curl/tests/runtests.pl
Yang Tse 2c16681225 Adjusted to take in account that...
With the curl memory tracking feature decoupled from the debug build feature,
CURLDEBUG and DEBUGBUILD preprocessor symbol definitions are used as follows:

CURLDEBUG used for curl debug memory tracking specific code (--enable-curldebug)

DEBUGBUILD used for debug enabled specific code (--enable-debug)
2009-06-10 02:49:42 +00:00

3198 lines
92 KiB
Perl
Executable File

#!/usr/bin/env perl
#***************************************************************************
# _ _ ____ _
# Project ___| | | | _ \| |
# / __| | | | |_) | |
# | (__| |_| | _ <| |___
# \___|\___/|_| \_\_____|
#
# Copyright (C) 1998 - 2009, Daniel Stenberg, <daniel@haxx.se>, 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 http://curl.haxx.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.
#
# $Id$
###########################################################################
# 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 <precheck> or <postcheck>
# 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.
# These should be the only variables that might be needed to get edited:
BEGIN {
@INC=(@INC, $ENV{'srcdir'}, ".");
}
use strict;
#use Time::HiRes qw( gettimeofday );
#use warnings;
use Cwd;
# Variables and subs imported from sshhelp module
use sshhelp qw(
$sshdexe
$sshexe
$sftpexe
$sshconfig
$sftpconfig
$sshlog
$sftplog
$sftpcmds
display_sshdconfig
display_sshconfig
display_sftpconfig
display_sshdlog
display_sshlog
display_sftplog
find_sshd
find_ssh
find_sftp
sshversioninfo
);
require "getpart.pm"; # array functions
require "valgrind.pm"; # valgrind report parser
require "ftp.pm";
my $HOSTIP="127.0.0.1"; # address on which the test server listens
my $HOST6IP="[::1]"; # address on which the test server listens
my $CLIENTIP="127.0.0.1"; # address which curl uses for incoming connections
my $CLIENT6IP="[::1]"; # address which curl uses for incoming connections
my $base = 8990; # base port number
my $HTTPPORT; # HTTP server port
my $HTTP6PORT; # HTTP IPv6 server port
my $HTTPSPORT; # HTTPS server port
my $FTPPORT; # FTP server port
my $FTP2PORT; # FTP server 2 port
my $FTPSPORT; # FTPS server port
my $FTP6PORT; # FTP IPv6 server port
my $TFTPPORT; # TFTP
my $TFTP6PORT; # TFTP
my $SSHPORT; # SCP/SFTP
my $SOCKSPORT; # SOCKS4/5 port
my $srcdir = $ENV{'srcdir'} || '.';
my $CURL="../src/curl"; # what curl executable to run on the tests
my $VCURL=$CURL; # what curl binary to use to verify the servers with
# VCURL is handy to set to the system one when the one you
# just built hangs or crashes and thus prevent verification
my $DBGCURL=$CURL; #"../src/.libs/curl"; # alternative for debugging
my $LOGDIR="log";
my $TESTDIR="$srcdir/data";
my $LIBDIR="./libtest";
my $SERVERIN="$LOGDIR/server.input"; # what curl sent the server
my $SERVER2IN="$LOGDIR/server2.input"; # what curl sent the second server
my $CURLLOG="$LOGDIR/curl.log"; # all command lines run
my $FTPDCMD="$LOGDIR/ftpserver.cmd"; # copy ftp server instructions here
my $SERVERLOGS_LOCK="$LOGDIR/serverlogs.lock"; # server logs advisor read lock
# 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 $HTTPPIDFILE=".http.pid";
my $HTTP6PIDFILE=".http6.pid";
my $HTTPSPIDFILE=".https.pid";
my $FTPPIDFILE=".ftp.pid";
my $FTP6PIDFILE=".ftp6.pid";
my $FTP2PIDFILE=".ftp2.pid";
my $FTPSPIDFILE=".ftps.pid";
my $TFTPPIDFILE=".tftpd.pid";
my $TFTP6PIDFILE=".tftp6.pid";
my $SSHPIDFILE=".ssh.pid";
my $SOCKSPIDFILE=".socks.pid";
# invoke perl like this:
my $perl="perl -I$srcdir";
my $server_response_maxtime=13;
my $debug_build=0; # curl built with --enable-debug
my $curl_debug=0; # curl built with --enable-curldebug (memory tracking)
my $libtool;
# name of the file that the memory debugging creates:
my $memdump="$LOGDIR/memdump";
# the path to the script that analyzes the memory debug output file:
my $memanalyze="$perl $srcdir/memanalyze.pl";
my $pwd = getcwd(); # current working directory
my $start;
my $forkserver=0;
my $ftpchecktime; # time it took to verify our test FTP server
my $stunnel = checkcmd("stunnel4") || checkcmd("stunnel");
my $valgrind = checktestcmd("valgrind");
my $valgrind_logfile="--logfile";
my $valgrind_tool;
my $gdb = checktestcmd("gdb");
my $ssl_version; # set if libcurl is built with SSL support
my $large_file; # set if libcurl is built with large file support
my $has_idn; # set if libcurl is built with IDN support
my $http_ipv6; # set if HTTP server has IPv6 support
my $ftp_ipv6; # set if FTP server has IPv6 support
my $tftp_ipv6; # set if TFTP server has IPv6 support
my $has_ipv6; # set if libcurl is built with IPv6 support
my $has_libz; # set if libcurl is built with libz support
my $has_getrlimit; # set if system has getrlimit()
my $has_ntlm; # set if libcurl is built with NTLM support
my $has_charconv;# set if libcurl is built with CharConv support
my $has_openssl; # built with a lib using an OpenSSL-like API
my $has_gnutls; # built with GnuTLS
my $has_nss; # built with NSS
my $has_yassl; # built with yassl
my $ssllib; # name of the lib we use (for human presentation)
my $has_crypto; # set if libcurl is built with cryptographic support
my $has_textaware; # set if running on a system that has a text mode concept
# on files. Windows for example
my @protocols; # array of supported protocols
my $skipped=0; # number of tests skipped; reported in main loop
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 %enabled_keywords; # key words of tests to run
my $sshdid; # for socks server, ssh daemon version id
my $sshdvernum; # for socks server, ssh daemon version number
my $sshdverstr; # for socks server, ssh daemon version string
my $sshderror; # for socks server, ssh daemon version error
my $defserverlogslocktimeout = 20; # timeout to await server logs lock removal
my $defpostcommanddelay = 0; # delay between command and postcheck sections
my $testnumcheck; # test number, set in singletest sub.
#######################################################################
# variables the command line options may set
#
my $short;
my $verbose;
my $debugprotocol;
my $anyway;
my $gdbthis; # run test case with gdb debugger
my $keepoutfiles; # keep stdout and stderr files after tests
my $listonly; # only list the tests
my $postmortem; # display detailed info about failed tests
my %run; # running server
my %doesntrun; # servers that don't work, identified by pidfile
# torture test variables
my $torture;
my $tortnum;
my $tortalloc;
# open and close each time to allow removal at any time
sub logmsg {
# uncomment the Time::HiRes usage for this
# my ($seconds, $microseconds) = gettimeofday;
# my ($sec,$min,$hour,$mday,$mon,$year,$wday,$yday,$isdst) =
# localtime($seconds);
my $t;
if(1) {
# $t = sprintf ("%02d:%02d:%02d.%06d ", $hour, $min, $sec,
# $microseconds);
}
for(@_) {
print "${t}$_";
}
}
# get the name of the current user
my $USER = $ENV{USER}; # Linux
if (!$USER) {
$USER = $ENV{USERNAME}; # Windows
if (!$USER) {
$USER = $ENV{LOGNAME}; # Some UNIX (I think)
}
}
# enable memory debugging if curl is compiled with it
$ENV{'CURL_MEMDEBUG'} = $memdump;
$ENV{'HOME'}=$pwd;
sub catch_zap {
my $signame = shift;
logmsg "runtests.pl received SIG$signame, exiting\n";
stopservers(1);
die "Somebody sent me a SIG$signame";
}
$SIG{INT} = \&catch_zap;
$SIG{KILL} = \&catch_zap;
##########################################################################
# Clear all possible '*_proxy' environment variables for various protocols
# to prevent them to interfere with our testing!
my $protocol;
foreach $protocol (('ftp', 'http', 'ftps', 'https', 'no')) {
my $proxy = "${protocol}_proxy";
# clear lowercase version
$ENV{$proxy}=undef;
# clear uppercase version
$ENV{uc($proxy)}=undef;
}
# make sure we don't get affected by other variables that control our
# behaviour
$ENV{'SSL_CERT_DIR'}=undef;
$ENV{'SSL_CERT_PATH'}=undef;
$ENV{'CURL_CA_BUNDLE'}=undef;
#######################################################################
# Check if a given child process has just died. Reaps it if so.
#
sub checkdied {
use POSIX ":sys_wait_h";
my $pid = $_[0];
if(not defined $pid || $pid <= 0) {
return 0;
}
my $rc = waitpid($pid, &WNOHANG);
return ($rc == $pid)?1:0;
}
#######################################################################
# Start a new thread/process and run the given command line in there.
# Return the pids (yes plural) of the new child process to the parent.
#
sub startnew {
my ($cmd, $pidfile, $timeout, $fake)=@_;
logmsg "startnew: $cmd\n" if ($verbose);
my $child = fork();
my $pid2 = 0;
if(not defined $child) {
logmsg "startnew: fork() failure detected\n";
return (-1,-1);
}
if(0 == $child) {
# Here we are the child. Run the given command.
# Put an "exec" in front of the command so that the child process
# keeps this child's process ID.
exec("exec $cmd") || die "Can't exec() $cmd: $!";
# exec() should never return back here to this process. We protect
# ourselves by calling die() just in case something goes really bad.
die "error: exec() has returned";
}
# Ugly hack but ssh client doesn't support pid files
if ($fake) {
if(open(OUT, ">$pidfile")) {
print OUT $child . "\n";
close(OUT);
logmsg "startnew: $pidfile faked with pid=$child\n" if($verbose);
}
else {
logmsg "startnew: failed to write fake $pidfile with pid=$child\n";
}
# could/should do a while connect fails sleep a bit and loop
sleep $timeout;
if (checkdied($child)) {
logmsg "startnew: child process has failed to start\n" if($verbose);
return (-1,-1);
}
}
my $count = $timeout;
while($count--) {
if(-f $pidfile && -s $pidfile && open(PID, "<$pidfile")) {
$pid2 = 0 + <PID>;
close(PID);
if(($pid2 > 0) && kill(0, $pid2)) {
# if $pid2 is valid, then make sure this pid is alive, as
# otherwise it is just likely to be the _previous_ pidfile or
# similar!
last;
}
# invalidate $pid2 if not actually alive
$pid2 = 0;
}
if (checkdied($child)) {
logmsg "startnew: child process has died, server might start up\n"
if($verbose);
# We can't just abort waiting for the server with a
# return (-1,-1);
# because the server might have forked and could still start
# up normally. Instead, just reduce the amount of time we remain
# waiting.
$count >>= 2;
}
sleep(1);
}
# Return two PIDs, the one for the child process we spawned and the one
# reported by the server itself (in case it forked again on its own).
# Both (potentially) need to be killed at the end of the test.
return ($child, $pid2);
}
#######################################################################
# Check for a command in the PATH of the test server.
#
sub checkcmd {
my ($cmd)=@_;
my @paths=(split(":", $ENV{'PATH'}), "/usr/sbin", "/usr/local/sbin",
"/sbin", "/usr/bin", "/usr/local/bin" );
for(@paths) {
if( -x "$_/$cmd" && ! -d "$_/$cmd") {
# executable bit but not a directory!
return "$_/$cmd";
}
}
}
#######################################################################
# Check for a command in the PATH of the machine running curl.
#
sub checktestcmd {
my ($cmd)=@_;
return checkcmd($cmd);
}
#######################################################################
# Run the application under test and return its return code
#
sub runclient {
my ($cmd)=@_;
return system($cmd);
# This is one way to test curl on a remote machine
# my $out = system("ssh $CLIENTIP cd \'$pwd\' \\; \'$cmd\'");
# sleep 2; # time to allow the NFS server to be updated
# return $out;
}
#######################################################################
# Run the application under test and return its stdout
#
sub runclientoutput {
my ($cmd)=@_;
return `$cmd`;
# This is one way to test curl on a remote machine
# my @out = `ssh $CLIENTIP cd \'$pwd\' \\; \'$cmd\'`;
# sleep 2; # time to allow the NFS server to be updated
# return @out;
}
#######################################################################
# Memory allocation test and failure torture testing.
#
sub torture {
use POSIX "strftime";
my $testcmd = shift;
my $gdbline = shift;
# remove memdump first to be sure we get a new nice and clean one
unlink($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 $memdump`;
for(@out) {
if(/^Allocations: (\d+)/) {
$count = $1;
last;
}
}
if(!$count) {
logmsg " found no allocs to make fail\n";
return 0;
}
logmsg " $count allocations to make fail\n";
for ( 1 .. $count ) {
my $limit = $_;
my $fail;
my $dumped_core;
if($tortalloc && ($tortalloc != $limit)) {
next;
}
logmsg "Fail alloc no: $limit @ " . strftime ("%H:%M:%S", localtime) . "\r" if($verbose);
# make the memory allocation function number $limit return failure
$ENV{'CURL_MEMLIMIT'} = $limit;
# remove memdump first to be sure we get a new nice and clean one
unlink($memdump);
logmsg "**> Alloc number $limit is now set to fail <**\n" if($gdbthis);
my $ret;
if($gdbthis) {
runclient($gdbline)
}
else {
$ret = runclient($testcmd);
}
#logmsg "$_ Returned " . $ret / 256 . "\n";
# Now clear the variable again
$ENV{'CURL_MEMLIMIT'} = undef;
if(-r "core") {
# there's core file present now!
logmsg " core dumped\n";
$dumped_core = 1;
$fail = 2;
}
# verify that it returns a proper error code, doesn't leak memory
# and doesn't core dump
if($ret & 255) {
logmsg " system() returned $ret\n";
$fail=1;
}
else {
my @memdata=`$memanalyze $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 $memdump`;
$fail = 1;
}
}
if($fail) {
logmsg " Failed on alloc number $limit in test.\n",
" invoke with -t$limit to repeat this single case.\n";
stopservers($verbose);
return 1;
}
}
logmsg "torture OK\n";
return 0;
}
#######################################################################
# stop the given test server (pid)
#
sub stopserver {
my ($pid) = @_;
if(not defined $pid || $pid <= 0) {
return; # whad'da'ya wanna'da with no pid ?
}
# It might be more than one pid
# Send each one a SIGTERM to gracefully kill it
my @killed;
my @pids = split(/\s+/, $pid);
for (@pids) {
chomp($_);
if($_ =~ /^(\d+)$/) {
if(($1 > 0) && kill(0, $1)) {
if($verbose) {
logmsg "RUN: Test server pid $1 signalled to die\n";
}
kill(15, $1); # die!
push @killed, $1;
}
}
}
# Give each process killed up to a few seconds to die, then send
# a SIGKILL to finish it off for good.
for (@killed) {
my $count = 5; # wait for this many seconds for server to die
while($count--) {
if (!kill(0, $_) || checkdied($_)) {
last;
}
sleep(1);
}
if ($count < 0) {
logmsg "RUN: forcing pid $_ to die with SIGKILL\n";
kill(9, $_); # die!
}
}
}
#######################################################################
# Verify that the server that runs on $ip, $port is our server. This also
# implies that we can speak with it, as there might be occasions when the
# server runs fine but we cannot talk to it ("Failed to connect to ::1: Can't
# assign requested address" #
sub verifyhttp {
my ($proto, $ip, $port) = @_;
my $cmd = "$VCURL --max-time $server_response_maxtime --output $LOGDIR/verifiedserver --insecure --silent --verbose --globoff \"$proto://$ip:$port/verifiedserver\" 2>$LOGDIR/verifyhttp";
my $pid;
# verify if our/any server is running on this port
logmsg "CMD; $cmd\n" if ($verbose);
my $res = runclient($cmd);
$res >>= 8; # rotate the result
my $data;
if($res && $verbose) {
open(ERR, "<$LOGDIR/verifyhttp");
my @e = <ERR>;
close(ERR);
logmsg "RUN: curl command returned $res\n";
for(@e) {
if($_ !~ /^([ \t]*)$/) {
logmsg "RUN: $_";
}
}
}
open(FILE, "<$LOGDIR/verifiedserver");
my @file=<FILE>;
close(FILE);
$data=$file[0]; # first line
if ( $data =~ /WE ROOLZ: (\d+)/ ) {
$pid = 0+$1;
}
elsif($res == 6) {
# curl: (6) Couldn't resolve host '::1'
logmsg "RUN: failed to resolve host ($proto://$ip:$port/verifiedserver)\n";
return -1;
}
elsif($data || ($res != 7)) {
logmsg "RUN: Unknown server is running on port $port\n";
return -1;
}
return $pid;
}
#######################################################################
# Verify that the server that runs on $ip, $port is our server. This also
# implies that we can speak with it, as there might be occasions when the
# server runs fine but we cannot talk to it ("Failed to connect to ::1: Can't
# assign requested address" #
sub verifyftp {
my ($proto, $ip, $port) = @_;
my $pid;
my $time=time();
my $extra;
if($proto eq "ftps") {
$extra = "--insecure --ftp-ssl-control ";
}
my $cmd="$VCURL --max-time $server_response_maxtime --silent --verbose --globoff $extra\"$proto://$ip:$port/verifiedserver\" 2>$LOGDIR/verifyftp";
# check if this is our server running on this port:
my @data=runclientoutput($cmd);
logmsg "RUN: $cmd\n" if($verbose);
my $line;
foreach $line (@data) {
if ( $line =~ /WE ROOLZ: (\d+)/ ) {
# this is our test server with a known pid!
$pid = 0+$1;
last;
}
}
if($pid <= 0 && $data[0]) {
# this is not a known server
logmsg "RUN: Unknown server on our FTP port: $port\n";
return 0;
}
# we can/should use the time it took to verify the FTP server as a measure
# on how fast/slow this host/FTP is.
my $took = time()-$time;
if($verbose) {
logmsg "RUN: Verifying our test FTP server took $took seconds\n";
}
$ftpchecktime = $took?$took:1; # make sure it never is zero
return $pid;
}
#######################################################################
# Verify that the ssh server has written out its pidfile, recovering
# the pid from the file and returning it if a process with that pid is
# actually alive.
sub verifyssh {
my ($proto, $ip, $port) = @_;
my $pid = 0;
if(open(FILE, "<$SSHPIDFILE")) {
$pid=0+<FILE>;
close(FILE);
}
if($pid > 0) {
# if we have a pid it is actually our ssh server,
# since runsshserver() unlinks previous pidfile
if(!kill(0, $pid)) {
logmsg "RUN: SSH server has died after starting up\n";
checkdied($pid);
unlink($SSHPIDFILE);
$pid = -1;
}
}
return $pid;
}
#######################################################################
# Verify that we can connect to the sftp server, properly authenticate
# with generated config and key files and run a simple remote pwd.
sub verifysftp {
my ($proto, $ip, $port) = @_;
my $verified = 0;
# Find out sftp client canonical file name
my $sftp = find_sftp();
if(!$sftp) {
logmsg "RUN: SFTP server cannot find $sftpexe\n";
return -1;
}
# Find out ssh client canonical file name
my $ssh = find_ssh();
if(!$ssh) {
logmsg "RUN: SFTP server cannot find $sshexe\n";
return -1;
}
# Connect to sftp server, authenticate and run a remote pwd
# command using our generated configuration and key files
my $cmd = "$sftp -b $sftpcmds -F $sftpconfig -S $ssh $ip > $sftplog 2>&1";
my $res = runclient($cmd);
# Search for pwd command response in log file
if(open(SFTPLOGFILE, "<$sftplog")) {
while(<SFTPLOGFILE>) {
if(/^Remote working directory: /) {
$verified = 1;
last;
}
}
close(SFTPLOGFILE);
}
return $verified;
}
#######################################################################
# STUB for verifying socks
sub verifysocks {
my ($proto, $ip, $port) = @_;
my $pid = 0;
if(open(FILE, "<$SOCKSPIDFILE")) {
$pid=0+<FILE>;
close(FILE);
}
if($pid > 0) {
# if we have a pid it is actually our socks server,
# since runsocksserver() unlinks previous pidfile
if(!kill(0, $pid)) {
logmsg "RUN: SOCKS server has died after starting up\n";
checkdied($pid);
unlink($SOCKSPIDFILE);
$pid = -1;
}
}
return $pid;
}
#######################################################################
# Verify that the server that runs on $ip, $port is our server.
# Retry over several seconds before giving up. The ssh server in
# particular can take a long time to start if it needs to generate
# keys on a slow or loaded host.
#
my %protofunc = ('http' => \&verifyhttp,
'https' => \&verifyhttp,
'ftp' => \&verifyftp,
'ftps' => \&verifyftp,
'tftp' => \&verifyftp,
'ssh' => \&verifyssh,
'socks' => \&verifysocks);
sub verifyserver {
my ($proto, $ip, $port) = @_;
my $count = 30; # try for this many seconds
my $pid;
while($count--) {
my $fun = $protofunc{$proto};
$pid = &$fun($proto, $ip, $port);
if($pid > 0) {
last;
}
elsif($pid < 0) {
# a real failure, stop trying and bail out
return 0;
}
sleep(1);
}
return $pid;
}
#######################################################################
# start the http server
#
sub runhttpserver {
my ($verbose, $ipv6) = @_;
my $RUNNING;
my $pidfile = $HTTPPIDFILE;
my $port = $HTTPPORT;
my $ip = $HOSTIP;
my $nameext;
my $fork = $forkserver?"--fork":"";
if($ipv6) {
# if IPv6, use a different setup
$pidfile = $HTTP6PIDFILE;
$port = $HTTP6PORT;
$ip = $HOST6IP;
$nameext="-ipv6";
}
# don't retry if the server doesn't work
if ($doesntrun{$pidfile}) {
return (0,0);
}
my $pid = checkserver($pidfile);
if($pid > 0) {
stopserver($pid);
}
unlink($pidfile);
my $flag=$debugprotocol?"-v ":"";
my $dir=$ENV{'srcdir'};
if($dir) {
$flag .= "-d \"$dir\" ";
}
my $cmd="$perl $srcdir/httpserver.pl -p $pidfile $fork$flag $port $ipv6";
my ($httppid, $pid2) =
startnew($cmd, $pidfile, 15, 0); # start the server in a new process
if($httppid <= 0 || !kill(0, $httppid)) {
# it is NOT alive
logmsg "RUN: failed to start the HTTP$nameext server\n";
stopserver("$pid2");
displaylogs($testnumcheck);
$doesntrun{$pidfile} = 1;
return (0,0);
}
# Server is up. Verify that we can speak to it.
my $pid3 = verifyserver("http", $ip, $port);
if(!$pid3) {
logmsg "RUN: HTTP$nameext server failed verification\n";
# failed to talk to it properly. Kill the server and return failure
stopserver("$httppid $pid2");
displaylogs($testnumcheck);
$doesntrun{$pidfile} = 1;
return (0,0);
}
$pid2 = $pid3;
if($verbose) {
logmsg "RUN: HTTP$nameext server is now running PID $httppid\n";
}
sleep(1);
return ($httppid, $pid2);
}
#######################################################################
# start the https server (or rather, tunnel)
#
sub runhttpsserver {
my ($verbose, $ipv6) = @_;
my $STATUS;
my $RUNNING;
my $ip = $HOSTIP;
my $pidfile = $HTTPSPIDFILE;
if(!$stunnel) {
return 0;
}
if($ipv6) {
# not complete yet
$ip = $HOST6IP;
}
# don't retry if the server doesn't work
if ($doesntrun{$pidfile}) {
return (0,0);
}
my $pid = checkserver($pidfile);
if($pid > 0) {
# kill previous stunnel!
stopserver($pid);
}
unlink($pidfile);
my $flag=$debugprotocol?"-v ":"";
my $cmd="$perl $srcdir/httpsserver.pl $flag -p https -s \"$stunnel\" -d $srcdir -r $HTTPPORT $HTTPSPORT";
my ($httpspid, $pid2) = startnew($cmd, $pidfile, 15, 0);
if($httpspid <= 0 || !kill(0, $httpspid)) {
# it is NOT alive
logmsg "RUN: failed to start the HTTPS server\n";
stopservers($verbose);
displaylogs($testnumcheck);
$doesntrun{$pidfile} = 1;
return(0,0);
}
# Server is up. Verify that we can speak to it.
my $pid3 = verifyserver("https", $ip, $HTTPSPORT);
if(!$pid3) {
logmsg "RUN: HTTPS server failed verification\n";
# failed to talk to it properly. Kill the server and return failure
stopserver("$httpspid $pid2");
displaylogs($testnumcheck);
$doesntrun{$pidfile} = 1;
return (0,0);
}
# Here pid3 is actually the pid returned by the unsecure-http server.
if($verbose) {
logmsg "RUN: HTTPS server is now running PID $httpspid\n";
}
sleep(1);
return ($httpspid, $pid2);
}
#######################################################################
# start the ftp server
#
sub runftpserver {
my ($id, $verbose, $ipv6) = @_;
my $STATUS;
my $RUNNING;
my $port = $id?$FTP2PORT:$FTPPORT;
# check for pidfile
my $pidfile = $id?$FTP2PIDFILE:$FTPPIDFILE;
my $ip=$HOSTIP;
my $nameext;
my $cmd;
if($ipv6) {
# if IPv6, use a different setup
$pidfile = $FTP6PIDFILE;
$port = $FTP6PORT;
$ip = $HOST6IP;
$nameext="-ipv6";
}
# don't retry if the server doesn't work
if ($doesntrun{$pidfile}) {
return (0,0);
}
my $pid = checkserver($pidfile);
if($pid > 0) {
stopserver($pid);
}
unlink($pidfile);
# start our server:
my $flag=$debugprotocol?"-v ":"";
$flag .= "-s \"$srcdir\" ";
my $addr;
if($id) {
$flag .="--id $id ";
}
if($ipv6) {
$flag .="--ipv6 ";
$addr = $HOST6IP;
} else {
$addr = $HOSTIP;
}
$cmd="$perl $srcdir/ftpserver.pl --pidfile $pidfile $flag --port $port --addr \"$addr\"";
my ($ftppid, $pid2) = startnew($cmd, $pidfile, 15, 0);
if($ftppid <= 0 || !kill(0, $ftppid)) {
# it is NOT alive
logmsg "RUN: failed to start the FTP$id$nameext server\n";
stopserver("$pid2");
displaylogs($testnumcheck);
$doesntrun{$pidfile} = 1;
return (0,0);
}
# Server is up. Verify that we can speak to it.
my $pid3 = verifyserver("ftp", $ip, $port);
if(!$pid3) {
logmsg "RUN: FTP$id$nameext server failed verification\n";
# failed to talk to it properly. Kill the server and return failure
stopserver("$ftppid $pid2");
displaylogs($testnumcheck);
$doesntrun{$pidfile} = 1;
return (0,0);
}
$pid2 = $pid3;
if($verbose) {
logmsg "RUN: FTP$id$nameext server is now running PID $ftppid\n";
}
sleep(1);
return ($pid2, $ftppid);
}
#######################################################################
# start the ftps server (or rather, tunnel)
#
sub runftpsserver {
my ($verbose, $ipv6) = @_;
my $STATUS;
my $RUNNING;
my $ip = $HOSTIP;
my $pidfile = $FTPSPIDFILE;
if(!$stunnel) {
return 0;
}
if($ipv6) {
# not complete yet
$ip = $HOST6IP;
}
# don't retry if the server doesn't work
if ($doesntrun{$pidfile}) {
return (0,0);
}
my $pid = checkserver($pidfile);
if($pid > 0) {
# kill previous stunnel!
stopserver($pid);
}
unlink($pidfile);
my $flag=$debugprotocol?"-v ":"";
my $cmd="$perl $srcdir/httpsserver.pl $flag -p ftps -s \"$stunnel\" -d $srcdir -r $FTPPORT $FTPSPORT";
my ($ftpspid, $pid2) = startnew($cmd, $pidfile, 15, 0);
if($ftpspid <= 0 || !kill(0, $ftpspid)) {
# it is NOT alive
logmsg "RUN: failed to start the FTPS server\n";
stopservers($verbose);
displaylogs($testnumcheck);
$doesntrun{$pidfile} = 1;
return(0,0);
}
# Server is up. Verify that we can speak to it.
my $pid3 = verifyserver("ftps", $ip, $FTPSPORT);
if(!$pid3) {
logmsg "RUN: FTPS server failed verification\n";
# failed to talk to it properly. Kill the server and return failure
stopserver("$ftpspid $pid2");
displaylogs($testnumcheck);
$doesntrun{$pidfile} = 1;
return (0,0);
}
# Here pid3 is actually the pid returned by the unsecure-ftp server.
if($verbose) {
logmsg "RUN: FTPS server is now running PID $ftpspid\n";
}
sleep(1);
return ($ftpspid, $pid2);
}
#######################################################################
# start the tftp server
#
sub runtftpserver {
my ($id, $verbose, $ipv6) = @_;
my $STATUS;
my $RUNNING;
my $port = $TFTPPORT;
# check for pidfile
my $pidfile = $TFTPPIDFILE;
my $ip=$HOSTIP;
my $nameext;
my $cmd;
if($ipv6) {
# if IPv6, use a different setup
$pidfile = $TFTP6PIDFILE;
$port = $TFTP6PORT;
$ip = $HOST6IP;
$nameext="-ipv6";
}
# don't retry if the server doesn't work
if ($doesntrun{$pidfile}) {
return (0,0);
}
my $pid = checkserver($pidfile);
if($pid > 0) {
stopserver($pid);
}
unlink($pidfile);
# start our server:
my $flag=$debugprotocol?"-v ":"";
$flag .= "-s \"$srcdir\" ";
if($id) {
$flag .="--id $id ";
}
if($ipv6) {
$flag .="--ipv6 ";
}
$cmd="./server/tftpd --pidfile $pidfile $flag $port";
my ($tftppid, $pid2) = startnew($cmd, $pidfile, 15, 0);
if($tftppid <= 0 || !kill(0, $tftppid)) {
# it is NOT alive
logmsg "RUN: failed to start the TFTP$id$nameext server\n";
stopserver("$pid2");
displaylogs($testnumcheck);
$doesntrun{$pidfile} = 1;
return (0,0);
}
# Server is up. Verify that we can speak to it.
my $pid3 = verifyserver("tftp", $ip, $port);
if(!$pid3) {
logmsg "RUN: TFTP$id$nameext server failed verification\n";
# failed to talk to it properly. Kill the server and return failure
stopserver("$tftppid $pid2");
displaylogs($testnumcheck);
$doesntrun{$pidfile} = 1;
return (0,0);
}
$pid2 = $pid3;
if($verbose) {
logmsg "RUN: TFTP$id$nameext server is now running PID $tftppid\n";
}
sleep(1);
return ($pid2, $tftppid);
}
#######################################################################
# Start the scp/sftp server
#
sub runsshserver {
my ($id, $verbose, $ipv6) = @_;
my $ip=$HOSTIP;
my $port = $SSHPORT;
my $socksport = $SOCKSPORT;
my $pidfile = $SSHPIDFILE;
# don't retry if the server doesn't work
if ($doesntrun{$pidfile}) {
return (0,0);
}
my $pid = checkserver($pidfile);
if($pid > 0) {
stopserver($pid);
}
unlink($pidfile);
my $flag=$verbose?'-v ':'';
$flag .= '-d ' if($debugprotocol);
my $cmd="$perl $srcdir/sshserver.pl ${flag}-u $USER -l $ip -p $port -s $socksport";
my ($sshpid, $pid2) = startnew($cmd, $pidfile, 60, 0);
# on loaded systems sshserver start up can take longer than the timeout
# passed to startnew, when this happens startnew completes without being
# able to read the pidfile and consequently returns a zero pid2 above.
if($sshpid <= 0 || !kill(0, $sshpid)) {
# it is NOT alive
logmsg "RUN: failed to start the SSH server\n";
stopserver("$pid2");
$doesntrun{$pidfile} = 1;
return (0,0);
}
# ssh server verification allows some extra time for the server to start up
# and gives us the opportunity of recovering the pid from the pidfile, when
# this verification succeeds the recovered pid is assigned to pid2.
my $pid3 = verifyserver("ssh",$ip,$port);
if(!$pid3) {
logmsg "RUN: SSH server failed verification\n";
# failed to fetch server pid. Kill the server and return failure
stopserver("$sshpid $pid2");
$doesntrun{$pidfile} = 1;
return (0,0);
}
$pid2 = $pid3;
# once it is known that the ssh server is alive, sftp server verification
# is performed actually connecting to it, authenticating and performing a
# very simple remote command. This verification is tried only one time.
if(verifysftp("sftp",$ip,$port) < 1) {
logmsg "RUN: SFTP server failed verification\n";
# failed to talk to it properly. Kill the server and return failure
display_sftplog();
display_sftpconfig();
display_sshdlog();
display_sshdconfig();
stopserver("$sshpid $pid2");
$doesntrun{$pidfile} = 1;
return (0,0);
}
if($verbose) {
logmsg "RUN: SSH server is now running PID $pid2\n";
}
return ($pid2, $sshpid);
}
#######################################################################
# Start the socks server
#
sub runsocksserver {
my ($id, $verbose, $ipv6) = @_;
my $ip=$HOSTIP;
my $port = $SOCKSPORT;
my $pidfile = $SOCKSPIDFILE;
# don't retry if the server doesn't work
if ($doesntrun{$pidfile}) {
return (0,0);
}
my $pid = checkserver($pidfile);
if($pid > 0) {
stopserver($pid);
}
unlink($pidfile);
# The ssh server must be already running
if(!$run{'ssh'}) {
logmsg "RUN: SOCKS server cannot find running SSH server\n";
$doesntrun{$pidfile} = 1;
return (0,0);
}
# Find out ssh daemon canonical file name
my $sshd = find_sshd();
if(!$sshd) {
logmsg "RUN: SOCKS server cannot find $sshdexe\n";
$doesntrun{$pidfile} = 1;
return (0,0);
}
# Find out ssh daemon version info
($sshdid, $sshdvernum, $sshdverstr, $sshderror) = sshversioninfo($sshd);
if(!$sshdid) {
# Not an OpenSSH or SunSSH ssh daemon
logmsg "$sshderror\n" if($verbose);
logmsg "SCP, SFTP and SOCKS tests require OpenSSH 2.9.9 or later\n";
$doesntrun{$pidfile} = 1;
return (0,0);
}
logmsg "ssh server found $sshd is $sshdverstr\n" if($verbose);
# Find out ssh client canonical file name
my $ssh = find_ssh();
if(!$ssh) {
logmsg "RUN: SOCKS server cannot find $sshexe\n";
$doesntrun{$pidfile} = 1;
return (0,0);
}
# Find out ssh client version info
my ($sshid, $sshvernum, $sshverstr, $ssherror) = sshversioninfo($ssh);
if(!$sshid) {
# Not an OpenSSH or SunSSH ssh client
logmsg "$ssherror\n" if($verbose);
logmsg "SCP, SFTP and SOCKS tests require OpenSSH 2.9.9 or later\n";
$doesntrun{$pidfile} = 1;
return (0,0);
}
# Verify minimum ssh client version
if((($sshid =~ /OpenSSH/) && ($sshvernum < 299)) ||
(($sshid =~ /SunSSH/) && ($sshvernum < 100))) {
logmsg "ssh client found $ssh is $sshverstr\n";
logmsg "SCP, SFTP and SOCKS tests require OpenSSH 2.9.9 or later\n";
$doesntrun{$pidfile} = 1;
return (0,0);
}
logmsg "ssh client found $ssh is $sshverstr\n" if($verbose);
# Verify if ssh client and ssh daemon versions match
if(($sshdid ne $sshid) || ($sshdvernum != $sshvernum)) {
# Our test harness might work with slightly mismatched versions
logmsg "Warning: version mismatch: sshd $sshdverstr - ssh $sshverstr\n"
if($verbose);
}
# Config file options for ssh client are previously set from sshserver.pl
if(! -e $sshconfig) {
logmsg "RUN: SOCKS server cannot find $sshconfig\n";
$doesntrun{$pidfile} = 1;
return (0,0);
}
# start our socks server
my $cmd="$ssh -N -F $sshconfig $ip > $sshlog 2>&1";
my ($sshpid, $pid2) = startnew($cmd, $pidfile, 30, 1);
if($sshpid <= 0 || !kill(0, $sshpid)) {
# it is NOT alive
logmsg "RUN: failed to start the SOCKS server\n";
display_sshlog();
display_sshconfig();
display_sshdlog();
display_sshdconfig();
stopserver("$pid2");
$doesntrun{$pidfile} = 1;
return (0,0);
}
# Ugly hack but ssh doesn't support pid files
my $pid3 = verifyserver("socks",$ip,$port);
if(!$pid3) {
logmsg "RUN: SOCKS server failed verification\n";
# failed to talk to it properly. Kill the server and return failure
stopserver("$sshpid $pid2");
$doesntrun{$pidfile} = 1;
return (0,0);
}
$pid2 = $pid3;
if($verbose) {
logmsg "RUN: SOCKS server is now running PID $pid2\n";
}
return ($pid2, $sshpid);
}
#######################################################################
# Remove all files in the specified directory
#
sub cleardir {
my $dir = $_[0];
my $count;
my $file;
# Get all files
opendir(DIR, $dir) ||
return 0; # can't open dir
while($file = readdir(DIR)) {
if($file !~ /^\./) {
unlink("$dir/$file");
$count++;
}
}
closedir DIR;
return $count;
}
#######################################################################
# filter out the specified pattern from the given input file and store the
# results in the given output file
#
sub filteroff {
my $infile=$_[0];
my $filter=$_[1];
my $ofile=$_[2];
open(IN, "<$infile")
|| return 1;
open(OUT, ">$ofile")
|| return 1;
# logmsg "FILTER: off $filter from $infile to $ofile\n";
while(<IN>) {
$_ =~ s/$filter//;
print OUT $_;
}
close(IN);
close(OUT);
return 0;
}
#######################################################################
# compare test results with the expected output, we might filter off
# some pattern that is allowed to differ, output test results
#
sub compare {
# filter off patterns _before_ this comparison!
my ($subject, $firstref, $secondref)=@_;
my $result = compareparts($firstref, $secondref);
if($result) {
if(!$short) {
logmsg "\n $subject FAILED:\n";
logmsg showdiff($LOGDIR, $firstref, $secondref);
}
else {
logmsg "FAILED\n";
}
}
return $result;
}
#######################################################################
# display information about curl and the host the test suite runs on
#
sub checksystem {
unlink($memdump); # remove this if there was one left
my $feat;
my $curl;
my $libcurl;
my $versretval;
my $versnoexec;
my @version=();
my $curlverout="$LOGDIR/curlverout.log";
my $curlvererr="$LOGDIR/curlvererr.log";
my $versioncmd="$CURL --version 1>$curlverout 2>$curlvererr";
unlink($curlverout);
unlink($curlvererr);
$versretval = runclient($versioncmd);
$versnoexec = $!;
open(VERSOUT, "<$curlverout");
@version = <VERSOUT>;
close(VERSOUT);
for(@version) {
chomp;
if($_ =~ /^curl/) {
$curl = $_;
$curl =~ s/^(.*)(libcurl.*)/$1/g;
$libcurl = $2;
if($curl =~ /mingw32/) {
# This is a windows minw32 build, we need to translate the
# given path to the "actual" windows path.
my @m = `mount`;
my $matchlen;
my $bestmatch;
my $mount;
# example mount output:
# C:\DOCUME~1\Temp on /tmp type user (binmode,noumount)
# c:\ActiveState\perl on /perl type user (binmode)
# C:\msys\1.0\bin on /usr/bin type user (binmode,cygexec,noumount)
# C:\msys\1.0\bin on /bin type user (binmode,cygexec,noumount)
foreach $mount (@m) {
if( $mount =~ /(.*) on ([^ ]*) type /) {
my ($mingw, $real)=($2, $1);
if($pwd =~ /^$mingw/) {
# the path we got from pwd starts with the path
# we found on this line in the mount output
my $len = length($real);
if($len > $matchlen) {
# we remember the match that is the longest
$matchlen = $len;
$bestmatch = $real;
}
}
}
}
if(!$matchlen) {
logmsg "Serious error, can't find our \"real\" path\n";
}
else {
# now prepend the prefix from the mount command to build
# our "actual path"
$pwd = "$bestmatch$pwd";
}
$pwd =~ s#\\#/#g;
}
elsif ($curl =~ /win32/) {
# Native Windows builds don't understand the
# output of cygwin's pwd. It will be
# something like /cygdrive/c/<some path>.
#
# Use the cygpath utility to convert the
# working directory to a Windows friendly
# path. The -m option converts to use drive
# letter:, but it uses / instead \. Forward
# slashes (/) are easier for us. We don't
# have to escape them to get them to curl
# through a shell.
chomp($pwd = `cygpath -m $pwd`);
}
elsif ($libcurl =~ /openssl/i) {
$has_openssl=1;
$ssllib="OpenSSL";
}
elsif ($libcurl =~ /gnutls/i) {
$has_gnutls=1;
$ssllib="GnuTLS";
}
elsif ($libcurl =~ /nss/i) {
$has_nss=1;
$ssllib="NSS";
}
elsif ($libcurl =~ /yassl/i) {
$has_yassl=1;
$has_openssl=1;
$ssllib="yassl";
}
}
elsif($_ =~ /^Protocols: (.*)/i) {
# these are the protocols compiled in to this libcurl
@protocols = split(' ', $1);
# Generate a "proto-ipv6" version of each protocol to match the
# IPv6 <server> name. This works even if IPv6 support isn't
# compiled in because the <features> test will fail.
push @protocols, map($_ . "-ipv6", @protocols);
# 'none' is used in test cases to mean no server
push @protocols, ('none');
}
elsif($_ =~ /^Features: (.*)/i) {
$feat = $1;
if($feat =~ /TrackMemory/i) {
# curl was built with --enable-curldebug (memory tracking)
$curl_debug = 1;
}
if($feat =~ /debug/i) {
# curl was built with --enable-debug
$debug_build = 1;
# set the NETRC debug env
$ENV{'CURL_DEBUG_NETRC'} = "$LOGDIR/netrc";
}
if($feat =~ /SSL/i) {
# ssl enabled
$ssl_version=1;
}
if($feat =~ /Largefile/i) {
# large file support
$large_file=1;
}
if($feat =~ /IDN/i) {
# IDN support
$has_idn=1;
}
if($feat =~ /IPv6/i) {
$has_ipv6 = 1;
}
if($feat =~ /libz/i) {
$has_libz = 1;
}
if($feat =~ /NTLM/i) {
# NTLM enabled
$has_ntlm=1;
}
if($feat =~ /CharConv/i) {
# CharConv enabled
$has_charconv=1;
}
}
}
if(!$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/config.h") {
open(CONF, "<../lib/config.h");
while(<CONF>) {
if($_ =~ /^\#define HAVE_GETRLIMIT/) {
$has_getrlimit = 1;
}
}
close(CONF);
}
if($has_ipv6) {
# client has ipv6 support
# check if the HTTP server has it!
my @sws = `server/sws --version`;
if($sws[0] =~ /IPv6/) {
# HTTP server has ipv6 support!
$http_ipv6 = 1;
}
# check if the FTP server has it!
@sws = `server/sockfilt --version`;
if($sws[0] =~ /IPv6/) {
# FTP server has ipv6 support!
$ftp_ipv6 = 1;
}
}
if(!$curl_debug && $torture) {
die "can't run torture tests since curl was not built with curldebug";
}
# curl doesn't list cryptographic support separately, so assume it's
# always available
$has_crypto=1;
my $hostname=join(' ', runclientoutput("hostname"));
my $hosttype=join(' ', runclientoutput("uname -a"));
logmsg ("********* System characteristics ******** \n",
"* $curl\n",
"* $libcurl\n",
"* Features: $feat\n",
"* Host: $hostname",
"* System: $hosttype");
logmsg sprintf("* Server SSL: %s\n", $stunnel?"ON":"OFF");
logmsg sprintf("* libcurl SSL: %s\n", $ssl_version?"ON":"OFF");
logmsg sprintf("* debug build: %s\n", $debug_build?"ON":"OFF");
logmsg sprintf("* track memory: %s\n", $curl_debug?"ON":"OFF");
logmsg sprintf("* valgrind: %s\n", $valgrind?"ON":"OFF");
logmsg sprintf("* HTTP IPv6 %s\n", $http_ipv6?"ON":"OFF");
logmsg sprintf("* FTP IPv6 %s\n", $ftp_ipv6?"ON":"OFF");
logmsg sprintf("* HTTP port: %d\n", $HTTPPORT);
logmsg sprintf("* FTP port: %d\n", $FTPPORT);
logmsg sprintf("* FTP port 2: %d\n", $FTP2PORT);
if($stunnel) {
logmsg sprintf("* FTPS port: %d\n", $FTPSPORT);
logmsg sprintf("* HTTPS port: %d\n", $HTTPSPORT);
}
if($http_ipv6) {
logmsg sprintf("* HTTP IPv6 port: %d\n", $HTTP6PORT);
}
if($ftp_ipv6) {
logmsg sprintf("* FTP IPv6 port: %d\n", $FTP6PORT);
}
logmsg sprintf("* TFTP port: %d\n", $TFTPPORT);
if($tftp_ipv6) {
logmsg sprintf("* TFTP IPv6 port: %d\n", $TFTP6PORT);
}
logmsg sprintf("* SCP/SFTP port: %d\n", $SSHPORT);
logmsg sprintf("* SOCKS port: %d\n", $SOCKSPORT);
if($ssl_version) {
logmsg sprintf("* SSL library: %s\n", $ssllib);
}
$has_textaware = ($^O eq 'MSWin32') || ($^O eq 'msys');
logmsg sprintf("* Libtool lib: %s\n", $libtool?"ON":"OFF");
logmsg "***************************************** \n";
}
#######################################################################
# substitute the variable stuff into either a joined up file or
# a command, in either case passed by reference
#
sub subVariables {
my ($thing) = @_;
$$thing =~ s/%HOSTIP/$HOSTIP/g;
$$thing =~ s/%HTTPPORT/$HTTPPORT/g;
$$thing =~ s/%HOST6IP/$HOST6IP/g;
$$thing =~ s/%HTTP6PORT/$HTTP6PORT/g;
$$thing =~ s/%HTTPSPORT/$HTTPSPORT/g;
$$thing =~ s/%FTPPORT/$FTPPORT/g;
$$thing =~ s/%FTP6PORT/$FTP6PORT/g;
$$thing =~ s/%FTP2PORT/$FTP2PORT/g;
$$thing =~ s/%FTPSPORT/$FTPSPORT/g;
$$thing =~ s/%SRCDIR/$srcdir/g;
$$thing =~ s/%PWD/$pwd/g;
$$thing =~ s/%TFTPPORT/$TFTPPORT/g;
$$thing =~ s/%TFTP6PORT/$TFTP6PORT/g;
$$thing =~ s/%SSHPORT/$SSHPORT/g;
$$thing =~ s/%SOCKSPORT/$SOCKSPORT/g;
$$thing =~ s/%CURL/$CURL/g;
$$thing =~ s/%USER/$USER/g;
$$thing =~ s/%CLIENTIP/$CLIENTIP/g;
$$thing =~ s/%CLIENT6IP/$CLIENT6IP/g;
# The purpose of FTPTIME2 and FTPTIME3 is to provide times that can be
# used for time-out tests and that whould work on most hosts as these
# adjust for the startup/check time for this particular host. We needed
# to do this to make the test suite run better on very slow hosts.
my $ftp2 = $ftpchecktime * 2;
my $ftp3 = $ftpchecktime * 3;
$$thing =~ s/%FTPTIME2/$ftp2/g;
$$thing =~ s/%FTPTIME3/$ftp3/g;
}
sub fixarray {
my @in = @_;
for(@in) {
subVariables \$_;
}
return @in;
}
#######################################################################
# Run a single specified test case
#
sub singletest {
my ($testnum, $count, $total)=@_;
my @what;
my $why;
my %feature;
my $cmd;
# copy test number to a global scope var, this allows
# testnum checking when starting test harness servers.
$testnumcheck = $testnum;
# load the test case file definition
if(loadtest("${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");
}
for(@what) {
my $f = $_;
$f =~ s/\s//g;
$feature{$f}=$f; # we require this feature
if($f eq "SSL") {
if($ssl_version) {
next;
}
}
elsif($f eq "OpenSSL") {
if($has_openssl) {
next;
}
}
elsif($f eq "GnuTLS") {
if($has_gnutls) {
next;
}
}
elsif($f eq "NSS") {
if($has_nss) {
next;
}
}
elsif($f eq "netrc_debug") {
if($debug_build) {
next;
}
}
elsif($f eq "large_file") {
if($large_file) {
next;
}
}
elsif($f eq "idn") {
if($has_idn) {
next;
}
}
elsif($f eq "ipv6") {
if($has_ipv6) {
next;
}
}
elsif($f eq "libz") {
if($has_libz) {
next;
}
}
elsif($f eq "NTLM") {
if($has_ntlm) {
next;
}
}
elsif($f eq "getrlimit") {
if($has_getrlimit) {
next;
}
}
elsif($f eq "crypto") {
if($has_crypto) {
next;
}
}
elsif($f eq "socks") {
next;
}
# See if this "feature" is in the list of supported protocols
elsif (grep /^$f$/, @protocols) {
next;
}
$why = "curl lacks $f support";
last;
}
if(!$why) {
my @keywords = getpart("info", "keywords");
my $match;
my $k;
for $k (@keywords) {
chomp $k;
if ($disabled_keywords{$k}) {
$why = "disabled by keyword";
} elsif ($enabled_keywords{$k}) {
$match = 1;
}
}
if(!$why && !$match && %enabled_keywords) {
$why = "disabled by missing keyword";
}
}
if(!$why) {
$why = serverfortest($testnum);
}
if(!$why) {
my @precheck = getpart("client", "precheck");
$cmd = $precheck[0];
chomp $cmd;
subVariables \$cmd;
if($cmd) {
my @o = `$cmd 2>/dev/null`;
if($o[0]) {
$why = $o[0];
chomp $why;
} elsif($?) {
$why = "precheck command error";
}
logmsg "prechecked $cmd\n" if($verbose);
}
}
if($why && !$listonly) {
# there's a problem, count it as "skipped"
$skipped++;
$skipped{$why}++;
$teststat[$testnum]=$why; # store reason for this test case
if(!$short) {
printf "test %03d SKIPPED: $why\n", $testnum;
}
return -1;
}
logmsg sprintf("test %03d...", $testnum);
# extract the reply data
my @reply = getpart("reply", "data");
my @replycheck = getpart("reply", "datacheck");
if (@replycheck) {
# we use this file instead to check the final output against
my %hash = getpartattr("reply", "datacheck");
if($hash{'nonewline'}) {
# Yes, we must cut off the final newline from the final line
# of the datacheck
chomp($replycheck[$#replycheck]);
}
@reply=@replycheck;
}
# curl command to run
my @curlcmd= fixarray ( getpart("client", "command") );
# this is the valid protocol blurb curl should generate
my @protocol= fixarray ( getpart("verify", "protocol") );
# redirected stdout/stderr to these files
$STDOUT="$LOGDIR/stdout$testnum";
$STDERR="$LOGDIR/stderr$testnum";
# if this section exists, we verify that the stdout contained this:
my @validstdout = fixarray ( getpart("verify", "stdout") );
# if this section exists, we verify upload
my @upload = getpart("verify", "upload");
# if this section exists, it might be FTP server instructions:
my @ftpservercmd = getpart("reply", "servercmd");
my $CURLOUT="$LOGDIR/curl$testnum.out"; # curl output if not stdout
# name of the test
my @testname= getpart("client", "name");
if(!$short) {
my $name = $testname[0];
$name =~ s/\n//g;
logmsg "[$name]\n";
}
if($listonly) {
return 0; # look successful
}
my @codepieces = getpart("client", "tool");
my $tool="";
if(@codepieces) {
$tool = $codepieces[0];
chomp $tool;
}
# remove server output logfiles
unlink($SERVERIN);
unlink($SERVER2IN);
if(@ftpservercmd) {
# write the instructions to file
writearray($FTPDCMD, \@ftpservercmd);
}
my (@setenv)= getpart("client", "setenv");
my @envs;
my $s;
for $s (@setenv) {
chomp $s; # cut off the newline
subVariables \$s;
if($s =~ /([^=]*)=(.*)/) {
my ($var, $content)=($1, $2);
$ENV{$var}=$content;
# remember which, so that we can clear them afterwards!
push @envs, $var;
}
}
# get the command line options to use
my @blaha;
($cmd, @blaha)= getpart("client", "command");
# make some nice replace operations
$cmd =~ s/\n//g; # no newlines please
# substitute variables in the command line
subVariables \$cmd;
if($curl_debug) {
unlink($memdump);
}
# create a (possibly-empty) file before starting the test
my @inputfile=getpart("client", "file");
my %fileattr = getpartattr("client", "file");
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);
subVariables \$fileContent;
# logmsg "DEBUG: writing file " . $filename . "\n";
open(OUTFILE, ">$filename");
binmode OUTFILE; # for crapage systems, use binary
print OUTFILE $fileContent;
close(OUTFILE);
}
my %cmdhash = getpartattr("client", "command");
my $out="";
if($cmdhash{'option'} !~ /no-output/) {
#We may slap on --output!
if (!@validstdout) {
$out=" --output $CURLOUT ";
}
}
my $serverlogslocktimeout = $defserverlogslocktimeout;
if($cmdhash{'timeout'}) {
# test is allowed to override default server logs lock timeout
if($cmdhash{'timeout'} =~ /(\d+)/) {
$serverlogslocktimeout = $1 if($1 >= 0);
}
}
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);
}
}
my $cmdargs;
if(!$tool) {
# run curl, add --verbose for debug information output
$cmdargs ="$out --include --verbose --trace-time $cmd";
}
else {
$cmdargs = " $cmd"; # $cmd is the command line for the test file
$CURLOUT = $STDOUT; # sends received data to stdout
}
my @stdintest = getpart("client", "stdin");
if(@stdintest) {
my $stdinfile="$LOGDIR/stdin-for-$testnum";
writearray($stdinfile, \@stdintest);
$cmdargs .= " <$stdinfile";
}
my $CMDLINE;
if(!$tool) {
$CMDLINE="$CURL";
}
else {
$CMDLINE="$LIBDIR/$tool";
if(! -f $CMDLINE) {
print "The tool set in the test case for this: '$tool' does not exist\n";
return -1;
}
$DBGCURL=$CMDLINE;
}
my $usevalgrind = $valgrind && ((getpart("verify", "valgrind"))[0] !~ /disable/);
if($usevalgrind) {
$CMDLINE = "$valgrind ".$valgrind_tool."--leak-check=yes --num-callers=16 ${valgrind_logfile}=$LOGDIR/valgrind$testnum $CMDLINE";
}
$CMDLINE .= "$cmdargs >>$STDOUT 2>>$STDERR";
if($verbose) {
logmsg "$CMDLINE\n";
}
print CMDLOG "$CMDLINE\n";
unlink("core");
my $dumped_core;
my $cmdres;
# Apr 2007: precommand isn't being used and could be removed
my @precommand= getpart("client", "precommand");
if($precommand[0]) {
# this is pure perl to eval!
my $code = join("", @precommand);
eval $code;
if($@) {
logmsg "perl: $code\n";
logmsg "precommand: $@";
stopservers($verbose);
return -1;
}
}
if($gdbthis) {
my $gdbinit = "$TESTDIR/gdbinit$testnum";
open(GDBCMD, ">$LOGDIR/gdbcmd");
print GDBCMD "set args $cmdargs\n";
print GDBCMD "show args\n";
print GDBCMD "source $gdbinit\n" if -e $gdbinit;
close(GDBCMD);
}
# run the command line we built
if ($torture) {
$cmdres = torture($CMDLINE,
"$gdb --directory libtest $DBGCURL -x $LOGDIR/gdbcmd");
}
elsif($gdbthis) {
runclient("$gdb --directory libtest $DBGCURL -x $LOGDIR/gdbcmd");
$cmdres=0; # makes it always continue after a debugged run
}
else {
$cmdres = runclient("$CMDLINE");
my $signal_num = $cmdres & 127;
$dumped_core = $cmdres & 128;
if(!$anyway && ($signal_num || $dumped_core)) {
$cmdres = 1000;
}
else {
$cmdres >>= 8;
$cmdres = (2000 + $signal_num) if($signal_num && !$cmdres);
}
}
if(!$dumped_core) {
if(-r "core") {
# there's core file present now!
$dumped_core = 1;
}
}
if($dumped_core) {
logmsg "core dumped\n";
if(0 && $gdb) {
logmsg "running gdb for post-mortem analysis:\n";
open(GDBCMD, ">$LOGDIR/gdbcmd2");
print GDBCMD "bt\n";
close(GDBCMD);
runclient("$gdb --directory libtest -x $LOGDIR/gdbcmd2 -batch $DBGCURL core ");
# unlink("$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.
if($serverlogslocktimeout) {
my $lockretry = $serverlogslocktimeout * 4;
while((-f $SERVERLOGS_LOCK) && $lockretry--) {
select(undef, undef, undef, 0.25);
}
if(($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.
sleep($postcommanddelay) if($postcommanddelay);
# run the postcheck command
my @postcheck= getpart("client", "postcheck");
$cmd = $postcheck[0];
chomp $cmd;
subVariables \$cmd;
if($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;
}
}
# remove the special FTP command file after each test!
unlink($FTPDCMD);
my $e;
for $e (@envs) {
$ENV{$e}=""; # clean up
}
# Skip all the verification on torture tests
if ($torture) {
if(!$cmdres && !$keepoutfiles) {
cleardir($LOGDIR);
}
return $cmdres;
}
my @err = getpart("verify", "errorcode");
my $errorcode = $err[0] || "0";
my $ok="";
my $res;
if (@validstdout) {
# verify redirected stdout
my @actual = loadarray($STDOUT);
# variable-replace in the stdout we have from the test case file
@validstdout = fixarray(@validstdout);
# get all attributes
my %hash = getpartattr("verify", "stdout");
# get the mode attribute
my $filemode=$hash{'mode'};
if(($filemode eq "text") && $has_textaware) {
# text mode when running on windows: fix line endings
map s/\r\n/\n/g, @actual;
}
if($hash{'nonewline'}) {
# Yes, we must cut off the final newline from the final line
# of the protocol data
chomp($validstdout[$#validstdout]);
}
$res = compare("stdout", \@actual, \@validstdout);
if($res) {
return 1;
}
$ok .= "s";
}
else {
$ok .= "-"; # stdout not checked
}
my %replyattr = getpartattr("reply", "data");
if(!$replyattr{'nocheck'} && (@reply || $replyattr{'sendzero'})) {
# verify the received data
my @out = loadarray($CURLOUT);
my %hash = getpartattr("reply", "data");
# get the mode attribute
my $filemode=$hash{'mode'};
if(($filemode eq "text") && $has_textaware) {
# text mode when running on windows: fix line endings
map s/\r\n/\n/g, @out;
}
$res = compare("data", \@out, \@reply);
if ($res) {
return 1;
}
$ok .= "d";
}
else {
$ok .= "-"; # data not checked
}
if(@upload) {
# verify uploaded data
my @out = loadarray("$LOGDIR/upload.$testnum");
$res = compare("upload", \@out, \@upload);
if ($res) {
return 1;
}
$ok .= "u";
}
else {
$ok .= "-"; # upload not checked
}
if(@protocol) {
# Verify the sent request
my @out = loadarray($SERVERIN);
# what to cut off from the live protocol sent by curl
my @strip = getpart("verify", "strip");
my @protstrip=@protocol;
# check if there's any attributes on the verify/protocol section
my %hash = getpartattr("verify", "protocol");
if($hash{'nonewline'}) {
# Yes, we must cut off the final newline from the final line
# of the protocol data
chomp($protstrip[$#protstrip]);
}
for(@strip) {
# strip off all lines that match the patterns from both arrays
chomp $_;
@out = striparray( $_, \@out);
@protstrip= striparray( $_, \@protstrip);
}
# what parts to cut off from the protocol
my @strippart = getpart("verify", "strippart");
my $strip;
for $strip (@strippart) {
chomp $strip;
for(@out) {
eval $strip;
}
}
$res = compare("protocol", \@out, \@protstrip);
if($res) {
return 1;
}
$ok .= "p";
}
else {
$ok .= "-"; # protocol not checked
}
my @outfile=getpart("verify", "file");
if(@outfile) {
# we're supposed to verify a dynamically generated file!
my %hash = getpartattr("verify", "file");
my $filename=$hash{'name'};
if(!$filename) {
logmsg "ERROR: section verify=>file has no name attribute\n";
stopservers($verbose);
return -1;
}
my @generated=loadarray($filename);
# what parts to cut off from the file
my @stripfile = getpart("verify", "stripfile");
my $filemode=$hash{'mode'};
if(($filemode eq "text") && $has_textaware) {
# text mode when running on windows means adding an extra
# strip expression
push @stripfile, "s/\r\n/\n/";
}
my $strip;
for $strip (@stripfile) {
chomp $strip;
for(@generated) {
eval $strip;
}
}
@outfile = fixarray(@outfile);
$res = compare("output", \@generated, \@outfile);
if($res) {
return 1;
}
$ok .= "o";
}
else {
$ok .= "-"; # output not checked
}
# accept multiple comma-separated error codes
my @splerr = split(/ *, */, $errorcode);
my $errok;
foreach $e (@splerr) {
if($e == $cmdres) {
# a fine error code
$errok = 1;
last;
}
}
if($errok) {
$ok .= "e";
}
else {
if(!$short) {
printf("\n%s returned $cmdres, %d was expected\n",
(!$tool)?"curl":$tool, $errorcode);
}
logmsg " exit FAILED\n";
return 1;
}
@what = getpart("client", "killserver");
for(@what) {
my $serv = $_;
chomp $serv;
if($serv =~ /^ftp(\d*)(-ipv6|)/) {
my ($id, $ext) = ($1, $2);
#print STDERR "SERV $serv $id $ext\n";
ftpkillslave($id, $ext, $verbose);
}
if($run{$serv}) {
stopserver($run{$serv}); # the pid file is in the hash table
$run{$serv}=0; # clear pid
}
else {
logmsg "RUN: The $serv server is not running\n";
}
}
if($curl_debug) {
if(! -f $memdump) {
logmsg "\n** ALERT! memory debugging with no output file?\n";
}
else {
my @memdata=`$memanalyze $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;
return 1;
}
else {
$ok .= "m";
}
}
}
else {
$ok .= "-"; # memory not checked
}
if($valgrind) {
# this is the valid protocol blurb curl should generate
if($usevalgrind) {
opendir(DIR, "log") ||
return 0; # can't open log dir
my @files = readdir(DIR);
closedir(DIR);
my $f;
my $l;
foreach $f (@files) {
if($f =~ /^valgrind$testnum\.pid/) {
$l = $f;
last;
}
}
my $src=$ENV{'srcdir'};
if(!$src) {
$src=".";
}
my @e = valgrindparse($src, $feature{'SSL'}, "$LOGDIR/$l");
if($e[0]) {
logmsg " valgrind ERROR ";
logmsg @e;
return 1;
}
$ok .= "v";
}
else {
if(!$short) {
logmsg " valgrind SKIPPED\n";
}
$ok .= "-"; # skipped
}
}
else {
$ok .= "-"; # valgrind not checked
}
logmsg "$ok " if(!$short);
my $sofar= time()-$start;
my $esttotal = $sofar/$count * $total;
my $estleft = $esttotal - $sofar;
my $left=sprintf("remaining: %02d:%02d",
$estleft/60,
$estleft%60);
printf "OK (%-3d out of %-3d, %s)\n", $count, $total, $left;
# the test succeeded, remove all log files
if(!$keepoutfiles) {
cleardir($LOGDIR);
}
unlink($FTPDCMD); # remove the instructions for this test
return 0;
}
#######################################################################
# Stop all running test servers
sub stopservers {
my ($verbose)=@_;
for(keys %run) {
my $server = $_;
my $pids=$run{$server};
my $pid;
my $prev;
foreach $pid (split(" ", $pids)) {
if($pid != $prev) {
# no need to kill same pid twice!
logmsg sprintf("* kill pid for %s => %d\n",
$server, $pid) if($verbose);
stopserver($pid);
}
$prev = $pid;
}
delete $run{$server};
}
ftpkillslaves($verbose);
}
#######################################################################
# startservers() starts all the named servers
#
# Returns: string with error reason or blank for success
sub startservers {
my @what = @_;
my ($pid, $pid2);
for(@what) {
my $what = lc($_);
$what =~ s/[^a-z0-9-]//g;
if($what eq "ftp") {
if(!$run{'ftp'}) {
($pid, $pid2) = runftpserver("", $verbose);
if($pid <= 0) {
return "failed starting FTP server";
}
printf ("* pid ftp => %d %d\n", $pid, $pid2) if($verbose);
$run{'ftp'}="$pid $pid2";
}
}
elsif($what eq "ftp2") {
if(!$run{'ftp2'}) {
($pid, $pid2) = runftpserver("2", $verbose);
if($pid <= 0) {
return "failed starting FTP2 server";
}
printf ("* pid ftp2 => %d %d\n", $pid, $pid2) if($verbose);
$run{'ftp2'}="$pid $pid2";
}
}
elsif($what eq "ftp-ipv6") {
if(!$run{'ftp-ipv6'}) {
($pid, $pid2) = runftpserver("", $verbose, "ipv6");
if($pid <= 0) {
return "failed starting FTP-IPv6 server";
}
logmsg sprintf("* pid ftp-ipv6 => %d %d\n", $pid,
$pid2) if($verbose);
$run{'ftp-ipv6'}="$pid $pid2";
}
}
elsif($what eq "http") {
if(!$run{'http'}) {
($pid, $pid2) = runhttpserver($verbose);
if($pid <= 0) {
return "failed starting HTTP server";
}
printf ("* pid http => %d %d\n", $pid, $pid2) if($verbose);
$run{'http'}="$pid $pid2";
}
}
elsif($what eq "http-ipv6") {
if(!$run{'http-ipv6'}) {
($pid, $pid2) = runhttpserver($verbose, "IPv6");
if($pid <= 0) {
return "failed starting HTTP-IPv6 server";
}
logmsg sprintf("* pid http-ipv6 => %d %d\n", $pid, $pid2)
if($verbose);
$run{'http-ipv6'}="$pid $pid2";
}
}
elsif($what eq "ftps") {
if(!$stunnel) {
# we can't run ftps tests without stunnel
return "no stunnel";
}
if(!$ssl_version) {
# we can't run ftps tests if libcurl is SSL-less
return "curl lacks SSL support";
}
if(!$run{'ftp'}) {
($pid, $pid2) = runftpserver("", $verbose);
if($pid <= 0) {
return "failed starting FTP server";
}
printf ("* pid ftp => %d %d\n", $pid, $pid2) if($verbose);
$run{'ftp'}="$pid $pid2";
}
if(!$run{'ftps'}) {
($pid, $pid2) = runftpsserver($verbose);
if($pid <= 0) {
return "failed starting FTPS server (stunnel)";
}
logmsg sprintf("* pid ftps => %d %d\n", $pid, $pid2)
if($verbose);
$run{'ftps'}="$pid $pid2";
}
}
elsif($what eq "file") {
# we support it but have no server!
}
elsif($what eq "https") {
if(!$stunnel) {
# we can't run ftps tests without stunnel
return "no stunnel";
}
if(!$ssl_version) {
# we can't run ftps tests if libcurl is SSL-less
return "curl lacks SSL support";
}
if(!$run{'http'}) {
($pid, $pid2) = runhttpserver($verbose);
if($pid <= 0) {
return "failed starting HTTP server";
}
printf ("* pid http => %d %d\n", $pid, $pid2) if($verbose);
$run{'http'}="$pid $pid2";
}
if(!$run{'https'}) {
($pid, $pid2) = runhttpsserver($verbose);
if($pid <= 0) {
return "failed starting HTTPS server (stunnel)";
}
logmsg sprintf("* pid https => %d %d\n", $pid, $pid2)
if($verbose);
$run{'https'}="$pid $pid2";
}
}
elsif($what eq "tftp") {
if(!$run{'tftp'}) {
($pid, $pid2) = runtftpserver("", $verbose);
if($pid <= 0) {
return "failed starting TFTP server";
}
printf ("* pid tftp => %d %d\n", $pid, $pid2) if($verbose);
$run{'tftp'}="$pid $pid2";
}
}
elsif($what eq "tftp-ipv6") {
if(!$run{'tftp-ipv6'}) {
($pid, $pid2) = runtftpserver("", $verbose, "IPv6");
if($pid <= 0) {
return "failed starting TFTP-IPv6 server";
}
printf("* pid tftp-ipv6 => %d %d\n", $pid, $pid2) if($verbose);
$run{'tftp-ipv6'}="$pid $pid2";
}
}
elsif($what eq "sftp" || $what eq "scp" || $what eq "socks4" || $what eq "socks5" ) {
if(!$run{'ssh'}) {
($pid, $pid2) = runsshserver("", $verbose);
if($pid <= 0) {
return "failed starting SSH server";
}
printf ("* pid ssh => %d %d\n", $pid, $pid2) if($verbose);
$run{'ssh'}="$pid $pid2";
}
if($what eq "socks4" || $what eq "socks5") {
if(!$run{'socks'}) {
($pid, $pid2) = runsocksserver("", $verbose);
if($pid <= 0) {
return "failed starting socks server";
}
printf ("* pid socks => %d %d\n", $pid, $pid2) if($verbose);
$run{'socks'}="$pid $pid2";
}
}
if($what eq "socks5") {
if(!$sshdid) {
# Not an OpenSSH or SunSSH ssh daemon
logmsg "Not OpenSSH or SunSSH; socks5 tests need at least OpenSSH 3.7\n";
return "failed starting socks5 server";
}
elsif(($sshdid =~ /OpenSSH/) && ($sshdvernum < 370)) {
# Need OpenSSH 3.7 for socks5 - http://www.openssh.com/txt/release-3.7
logmsg "$sshdverstr insufficient; socks5 tests need at least OpenSSH 3.7\n";
return "failed starting socks5 server";
}
elsif(($sshdid =~ /SunSSH/) && ($sshdvernum < 100)) {
# Need SunSSH 1.0 for socks5
logmsg "$sshdverstr insufficient; socks5 tests need at least SunSSH 1.0\n";
return "failed starting socks5 server";
}
}
}
elsif($what eq "none") {
logmsg "* starts no server\n" if ($verbose);
}
else {
warn "we don't support a server for $what";
return "no server for $what";
}
}
return 0;
}
##############################################################################
# This function makes sure the right set of server is running for the
# specified test case. This is a useful design when we run single tests as not
# all servers need to run then!
#
# Returns: a string, blank if everything is fine or a reason why it failed
#
sub serverfortest {
my ($testnum)=@_;
my @what = getpart("client", "server");
if(!$what[0]) {
warn "Test case $testnum has no server(s) specified";
return "no server specified";
}
for (@what) {
my $proto = lc($_);
chomp $proto;
if (! grep /^$proto$/, @protocols) {
if (substr($proto,0,5) ne "socks") {
return "curl lacks $proto support";
}
}
}
return &startservers(@what);
}
#######################################################################
# Check options to this test program
#
my $number=0;
my $fromnum=-1;
my @testthis;
my %disabled;
while(@ARGV) {
if ($ARGV[0] eq "-v") {
# verbose output
$verbose=1;
}
elsif($ARGV[0] =~ /^-b(.*)/) {
my $portno=$1;
if($portno =~ s/(\d+)$//) {
$base = int $1;
}
}
elsif ($ARGV[0] eq "-c") {
# use this path to curl instead of default
$DBGCURL=$CURL=$ARGV[1];
shift @ARGV;
}
elsif ($ARGV[0] eq "-d") {
# have the servers display protocol output
$debugprotocol=1;
}
elsif ($ARGV[0] eq "-f") {
# run fork-servers, which makes the server fork for all new
# connections This is NOT what you wanna do without knowing exactly
# why and for what
$forkserver=1;
}
elsif ($ARGV[0] eq "-g") {
# run this test with gdb
$gdbthis=1;
}
elsif($ARGV[0] eq "-s") {
# short output
$short=1;
}
elsif($ARGV[0] eq "-n") {
# no valgrind
undef $valgrind;
}
elsif($ARGV[0] =~ /^-t(.*)/) {
# torture
$torture=1;
my $xtra = $1;
if($xtra =~ s/(\d+)$//) {
$tortalloc = $1;
}
# we undef valgrind to make this fly in comparison
undef $valgrind;
}
elsif($ARGV[0] eq "-a") {
# continue anyway, even if a test fail
$anyway=1;
}
elsif($ARGV[0] eq "-p") {
$postmortem=1;
}
elsif($ARGV[0] eq "-l") {
# lists the test case names only
$listonly=1;
}
elsif($ARGV[0] eq "-k") {
# keep stdout and stderr files after tests
$keepoutfiles=1;
}
elsif(($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
-bN use base port number N for test servers (default $base)
-c path use this curl executable
-d display server debug info
-g run the test case with gdb
-h this help text
-k keep stdout and stderr files present after tests
-l list all test case names/descriptions
-n no valgrind
-p print log file contents when a test fails
-s short output
-t[N] torture (simulate memory alloc failures); N means fail Nth alloc
-v verbose output
[num] like "5 6 9" or " 5 to 22 " to run those tests only
[!num] like "!5 !6 !9" to disable those tests
[keyword] like "IPv6" to select only tests containing the key word
[!keyword] like "!cookies" to disable any tests containing the key word
EOHELP
;
exit;
}
elsif($ARGV[0] =~ /^(\d+)/) {
$number = $1;
if($fromnum >= 0) {
for($fromnum .. $number) {
push @testthis, $_;
}
$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] =~ /^!(.+)/) {
$disabled_keywords{$1}=$1;
}
elsif($ARGV[0] =~ /^([-[{a-zA-Z].*)/) {
$enabled_keywords{$1}=$1;
}
else {
print "Unknown option: $ARGV[0]\n";
exit;
}
shift @ARGV;
}
if($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 $valgrind;
} else {
# since valgrind 2.1.x, '--tool' option is mandatory
# use it, if it is supported by the version installed on the system
runclient("valgrind --help 2>&1 | grep -- --tool > /dev/null 2>&1");
if (($? >> 8)==0) {
$valgrind_tool="--tool=memcheck ";
}
open(C, "<$CURL");
my $l = <C>;
if($l =~ /^\#\!/) {
# A shell script. This is typically when built with libtool,
$valgrind="../libtool --mode=execute $valgrind";
}
close(C);
# valgrind 3 renamed the --logfile option to --log-file!!!
my $ver=join(' ', runclientoutput("valgrind --version"));
# cut off all but digits and dots
$ver =~ s/[^0-9.]//g;
if($ver >= 3) {
$valgrind_logfile="--log-file";
}
}
}
if ($gdbthis) {
# open the executable curl and read the first 4 bytes of it
open(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";
}
}
$HTTPPORT = $base + 0; # HTTP server port
$HTTPSPORT = $base + 1; # HTTPS server port
$FTPPORT = $base + 2; # FTP server port
$FTPSPORT = $base + 3; # FTPS server port
$HTTP6PORT = $base + 4; # HTTP IPv6 server port (different IP protocol
# but we follow the same port scheme anyway)
$FTP2PORT = $base + 5; # FTP server 2 port
$FTP6PORT = $base + 6; # FTP IPv6 port
$TFTPPORT = $base + 7; # TFTP (UDP) port
$TFTP6PORT = $base + 8; # TFTP IPv6 (UDP) port
$SSHPORT = $base + 9; # SSH (SCP/SFTP) port
$SOCKSPORT = $base + 10; # SOCKS port
#######################################################################
# clear and create logging directory:
#
cleardir($LOGDIR);
mkdir($LOGDIR, 0777);
#######################################################################
# Output curl version and host info being tested
#
if(!$listonly) {
checksystem();
}
#######################################################################
# 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);
open(D, "<$TESTDIR/DISABLED");
while(<D>) {
if(/^ *\#/) {
# allow comments
next;
}
if($_ =~ /(\d+)/) {
$disabled{$1}=$1; # disable this test number
}
}
close(D);
$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++;
$skipped{$why}++;
$teststat[$n]=$why; # store reason for this test case
next;
}
$TESTCASES .= " $n";
}
}
#######################################################################
# Start the command line log
#
open(CMDLOG, ">$CURLLOG") ||
logmsg "can't log command lines to $CURLLOG\n";
#######################################################################
# Display the contents of the given file. Line endings are canonicalized
# and excessively long files are elided
sub displaylogcontent {
my ($file)=@_;
if(open(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("\n", $string)) {
$line =~ s/\s*\!$//;
if ($truncate) {
push @tail, " $line\n";
} else {
logmsg " $line\n";
}
$linecount++;
$truncate = $linecount > 1000;
}
}
if (@tail) {
logmsg "=== File too long: lines here were removed\n";
# This won't work properly if time stamps are enabled in logmsg
logmsg join('',@tail[$#tail-200..$#tail]);
}
close(SINGLE);
}
}
sub displaylogs {
my ($testnum)=@_;
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(($log =~ /^valgrind\d+/) && ($log !~ /^valgrind$testnum/)) {
next; # skip valgrindNnn of other tests
}
logmsg "=== Start of file $log\n";
displaylogcontent("$LOGDIR/$log");
logmsg "=== End of file $log\n";
}
}
#######################################################################
# The main test-loop
#
my $failed;
my $testnum;
my $ok=0;
my $total=0;
my $lasttest;
my @at = split(" ", $TESTCASES);
my $count=0;
$start = time();
foreach $testnum (@at) {
$lasttest = $testnum if($testnum > $lasttest);
$count++;
my $error = singletest($testnum, $count, scalar(@at));
if($error < 0) {
# not a test we can run
next;
}
$total++; # number of tests we've run
if($error>0) {
$failed.= "$testnum ";
if($postmortem) {
# display all files in log/ in a nice way
displaylogs($testnum);
}
if(!$anyway) {
# a test failed, abort
logmsg "\n - abort tests\n";
last;
}
}
elsif(!$error) {
$ok++; # successful test counter
}
# loop for next test
}
#######################################################################
# Close command log
#
close(CMDLOG);
# Tests done, stop the servers
stopservers($verbose);
unlink($SOCKSPIDFILE);
my $all = $total + $skipped;
if($total) {
logmsg sprintf("TESTDONE: $ok tests out of $total reported OK: %d%%\n",
$ok/$total*100);
if($ok != $total) {
logmsg "TESTFAIL: These test cases failed: $failed\n";
}
}
else {
logmsg "TESTFAIL: No tests were performed\n";
}
if($all) {
my $sofar = time()-$start;
logmsg "TESTDONE: $all tests were considered during $sofar seconds.\n";
}
if($skipped) {
my $s=0;
logmsg "TESTINFO: $skipped tests were skipped due to these restraints:\n";
for(keys %skipped) {
my $r = $_;
printf "TESTINFO: \"%s\" %d times (", $r, $skipped{$_};
# now show all test case numbers that had this reason for being
# skipped
my $c=0;
for(0 .. scalar @teststat) {
my $t = $_;
if($teststat[$_] eq $r) {
logmsg ", " if($c);
logmsg $_;
$c++;
}
}
logmsg ")\n";
}
}
if($total && ($ok != $total)) {
exit 1;
}