI"} = $feat =~ /SSPI/i; # GSS-API enabled $feature{"GSS-API"} = $feat =~ /GSS-API/i; # Kerberos enabled $feature{"Kerberos"} = $feat =~ /Kerberos/i; # SPNEGO enabled $feature{"SPNEGO"} = $feat =~ /SPNEGO/i; # TLS-SRP enabled $feature{"TLS-SRP"} = $feat =~ /TLS-SRP/i; # PSL enabled $feature{"PSL"} = $feat =~ /PSL/i; # alt-svc enabled $feature{"alt-svc"} = $feat =~ /alt-svc/i; # HSTS support $feature{"HSTS"} = $feat =~ /HSTS/i; if($feat =~ /AsynchDNS/i) { if(!$feature{"c-ares"}) { # this means threaded resolver $feature{"threaded-resolver"} = 1; $resolver="threaded"; } } # http2 enabled $feature{"http/2"} = $feat =~ /HTTP2/; if($feature{"http/2"}) { push @protocols, 'http/2'; } # http3 enabled $feature{"http/3"} = $feat =~ /HTTP3/; if($feature{"http/3"}) { push @protocols, 'http/3'; } # https proxy support $feature{"HTTPS-proxy"} = $feat =~ /HTTPS-proxy/; if($feature{"HTTPS-proxy"}) { # 'https-proxy' is used as "server" so consider it a protocol push @protocols, 'https-proxy'; } # Unicode support $feature{"Unicode"} = $feat =~ /Unicode/i; # Thread-safe init $feature{"threadsafe"} = $feat =~ /threadsafe/i; } # # Test harness currently uses a non-stunnel server in order to # run HTTP TLS-SRP tests required when curl is built with https # protocol support and TLS-SRP feature enabled. For convenience # 'httptls' may be included in the test harness protocols array # to differentiate this from classic stunnel based 'https' test # harness server. # if($feature{"TLS-SRP"}) { my $add_httptls; for(@protocols) { if($_ =~ /^https(-ipv6|)$/) { $add_httptls=1; last; } } if($add_httptls && (! grep /^httptls$/, @protocols)) { push @protocols, 'httptls'; push @protocols, 'httptls-ipv6'; } } } if(!$curl) { logmsg "unable to get curl's version, further details are:\n"; logmsg "issued command: \n"; logmsg "$versioncmd \n"; if ($versretval == -1) { logmsg "command failed with: \n"; logmsg "$versnoexec \n"; } elsif ($versretval & 127) { logmsg sprintf("command died with signal %d, and %s coredump.\n", ($versretval & 127), ($versretval & 128)?"a":"no"); } else { logmsg sprintf("command exited with value %d \n", $versretval >> 8); } logmsg "contents of $curlverout: \n"; displaylogcontent("$curlverout"); logmsg "contents of $curlvererr: \n"; displaylogcontent("$curlvererr"); die "couldn't get curl's version"; } if(-r "../lib/curl_config.h") { open(my $conf, "<", "../lib/curl_config.h"); while(<$conf>) { if($_ =~ /^\#define HAVE_GETRLIMIT/) { # set if system has getrlimit() $feature{"getrlimit"} = 1; } } close($conf); } # allow this feature only if debug mode is disabled $feature{"ld_preload"} = $feature{"ld_preload"} && !$feature{"Debug"}; if($feature{"IPv6"}) { # client has IPv6 support # check if the HTTP server has it! my $cmd = "server/sws".exe_ext('SRV')." --version"; my @sws = `$cmd`; if($sws[0] =~ /IPv6/) { # HTTP server has IPv6 support! $http_ipv6 = 1; } # check if the FTP server has it! $cmd = "server/sockfilt".exe_ext('SRV')." --version"; @sws = `$cmd`; if($sws[0] =~ /IPv6/) { # FTP server has IPv6 support! $ftp_ipv6 = 1; } } if($feature{"UnixSockets"}) { # client has Unix sockets support, check whether the HTTP server has it my $cmd = "server/sws".exe_ext('SRV')." --version"; my @sws = `$cmd`; $http_unix = 1 if($sws[0] =~ /unix/); } open(my $manh, "-|", shell_quote($CURL) . " -M 2>&1"); while(my $s = <$manh>) { if($s =~ /built-in manual was disabled at build-time/) { $feature{"manual"} = 0; last; } $feature{"manual"} = 1; last; } close($manh); $feature{"unittest"} = $feature{"Debug"}; $feature{"nghttpx"} = !!$ENV{'NGHTTPX'}; $feature{"nghttpx-h3"} = !!$nghttpx_h3; # # strings that must exactly match the names used in server/disabled.c # $feature{"cookies"} = 1; # Use this as a proxy for any cryptographic authentication $feature{"crypto"} = $feature{"NTLM"} || $feature{"Kerberos"} || $feature{"SPNEGO"}; $feature{"DoH"} = 1; $feature{"HTTP-auth"} = 1; $feature{"Mime"} = 1; $feature{"form-api"} = 1; $feature{"netrc"} = 1; $feature{"parsedate"} = 1; $feature{"proxy"} = 1; $feature{"shuffle-dns"} = 1; $feature{"typecheck"} = 1; $feature{"verbose-strings"} = 1; $feature{"wakeup"} = 1; $feature{"headers-api"} = 1; $feature{"xattr"} = 1; $feature{"large-time"} = 1; $feature{"sha512-256"} = 1; # make each protocol an enabled "feature" for my $p (@protocols) { $feature{$p} = 1; } # 'socks' was once here but is now removed $has_shared = `sh $CURLCONFIG --built-shared`; chomp $has_shared; $has_shared = $has_shared eq "yes"; if(!$feature{"TrackMemory"} && $torture) { die "can't run torture tests since curl was built without ". "TrackMemory feature (--enable-curldebug)"; } my $hostname=join(' ', runclientoutput("hostname")); chomp $hostname; my $hosttype=join(' ', runclientoutput("uname -a")); chomp $hosttype; my $hostos=$^O; # display summary information about curl and the test host logmsg ("********* System characteristics ******** \n", "* $curl\n", "* $libcurl\n", "* Features: $feat\n", "* Disabled: $dis\n", "* Host: $hostname\n", "* System: $hosttype\n", "* OS: $hostos\n", "* Perl: $^V ($^X)\n"); if($jobs) { # Only show if not the default for now logmsg "* Jobs: $jobs\n"; } if($feature{"TrackMemory"} && $feature{"threaded-resolver"}) { logmsg("*\n", "*** DISABLES memory tracking when using threaded resolver\n", "*\n"); } logmsg sprintf("* Env: %s%s%s", $valgrind?"Valgrind ":"", $run_event_based?"event-based ":"", $nghttpx_h3); logmsg sprintf("%s\n", $libtool?"Libtool ":""); logmsg ("* Seed: $randseed\n"); # Disable memory tracking when using threaded resolver $feature{"TrackMemory"} = $feature{"TrackMemory"} && !$feature{"threaded-resolver"}; # toggle off the features that were disabled in the build for my $d(@disabled) { $feature{$d} = 0; } } ####################################################################### # display information about server features # sub displayserverfeatures { logmsg sprintf("* Servers: %s", $stunnel?"SSL ":""); logmsg sprintf("%s", $http_ipv6?"HTTP-IPv6 ":""); logmsg sprintf("%s", $http_unix?"HTTP-unix ":""); logmsg sprintf("%s\n", $ftp_ipv6?"FTP-IPv6 ":""); logmsg "***************************************** \n"; } ####################################################################### # Provide time stamps for single test skipped events # sub timestampskippedevents { my $testnum = $_[0]; return if((not defined($testnum)) || ($testnum < 1)); if($timestats) { if($timevrfyend{$testnum}) { return; } elsif($timesrvrlog{$testnum}) { $timevrfyend{$testnum} = $timesrvrlog{$testnum}; return; } elsif($timetoolend{$testnum}) { $timevrfyend{$testnum} = $timetoolend{$testnum}; $timesrvrlog{$testnum} = $timetoolend{$testnum}; } elsif($timetoolini{$testnum}) { $timevrfyend{$testnum} = $timetoolini{$testnum}; $timesrvrlog{$testnum} = $timetoolini{$testnum}; $timetoolend{$testnum} = $timetoolini{$testnum}; } elsif($timesrvrend{$testnum}) { $timevrfyend{$testnum} = $timesrvrend{$testnum}; $timesrvrlog{$testnum} = $timesrvrend{$testnum}; $timetoolend{$testnum} = $timesrvrend{$testnum}; $timetoolini{$testnum} = $timesrvrend{$testnum}; } elsif($timesrvrini{$testnum}) { $timevrfyend{$testnum} = $timesrvrini{$testnum}; $timesrvrlog{$testnum} = $timesrvrini{$testnum}; $timetoolend{$testnum} = $timesrvrini{$testnum}; $timetoolini{$testnum} = $timesrvrini{$testnum}; $timesrvrend{$testnum} = $timesrvrini{$testnum}; } elsif($timeprepini{$testnum}) { $timevrfyend{$testnum} = $timeprepini{$testnum}; $timesrvrlog{$testnum} = $timeprepini{$testnum}; $timetoolend{$testnum} = $timeprepini{$testnum}; $timetoolini{$testnum} = $timeprepini{$testnum}; $timesrvrend{$testnum} = $timeprepini{$testnum}; $timesrvrini{$testnum} = $timeprepini{$testnum}; } } } # Setup CI Test Run sub citest_starttestrun { if(azure_check_environment()) { $AZURE_RUN_ID = azure_create_test_run($ACURL); logmsg "Azure Run ID: $AZURE_RUN_ID\n" if ($verbose); } # Appveyor doesn't require anything here } # Register the test case with the CI runner sub citest_starttest { my $testnum = $_[0]; # get the name of the test early my $testname= (getpart("client", "name"))[0]; chomp $testname; # create test result in CI services if(azure_check_environment() && $AZURE_RUN_ID) { $AZURE_RESULT_ID = azure_create_test_result($ACURL, $AZURE_RUN_ID, $testnum, $testname); } elsif(appveyor_check_environment()) { appveyor_create_test_result($ACURL, $testnum, $testname); } } # Submit the test case result with the CI runner sub citest_finishtest { my ($testnum, $error) = @_; # update test result in CI services if(azure_check_environment() && $AZURE_RUN_ID && $AZURE_RESULT_ID) { $AZURE_RESULT_ID = azure_update_test_result($ACURL, $AZURE_RUN_ID, $AZURE_RESULT_ID, $testnum, $error, $timeprepini{$testnum}, $timevrfyend{$testnum}); } elsif(appveyor_check_environment()) { appveyor_update_test_result($ACURL, $testnum, $error, $timeprepini{$testnum}, $timevrfyend{$testnum}); } } # Complete CI test run sub citest_finishtestrun { if(azure_check_environment() && $AZURE_RUN_ID) { $AZURE_RUN_ID = azure_update_test_run($ACURL, $AZURE_RUN_ID); } # Appveyor doesn't require anything here } # add one set of test timings from the runner to global set sub updatetesttimings { my ($testnum, %testtimings)=@_; if(defined $testtimings{"timeprepini"}) { $timeprepini{$testnum} = $testtimings{"timeprepini"}; } if(defined $testtimings{"timesrvrini"}) { $timesrvrini{$testnum} = $testtimings{"timesrvrini"}; } if(defined $testtimings{"timesrvrend"}) { $timesrvrend{$testnum} = $testtimings{"timesrvrend"}; } if(defined $testtimings{"timetoolini"}) { $timetoolini{$testnum} = $testtimings{"timetoolini"}; } if(defined $testtimings{"timetoolend"}) { $timetoolend{$testnum} = $testtimings{"timetoolend"}; } if(defined $testtimings{"timesrvrlog"}) { $timesrvrlog{$testnum} = $testtimings{"timesrvrlog"}; } } ####################################################################### # Return the log directory for the given test runner sub getrunnernumlogdir { my $runnernum = $_[0]; return $jobs > 1 ? "$LOGDIR/$runnernum" : $LOGDIR; } ####################################################################### # Return the log directory for the given test runner ID sub getrunnerlogdir { my $runnerid = $_[0]; if($jobs <= 1) { return $LOGDIR; } # TODO: speed up this O(n) operation for my $runnernum (keys %runnerids) { if($runnerid eq $runnerids{$runnernum}) { return "$LOGDIR/$runnernum"; } } die "Internal error: runner ID $runnerid not found"; } ####################################################################### # Verify that this test case should be run sub singletest_shouldrun { my $testnum = $_[0]; my $why; # why the test won't be run my $errorreturncode = 1; # 1 means normal error, 2 means ignored error my @what; # what features are needed if($disttests !~ /test$testnum(\W|\z)/ ) { logmsg "Warning: test$testnum not present in tests/data/Makefile.am\n"; } if($disabled{$testnum}) { if(!$run_disabled) { $why = "listed in DISABLED"; } else { logmsg "Warning: test$testnum is explicitly disabled\n"; } } if($ignored{$testnum}) { logmsg "Warning: test$testnum result is ignored\n"; $errorreturncode = 2; } if(loadtest("${TESTDIR}/test${testnum}")) { if($verbose) { # this is not a test logmsg "RUN: $testnum doesn't look like a test case\n"; } $why = "no test"; } else { @what = getpart("client", "features"); } # We require a feature to be present for(@what) { my $f = $_; $f =~ s/\s//g; if($f =~ /^([^!].*)$/) { if($feature{$1}) { next; } $why = "curl lacks $1 support"; last; } } # We require a feature to not be present if(!$why) { for(@what) { my $f = $_; $f =~ s/\s//g; if($f =~ /^!(.*)$/) { if(!$feature{$1}) { next; } } else { next; } $why = "curl has $1 support"; last; } } my @info_keywords; if(!$why) { @info_keywords = getpart("info", "keywords"); if(!$info_keywords[0]) { $why = "missing the section!"; } my $match; for my $k (@info_keywords) { chomp $k; if ($disabled_keywords{lc($k)}) { $why = "disabled by keyword"; } elsif ($enabled_keywords{lc($k)}) { $match = 1; } if ($ignored_keywords{lc($k)}) { logmsg "Warning: test$testnum result is ignored due to $k\n"; $errorreturncode = 2; } } if(!$why && !$match && %enabled_keywords) { $why = "disabled by missing keyword"; } } if (!$why && defined $custom_skip_reasons{test}{$testnum}) { $why = $custom_skip_reasons{test}{$testnum}; } if (!$why && defined $custom_skip_reasons{tool}) { foreach my $tool (getpart("client", "tool")) { foreach my $tool_skip_pattern (keys %{$custom_skip_reasons{tool}}) { if ($tool =~ /$tool_skip_pattern/i) { $why = $custom_skip_reasons{tool}{$tool_skip_pattern}; } } } } if (!$why && defined $custom_skip_reasons{keyword}) { foreach my $keyword (@info_keywords) { foreach my $keyword_skip_pattern (keys %{$custom_skip_reasons{keyword}}) { if ($keyword =~ /$keyword_skip_pattern/i) { $why = $custom_skip_reasons{keyword}{$keyword_skip_pattern}; } } } } return ($why, $errorreturncode); } ####################################################################### # Print the test name and count tests sub singletest_count { my ($testnum, $why) = @_; if($why && !$listonly) { # there's a problem, count it as "skipped" $skipped{$why}++; $teststat[$testnum]=$why; # store reason for this test case if(!$short) { if($skipped{$why} <= 3) { # show only the first three skips for each reason logmsg sprintf("test %04d SKIPPED: $why\n", $testnum); } } timestampskippedevents($testnum); return -1; } # At this point we've committed to run this test logmsg sprintf("test %04d...", $testnum) if(!$automakestyle); # name of the test my $testname= (getpart("client", "name"))[0]; chomp $testname; logmsg "[$testname]\n" if(!$short); if($listonly) { timestampskippedevents($testnum); } return 0; } # Make sure all line endings in the array are the same: CRLF sub normalize_text { my ($ref) = @_; s/\r\n/\n/g for @$ref; s/\n/\r\n/g for @$ref; } ####################################################################### # Verify test succeeded sub singletest_check { my ($runnerid, $testnum, $cmdres, $CURLOUT, $tool, $usedvalgrind)=@_; # Skip all the verification on torture tests if ($torture) { # timestamp test result verification end $timevrfyend{$testnum} = Time::HiRes::time(); return -2; } my $logdir = getrunnerlogdir($runnerid); my @err = getpart("verify", "errorcode"); my $errorcode = $err[0] || "0"; my $ok=""; my $res; chomp $errorcode; my $testname= (getpart("client", "name"))[0]; chomp $testname; # what parts to cut off from stdout/stderr my @stripfile = getpart("verify", "stripfile"); my @validstdout = getpart("verify", "stdout"); # get all attributes my %hash = getpartattr("verify", "stdout"); my $loadfile = $hash{'loadfile'}; if ($loadfile) { open(my $tmp, "<", "$loadfile") || die "Cannot open file $loadfile: $!"; @validstdout = <$tmp>; close($tmp); # Enforce LF newlines on load s/\r\n/\n/g for @validstdout; } if (@validstdout) { # verify redirected stdout my @actual = loadarray(stdoutfilename($logdir, $testnum)); foreach my $strip (@stripfile) { chomp $strip; my @newgen; for(@actual) { eval $strip; if($_) { push @newgen, $_; } } # this is to get rid of array entries that vanished (zero # length) because of replacements @actual = @newgen; } # get the mode attribute my $filemode=$hash{'mode'}; if($filemode && ($filemode eq "text")) { normalize_text(\@validstdout); normalize_text(\@actual); } if($hash{'nonewline'}) { # Yes, we must cut off the final newline from the final line # of the protocol data chomp($validstdout[-1]); } if($hash{'crlf'} || ($feature{"hyper"} && ($keywords{"HTTP"} || $keywords{"HTTPS"}))) { subnewlines(0, \$_) for @validstdout; } $res = compare($runnerid, $testnum, $testname, "stdout", \@actual, \@validstdout); if($res) { return -1; } $ok .= "s"; } else { $ok .= "-"; # stdout not checked } my @validstderr = getpart("verify", "stderr"); if (@validstderr) { # verify redirected stderr my @actual = loadarray(stderrfilename($logdir, $testnum)); foreach my $strip (@stripfile) { chomp $strip; my @newgen; for(@actual) { eval $strip; if($_) { push @newgen, $_; } } # this is to get rid of array entries that vanished (zero # length) because of replacements @actual = @newgen; } # get all attributes my %hash = getpartattr("verify", "stderr"); # get the mode attribute my $filemode=$hash{'mode'}; if($filemode && ($filemode eq "text") && $feature{"hyper"}) { # text mode check in hyper-mode. Sometimes necessary if the stderr # data *looks* like HTTP and thus has gotten CRLF newlines # mistakenly normalize_text(\@validstderr); } if($filemode && ($filemode eq "text")) { normalize_text(\@validstderr); normalize_text(\@actual); } if($hash{'nonewline'}) { # Yes, we must cut off the final newline from the final line # of the protocol data chomp($validstderr[-1]); } if($hash{'crlf'}) { subnewlines(0, \$_) for @validstderr; } $res = compare($runnerid, $testnum, $testname, "stderr", \@actual, \@validstderr); if($res) { return -1; } $ok .= "r"; } else { $ok .= "-"; # stderr not checked } # what to cut off from the live protocol sent by curl my @strip = getpart("verify", "strip"); # what parts to cut off from the protocol & upload my @strippart = getpart("verify", "strippart"); # this is the valid protocol blurb curl should generate my @protocol= getpart("verify", "protocol"); if(@protocol) { # Verify the sent request my @out = loadarray("$logdir/$SERVERIN"); # check if there's any attributes on the verify/protocol section my %hash = getpartattr("verify", "protocol"); if($hash{'nonewline'}) { # Yes, we must cut off the final newline from the final line # of the protocol data chomp($protocol[-1]); } for(@strip) { # strip off all lines that match the patterns from both arrays chomp $_; @out = striparray( $_, \@out); @protocol= striparray( $_, \@protocol); } for my $strip (@strippart) { chomp $strip; for(@out) { eval $strip; } } if($hash{'crlf'}) { subnewlines(1, \$_) for @protocol; } if((!$out[0] || ($out[0] eq "")) && $protocol[0]) { logmsg "\n $testnum: protocol FAILED!\n". " There was no content at all in the file $logdir/$SERVERIN.\n". " Server glitch? Total curl failure? Returned: $cmdres\n"; # timestamp test result verification end $timevrfyend{$testnum} = Time::HiRes::time(); return -1; } $res = compare($runnerid, $testnum, $testname, "protocol", \@out, \@protocol); if($res) { return -1; } $ok .= "p"; } else { $ok .= "-"; # protocol not checked } my %replyattr = getpartattr("reply", "data"); my @reply; if (partexists("reply", "datacheck")) { for my $partsuffix (('', '1', '2', '3', '4')) { my @replycheckpart = getpart("reply", "datacheck".$partsuffix); if(@replycheckpart) { my %replycheckpartattr = getpartattr("reply", "datacheck".$partsuffix); # get the mode attribute my $filemode=$replycheckpartattr{'mode'}; if($filemode && ($filemode eq "text")) { normalize_text(\@replycheckpart); } if($replycheckpartattr{'nonewline'}) { # Yes, we must cut off the final newline from the final line # of the datacheck chomp($replycheckpart[-1]); } if($replycheckpartattr{'crlf'} || ($feature{"hyper"} && ($keywords{"HTTP"} || $keywords{"HTTPS"}))) { subnewlines(0, \$_) for @replycheckpart; } push(@reply, @replycheckpart); } } } else { # check against the data section @reply = getpart("reply", "data"); if(@reply) { if($replyattr{'nonewline'}) { # cut off the final newline from the final line of the data chomp($reply[-1]); } } # get the mode attribute my $filemode=$replyattr{'mode'}; if($filemode && ($filemode eq "text")) { normalize_text(\@reply); } if($replyattr{'crlf'} || ($feature{"hyper"} && ($keywords{"HTTP"} || $keywords{"HTTPS"}))) { subnewlines(0, \$_) for @reply; } } if(!$replyattr{'nocheck'} && (@reply || $replyattr{'sendzero'})) { # verify the received data my @out = loadarray($CURLOUT); # get the mode attribute my $filemode=$replyattr{'mode'}; if($filemode && ($filemode eq "text")) { normalize_text(\@out); } $res = compare($runnerid, $testnum, $testname, "data", \@out, \@reply); if ($res) { return -1; } $ok .= "d"; } else { $ok .= "-"; # data not checked } # if this section exists, we verify upload my @upload = getpart("verify", "upload"); if(@upload) { my %hash = getpartattr("verify", "upload"); if($hash{'nonewline'}) { # cut off the final newline from the final line of the upload data chomp($upload[-1]); } for my $line (@upload) { subbase64(\$line); subsha256base64file(\$line); substrippemfile(\$line); } # verify uploaded data my @out = loadarray("$logdir/upload.$testnum"); for my $strip (@strippart) { chomp $strip; for(@out) { eval $strip; } } if($hash{'crlf'}) { subnewlines(1, \$_) for @upload; } if($hash{'nonewline'}) { # Yes, we must cut off the final newline from the final line # of the upload data chomp($upload[-1]); } $res = compare($runnerid, $testnum, $testname, "upload", \@out, \@upload); if ($res) { return -1; } $ok .= "u"; } else { $ok .= "-"; # upload not checked } # this is the valid protocol blurb curl should generate to a proxy my @proxyprot = getpart("verify", "proxy"); if(@proxyprot) { # Verify the sent proxy request # check if there's any attributes on the verify/protocol section my %hash = getpartattr("verify", "proxy"); if($hash{'nonewline'}) { # Yes, we must cut off the final newline from the final line # of the protocol data chomp($proxyprot[-1]); } my @out = loadarray("$logdir/$PROXYIN"); for(@strip) { # strip off all lines that match the patterns from both arrays chomp $_; @out = striparray( $_, \@out); @proxyprot= striparray( $_, \@proxyprot); } for my $strip (@strippart) { chomp $strip; for(@out) { eval $strip; } } if($hash{'crlf'} || ($feature{"hyper"} && ($keywords{"HTTP"} || $keywords{"HTTPS"}))) { subnewlines(0, \$_) for @proxyprot; } $res = compare($runnerid, $testnum, $testname, "proxy", \@out, \@proxyprot); if($res) { return -1; } $ok .= "P"; } else { $ok .= "-"; # proxy not checked } my $outputok; for my $partsuffix (('', '1', '2', '3', '4')) { my @outfile=getpart("verify", "file".$partsuffix); if(@outfile || partexists("verify", "file".$partsuffix) ) { # we're supposed to verify a dynamically generated file! my %hash = getpartattr("verify", "file".$partsuffix); my $filename=$hash{'name'}; if(!$filename) { logmsg " $testnum: IGNORED: section verify=>file$partsuffix ". "has no name attribute\n"; if (runnerac_stopservers($runnerid)) { logmsg "ERROR: runner $runnerid seems to have died\n"; } else { # TODO: this is a blocking call that will stall the controller, if($verbose) { logmsg "WARNING: blocking call in async function\n"; } # but this error condition should never happen except during # development. my ($rid, $unexpected, $logs) = runnerar($runnerid); if(!$rid) { logmsg "ERROR: runner $runnerid seems to have died\n"; } else { logmsg $logs; } } # timestamp test result verification end $timevrfyend{$testnum} = Time::HiRes::time(); return -1; } my @generated=loadarray($filename); # what parts to cut off from the file my @stripfilepar = getpart("verify", "stripfile".$partsuffix); my $filemode=$hash{'mode'}; if($filemode && ($filemode eq "text")) { normalize_text(\@outfile); normalize_text(\@generated); } if($hash{'crlf'} || ($feature{"hyper"} && ($keywords{"HTTP"} || $keywords{"HTTPS"}))) { subnewlines(0, \$_) for @outfile; } for my $strip (@stripfilepar) { chomp $strip; my @newgen; for(@generated) { eval $strip; if($_) { push @newgen, $_; } } # this is to get rid of array entries that vanished (zero # length) because of replacements @generated = @newgen; } if($hash{'nonewline'}) { # cut off the final newline from the final line of the # output data chomp($outfile[-1]); } $res = compare($runnerid, $testnum, $testname, "output ($filename)", \@generated, \@outfile); if($res) { return -1; } $outputok = 1; # output checked } } $ok .= ($outputok) ? "o" : "-"; # output checked or not # verify SOCKS proxy details my @socksprot = getpart("verify", "socks"); if(@socksprot) { # Verify the sent SOCKS proxy details my @out = loadarray("$logdir/$SOCKSIN"); $res = compare($runnerid, $testnum, $testname, "socks", \@out, \@socksprot); if($res) { return -1; } } # accept multiple comma-separated error codes my @splerr = split(/ *, */, $errorcode); my $errok; foreach my $e (@splerr) { if($e == $cmdres) { # a fine error code $errok = 1; last; } } if($errok) { $ok .= "e"; } else { if(!$short) { logmsg sprintf("\n%s returned $cmdres, when expecting %s\n", (!$tool)?"curl":$tool, $errorcode); } logmsg " $testnum: exit FAILED\n"; # timestamp test result verification end $timevrfyend{$testnum} = Time::HiRes::time(); return -1; } if($feature{"TrackMemory"}) { if(! -f "$logdir/$MEMDUMP") { my %cmdhash = getpartattr("client", "command"); my $cmdtype = $cmdhash{'type'} || "default"; logmsg "\n** ALERT! memory tracking with no output file?\n" if(!$cmdtype eq "perl"); $ok .= "-"; # problem with memory checking } else { my @memdata=`$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 "\n** MEMORY FAILURE\n"; logmsg @memdata; # timestamp test result verification end $timevrfyend{$testnum} = Time::HiRes::time(); return -1; } else { $ok .= "m"; } } } else { $ok .= "-"; # memory not checked } if($valgrind) { if($usedvalgrind) { if(!opendir(DIR, "$logdir")) { logmsg "ERROR: unable to read $logdir\n"; # timestamp test result verification end $timevrfyend{$testnum} = Time::HiRes::time(); return -1; } my @files = readdir(DIR); closedir(DIR); my $vgfile; foreach my $file (@files) { if($file =~ /^valgrind$testnum(\..*|)$/) { $vgfile = $file; last; } } if(!$vgfile) { logmsg "ERROR: valgrind log file missing for test $testnum\n"; # timestamp test result verification end $timevrfyend{$testnum} = Time::HiRes::time(); return -1; } my @e = valgrindparse("$logdir/$vgfile"); if(@e && $e[0]) { if($automakestyle) { logmsg "FAIL: $testnum - $testname - valgrind\n"; } else { logmsg " valgrind ERROR "; logmsg @e; } # timestamp test result verification end $timevrfyend{$testnum} = Time::HiRes::time(); return -1; } $ok .= "v"; } else { if($verbose) { logmsg " valgrind SKIPPED\n"; } $ok .= "-"; # skipped } } else { $ok .= "-"; # valgrind not checked } # add 'E' for event-based $ok .= $run_event_based ? "E" : "-"; logmsg "$ok " if(!$short); # timestamp test result verification end $timevrfyend{$testnum} = Time::HiRes::time(); return 0; } ####################################################################### # Report a successful test sub singletest_success { my ($testnum, $count, $total, $errorreturncode)=@_; my $sofar= time()-$start; my $esttotal = $sofar/$count * $total; my $estleft = $esttotal - $sofar; my $timeleft=sprintf("remaining: %02d:%02d", $estleft/60, $estleft%60); my $took = $timevrfyend{$testnum} - $timeprepini{$testnum}; my $duration = sprintf("duration: %02d:%02d", $sofar/60, $sofar%60); if(!$automakestyle) { logmsg sprintf("OK (%-3d out of %-3d, %s, took %.3fs, %s)\n", $count, $total, $timeleft, $took, $duration); } else { my $testname= (getpart("client", "name"))[0]; chomp $testname; logmsg "PASS: $testnum - $testname\n"; } if($errorreturncode==2) { # ignored test success $passedign .= "$testnum "; logmsg "Warning: test$testnum result is ignored, but passed!\n"; } } ####################################################################### # Run a single specified test case # This is structured as a state machine which changes state after an # asynchronous call is made that awaits a response. The function returns with # an error code and a flag that indicates if the state machine has completed, # which means (if not) the function must be called again once the response has # arrived. # sub singletest { my ($runnerid, $testnum, $count, $total)=@_; # start buffering logmsg; stop it on return logmsg_bufferfortest($runnerid); if(!exists $singletest_state{$runnerid}) { # First time in singletest() for this test $singletest_state{$runnerid} = ST_INIT; } if($singletest_state{$runnerid} == ST_INIT) { my $logdir = getrunnerlogdir($runnerid); # first, remove all lingering log & lock files if((!cleardir($logdir) || !cleardir("$logdir/$LOCKDIR")) && $clearlocks) { # On Windows, lock files can't be deleted when the process still # has them open, so kill those processes first if(runnerac_clearlocks($runnerid, "$logdir/$LOCKDIR")) { logmsg "ERROR: runner $runnerid seems to have died\n"; $singletest_state{$runnerid} = ST_INIT; return (-1, 0); } $singletest_state{$runnerid} = ST_CLEARLOCKS; } else { $singletest_state{$runnerid} = ST_INITED; # Recursively call the state machine again because there is no # event expected that would otherwise trigger a new call. return singletest(@_); } } elsif($singletest_state{$runnerid} == ST_CLEARLOCKS) { my ($rid, $logs) = runnerar($runnerid); if(!$rid) { logmsg "ERROR: runner $runnerid seems to have died\n"; $singletest_state{$runnerid} = ST_INIT; return (-1, 0); } logmsg $logs; my $logdir = getrunnerlogdir($runnerid); cleardir($logdir); $singletest_state{$runnerid} = ST_INITED; # Recursively call the state machine again because there is no # event expected that would otherwise trigger a new call. return singletest(@_); } elsif($singletest_state{$runnerid} == ST_INITED) { ################################################################### # Restore environment variables that were modified in a previous run. # Test definition may instruct to (un)set environment vars. # This is done this early so that leftover variables don't affect # starting servers or CI registration. # restore_test_env(1); ################################################################### # Load test file so CI registration can get the right data before the # runner is called loadtest("${TESTDIR}/test${testnum}"); ################################################################### # Register the test case with the CI environment citest_starttest($testnum); if(runnerac_test_preprocess($runnerid, $testnum)) { logmsg "ERROR: runner $runnerid seems to have died\n"; $singletest_state{$runnerid} = ST_INIT; return (-1, 0); } $singletest_state{$runnerid} = ST_PREPROCESS; } elsif($singletest_state{$runnerid} == ST_PREPROCESS) { my ($rid, $why, $error, $logs, $testtimings) = runnerar($runnerid); if(!$rid) { logmsg "ERROR: runner $runnerid seems to have died\n"; $singletest_state{$runnerid} = ST_INIT; return (-1, 0); } logmsg $logs; updatetesttimings($testnum, %$testtimings); if($error == -2) { if($postmortem) { # Error indicates an actual problem starting the server, so # display the server logs displaylogs($rid, $testnum); } } ####################################################################### # Load test file for this test number my $logdir = getrunnerlogdir($runnerid); loadtest("${logdir}/test${testnum}"); ####################################################################### # Print the test name and count tests $error = singletest_count($testnum, $why); if($error) { # Submit the test case result with the CI environment citest_finishtest($testnum, $error); $singletest_state{$runnerid} = ST_INIT; logmsg singletest_dumplogs(); return ($error, 0); } ####################################################################### # Execute this test number my $cmdres; my $CURLOUT; my $tool; my $usedvalgrind; if(runnerac_test_run($runnerid, $testnum)) { logmsg "ERROR: runner $runnerid seems to have died\n"; $singletest_state{$runnerid} = ST_INIT; return (-1, 0); } $singletest_state{$runnerid} = ST_RUN; } elsif($singletest_state{$runnerid} == ST_RUN) { my ($rid, $error, $logs, $testtimings, $cmdres, $CURLOUT, $tool, $usedvalgrind) = runnerar($runnerid); if(!$rid) { logmsg "ERROR: runner $runnerid seems to have died\n"; $singletest_state{$runnerid} = ST_INIT; return (-1, 0); } logmsg $logs; updatetesttimings($testnum, %$testtimings); if($error == -1) { # no further verification will occur $timevrfyend{$testnum} = Time::HiRes::time(); my $err = ignoreresultcode($testnum); # Submit the test case result with the CI environment citest_finishtest($testnum, $err); $singletest_state{$runnerid} = ST_INIT; logmsg singletest_dumplogs(); # return a test failure, either to be reported or to be ignored return ($err, 0); } elsif($error == -2) { # fill in the missing timings on error timestampskippedevents($testnum); # Submit the test case result with the CI environment citest_finishtest($testnum, $error); $singletest_state{$runnerid} = ST_INIT; logmsg singletest_dumplogs(); return ($error, 0); } elsif($error > 0) { # no further verification will occur $timevrfyend{$testnum} = Time::HiRes::time(); # Submit the test case result with the CI environment citest_finishtest($testnum, $error); $singletest_state{$runnerid} = ST_INIT; logmsg singletest_dumplogs(); return ($error, 0); } ####################################################################### # Verify that the test succeeded # # Load test file for this test number my $logdir = getrunnerlogdir($runnerid); loadtest("${logdir}/test${testnum}"); readtestkeywords(); $error = singletest_check($runnerid, $testnum, $cmdres, $CURLOUT, $tool, $usedvalgrind); if($error == -1) { my $err = ignoreresultcode($testnum); # Submit the test case result with the CI environment citest_finishtest($testnum, $err); $singletest_state{$runnerid} = ST_INIT; logmsg singletest_dumplogs(); # return a test failure, either to be reported or to be ignored return ($err, 0); } elsif($error == -2) { # torture test; there is no verification, so the run result holds the # test success code # Submit the test case result with the CI environment citest_finishtest($testnum, $cmdres); $singletest_state{$runnerid} = ST_INIT; logmsg singletest_dumplogs(); return ($cmdres, 0); } ####################################################################### # Report a successful test singletest_success($testnum, $count, $total, ignoreresultcode($testnum)); # Submit the test case result with the CI environment citest_finishtest($testnum, 0); $singletest_state{$runnerid} = ST_INIT; logmsg singletest_dumplogs(); return (0, 0); # state machine is finished } singletest_unbufferlogs(); return (0, 1); # state machine must be called again on event } ####################################################################### # runtimestats displays test-suite run time statistics # sub runtimestats { my $lasttest = $_[0]; return if(not $timestats); logmsg "::group::Run Time Stats\n"; logmsg "\nTest suite total running time breakdown per task...\n\n"; my @timesrvr; my @timeprep; my @timetool; my @timelock; my @timevrfy; my @timetest; my $timesrvrtot = 0.0; my $timepreptot = 0.0; my $timetooltot = 0.0; my $timelocktot = 0.0; my $timevrfytot = 0.0; my $timetesttot = 0.0; my $counter; for my $testnum (1 .. $lasttest) { if($timesrvrini{$testnum}) { $timesrvrtot += $timesrvrend{$testnum} - $timesrvrini{$testnum}; $timepreptot += (($timetoolini{$testnum} - $timeprepini{$testnum}) - ($timesrvrend{$testnum} - $timesrvrini{$testnum})); $timetooltot += $timetoolend{$testnum} - $timetoolini{$testnum}; $timelocktot += $timesrvrlog{$testnum} - $timetoolend{$testnum}; $timevrfytot += $timevrfyend{$testnum} - $timesrvrlog{$testnum}; $timetesttot += $timevrfyend{$testnum} - $timeprepini{$testnum}; push @timesrvr, sprintf("%06.3f %04d", $timesrvrend{$testnum} - $timesrvrini{$testnum}, $testnum); push @timeprep, sprintf("%06.3f %04d", ($timetoolini{$testnum} - $timeprepini{$testnum}) - ($timesrvrend{$testnum} - $timesrvrini{$testnum}), $testnum); push @timetool, sprintf("%06.3f %04d", $timetoolend{$testnum} - $timetoolini{$testnum}, $testnum); push @timelock, sprintf("%06.3f %04d", $timesrvrlog{$testnum} - $timetoolend{$testnum}, $testnum); push @timevrfy, sprintf("%06.3f %04d", $timevrfyend{$testnum} - $timesrvrlog{$testnum}, $testnum); push @timetest, sprintf("%06.3f %04d", $timevrfyend{$testnum} - $timeprepini{$testnum}, $testnum); } } { no warnings 'numeric'; @timesrvr = sort { $b <=> $a } @timesrvr; @timeprep = sort { $b <=> $a } @timeprep; @timetool = sort { $b <=> $a } @timetool; @timelock = sort { $b <=> $a } @timelock; @timevrfy = sort { $b <=> $a } @timevrfy; @timetest = sort { $b <=> $a } @timetest; } logmsg "Spent ". sprintf("%08.3f ", $timesrvrtot) . "seconds starting and verifying test harness servers.\n"; logmsg "Spent ". sprintf("%08.3f ", $timepreptot) . "seconds reading definitions and doing test preparations.\n"; logmsg "Spent ". sprintf("%08.3f ", $timetooltot) . "seconds actually running test tools.\n"; logmsg "Spent ". sprintf("%08.3f ", $timelocktot) . "seconds awaiting server logs lock removal.\n"; logmsg "Spent ". sprintf("%08.3f ", $timevrfytot) . "seconds verifying test results.\n"; logmsg "Spent ". sprintf("%08.3f ", $timetesttot) . "seconds doing all of the above.\n"; $counter = 25; logmsg "\nTest server starting and verification time per test ". sprintf("(%s)...\n\n", (not $fullstats)?"top $counter":"full"); logmsg "-time- test\n"; logmsg "------ ----\n"; foreach my $txt (@timesrvr) { last if((not $fullstats) && (not $counter--)); logmsg "$txt\n"; } $counter = 10; logmsg "\nTest definition reading and preparation time per test ". sprintf("(%s)...\n\n", (not $fullstats)?"top $counter":"full"); logmsg "-time- test\n"; logmsg "------ ----\n"; foreach my $txt (@timeprep) { last if((not $fullstats) && (not $counter--)); logmsg "$txt\n"; } $counter = 25; logmsg "\nTest tool execution time per test ". sprintf("(%s)...\n\n", (not $fullstats)?"top $counter":"full"); logmsg "-time- test\n"; logmsg "------ ----\n"; foreach my $txt (@timetool) { last if((not $fullstats) && (not $counter--)); logmsg "$txt\n"; } $counter = 15; logmsg "\nTest server logs lock removal time per test ". sprintf("(%s)...\n\n", (not $fullstats)?"top $counter":"full"); logmsg "-time- test\n"; logmsg "------ ----\n"; foreach my $txt (@timelock) { last if((not $fullstats) && (not $counter--)); logmsg "$txt\n"; } $counter = 10; logmsg "\nTest results verification time per test ". sprintf("(%s)...\n\n", (not $fullstats)?"top $counter":"full"); logmsg "-time- test\n"; logmsg "------ ----\n"; foreach my $txt (@timevrfy) { last if((not $fullstats) && (not $counter--)); logmsg "$txt\n"; } $counter = 50; logmsg "\nTotal time per test ". sprintf("(%s)...\n\n", (not $fullstats)?"top $counter":"full"); logmsg "-time- test\n"; logmsg "------ ----\n"; foreach my $txt (@timetest) { last if((not $fullstats) && (not $counter--)); logmsg "$txt\n"; } logmsg "\n"; logmsg "::endgroup::\n"; } ####################################################################### # returns code indicating why a test was skipped # 0=unknown test, 1=use test result, 2=ignore test result # sub ignoreresultcode { my ($testnum)=@_; if(defined $ignoretestcodes{$testnum}) { return $ignoretestcodes{$testnum}; } return 0; } ####################################################################### # Put the given runner ID onto the queue of runners ready for a new task # sub runnerready { my ($runnerid)=@_; push @runnersidle, $runnerid; } ####################################################################### # Create test runners # sub createrunners { my ($numrunners)=@_; if(! $numrunners) { $numrunners++; } # create $numrunners runners with minimum 1 for my $runnernum (1..$numrunners) { my $dir = getrunnernumlogdir($runnernum); cleardir($dir); mkdir($dir, 0777); $runnerids{$runnernum} = runner_init($dir, $jobs); runnerready($runnerids{$runnernum}); } } ####################################################################### # Pick a test runner for the given test # sub pickrunner { my ($testnum)=@_; scalar(@runnersidle) || die "No runners available"; return pop @runnersidle; } ####################################################################### # Check options to this test program # # Special case for CMake: replace '$TFLAGS' by the contents of the # environment variable (if any). if(@ARGV && $ARGV[-1] eq '$TFLAGS') { pop @ARGV; push(@ARGV, split(' ', $ENV{'TFLAGS'})) if defined($ENV{'TFLAGS'}); } $valgrind = checktestcmd("valgrind"); my $number=0; my $fromnum=-1; my @testthis; while(@ARGV) { if ($ARGV[0] eq "-v") { # verbose output $verbose=1; } elsif ($ARGV[0] eq "-c") { # use this path to curl instead of default $DBGCURL=$CURL=$ARGV[1]; shift @ARGV; } elsif ($ARGV[0] eq "-vc") { # use this path to a curl used to verify servers # Particularly useful when you introduce a crashing bug somewhere in # the development version as then it won't be able to run any tests # since it can't verify the servers! $VCURL=shell_quote($ARGV[1]); shift @ARGV; } elsif ($ARGV[0] eq "-ac") { # use this curl only to talk to APIs (currently only CI test APIs) $ACURL=shell_quote($ARGV[1]); shift @ARGV; } elsif ($ARGV[0] eq "-d") { # have the servers display protocol output $debugprotocol=1; } elsif($ARGV[0] eq "-e") { # run the tests cases event based if possible $run_event_based=1; } elsif($ARGV[0] eq "-f") { # force - run the test case even if listed in DISABLED $run_disabled=1; } elsif($ARGV[0] eq "-E") { # load additional reasons to skip tests shift @ARGV; my $exclude_file = $ARGV[0]; open(my $fd, "<", $exclude_file) or die "Couldn't open '$exclude_file': $!"; while(my $line = <$fd>) { next if ($line =~ /^#/); chomp $line; my ($type, $patterns, $skip_reason) = split(/\s*:\s*/, $line, 3); die "Unsupported type: $type\n" if($type !~ /^keyword|test|tool$/); foreach my $pattern (split(/,/, $patterns)) { if($type eq "test") { # Strip leading zeros in the test number $pattern = int($pattern); } $custom_skip_reasons{$type}{$pattern} = $skip_reason; } } close($fd); } elsif ($ARGV[0] eq "-g") { # run this test with gdb $gdbthis=1; } elsif ($ARGV[0] eq "-gl") { # run this test with lldb $gdbthis=2; } elsif ($ARGV[0] eq "-gw") { # run this test with windowed gdb $gdbthis=1; $gdbxwin=1; } elsif($ARGV[0] eq "-s") { # short output $short=1; } elsif($ARGV[0] eq "-am") { # automake-style output $short=1; $automakestyle=1; } elsif($ARGV[0] eq "-n") { # no valgrind undef $valgrind; } elsif($ARGV[0] eq "--no-debuginfod") { # disable the valgrind debuginfod functionality $no_debuginfod = 1; } elsif ($ARGV[0] eq "-R") { # execute in scrambled order $scrambleorder=1; } elsif($ARGV[0] =~ /^-t(.*)/) { # torture $torture=1; my $xtra = $1; if($xtra =~ s/(\d+)$//) { $tortalloc = $1; } } elsif($ARGV[0] =~ /--shallow=(\d+)/) { # Fail no more than this amount per tests when running # torture. my ($num)=($1); $shallow=$num; } elsif($ARGV[0] =~ /--repeat=(\d+)/) { # Repeat-run the given tests this many times $repeat = $1; } elsif($ARGV[0] =~ /--seed=(\d+)/) { # Set a fixed random seed (used for -R and --shallow) $randseed = $1; } elsif($ARGV[0] eq "-a") { # continue anyway, even if a test fail $anyway=1; } elsif($ARGV[0] eq "-o") { shift @ARGV; if ($ARGV[0] =~ /^(\w+)=([\w.:\/\[\]-]+)$/) { my ($variable, $value) = ($1, $2); eval "\$$variable='$value'" or die "Failed to set \$$variable to $value: $@"; } else { die "Failed to parse '-o $ARGV[0]'. May contain unexpected characters.\n"; } } elsif($ARGV[0] eq "-p") { $postmortem=1; } elsif($ARGV[0] eq "-P") { shift @ARGV; $proxy_address=$ARGV[0]; } elsif($ARGV[0] eq "-L") { # require additional library file shift @ARGV; require $ARGV[0]; } elsif($ARGV[0] eq "-l") { # lists the test case names only $listonly=1; } elsif($ARGV[0] =~ /^-j(.*)/) { # parallel jobs $jobs=1; my $xtra = $1; if($xtra =~ s/(\d+)$//) { $jobs = $1; } } elsif($ARGV[0] eq "-k") { # keep stdout and stderr files after tests $keepoutfiles=1; } elsif($ARGV[0] eq "-r") { # run time statistics needs Time::HiRes if($Time::HiRes::VERSION) { # presize hashes appropriately to hold an entire test run keys(%timeprepini) = 2000; keys(%timesrvrini) = 2000; keys(%timesrvrend) = 2000; keys(%timetoolini) = 2000; keys(%timetoolend) = 2000; keys(%timesrvrlog) = 2000; keys(%timevrfyend) = 2000; $timestats=1; $fullstats=0; } } elsif($ARGV[0] eq "-rf") { # run time statistics needs Time::HiRes if($Time::HiRes::VERSION) { # presize hashes appropriately to hold an entire test run keys(%timeprepini) = 2000; keys(%timesrvrini) = 2000; keys(%timesrvrend) = 2000; keys(%timetoolini) = 2000; keys(%timetoolend) = 2000; keys(%timesrvrlog) = 2000; keys(%timevrfyend) = 2000; $timestats=1; $fullstats=1; } } elsif($ARGV[0] eq "-rm") { # force removal of files by killing locking processes $clearlocks=1; } elsif($ARGV[0] eq "-u") { # error instead of warning on server unexpectedly alive $err_unexpected=1; } elsif(($ARGV[0] eq "-h") || ($ARGV[0] eq "--help")) { # show help text print <<"EOHELP" Usage: runtests.pl [options] [test selection(s)] -a continue even if a test fails -ac path use this curl only to talk to APIs (currently only CI test APIs) -am automake style output PASS/FAIL: [number] [name] -c path use this curl executable -d display server debug info -e event-based execution -E file load the specified file to exclude certain tests -f forcibly run even if disabled -g run the test case with gdb -gw run the test case with gdb as a windowed application -h this help text -j[N] spawn this number of processes to run tests (default 0) -k keep stdout and stderr files present after tests -L path require an additional perl library file to replace certain functions -l list all test case names/descriptions -n no valgrind --no-debuginfod disable the valgrind debuginfod functionality -o variable=value set internal variable to the specified value -P proxy use the specified proxy -p print log file contents when a test fails -R scrambled order (uses the random seed, see --seed) -r run time statistics -rf full run time statistics -rm force removal of files by killing locking processes (Windows only) --repeat=[num] run the given tests this many times -s short output --seed=[num] set the random seed to a fixed number --shallow=[num] randomly makes the torture tests "thinner" -t[N] torture (simulate function failures); N means fail Nth function -u error instead of warning on server unexpectedly alive -v verbose output -vc path use this curl only to verify the existing servers [num] like "5 6 9" or " 5 to 22 " to run those tests only [!num] like "!5 !6 !9" to disable those tests [~num] like "~5 ~6 ~9" to ignore the result of those tests [keyword] like "IPv6" to select only tests containing the key word [!keyword] like "!cookies" to disable any tests containing the key word [~keyword] like "~cookies" to ignore results of tests containing key word EOHELP ; exit; } elsif($ARGV[0] =~ /^(\d+)/) { $number = $1; if($fromnum >= 0) { for my $n ($fromnum .. $number) { push @testthis, $n; } $fromnum = -1; } else { push @testthis, $1; } } elsif($ARGV[0] =~ /^to$/i) { $fromnum = $number+1; } elsif($ARGV[0] =~ /^!(\d+)/) { $fromnum = -1; $disabled{$1}=$1; } elsif($ARGV[0] =~ /^~(\d+)/) { $fromnum = -1; $ignored{$1}=$1; } elsif($ARGV[0] =~ /^!(.+)/) { $disabled_keywords{lc($1)}=$1; } elsif($ARGV[0] =~ /^~(.+)/) { $ignored_keywords{lc($1)}=$1; } elsif($ARGV[0] =~ /^([-[{a-zA-Z].*)/) { $enabled_keywords{lc($1)}=$1; } else { print "Unknown option: $ARGV[0]\n"; exit; } shift @ARGV; } delete $ENV{'DEBUGINFOD_URLS'} if($ENV{'DEBUGINFOD_URLS'} && $no_debuginfod); if(!$randseed) { my ($sec,$min,$hour,$mday,$mon,$year,$wday,$yday,$isdst) = localtime(time); # seed of the month. December 2019 becomes 201912 $randseed = ($year+1900)*100 + $mon+1; print "Using curl: $CURL\n"; open(my $curlvh, "-|", shell_quote($CURL) . " --version 2>/dev/null") || die "could not get curl version!"; my @c = <$curlvh>; close($curlvh) || die "could not get curl version!"; # use the first line of output and get the md5 out of it my $str = md5($c[0]); $randseed += unpack('S', $str); # unsigned 16 bit value } srand $randseed; if(@testthis && ($testthis[0] ne "")) { $TESTCASES=join(" ", @testthis); } if($valgrind) { # we have found valgrind on the host, use it # verify that we can invoke it fine my $code = runclient("valgrind >/dev/null 2>&1"); if(($code>>8) != 1) { #logmsg "Valgrind failure, disable it\n"; undef $valgrind; } else { # since valgrind 2.1.x, '--tool' option is mandatory # use it, if it is supported by the version installed on the system # (this happened in 2003, so we could probably don't need to care about # that old version any longer and just delete this check) runclient("valgrind --help 2>&1 | grep -- --tool > /dev/null 2>&1"); if (($? >> 8)) { $valgrind_tool=""; } open(my $curlh, "<", "$CURL"); my $l = <$curlh>; if($l =~ /^\#\!/) { # A shell script. This is typically when built with libtool, $valgrind="../libtool --mode=execute $valgrind"; } close($curlh); # valgrind 3 renamed the --logfile option to --log-file!!! # (this happened in 2005, so we could probably don't need to care about # that old version any longer and just delete this check) my $ver=join(' ', runclientoutput("valgrind --version")); # cut off all but digits and dots $ver =~ s/[^0-9.]//g; if($ver =~ /^(\d+)/) { $ver = $1; if($ver < 3) { $valgrind_logfile="--logfile"; } } } } if ($gdbthis) { # open the executable curl and read the first 4 bytes of it open(my $check, "<", "$CURL"); my $c; sysread $check, $c, 4; close($check); if($c eq "#! /") { # A shell script. This is typically when built with libtool, $libtool = 1; $gdb = "../libtool --mode=execute gdb"; } } ####################################################################### # clear and create logging directory: # # TODO: figure how to get around this. This dir is needed for checksystemfeatures() # Maybe create & use & delete a temporary directory in that function cleardir($LOGDIR); mkdir($LOGDIR, 0777); mkdir("$LOGDIR/$LOCKDIR", 0777); ####################################################################### # initialize some variables # get_disttests(); if(!$jobs) { # Disable buffered logging with only one test job setlogfunc(\&logmsg); } ####################################################################### # Output curl version and host info being tested # if(!$listonly) { checksystemfeatures(); } ####################################################################### # Output information about the curl build # if(!$listonly) { if(open(my $fd, "<", "buildinfo.txt")) { while(my $line = <$fd>) { chomp $line; if($line && $line !~ /^#/) { logmsg("* buildinfo.$line\n"); } } close($fd); } } ####################################################################### # initialize configuration needed to set up servers # TODO: rearrange things so this can be called only in runner_init() # initserverconfig(); if(!$listonly) { # these can only be displayed after initserverconfig() has been called displayserverfeatures(); # globally disabled tests disabledtests("$TESTDIR/DISABLED"); } ####################################################################### # Fetch all disabled tests, if there are any # sub disabledtests { my ($file) = @_; my @input; if(open(my $disabledh, "<", "$file")) { while(<$disabledh>) { if(/^ *\#/) { # allow comments next; } push @input, $_; } close($disabledh); # preprocess the input to make conditionally disabled tests depending # on variables my @pp = prepro(0, @input); for my $t (@pp) { if($t =~ /(\d+)/) { my ($n) = $1; $disabled{$n}=$n; # disable this test number if(! -f "$srcdir/data/test$n") { print STDERR "WARNING! Non-existing test $n in $file!\n"; # fail hard to make user notice exit 1; } logmsg "DISABLED: test $n\n" if ($verbose); } else { print STDERR "$file: rubbish content: $t\n"; exit 2; } } } else { print STDERR "Cannot open $file, exiting\n"; exit 3; } } ####################################################################### # If 'all' tests are requested, find out all test numbers # if ( $TESTCASES eq "all") { # Get all commands and find out their test numbers opendir(DIR, $TESTDIR) || die "can't opendir $TESTDIR: $!"; my @cmds = grep { /^test([0-9]+)$/ && -f "$TESTDIR/$_" } readdir(DIR); closedir(DIR); $TESTCASES=""; # start with no test cases # cut off everything but the digits for(@cmds) { $_ =~ s/[a-z\/\.]*//g; } # sort the numbers from low to high foreach my $n (sort { $a <=> $b } @cmds) { if($disabled{$n}) { # skip disabled test cases my $why = "configured as DISABLED"; $skipped{$why}++; $teststat[$n]=$why; # store reason for this test case next; } $TESTCASES .= " $n"; } } else { my $verified=""; for(split(" ", $TESTCASES)) { if (-e "$TESTDIR/test$_") { $verified.="$_ "; } } if($verified eq "") { print "No existing test cases were specified\n"; exit; } $TESTCASES = $verified; } if($repeat) { my $s; for(1 .. $repeat) { $s .= $TESTCASES; } $TESTCASES = $s; } if($scrambleorder) { # scramble the order of the test cases my @rand; while($TESTCASES) { my @all = split(/ +/, $TESTCASES); if(!$all[0]) { # if the first is blank, shift away it shift @all; } my $r = rand @all; push @rand, $all[$r]; $all[$r]=""; $TESTCASES = join(" ", @all); } $TESTCASES = join(" ", @rand); } # Display the contents of the given file. Line endings are canonicalized # and excessively long files are elided sub displaylogcontent { my ($file)=@_; if(open(my $single, "<", "$file")) { my $linecount = 0; my $truncate; my @tail; while(my $string = <$single>) { $string =~ s/\r\n/\n/g; $string =~ s/[\r\f\032]/\n/g; $string .= "\n" unless ($string =~ /\n$/); $string =~ tr/\n//; for my $line (split(m/\n/, $string)) { $line =~ s/\s*\!$//; if ($truncate) { push @tail, " $line\n"; } else { logmsg " $line\n"; } $linecount++; $truncate = $linecount > 1200; } } close($single); if(@tail) { my $tailshow = 200; my $tailskip = 0; my $tailtotal = scalar @tail; if($tailtotal > $tailshow) { $tailskip = $tailtotal - $tailshow; logmsg "=== File too long: $tailskip lines omitted here\n"; } for($tailskip .. $tailtotal-1) { logmsg "$tail[$_]"; } } } } sub displaylogs { my ($runnerid, $testnum)=@_; my $logdir = getrunnerlogdir($runnerid); opendir(DIR, "$logdir") || die "can't open dir: $!"; my @logs = readdir(DIR); closedir(DIR); logmsg "== Contents of files in the $logdir/ dir after test $testnum\n"; foreach my $log (sort @logs) { if($log =~ /\.(\.|)$/) { next; # skip "." and ".." } if($log =~ /^\.nfs/) { next; # skip ".nfs" } if(($log eq "memdump") || ($log eq "core")) { next; # skip "memdump" and "core" } if((-d "$logdir/$log") || (! -s "$logdir/$log")) { next; # skip directory and empty files } if(($log =~ /^stdout\d+/) && ($log !~ /^stdout$testnum/)) { next; # skip stdoutNnn of other tests } if(($log =~ /^stderr\d+/) && ($log !~ /^stderr$testnum/)) { next; # skip stderrNnn of other tests } if(($log =~ /^upload\d+/) && ($log !~ /^upload$testnum/)) { next; # skip uploadNnn of other tests } if(($log =~ /^curl\d+\.out/) && ($log !~ /^curl$testnum\.out/)) { next; # skip curlNnn.out of other tests } if(($log =~ /^test\d+\.txt/) && ($log !~ /^test$testnum\.txt/)) { next; # skip testNnn.txt of other tests } if(($log =~ /^file\d+\.txt/) && ($log !~ /^file$testnum\.txt/)) { next; # skip fileNnn.txt of other tests } if(($log =~ /^netrc\d+/) && ($log !~ /^netrc$testnum/)) { next; # skip netrcNnn of other tests } if(($log =~ /^trace\d+/) && ($log !~ /^trace$testnum/)) { next; # skip traceNnn of other tests } if(($log =~ /^valgrind\d+/) && ($log !~ /^valgrind$testnum(?:\..*)?$/)) { next; # skip valgrindNnn of other tests } if(($log =~ /^test$testnum$/)) { next; # skip test$testnum since it can be very big } logmsg "=== Start of file $log\n"; displaylogcontent("$logdir/$log"); logmsg "=== End of file $log\n"; } } ####################################################################### # Scan tests to find suitable candidates # my $failed; my $failedign; my $ok=0; my $ign=0; my $total=0; my $lasttest=0; my @at = split(" ", $TESTCASES); my $count=0; my $endwaitcnt=0; $start = time(); # scan all tests to find ones we should try to run my @runtests; foreach my $testnum (@at) { $lasttest = $testnum if($testnum > $lasttest); my ($why, $errorreturncode) = singletest_shouldrun($testnum); if($why || $listonly) { # Display test name now--test will be completely skipped later my $error = singletest_count($testnum, $why); next; } $ignoretestcodes{$testnum} = $errorreturncode; push(@runtests, $testnum); } my $totaltests = scalar(@runtests); if($listonly) { exit(0); } ####################################################################### # Setup CI Test Run citest_starttestrun(); ####################################################################### # Start test runners # my $numrunners = $jobs < scalar(@runtests) ? $jobs : scalar(@runtests); createrunners($numrunners); ####################################################################### # The main test-loop # # Every iteration through the loop consists of these steps: # - if the global abort flag is set, exit the loop; we are done # - if a runner is idle, start a new test on it # - if all runners are idle, exit the loop; we are done # - if a runner has a response for us, process the response # run through each candidate test and execute it while () { # check the abort flag if($globalabort) { logmsg singletest_dumplogs(); logmsg "Aborting tests\n"; logmsg "Waiting for " . scalar((keys %runnersrunning)) . " outstanding test(s) to finish...\n"; # Wait for the last requests to complete and throw them away so # that IPC calls & responses stay in sync # TODO: send a signal to the runners to interrupt a long test foreach my $rid (keys %runnersrunning) { runnerar($rid); delete $runnersrunning{$rid}; logmsg "."; $| = 1; } logmsg "\n"; last; } # Start a new test if possible if(scalar(@runnersidle) && scalar(@runtests)) { # A runner is ready to run a test, and tests are still available to run # so start a new test. $count++; my $testnum = shift(@runtests); # pick a runner for this new test my $runnerid = pickrunner($testnum); $countforrunner{$runnerid} = $count; # Start the test my ($error, $again) = singletest($runnerid, $testnum, $countforrunner{$runnerid}, $totaltests); if($again) { # this runner is busy running a test $runnersrunning{$runnerid} = $testnum; } else { runnerready($runnerid); if($error >= 0) { # We make this simplifying assumption to avoid having to handle # $error properly here, but we must handle the case of runner # death without abending here. die "Internal error: test must not complete on first call"; } } } # See if we've completed all the tests if(!scalar(%runnersrunning)) { # No runners are running; we must be done scalar(@runtests) && die 'Internal error: still have tests to run'; last; } # See if a test runner needs attention # If we could be running more tests, don't wait so we can schedule a new # one immediately. If all runners are busy, wait a fraction of a second # for one to finish so we can still loop around to check the abort flag. my $runnerwait = scalar(@runnersidle) && scalar(@runtests) ? 0 : 0.5; my ($ridready, $riderror) = runnerar_ready($runnerwait); if($ridready && ! defined $runnersrunning{$ridready}) { # On Linux, a closed pipe still shows up as ready instead of error. # Detect this here by seeing if we are expecting it to be ready and # treat it as an error if not. logmsg "ERROR: Runner $ridready is unexpectedly ready; is probably actually dead\n"; $riderror = $ridready; undef $ridready; } if($ridready) { # This runner is ready to be serviced my $testnum = $runnersrunning{$ridready}; defined $testnum || die "Internal error: test for runner $ridready unknown"; delete $runnersrunning{$ridready}; my ($error, $again) = singletest($ridready, $testnum, $countforrunner{$ridready}, $totaltests); if($again) { # this runner is busy running a test $runnersrunning{$ridready} = $testnum; } else { # Test is complete runnerready($ridready); if($error < 0) { # not a test we can run next; } $total++; # number of tests we've run if($error>0) { if($error==2) { # ignored test failures $failedign .= "$testnum "; } else { $failed.= "$testnum "; } if($postmortem) { # display all files in $LOGDIR/ in a nice way displaylogs($ridready, $testnum); } if($error==2) { $ign++; # ignored test result counter } elsif(!$anyway) { # a test failed, abort logmsg "\n - abort tests\n"; undef @runtests; # empty out the remaining tests } } elsif(!$error) { $ok++; # successful test counter } } } if($riderror) { logmsg "ERROR: runner $riderror is dead! aborting test run\n"; delete $runnersrunning{$riderror} if(defined $runnersrunning{$riderror}); $globalabort = 1; } if(!scalar(@runtests) && ++$endwaitcnt == (240 + $jobs)) { # Once all tests have been scheduled on a runner at the end of a test # run, we just wait for their results to come in. If we're still # waiting after a couple of minutes ($endwaitcnt multiplied by # $runnerwait, plus $jobs because that number won't time out), display # the same test runner status as we give with a SIGUSR1. This will # likely point to a single test that has hung. logmsg "Hmmm, the tests are taking a while to finish. Here is the status:\n"; catch_usr1(); } } my $sofar = time() - $start; ####################################################################### # Finish CI Test Run citest_finishtestrun(); # Tests done, stop the servers foreach my $runnerid (values %runnerids) { runnerac_stopservers($runnerid); } # Wait for servers to stop my $unexpected; foreach my $runnerid (values %runnerids) { my ($rid, $unexpect, $logs) = runnerar($runnerid); $unexpected ||= $unexpect; logmsg $logs; } # Kill the runners # There is a race condition here since we don't know exactly when the runners # have each finished shutting themselves down, but we're about to exit so it # doesn't make much difference. foreach my $runnerid (values %runnerids) { runnerac_shutdown($runnerid); sleep 0; # give runner a context switch so it can shut itself down } my $numskipped = %skipped ? sum values %skipped : 0; my $all = $total + $numskipped; runtimestats($lasttest); if($all) { logmsg "TESTDONE: $all tests were considered during ". sprintf("%.0f", $sofar) ." seconds.\n"; } if(%skipped && !$short) { my $s=0; # Temporary hash to print the restraints sorted by the number # of their occurrences my %restraints; logmsg "TESTINFO: $numskipped tests were skipped due to these restraints:\n"; for(keys %skipped) { my $r = $_; my $skip_count = $skipped{$r}; my $log_line = sprintf("TESTINFO: \"%s\" %d time%s (", $r, $skip_count, ($skip_count == 1) ? "" : "s"); # now gather all test case numbers that had this reason for being # skipped my $c=0; my $max = 9; for(0 .. scalar @teststat) { my $t = $_; if($teststat[$t] && ($teststat[$t] eq $r)) { if($c < $max) { $log_line .= ", " if($c); $log_line .= $t; } $c++; } } if($c > $max) { $log_line .= " and ".($c-$max)." more"; } $log_line .= ")\n"; $restraints{$log_line} = $skip_count; } foreach my $log_line (sort {$restraints{$b} <=> $restraints{$a}} keys %restraints) { logmsg $log_line; } } sub testnumdetails { my ($desc, $numlist) = @_; foreach my $testnum (split(' ', $numlist)) { if(!loadtest("${TESTDIR}/test${testnum}")) { my @info_keywords = getpart("info", "keywords"); my $testname = (getpart("client", "name"))[0]; chomp $testname; logmsg "$desc $testnum: '$testname'"; my $first = 1; for my $k (@info_keywords) { chomp $k; my $sep = ($first == 1) ? " " : ", "; logmsg "$sep$k"; $first = 0; } logmsg "\n"; } } } if($total) { if($passedign) { my $sorted = numsortwords($passedign); logmsg "::group::Passed Ignored Test details\n"; testnumdetails("PASSED-IGNORED", $sorted); logmsg "IGNORED: passed tests: $sorted\n"; logmsg "::endgroup::\n"; } if($failedign) { my $sorted = numsortwords($failedign); testnumdetails("FAIL-IGNORED", $sorted); logmsg "IGNORED: failed tests: $sorted\n"; } logmsg sprintf("TESTDONE: $ok tests out of $total reported OK: %d%%\n", $ok/$total*100); if($failed && ($ok != $total)) { my $failedsorted = numsortwords($failed); logmsg "\n"; testnumdetails("FAIL", $failedsorted); logmsg "\nTESTFAIL: These test cases failed: $failedsorted\n\n"; } } else { logmsg "\nTESTFAIL: No tests were performed\n\n"; if(scalar(keys %enabled_keywords)) { logmsg "TESTFAIL: Nothing matched these keywords: "; for(keys %enabled_keywords) { logmsg "$_ "; } logmsg "\n"; } } if(($total && (($ok+$ign) != $total)) || !$total || $unexpected) { exit 1; }