#!/usr/bin/perl # Bootstrap Samba and run a number of tests against it. # Copyright (C) 2005-2007 Jelmer Vernooij # Published under the GNU GPL, v3 or later. package Samba3; use strict; use Cwd qw(abs_path); use FindBin qw($RealBin); use POSIX; use target::Samba; sub have_ads($) { my ($self) = @_; my $found_ads = 0; my $smbd_build_options = Samba::bindir_path($self, "smbd") . " -b|"; open(IN, $smbd_build_options) or die("Unable to run $smbd_build_options: $!"); while () { if (/WITH_ADS/) { $found_ads = 1; } } close IN; # If we were not built with ADS support, pretend we were never even available print "smbd does not have ADS support\n" unless $found_ads; return $found_ads; } sub new($$) { my ($classname, $bindir, $binary_mapping, $srcdir, $server_maxtime) = @_; my $self = { vars => {}, bindir => $bindir, binary_mapping => $binary_mapping, srcdir => $srcdir, server_maxtime => $server_maxtime }; bless $self; return $self; } sub teardown_env($$) { my ($self, $envvars) = @_; my $count = 0; # This should cause smbd to terminate gracefully close($envvars->{STDIN_PIPE}); my $smbdpid = $envvars->{SMBD_TL_PID}; my $nmbdpid = $envvars->{NMBD_TL_PID}; my $winbinddpid = $envvars->{WINBINDD_TL_PID}; # This should give it time to write out the gcov data until ($count > 20) { my $smbdchild = Samba::cleanup_child($smbdpid, "smbd"); my $nmbdchild = Samba::cleanup_child($nmbdpid, "nmbd"); my $winbinddchild = Samba::cleanup_child($winbinddpid, "winbindd"); if ($smbdchild == -1 && $nmbdchild == -1 && $winbinddchild == -1) { last; } sleep(1); $count++; } if ($count <= 20 && kill(0, $smbdpid, $nmbdpid, $winbinddpid) == 0) { return; } $self->stop_sig_term($smbdpid); $self->stop_sig_term($nmbdpid); $self->stop_sig_term($winbinddpid); $count = 0; until ($count > 10) { my $smbdchild = Samba::cleanup_child($smbdpid, "smbd"); my $nmbdchild = Samba::cleanup_child($nmbdpid, "nmbd"); my $winbinddchild = Samba::cleanup_child($winbinddpid, "winbindd"); if ($smbdchild == -1 && $nmbdchild == -1 && $winbinddchild == -1) { last; } sleep(1); $count++; } if ($count <= 10 && kill(0, $smbdpid, $nmbdpid, $winbinddpid) == 0) { return; } warn("timelimit process did not quit on SIGTERM, sending SIGKILL"); $self->stop_sig_kill($smbdpid); $self->stop_sig_kill($nmbdpid); $self->stop_sig_kill($winbinddpid); return 0; } sub getlog_env_app($$$) { my ($self, $envvars, $name) = @_; my $title = "$name LOG of: $envvars->{NETBIOSNAME}\n"; my $out = $title; open(LOG, "<".$envvars->{$name."_TEST_LOG"}); seek(LOG, $envvars->{$name."_TEST_LOG_POS"}, SEEK_SET); while () { $out .= $_; } $envvars->{$name."_TEST_LOG_POS"} = tell(LOG); close(LOG); return "" if $out eq $title; return $out; } sub getlog_env($$) { my ($self, $envvars) = @_; my $ret = ""; $ret .= $self->getlog_env_app($envvars, "SMBD"); $ret .= $self->getlog_env_app($envvars, "NMBD"); $ret .= $self->getlog_env_app($envvars, "WINBINDD"); return $ret; } sub check_env($$) { my ($self, $envvars) = @_; my $childpid = waitpid(-1, WNOHANG); # TODO ... return 1; } sub setup_env($$$) { my ($self, $envname, $path) = @_; if (defined($self->{vars}->{$envname})) { return $self->{vars}->{$envname}; } if ($envname eq "s3dc") { return $self->setup_s3dc("$path/s3dc"); } elsif ($envname eq "simpleserver") { return $self->setup_simpleserver("$path/simpleserver"); } elsif ($envname eq "maptoguest") { return $self->setup_maptoguest("$path/maptoguest"); } elsif ($envname eq "ktest") { return $self->setup_ktest("$path/ktest"); } elsif ($envname eq "member") { if (not defined($self->{vars}->{s3dc})) { if (not defined($self->setup_s3dc("$path/s3dc"))) { return undef; } } return $self->setup_member("$path/member", $self->{vars}->{s3dc}); } else { return "UNKNOWN"; } } sub setup_s3dc($$) { my ($self, $path) = @_; print "PROVISIONING S3DC..."; my $s3dc_options = " domain master = yes domain logons = yes lanman auth = yes rpc_server:epmapper = external rpc_server:spoolss = external rpc_server:lsarpc = external rpc_server:samr = external rpc_server:netlogon = external rpc_server:register_embedded_np = yes rpc_daemon:epmd = fork rpc_daemon:spoolssd = fork rpc_daemon:lsasd = fork "; my $vars = $self->provision($path, "LOCALS3DC2", "locals3dc2pass", $s3dc_options); $vars or return undef; if (not $self->check_or_start($vars, "yes", "yes", "yes")) { return undef; } $vars->{DC_SERVER} = $vars->{SERVER}; $vars->{DC_SERVER_IP} = $vars->{SERVER_IP}; $vars->{DC_NETBIOSNAME} = $vars->{NETBIOSNAME}; $vars->{DC_USERNAME} = $vars->{USERNAME}; $vars->{DC_PASSWORD} = $vars->{PASSWORD}; $self->{vars}->{s3dc} = $vars; return $vars; } sub setup_member($$$) { my ($self, $prefix, $s3dcvars) = @_; print "PROVISIONING MEMBER..."; my $member_options = " security = domain server signing = on "; my $ret = $self->provision($prefix, "LOCALMEMBER3", "localmember3pass", $member_options); $ret or return undef; my $net = Samba::bindir_path($self, "net"); my $cmd = ""; $cmd .= "SOCKET_WRAPPER_DEFAULT_IFACE=\"$ret->{SOCKET_WRAPPER_DEFAULT_IFACE}\" "; $cmd .= "$net join $ret->{CONFIGURATION} $s3dcvars->{DOMAIN} member"; $cmd .= " -U$s3dcvars->{USERNAME}\%$s3dcvars->{PASSWORD}"; if (system($cmd) != 0) { warn("Join failed\n$cmd"); return undef; } if (not $self->check_or_start($ret, "yes", "yes", "yes")) { return undef; } $ret->{DC_SERVER} = $s3dcvars->{SERVER}; $ret->{DC_SERVER_IP} = $s3dcvars->{SERVER_IP}; $ret->{DC_NETBIOSNAME} = $s3dcvars->{NETBIOSNAME}; $ret->{DC_USERNAME} = $s3dcvars->{USERNAME}; $ret->{DC_PASSWORD} = $s3dcvars->{PASSWORD}; return $ret; } sub setup_admember($$$$) { my ($self, $prefix, $dcvars) = @_; # If we didn't build with ADS, pretend this env was never available if (not $self->have_ads()) { return "UNKNOWN"; } print "PROVISIONING S3 AD MEMBER..."; my $member_options = " security = ads server signing = on workgroup = $dcvars->{DOMAIN} realm = $dcvars->{REALM} "; my $ret = $self->provision($prefix, "LOCALADMEMBER", "loCalMemberPass", $member_options); $ret or return undef; close(USERMAP); $ret->{DOMAIN} = $dcvars->{DOMAIN}; $ret->{REALM} = $dcvars->{REALM}; my $ctx; my $prefix_abs = abs_path($prefix); $ctx = {}; $ctx->{krb5_conf} = "$prefix_abs/lib/krb5.conf"; $ctx->{domain} = $dcvars->{DOMAIN}; $ctx->{realm} = $dcvars->{REALM}; $ctx->{dnsname} = lc($dcvars->{REALM}); $ctx->{kdc_ipv4} = $dcvars->{SERVER_IP}; Samba::mk_krb5_conf($ctx, ""); $ret->{KRB5_CONFIG} = $ctx->{krb5_conf}; my $net = Samba::bindir_path($self, "net"); my $cmd = ""; $cmd .= "SOCKET_WRAPPER_DEFAULT_IFACE=\"$ret->{SOCKET_WRAPPER_DEFAULT_IFACE}\" "; $cmd .= "KRB5_CONFIG=\"$ret->{KRB5_CONFIG}\" "; $cmd .= "$net join $ret->{CONFIGURATION}"; $cmd .= " -U$dcvars->{USERNAME}\%$dcvars->{PASSWORD}"; if (system($cmd) != 0) { warn("Join failed\n$cmd"); return undef; } # We need world access to this share, as otherwise the domain # administrator from the AD domain provided by Samba4 can't # access the share for tests. chmod 0777, "$prefix/share"; if (not $self->check_or_start($ret, "yes", "yes", "yes")) { return undef; } $ret->{DC_SERVER} = $dcvars->{SERVER}; $ret->{DC_SERVER_IP} = $dcvars->{SERVER_IP}; $ret->{DC_NETBIOSNAME} = $dcvars->{NETBIOSNAME}; $ret->{DC_USERNAME} = $dcvars->{USERNAME}; $ret->{DC_PASSWORD} = $dcvars->{PASSWORD}; # Special case, this is called from Samba4.pm but needs to use the Samba3 check_env and get_log_env $ret->{target} = $self; return $ret; } sub setup_admember_rfc2307($$$$) { my ($self, $prefix, $dcvars) = @_; # If we didn't build with ADS, pretend this env was never available if (not $self->have_ads()) { return "UNKNOWN"; } print "PROVISIONING S3 AD MEMBER WITH idmap_rfc2307 config..."; my $member_options = " security = ads server signing = on workgroup = $dcvars->{DOMAIN} realm = $dcvars->{REALM} idmap config $dcvars->{DOMAIN} : backend = rfc2307 idmap config $dcvars->{DOMAIN} : range = 2000000-2999999 idmap config $dcvars->{DOMAIN} : ldap_server = ad idmap config $dcvars->{DOMAIN} : bind_path_user = ou=idmap,dc=samba,dc=example,dc=com idmap config $dcvars->{DOMAIN} : bind_path_group = ou=idmap,dc=samba,dc=example,dc=com "; my $ret = $self->provision($prefix, "RFC2307MEMBER", "loCalMemberPass", $member_options); $ret or return undef; close(USERMAP); $ret->{DOMAIN} = $dcvars->{DOMAIN}; $ret->{REALM} = $dcvars->{REALM}; my $ctx; my $prefix_abs = abs_path($prefix); $ctx = {}; $ctx->{krb5_conf} = "$prefix_abs/lib/krb5.conf"; $ctx->{domain} = $dcvars->{DOMAIN}; $ctx->{realm} = $dcvars->{REALM}; $ctx->{dnsname} = lc($dcvars->{REALM}); $ctx->{kdc_ipv4} = $dcvars->{SERVER_IP}; Samba::mk_krb5_conf($ctx, ""); $ret->{KRB5_CONFIG} = $ctx->{krb5_conf}; my $net = Samba::bindir_path($self, "net"); my $cmd = ""; $cmd .= "SOCKET_WRAPPER_DEFAULT_IFACE=\"$ret->{SOCKET_WRAPPER_DEFAULT_IFACE}\" "; $cmd .= "KRB5_CONFIG=\"$ret->{KRB5_CONFIG}\" "; $cmd .= "$net join $ret->{CONFIGURATION}"; $cmd .= " -U$dcvars->{USERNAME}\%$dcvars->{PASSWORD}"; if (system($cmd) != 0) { warn("Join failed\n$cmd"); return undef; } # We need world access to this share, as otherwise the domain # administrator from the AD domain provided by Samba4 can't # access the share for tests. chmod 0777, "$prefix/share"; if (not $self->check_or_start($ret, "yes", "yes", "yes")) { return undef; } $ret->{DC_SERVER} = $dcvars->{SERVER}; $ret->{DC_SERVER_IP} = $dcvars->{SERVER_IP}; $ret->{DC_NETBIOSNAME} = $dcvars->{NETBIOSNAME}; $ret->{DC_USERNAME} = $dcvars->{USERNAME}; $ret->{DC_PASSWORD} = $dcvars->{PASSWORD}; # Special case, this is called from Samba4.pm but needs to use the Samba3 check_env and get_log_env $ret->{target} = $self; return $ret; } sub setup_simpleserver($$) { my ($self, $path) = @_; print "PROVISIONING server with security=share..."; my $prefix_abs = abs_path($path); my $simpleserver_options = " lanman auth = yes vfs objects = xattr_tdb streams_depot [vfs_aio_fork] path = $prefix_abs/share vfs objects = aio_fork read only = no vfs_aio_fork:erratic_testing_mode=yes "; my $vars = $self->provision($path, "LOCALSHARE4", "local4pass", $simpleserver_options); $vars or return undef; if (not $self->check_or_start($vars, "yes", "no", "yes")) { return undef; } $self->{vars}->{simpleserver} = $vars; return $vars; } sub setup_ktest($$$) { my ($self, $prefix) = @_; # If we didn't build with ADS, pretend this env was never available if (not $self->have_ads()) { return "UNKNOWN"; } print "PROVISIONING server with security=ads..."; my $ktest_options = " workgroup = KTEST realm = ktest.samba.example.com security = ads username map = $prefix/lib/username.map server signing = required "; my $ret = $self->provision($prefix, "LOCALKTEST6", "localktest6pass", $ktest_options); $ret or return undef; my $ctx; my $prefix_abs = abs_path($prefix); $ctx = {}; $ctx->{krb5_conf} = "$prefix_abs/lib/krb5.conf"; $ctx->{domain} = "KTEST"; $ctx->{realm} = "KTEST.SAMBA.EXAMPLE.COM"; $ctx->{dnsname} = lc($ctx->{realm}); $ctx->{kdc_ipv4} = "0.0.0.0"; Samba::mk_krb5_conf($ctx, ""); $ret->{KRB5_CONFIG} = $ctx->{krb5_conf}; open(USERMAP, ">$prefix/lib/username.map") or die("Unable to open $prefix/lib/username.map"); print USERMAP " $ret->{USERNAME} = KTEST\\Administrator "; close(USERMAP); #This is the secrets.tdb created by 'net ads join' from Samba3 to a #Samba4 DC with the same parameters as are being used here. The #domain SID is S-1-5-21-1071277805-689288055-3486227160 system("cp $self->{srcdir}/source3/selftest/ktest-secrets.tdb $prefix/private/secrets.tdb"); chmod 0600, "$prefix/private/secrets.tdb"; #Make sure there's no old ntdb file. system("rm -f $prefix/private/secrets.ntdb"); #This uses a pre-calculated krb5 credentials cache, obtained by running Samba4 with: # "--option=kdc:service ticket lifetime=239232" "--option=kdc:user ticket lifetime=239232" "--option=kdc:renewal lifetime=239232" # #and having in krb5.conf: # ticket_lifetime = 799718400 # renew_lifetime = 799718400 # # The commands for the -2 keytab where were: # kinit administrator@KTEST.SAMBA.EXAMPLE.COM # kvno host/localktest6@KTEST.SAMBA.EXAMPLE.COM # kvno cifs/localktest6@KTEST.SAMBA.EXAMPLE.COM # kvno host/LOCALKTEST6@KTEST.SAMBA.EXAMPLE.COM # kvno cifs/LOCALKTEST6@KTEST.SAMBA.EXAMPLE.COM # # and then for the -3 keytab, I did # # net changetrustpw; kdestroy and the same again. # # This creates a credential cache with a very long lifetime (2036 at # at 2011-04), and shows that running 'net changetrustpw' does not # break existing logins (for the secrets.tdb method at least). # $ret->{KRB5_CCACHE}="FILE:$prefix/krb5_ccache"; system("cp $self->{srcdir}/source3/selftest/ktest-krb5_ccache-2 $prefix/krb5_ccache-2"); chmod 0600, "$prefix/krb5_ccache-2"; system("cp $self->{srcdir}/source3/selftest/ktest-krb5_ccache-3 $prefix/krb5_ccache-3"); chmod 0600, "$prefix/krb5_ccache-3"; # We need world access to this share, as otherwise the domain # administrator from the AD domain provided by ktest can't # access the share for tests. chmod 0777, "$prefix/share"; if (not $self->check_or_start($ret, "yes", "no", "yes")) { return undef; } return $ret; } sub setup_maptoguest($$) { my ($self, $path) = @_; print "PROVISIONING maptoguest..."; my $options = " map to guest = bad user "; my $vars = $self->provision($path, "maptoguest", "maptoguestpass", $options); $vars or return undef; if (not $self->check_or_start($vars, "yes", "no", "yes")) { return undef; } $self->{vars}->{s3maptoguest} = $vars; return $vars; } sub stop_sig_term($$) { my ($self, $pid) = @_; kill("USR1", $pid) or kill("ALRM", $pid) or warn("Unable to kill $pid: $!"); } sub stop_sig_kill($$) { my ($self, $pid) = @_; kill("ALRM", $pid) or warn("Unable to kill $pid: $!"); } sub write_pid($$$) { my ($env_vars, $app, $pid) = @_; open(PID, ">$env_vars->{PIDDIR}/timelimit.$app.pid"); print PID $pid; close(PID); } sub read_pid($$) { my ($env_vars, $app) = @_; open(PID, "<$env_vars->{PIDDIR}/timelimit.$app.pid"); my $pid = ; close(PID); return $pid; } sub check_or_start($$$$$) { my ($self, $env_vars, $nmbd, $winbindd, $smbd) = @_; # use a pipe for stdin in the child processes. This allows # those processes to monitor the pipe for EOF to ensure they # exit when the test script exits pipe(STDIN_READER, $env_vars->{STDIN_PIPE}); unlink($env_vars->{NMBD_TEST_LOG}); print "STARTING NMBD..."; my $pid = fork(); if ($pid == 0) { open STDOUT, ">$env_vars->{NMBD_TEST_LOG}"; open STDERR, '>&STDOUT'; SocketWrapper::set_default_iface($env_vars->{SOCKET_WRAPPER_DEFAULT_IFACE}); $ENV{KRB5_CONFIG} = $env_vars->{KRB5_CONFIG}; $ENV{WINBINDD_SOCKET_DIR} = $env_vars->{WINBINDD_SOCKET_DIR}; $ENV{NMBD_SOCKET_DIR} = $env_vars->{NMBD_SOCKET_DIR}; $ENV{NSS_WRAPPER_PASSWD} = $env_vars->{NSS_WRAPPER_PASSWD}; $ENV{NSS_WRAPPER_GROUP} = $env_vars->{NSS_WRAPPER_GROUP}; $ENV{NSS_WRAPPER_WINBIND_SO_PATH} = $env_vars->{NSS_WRAPPER_WINBIND_SO_PATH}; $ENV{UID_WRAPPER} = "1"; if ($nmbd ne "yes") { $SIG{USR1} = $SIG{ALRM} = $SIG{INT} = $SIG{QUIT} = $SIG{TERM} = sub { my $signame = shift; print("Skip nmbd received signal $signame"); exit 0; }; sleep($self->{server_maxtime}); exit 0; } my @optargs = ("-d0"); if (defined($ENV{NMBD_OPTIONS})) { @optargs = split(/ /, $ENV{NMBD_OPTIONS}); } $ENV{MAKE_TEST_BINARY} = Samba::bindir_path($self, "nmbd"); my @preargs = (Samba::bindir_path($self, "timelimit"), $self->{server_maxtime}); if(defined($ENV{NMBD_VALGRIND})) { @preargs = split(/ /, $ENV{NMBD_VALGRIND}); } close($env_vars->{STDIN_PIPE}); open STDIN, ">&", \*STDIN_READER or die "can't dup STDIN_READER to STDIN: $!"; exec(@preargs, Samba::bindir_path($self, "nmbd"), "-F", "--no-process-group", "--log-stdout", "-s", $env_vars->{SERVERCONFFILE}, @optargs) or die("Unable to start nmbd: $!"); } $env_vars->{NMBD_TL_PID} = $pid; write_pid($env_vars, "nmbd", $pid); print "DONE\n"; unlink($env_vars->{WINBINDD_TEST_LOG}); print "STARTING WINBINDD..."; $pid = fork(); if ($pid == 0) { open STDOUT, ">$env_vars->{WINBINDD_TEST_LOG}"; open STDERR, '>&STDOUT'; SocketWrapper::set_default_iface($env_vars->{SOCKET_WRAPPER_DEFAULT_IFACE}); $ENV{KRB5_CONFIG} = $env_vars->{KRB5_CONFIG}; $ENV{WINBINDD_SOCKET_DIR} = $env_vars->{WINBINDD_SOCKET_DIR}; $ENV{NMBD_SOCKET_DIR} = $env_vars->{NMBD_SOCKET_DIR}; $ENV{NSS_WRAPPER_PASSWD} = $env_vars->{NSS_WRAPPER_PASSWD}; $ENV{NSS_WRAPPER_GROUP} = $env_vars->{NSS_WRAPPER_GROUP}; $ENV{NSS_WRAPPER_WINBIND_SO_PATH} = $env_vars->{NSS_WRAPPER_WINBIND_SO_PATH}; $ENV{UID_WRAPPER} = "1"; if ($winbindd ne "yes") { $SIG{USR1} = $SIG{ALRM} = $SIG{INT} = $SIG{QUIT} = $SIG{TERM} = sub { my $signame = shift; print("Skip winbindd received signal $signame"); exit 0; }; sleep($self->{server_maxtime}); exit 0; } my @optargs = ("-d0"); if (defined($ENV{WINBINDD_OPTIONS})) { @optargs = split(/ /, $ENV{WINBINDD_OPTIONS}); } $ENV{MAKE_TEST_BINARY} = Samba::bindir_path($self, "winbindd"); my @preargs = (Samba::bindir_path($self, "timelimit"), $self->{server_maxtime}); if(defined($ENV{WINBINDD_VALGRIND})) { @preargs = split(/ /, $ENV{WINBINDD_VALGRIND}); } print "Starting winbindd with config $env_vars->{SERVERCONFFILE}\n"; close($env_vars->{STDIN_PIPE}); open STDIN, ">&", \*STDIN_READER or die "can't dup STDIN_READER to STDIN: $!"; exec(@preargs, Samba::bindir_path($self, "winbindd"), "-F", "--no-process-group", "--stdout", "-s", $env_vars->{SERVERCONFFILE}, @optargs) or die("Unable to start winbindd: $!"); } $env_vars->{WINBINDD_TL_PID} = $pid; write_pid($env_vars, "winbindd", $pid); print "DONE\n"; unlink($env_vars->{SMBD_TEST_LOG}); print "STARTING SMBD..."; $pid = fork(); if ($pid == 0) { open STDOUT, ">$env_vars->{SMBD_TEST_LOG}"; open STDERR, '>&STDOUT'; SocketWrapper::set_default_iface($env_vars->{SOCKET_WRAPPER_DEFAULT_IFACE}); $ENV{KRB5_CONFIG} = $env_vars->{KRB5_CONFIG}; $ENV{WINBINDD_SOCKET_DIR} = $env_vars->{WINBINDD_SOCKET_DIR}; $ENV{NMBD_SOCKET_DIR} = $env_vars->{NMBD_SOCKET_DIR}; $ENV{NSS_WRAPPER_PASSWD} = $env_vars->{NSS_WRAPPER_PASSWD}; $ENV{NSS_WRAPPER_GROUP} = $env_vars->{NSS_WRAPPER_GROUP}; $ENV{NSS_WRAPPER_WINBIND_SO_PATH} = $env_vars->{NSS_WRAPPER_WINBIND_SO_PATH}; $ENV{UID_WRAPPER} = "1"; if ($smbd ne "yes") { $SIG{USR1} = $SIG{ALRM} = $SIG{INT} = $SIG{QUIT} = $SIG{TERM} = sub { my $signame = shift; print("Skip smbd received signal $signame"); exit 0; }; sleep($self->{server_maxtime}); exit 0; } $ENV{MAKE_TEST_BINARY} = Samba::bindir_path($self, "smbd"); my @optargs = ("-d0"); if (defined($ENV{SMBD_OPTIONS})) { @optargs = split(/ /, $ENV{SMBD_OPTIONS}); } my @preargs = (Samba::bindir_path($self, "timelimit"), $self->{server_maxtime}); if(defined($ENV{SMBD_VALGRIND})) { @preargs = split(/ /,$ENV{SMBD_VALGRIND}); } close($env_vars->{STDIN_PIPE}); open STDIN, ">&", \*STDIN_READER or die "can't dup STDIN_READER to STDIN: $!"; exec(@preargs, Samba::bindir_path($self, "smbd"), "-F", "--no-process-group", "--log-stdout", "-s", $env_vars->{SERVERCONFFILE}, @optargs) or die("Unable to start smbd: $!"); } $env_vars->{SMBD_TL_PID} = $pid; write_pid($env_vars, "smbd", $pid); print "DONE\n"; close(STDIN_READER); return $self->wait_for_start($env_vars, $nmbd, $winbindd, $smbd); } sub provision($$$$$$) { my ($self, $prefix, $server, $password, $extra_options, $no_delete_prefix) = @_; ## ## setup the various environment variables we need ## my $swiface = Samba::get_interface($server); my %ret = (); my $server_ip = "127.0.0.$swiface"; my $domain = "SAMBA-TEST"; my $unix_name = ($ENV{USER} or $ENV{LOGNAME} or `PATH=/usr/ucb:$ENV{PATH} whoami`); chomp $unix_name; my $unix_uid = $>; my $unix_gids_str = $); my @unix_gids = split(" ", $unix_gids_str); my $prefix_abs = abs_path($prefix); my $bindir_abs = abs_path($self->{bindir}); my $dns_host_file = "$ENV{SELFTEST_PREFIX}/dns_host_file"; my @dirs = (); my $shrdir="$prefix_abs/share"; push(@dirs,$shrdir); my $libdir="$prefix_abs/lib"; push(@dirs,$libdir); my $piddir="$prefix_abs/pid"; push(@dirs,$piddir); my $privatedir="$prefix_abs/private"; push(@dirs,$privatedir); my $lockdir="$prefix_abs/lockdir"; push(@dirs,$lockdir); my $eventlogdir="$prefix_abs/lockdir/eventlog"; push(@dirs,$eventlogdir); my $logdir="$prefix_abs/logs"; push(@dirs,$logdir); my $driver32dir="$shrdir/W32X86"; push(@dirs,$driver32dir); my $driver64dir="$shrdir/x64"; push(@dirs,$driver64dir); my $driver40dir="$shrdir/WIN40"; push(@dirs,$driver40dir); my $ro_shrdir="$shrdir/root-tmp"; push(@dirs,$ro_shrdir); my $msdfs_shrdir="$shrdir/msdfsshare"; push(@dirs,$msdfs_shrdir); my $msdfs_deeppath="$msdfs_shrdir/deeppath"; push(@dirs,$msdfs_deeppath); # this gets autocreated by winbindd my $wbsockdir="$prefix_abs/winbindd"; my $wbsockprivdir="$lockdir/winbindd_privileged"; my $nmbdsockdir="$prefix_abs/nmbd"; unlink($nmbdsockdir); ## ## create the test directory layout ## die ("prefix_abs = ''") if $prefix_abs eq ""; die ("prefix_abs = '/'") if $prefix_abs eq "/"; mkdir($prefix_abs, 0777); print "CREATE TEST ENVIRONMENT IN '$prefix'..."; if (not defined($no_delete_prefix) or not $no_delete_prefix) { system("rm -rf $prefix_abs/*"); } mkdir($_, 0777) foreach(@dirs); ## ## lockdir and piddir must be 0755 ## chmod 0755, $lockdir; chmod 0755, $piddir; ## ## create ro and msdfs share layout ## chmod 0755, $ro_shrdir; my $unreadable_file = "$ro_shrdir/unreadable_file"; unless (open(UNREADABLE_FILE, ">$unreadable_file")) { warn("Unable to open $unreadable_file"); return undef; } close(UNREADABLE_FILE); chmod 0600, $unreadable_file; my $msdfs_target = "$ro_shrdir/msdfs-target"; unless (open(MSDFS_TARGET, ">$msdfs_target")) { warn("Unable to open $msdfs_target"); return undef; } close(MSDFS_TARGET); chmod 0666, $msdfs_target; symlink "msdfs:$server_ip\\ro-tmp", "$msdfs_shrdir/msdfs-src1"; symlink "msdfs:$server_ip\\ro-tmp", "$msdfs_shrdir/deeppath/msdfs-src2"; my $conffile="$libdir/server.conf"; my $nss_wrapper_pl = "$ENV{PERL} $self->{srcdir}/lib/nss_wrapper/nss_wrapper.pl"; my $nss_wrapper_passwd = "$privatedir/passwd"; my $nss_wrapper_group = "$privatedir/group"; my $mod_printer_pl = "$ENV{PERL} $self->{srcdir}/source3/script/tests/printing/modprinter.pl"; my @eventlog_list = ("dns server", "application"); ## ## calculate uids and gids ## my ($max_uid, $max_gid); my ($uid_nobody, $uid_root, $uid_pdbtest); my ($gid_nobody, $gid_nogroup, $gid_root, $gid_domusers, $gid_domadmins); if ($unix_uid < 0xffff - 2) { $max_uid = 0xffff; } else { $max_uid = $unix_uid; } $uid_root = $max_uid - 1; $uid_nobody = $max_uid - 2; $uid_pdbtest = $max_uid - 3; if ($unix_gids[0] < 0xffff - 3) { $max_gid = 0xffff; } else { $max_gid = $unix_gids[0]; } $gid_nobody = $max_gid - 1; $gid_nogroup = $max_gid - 2; $gid_root = $max_gid - 3; $gid_domusers = $max_gid - 4; $gid_domadmins = $max_gid - 5; ## ## create conffile ## unless (open(CONF, ">$conffile")) { warn("Unable to open $conffile"); return undef; } print CONF " [global] netbios name = $server interfaces = $server_ip/8 bind interfaces only = yes panic action = cd $self->{srcdir} && $self->{srcdir}/selftest/gdb_backtrace %d %\$(MAKE_TEST_BINARY) smbd:suicide mode = yes workgroup = $domain private dir = $privatedir pid directory = $piddir lock directory = $lockdir log file = $logdir/log.\%m log level = 1 debug pid = yes max log size = 0 state directory = $lockdir cache directory = $lockdir passdb backend = tdbsam time server = yes add user script = $nss_wrapper_pl --passwd_path $nss_wrapper_passwd --type passwd --action add --name %u --gid $gid_nogroup add group script = $nss_wrapper_pl --group_path $nss_wrapper_group --type group --action add --name %g add machine script = $nss_wrapper_pl --passwd_path $nss_wrapper_passwd --type passwd --action add --name %u --gid $gid_nogroup add user to group script = $nss_wrapper_pl --passwd_path $nss_wrapper_passwd --type member --action add --member %u --name %g --group_path $nss_wrapper_group delete user script = $nss_wrapper_pl --passwd_path $nss_wrapper_passwd --type passwd --action delete --name %u delete group script = $nss_wrapper_pl --group_path $nss_wrapper_group --type group --action delete --name %g delete user from group script = $nss_wrapper_pl --passwd_path $nss_wrapper_passwd --type member --action delete --member %u --name %g --group_path $nss_wrapper_group addprinter command = $mod_printer_pl -a -s $conffile -- deleteprinter command = $mod_printer_pl -d -s $conffile -- eventlog list = application \"dns server\" kernel oplocks = no kernel change notify = no syslog = no printing = bsd printcap name = /dev/null winbindd:socket dir = $wbsockdir nmbd:socket dir = $nmbdsockdir idmap config * : range = 100000-200000 winbind enum users = yes winbind enum groups = yes # min receivefile size = 4000 read only = no server signing = auto smbd:sharedelay = 100000 smbd:writetimeupdatedelay = 500000 map hidden = no map system = no map readonly = no store dos attributes = yes create mask = 755 dos filemode = yes vfs objects = acl_xattr fake_acls xattr_tdb streams_depot printing = vlp print command = $bindir_abs/vlp tdbfile=$lockdir/vlp.tdb print %p %s lpq command = $bindir_abs/vlp tdbfile=$lockdir/vlp.tdb lpq %p lp rm command = $bindir_abs/vlp tdbfile=$lockdir/vlp.tdb lprm %p %j lp pause command = $bindir_abs/vlp tdbfile=$lockdir/vlp.tdb lppause %p %j lp resume command = $bindir_abs/vlp tdbfile=$lockdir/vlp.tdb lpresume %p %j queue pause command = $bindir_abs/vlp tdbfile=$lockdir/vlp.tdb queuepause %p queue resume command = $bindir_abs/vlp tdbfile=$lockdir/vlp.tdb queueresume %p lpq cache time = 0 print notify backchannel = yes ncalrpc dir = $prefix_abs/ncalrpc resolv:host file = $dns_host_file # The samba3.blackbox.smbclient_s3 test uses this to test that # sending messages works, and that the %m sub works. message command = mv %s $shrdir/message.%m # Begin extra options $extra_options # End extra options #Include user defined custom parameters if set "; if (defined($ENV{INCLUDE_CUSTOM_CONF})) { print CONF "\t$ENV{INCLUDE_CUSTOM_CONF}\n"; } print CONF " [tmp] path = $shrdir comment = smb username is [%U] [tmpenc] path = $shrdir comment = encrypt smb username is [%U] smb encrypt = required vfs objects = dirsort [tmpguest] path = $shrdir guest ok = yes [guestonly] path = $shrdir guest only = yes guest ok = yes [forceuser] path = $shrdir force user = $unix_name guest ok = yes [forcegroup] path = $shrdir force group = nogroup guest ok = yes [ro-tmp] path = $ro_shrdir guest ok = yes [write-list-tmp] path = $shrdir read only = yes write list = $unix_name [valid-users-tmp] path = $shrdir valid users = $unix_name [msdfs-share] path = $msdfs_shrdir msdfs root = yes guest ok = yes [hideunread] copy = tmp hide unreadable = yes [tmpcase] copy = tmp case sensitive = yes [hideunwrite] copy = tmp hide unwriteable files = yes [durable] copy = tmp kernel share modes = no kernel oplocks = no posix locking = no [print1] copy = tmp printable = yes [print2] copy = print1 [print3] copy = print1 default devmode = no [lp] copy = print1 [nfs4acl_simple] path = $shrdir comment = smb username is [%U] nfs4:mode = simple vfs objects = nfs4acl_xattr xattr_tdb [nfs4acl_special] path = $shrdir comment = smb username is [%U] nfs4:mode = special vfs objects = nfs4acl_xattr xattr_tdb [xcopy_share] path = $shrdir comment = smb username is [%U] create mask = 777 force create mode = 777 [posix_share] path = $shrdir comment = smb username is [%U] create mask = 0777 force create mode = 0 directory mask = 0777 force directory mode = 0 vfs objects = xattr_tdb [print\$] copy = tmp "; close(CONF); ## ## create a test account ## unless (open(PASSWD, ">$nss_wrapper_passwd")) { warn("Unable to open $nss_wrapper_passwd"); return undef; } print PASSWD "nobody:x:$uid_nobody:$gid_nobody:nobody gecos:$prefix_abs:/bin/false $unix_name:x:$unix_uid:$unix_gids[0]:$unix_name gecos:$prefix_abs:/bin/false pdbtest:x:$uid_pdbtest:$gid_nogroup:pdbtest gecos:$prefix_abs:/bin/false "; if ($unix_uid != 0) { print PASSWD "root:x:$uid_root:$gid_root:root gecos:$prefix_abs:/bin/false "; } close(PASSWD); unless (open(GROUP, ">$nss_wrapper_group")) { warn("Unable to open $nss_wrapper_group"); return undef; } print GROUP "nobody:x:$gid_nobody: nogroup:x:$gid_nogroup:nobody $unix_name-group:x:$unix_gids[0]: domusers:X:$gid_domusers: domadmins:X:$gid_domadmins: "; if ($unix_gids[0] != 0) { print GROUP "root:x:$gid_root: "; } close(GROUP); foreach my $evlog (@eventlog_list) { my $evlogtdb = "$eventlogdir/$evlog.tdb"; open(EVENTLOG, ">$evlogtdb") or die("Unable to open $evlogtdb"); close(EVENTLOG); } $ENV{NSS_WRAPPER_PASSWD} = $nss_wrapper_passwd; $ENV{NSS_WRAPPER_GROUP} = $nss_wrapper_group; my $cmd = Samba::bindir_path($self, "smbpasswd")." -c $conffile -L -s -a $unix_name > /dev/null"; unless (open(PWD, "|$cmd")) { warn("Unable to set password for test account\n$cmd"); return undef; } print PWD "$password\n$password\n"; unless (close(PWD)) { warn("Unable to set password for test account\n$cmd"); return undef; } print "DONE\n"; open(DNS_UPDATE_LIST, ">$prefix/dns_update_list") or die("Unable to open $$prefix/dns_update_list"); print DNS_UPDATE_LIST "A $server. $server_ip"; close(DNS_UPDATE_LIST); if (system("$ENV{SRCDIR_ABS}/source4/scripting/bin/samba_dnsupdate --all-interfaces --use-file=$dns_host_file -s $conffile --update-list=$prefix/dns_update_list --no-substiutions --no-credentials") != 0) { die "Unable to update hostname into $dns_host_file"; } $ret{SERVER_IP} = $server_ip; $ret{NMBD_TEST_LOG} = "$prefix/nmbd_test.log"; $ret{NMBD_TEST_LOG_POS} = 0; $ret{WINBINDD_TEST_LOG} = "$prefix/winbindd_test.log"; $ret{WINBINDD_TEST_LOG_POS} = 0; $ret{SMBD_TEST_LOG} = "$prefix/smbd_test.log"; $ret{SMBD_TEST_LOG_POS} = 0; $ret{SERVERCONFFILE} = $conffile; $ret{CONFIGURATION} ="-s $conffile"; $ret{SERVER} = $server; $ret{USERNAME} = $unix_name; $ret{USERID} = $unix_uid; $ret{DOMAIN} = $domain; $ret{NETBIOSNAME} = $server; $ret{PASSWORD} = $password; $ret{PIDDIR} = $piddir; $ret{WINBINDD_SOCKET_DIR} = $wbsockdir; $ret{WINBINDD_PRIV_PIPE_DIR} = $wbsockprivdir; $ret{NMBD_SOCKET_DIR} = $nmbdsockdir; $ret{SOCKET_WRAPPER_DEFAULT_IFACE} = $swiface; $ret{NSS_WRAPPER_PASSWD} = $nss_wrapper_passwd; $ret{NSS_WRAPPER_GROUP} = $nss_wrapper_group; $ret{NSS_WRAPPER_WINBIND_SO_PATH} = Samba::nss_wrapper_winbind_so_path($self); $ret{LOCAL_PATH} = "$shrdir"; return \%ret; } sub wait_for_start($$$$$) { my ($self, $envvars, $nmbd, $winbindd, $smbd) = @_; my $ret; if ($nmbd eq "yes") { # give time for nbt server to register its names print "delaying for nbt name registration\n"; sleep(10); # This will return quickly when things are up, but be slow if we need to wait for (eg) SSL init my $nmblookup = Samba::bindir_path($self, "nmblookup3"); system("$nmblookup $envvars->{CONFIGURATION} -U $envvars->{SERVER_IP} __SAMBA__"); system("$nmblookup $envvars->{CONFIGURATION} __SAMBA__"); system("$nmblookup $envvars->{CONFIGURATION} -U 127.255.255.255 __SAMBA__"); system("$nmblookup $envvars->{CONFIGURATION} -U $envvars->{SERVER_IP} $envvars->{SERVER}"); system("$nmblookup $envvars->{CONFIGURATION} $envvars->{SERVER}"); } if ($winbindd eq "yes") { print "checking for winbindd\n"; my $count = 0; do { $ret = system("WINBINDD_SOCKET_DIR=" . $envvars->{WINBINDD_SOCKET_DIR} . " " . Samba::bindir_path($self, "wbinfo") . " -p"); if ($ret != 0) { sleep(2); } $count++; } while ($ret != 0 && $count < 10); if ($count == 10) { print "WINBINDD not reachable after 20 seconds\n"; teardown_env($self, $envvars); return 0; } } if ($smbd eq "yes") { # make sure smbd is also up set print "wait for smbd\n"; my $count = 0; do { $ret = system(Samba::bindir_path($self, "smbclient3") ." $envvars->{CONFIGURATION} -L $envvars->{SERVER} -U% -p 139"); if ($ret != 0) { sleep(2); } $count++ } while ($ret != 0 && $count < 10); if ($count == 10) { print "SMBD failed to start up in a reasonable time (20sec)\n"; teardown_env($self, $envvars); return 0; } } # Ensure we have domain users mapped. $ret = system(Samba::bindir_path($self, "net") ." $envvars->{CONFIGURATION} groupmap add rid=513 unixgroup=domusers type=domain"); if ($ret != 0) { return 1; } $ret = system(Samba::bindir_path($self, "net") ." $envvars->{CONFIGURATION} groupmap add rid=512 unixgroup=domadmins type=domain"); if ($ret != 0) { return 1; } if ($winbindd eq "yes") { # note: creating builtin groups requires winbindd for the # unix id allocator $ret = system("WINBINDD_SOCKET_DIR=" . $envvars->{WINBINDD_SOCKET_DIR} . " " . Samba::bindir_path($self, "net") ." $envvars->{CONFIGURATION} sam createbuiltingroup Users"); if ($ret != 0) { print "Failed to create BUILTIN\\Users group\n"; return 0; } my $count = 0; do { system(Samba::bindir_path($self, "net") . " $envvars->{CONFIGURATION} cache flush"); $ret = system("WINBINDD_SOCKET_DIR=" . $envvars->{WINBINDD_SOCKET_DIR} . " " . Samba::bindir_path($self, "wbinfo") . " --sid-to-gid=S-1-5-32-545"); if ($ret != 0) { sleep(2); } $count++; } while ($ret != 0 && $count < 10); if ($count == 10) { print "WINBINDD not reachable after 20 seconds\n"; teardown_env($self, $envvars); return 0; } } print $self->getlog_env($envvars); return 1; } 1;