#!/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 Samba4; use strict; use Cwd qw(abs_path); use FindBin qw($RealBin); use POSIX; sub new($$$$$) { my ($classname, $bindir, $ldap, $setupdir, $exeext) = @_; $exeext = "" unless defined($exeext); my $self = { vars => {}, ldap => $ldap, bindir => $bindir, setupdir => $setupdir, exeext => $exeext }; bless $self; return $self; } sub bindir_path($$) { my ($self, $path) = @_; return "$self->{bindir}/$path$self->{exeext}"; } sub openldap_start($$$) { } sub slapd_start($$) { my $count = 0; my ($self, $env_vars) = @_; my $ldbsearch = $self->bindir_path("ldbsearch"); my $uri = $env_vars->{LDAP_URI}; if (system("$ldbsearch -H $uri -s base -b \"\" supportedLDAPVersion > /dev/null") == 0) { print "A SLAPD is still listening to $uri before we started the LDAP backend. Aborting!"; return 1; } # running slapd in the background means it stays in the same process group, so it can be # killed by timelimit if ($self->{ldap} eq "fedora-ds") { system("$ENV{FEDORA_DS_ROOT}/sbin/ns-slapd -D $env_vars->{FEDORA_DS_DIR} -d0 -i $env_vars->{FEDORA_DS_PIDFILE}> $env_vars->{LDAPDIR}/logs 2>&1 &"); } elsif ($self->{ldap} eq "openldap") { system("$ENV{OPENLDAP_SLAPD} -d0 -F $env_vars->{SLAPD_CONF_D} -h $uri > $env_vars->{LDAPDIR}/logs 2>&1 &"); } while (system("$ldbsearch -H $uri -s base -b \"\" supportedLDAPVersion > /dev/null") != 0) { $count++; if ($count > 40) { $self->slapd_stop($env_vars); return 0; } sleep(1); } return 1; } sub slapd_stop($$) { my ($self, $envvars) = @_; if ($self->{ldap} eq "fedora-ds") { system("$envvars->{LDAPDIR}/slapd-$envvars->{LDAP_INSTANCE}/stop-slapd"); } elsif ($self->{ldap} eq "openldap") { unless (open(IN, "<$envvars->{OPENLDAP_PIDFILE}")) { warn("unable to open slapd pid file: $envvars->{OPENLDAP_PIDFILE}"); return 0; } kill 9, ; close(IN); } return 1; } sub check_or_start($$$) { my ($self, $env_vars, $max_time) = @_; return 0 if ( -p $env_vars->{SAMBA_TEST_FIFO}); unlink($env_vars->{SAMBA_TEST_FIFO}); POSIX::mkfifo($env_vars->{SAMBA_TEST_FIFO}, 0700); unlink($env_vars->{SAMBA_TEST_LOG}); my $pwd = `pwd`; print "STARTING SAMBA for $ENV{ENVNAME}\n"; my $pid = fork(); if ($pid == 0) { open STDIN, $env_vars->{SAMBA_TEST_FIFO}; # we want out from samba to go to the log file, but also # to the users terminal when running 'make test' on the command # line. This puts it on stderr on the terminal open STDOUT, "| tee $env_vars->{SAMBA_TEST_LOG} 1>&2"; open STDERR, '>&STDOUT'; SocketWrapper::set_default_iface($env_vars->{SOCKET_WRAPPER_DEFAULT_IFACE}); my $valgrind = ""; if (defined($ENV{SAMBA_VALGRIND})) { $valgrind = $ENV{SAMBA_VALGRIND}; } $ENV{KRB5_CONFIG} = $env_vars->{KRB5_CONFIG}; $ENV{WINBINDD_SOCKET_DIR} = $env_vars->{WINBINDD_SOCKET_DIR}; $ENV{NSS_WRAPPER_PASSWD} = $env_vars->{NSS_WRAPPER_PASSWD}; $ENV{NSS_WRAPPER_GROUP} = $env_vars->{NSS_WRAPPER_GROUP}; $ENV{UID_WRAPPER} = "1"; # Start slapd before samba, but with the fifo on stdin if (defined($self->{ldap})) { unless($self->slapd_start($env_vars)) { warn("couldn't start slapd (main run)"); return undef; } } my $optarg = ""; if (defined($max_time)) { $optarg = "--maximum-runtime=$max_time "; } if (defined($ENV{SAMBA_OPTIONS})) { $optarg.= " $ENV{SAMBA_OPTIONS}"; } my $samba = $self->bindir_path("samba"); # allow selection of the process model using # the environment varibale SAMBA_PROCESS_MODEL # that allows us to change the process model for # individual machines in the build farm my $model = "single"; if (defined($ENV{SAMBA_PROCESS_MODEL})) { $model = $ENV{SAMBA_PROCESS_MODEL}; } chomp($pwd); my $cmdline = "$valgrind ${pwd}/$samba $optarg $env_vars->{CONFIGURATION} -M $model -i"; my $ret = system("$cmdline"); if ($ret == -1) { print "Unable to start $cmdline: $ret: $!\n"; exit 1; } my $exit = ($ret >> 8); unlink($env_vars->{SAMBA_TEST_FIFO}); if ($ret == 0) { print "$samba exited with no error\n"; exit 0; } elsif ( $ret & 127 ) { print "$samba got signal ".($ret & 127)." and exits with $exit!\n"; } else { print "$samba failed with status $exit!\n"; } if ($exit == 0) { $exit = -1; } exit $exit; } print "DONE\n"; open(DATA, ">$env_vars->{SAMBA_TEST_FIFO}"); return $pid; } sub wait_for_start($$) { my ($self, $testenv_vars) = @_; # give time for nbt server to register its names print "delaying for nbt name registration\n"; sleep 2; # This will return quickly when things are up, but be slow if we # need to wait for (eg) SSL init my $nmblookup = $self->bindir_path("nmblookup"); system("$nmblookup $testenv_vars->{CONFIGURATION} $testenv_vars->{SERVER}"); system("$nmblookup $testenv_vars->{CONFIGURATION} -U $testenv_vars->{SERVER_IP} $testenv_vars->{SERVER}"); system("$nmblookup $testenv_vars->{CONFIGURATION} $testenv_vars->{NETBIOSNAME}"); system("$nmblookup $testenv_vars->{CONFIGURATION} -U $testenv_vars->{SERVER_IP} $testenv_vars->{NETBIOSNAME}"); system("$nmblookup $testenv_vars->{CONFIGURATION} $testenv_vars->{NETBIOSALIAS}"); system("$nmblookup $testenv_vars->{CONFIGURATION} -U $testenv_vars->{SERVER_IP} $testenv_vars->{NETBIOSALIAS}"); system("$nmblookup $testenv_vars->{CONFIGURATION} $testenv_vars->{SERVER}"); system("$nmblookup $testenv_vars->{CONFIGURATION} -U $testenv_vars->{SERVER_IP} $testenv_vars->{SERVER}"); system("$nmblookup $testenv_vars->{CONFIGURATION} $testenv_vars->{NETBIOSNAME}"); system("$nmblookup $testenv_vars->{CONFIGURATION} -U $testenv_vars->{SERVER_IP} $testenv_vars->{NETBIOSNAME}"); system("$nmblookup $testenv_vars->{CONFIGURATION} $testenv_vars->{NETBIOSALIAS}"); system("$nmblookup $testenv_vars->{CONFIGURATION} -U $testenv_vars->{SERVER_IP} $testenv_vars->{NETBIOSALIAS}"); print $self->getlog_env($testenv_vars); } sub write_ldb_file($$$) { my ($self, $file, $ldif) = @_; my $ldbadd = $self->bindir_path("ldbadd"); open(LDIF, "|$ldbadd -H $file >/dev/null"); print LDIF $ldif; return(close(LDIF)); } sub add_wins_config($$) { my ($self, $privatedir) = @_; return $self->write_ldb_file("$privatedir/wins_config.ldb", " dn: name=TORTURE_11,CN=PARTNERS objectClass: wreplPartner name: TORTURE_11 address: 127.0.0.11 pullInterval: 0 pushChangeCount: 0 type: 0x3 "); } sub mk_fedora_ds($$) { my ($self, $ctx) = @_; #Make the subdirectory be as fedora DS would expect my $fedora_ds_dir = "$ctx->{ldapdir}/slapd-$ctx->{ldap_instance}"; my $pidfile = "$fedora_ds_dir/logs/slapd-$ctx->{ldap_instance}.pid"; return ($fedora_ds_dir, $pidfile); } sub mk_openldap($$) { my ($self, $ctx) = @_; my $slapd_conf_d = "$ctx->{ldapdir}/slapd.d"; my $pidfile = "$ctx->{ldapdir}/slapd.pid"; return ($slapd_conf_d, $pidfile); } sub mk_keyblobs($$) { my ($self, $tlsdir) = @_; #TLS and PKINIT crypto blobs my $dhfile = "$tlsdir/dhparms.pem"; my $cafile = "$tlsdir/ca.pem"; my $certfile = "$tlsdir/cert.pem"; my $reqkdc = "$tlsdir/req-kdc.der"; my $kdccertfile = "$tlsdir/kdc.pem"; my $keyfile = "$tlsdir/key.pem"; my $adminkeyfile = "$tlsdir/adminkey.pem"; my $reqadmin = "$tlsdir/req-admin.der"; my $admincertfile = "$tlsdir/admincert.pem"; my $admincertupnfile = "$tlsdir/admincertupn.pem"; mkdir($tlsdir, 0777); #This is specified here to avoid draining entropy on every run open(DHFILE, ">$dhfile"); print DHFILE <$keyfile"); print KEYFILE <$adminkeyfile"); print ADMINKEYFILE <$cafile"); print CAFILE <$certfile"); print CERTFILE <$kdccertfile"); print KDCCERTFILE <$admincertfile"); print ADMINCERTFILE <$admincertupnfile"); print ADMINCERTUPNFILE <{prefix} = $prefix; $ctx->{prefix_abs} = $prefix_abs; $ctx->{dns_host_file} = "$ENV{SELFTEST_PREFIX}/dns_host_file"; $ctx->{server_role} = $server_role; $ctx->{netbiosname} = $netbiosname; $ctx->{netbiosalias} = $netbiosalias; $ctx->{swiface} = $swiface; $ctx->{password} = $password; $ctx->{kdc_ipv4} = $kdc_ipv4; $ctx->{server_loglevel} = 1; $ctx->{username} = "Administrator"; $ctx->{domain} = $domain; $ctx->{realm} = uc($realm); $ctx->{dnsname} = lc($realm); $ctx->{sid_generator} = "internal"; $ctx->{functional_level} = $functional_level; my $unix_name = ($ENV{USER} or $ENV{LOGNAME} or `whoami`); chomp $unix_name; $ctx->{unix_name} = $unix_name; $ctx->{unix_uid} = $>; $ctx->{unix_gids_str} = $); @{$ctx->{unix_gids}} = split(" ", $ctx->{unix_gids_str}); $ctx->{etcdir} = "$prefix_abs/etc"; $ctx->{piddir} = "$prefix_abs/pid"; $ctx->{smb_conf} = "$ctx->{etcdir}/smb.conf"; $ctx->{krb5_conf} = "$ctx->{etcdir}/krb5.conf"; $ctx->{privatedir} = "$prefix_abs/private"; $ctx->{ncalrpcdir} = "$prefix_abs/ncalrpc"; $ctx->{lockdir} = "$prefix_abs/lockdir"; $ctx->{winbindd_socket_dir} = "$prefix_abs/winbindd_socket"; $ctx->{winbindd_privileged_socket_dir} = "$prefix_abs/winbindd_privileged_socket"; $ctx->{ntp_signd_socket_dir} = "$prefix_abs/ntp_signd_socket"; $ctx->{nsswrap_passwd} = "$ctx->{etcdir}/passwd"; $ctx->{nsswrap_group} = "$ctx->{etcdir}/group"; $ctx->{tlsdir} = "$ctx->{privatedir}/tls"; $ctx->{ipv4} = "127.0.0.$swiface"; $ctx->{interfaces} = "$ctx->{ipv4}/8"; push(@{$ctx->{directories}}, $ctx->{privatedir}); push(@{$ctx->{directories}}, $ctx->{etcdir}); push(@{$ctx->{directories}}, $ctx->{piddir}); push(@{$ctx->{directories}}, $ctx->{ncalrpcdir}); push(@{$ctx->{directories}}, $ctx->{lockdir}); $ctx->{smb_conf_extra_options} = ""; my @provision_options = (); push (@provision_options, "NSS_WRAPPER_PASSWD=\"$ctx->{nsswrap_passwd}\""); push (@provision_options, "NSS_WRAPPER_GROUP=\"$ctx->{nsswrap_group}\""); if (defined($ENV{GDB_PROVISION})) { push (@provision_options, "gdb --args"); } if (defined($ENV{VALGRIND_PROVISION})) { push (@provision_options, "valgrind"); } if (defined($ENV{PYTHON})) { push (@provision_options, $ENV{PYTHON}); } push (@provision_options, "$self->{setupdir}/provision"); push (@provision_options, "--configfile=$ctx->{smb_conf}"); push (@provision_options, "--host-name=$ctx->{netbiosname}"); push (@provision_options, "--host-ip=$ctx->{ipv4}"); push (@provision_options, "--quiet"); push (@provision_options, "--domain=$ctx->{domain}"); push (@provision_options, "--realm=$ctx->{realm}"); push (@provision_options, "--adminpass=$ctx->{password}"); push (@provision_options, "--krbtgtpass=krbtgt$ctx->{password}"); push (@provision_options, "--machinepass=machine$ctx->{password}"); push (@provision_options, "--root=$ctx->{unix_name}"); push (@provision_options, "--server-role=\"$ctx->{server_role}\""); push (@provision_options, "--function-level=\"$ctx->{functional_level}\""); @{$ctx->{provision_options}} = @provision_options; return $ctx; } # # Step1 creates the basic configuration # sub provision_raw_step1($$) { my ($self, $ctx) = @_; mkdir($_, 0777) foreach (@{$ctx->{directories}}); unless (open(CONFFILE, ">$ctx->{smb_conf}")) { warn("can't open $ctx->{smb_conf}$?"); return undef; } print CONFFILE " [global] netbios name = $ctx->{netbiosname} netbios aliases = $ctx->{netbiosalias} posix:eadb = $ctx->{lockdir}/eadb.tdb workgroup = $ctx->{domain} realm = $ctx->{realm} private dir = $ctx->{privatedir} pid directory = $ctx->{piddir} ncalrpc dir = $ctx->{ncalrpcdir} lock dir = $ctx->{lockdir} setup directory = $self->{setupdir} modules dir = $self->{bindir}/modules winbindd socket directory = $ctx->{winbindd_socket_dir} winbindd privileged socket directory = $ctx->{winbindd_privileged_socket_dir} ntp signd socket directory = $ctx->{ntp_signd_socket_dir} winbind separator = / name resolve order = file bcast interfaces = $ctx->{interfaces} tls dh params file = $ctx->{tlsdir}/dhparms.pem panic action = $RealBin/gdb_backtrace \%PID% \%PROG% wins support = yes server role = $ctx->{server_role} notify:inotify = false ldb:nosync = true #We don't want to pass our self-tests if the PAC code is wrong gensec:require_pac = true log level = $ctx->{server_loglevel} lanman auth = Yes rndc command = true dns update command = $ENV{SRCDIR_ABS}/scripting/bin/samba_dnsupdate --all-interfaces --use-file=$ctx->{dns_host_file} spn update command = $ENV{SRCDIR_ABS}/scripting/bin/samba_spnupdate resolv:host file = $ctx->{dns_host_file} dreplsrv:periodic_startup_interval = 0 "; if (defined($ctx->{sid_generator}) && $ctx->{sid_generator} ne "internal") { print CONFFILE " sid generator = $ctx->{sid_generator}"; } print CONFFILE " # Begin extra options $ctx->{smb_conf_extra_options} # End extra options "; close(CONFFILE); $self->mk_keyblobs($ctx->{tlsdir}); unless (open(KRB5CONF, ">$ctx->{krb5_conf}")) { warn("can't open $ctx->{krb5_conf}$?"); return undef; } print KRB5CONF " #Generated krb5.conf for $ctx->{realm} [libdefaults] default_realm = $ctx->{realm} dns_lookup_realm = false dns_lookup_kdc = false ticket_lifetime = 24h forwardable = yes [realms] $ctx->{realm} = { kdc = $ctx->{kdc_ipv4}:88 admin_server = $ctx->{kdc_ipv4}:88 default_domain = $ctx->{dnsname} } $ctx->{dnsname} = { kdc = $ctx->{kdc_ipv4}:88 admin_server = $ctx->{kdc_ipv4}:88 default_domain = $ctx->{dnsname} } $ctx->{domain} = { kdc = $ctx->{kdc_ipv4}:88 admin_server = $ctx->{kdc_ipv4}:88 default_domain = $ctx->{dnsname} } [appdefaults] pkinit_anchors = FILE:$ctx->{tlsdir}/ca.pem [kdc] enable-pkinit = true pkinit_identity = FILE:$ctx->{tlsdir}/kdc.pem,$ctx->{tlsdir}/key.pem pkinit_anchors = FILE:$ctx->{tlsdir}/ca.pem [domain_realm] .$ctx->{dnsname} = $ctx->{realm} "; close(KRB5CONF); open(PWD, ">$ctx->{nsswrap_passwd}"); print PWD " root:x:0:0:root gecos:$ctx->{prefix_abs}:/bin/false $ctx->{unix_name}:x:$ctx->{unix_uid}:@{$ctx->{unix_gids}}[0]:$ctx->{unix_name} gecos:$ctx->{prefix_abs}:/bin/false nobody:x:65534:65533:nobody gecos:$ctx->{prefix_abs}:/bin/false "; close(PWD); open(GRP, ">$ctx->{nsswrap_group}"); print GRP " root:x:0: wheel:x:10: users:x:100: nobody:x:65533: nogroup:x:65534:nobody "; close(GRP); my $configuration = "--configfile=$ctx->{smb_conf}"; #Ensure the config file is valid before we start my $testparm = $self->bindir_path("../scripting/bin/testparm"); if (system("$testparm $configuration -v --suppress-prompt >/dev/null 2>&1") != 0) { system("$testparm -v --suppress-prompt $configuration >&2"); warn("Failed to create a valid smb.conf configuration $testparm!"); return undef; } unless (system("($testparm $configuration -v --suppress-prompt --parameter-name=\"netbios name\" --section-name=global 2> /dev/null | grep -i \"^$ctx->{netbiosname}\" ) >/dev/null 2>&1") == 0) { warn("Failed to create a valid smb.conf configuration! $testparm $configuration -v --suppress-prompt --parameter-name=\"netbios name\" --section-name=global"); return undef; } my $ret = { KRB5_CONFIG => $ctx->{krb5_conf}, PIDDIR => $ctx->{piddir}, SERVER => $ctx->{netbiosname}, SERVER_IP => $ctx->{ipv4}, NETBIOSNAME => $ctx->{netbiosname}, NETBIOSALIAS => $ctx->{netbiosalias}, DOMAIN => $ctx->{domain}, USERNAME => $ctx->{username}, REALM => $ctx->{realm}, PASSWORD => $ctx->{password}, LDAPDIR => $ctx->{ldapdir}, LDAP_INSTANCE => $ctx->{ldap_instance}, WINBINDD_SOCKET_DIR => $ctx->{winbindd_socket_dir}, NCALRPCDIR => $ctx->{ncalrpcdir}, LOCKDIR => $ctx->{lockdir}, SERVERCONFFILE => $ctx->{smb_conf}, CONFIGURATION => $configuration, SOCKET_WRAPPER_DEFAULT_IFACE => $ctx->{swiface}, NSS_WRAPPER_PASSWD => $ctx->{nsswrap_passwd}, NSS_WRAPPER_GROUP => $ctx->{nsswrap_group}, SAMBA_TEST_FIFO => "$ctx->{prefix}/samba_test.fifo", SAMBA_TEST_LOG => "$ctx->{prefix}/samba_test.log", SAMBA_TEST_LOG_POS => 0, }; return $ret; } # # Step2 runs the provision script # sub provision_raw_step2($$$) { my ($self, $ctx, $ret) = @_; my $provision_cmd = join(" ", @{$ctx->{provision_options}}); unless (system($provision_cmd) == 0) { warn("Unable to provision: \n$provision_cmd\n"); return undef; } return $ret; } sub provision($$$$$$$$$) { my ($self, $prefix, $server_role, $netbiosname, $netbiosalias, $domain, $realm, $functional_level, $swiface, $password, $kdc_ipv4, $extra_smbconf_options) = @_; my $ctx = $self->provision_raw_prepare($prefix, $server_role, $netbiosname, $netbiosalias, $domain, $realm, $functional_level, $swiface, $password, $kdc_ipv4); $ctx->{tmpdir} = "$ctx->{prefix_abs}/tmp"; push(@{$ctx->{directories}}, "$ctx->{tmpdir}"); push(@{$ctx->{directories}}, "$ctx->{tmpdir}/test1"); push(@{$ctx->{directories}}, "$ctx->{tmpdir}/test2"); my $msdfs = "no"; $msdfs = "yes" if ($server_role eq "domain controller"); $ctx->{smb_conf_extra_options} = " max xmit = 32K server max protocol = SMB2 $extra_smbconf_options host msdfs = $msdfs lanman auth = yes [tmp] path = $ctx->{tmpdir} read only = no posix:sharedelay = 10000 posix:oplocktimeout = 3 posix:writetimeupdatedelay = 500000 [test1] path = $ctx->{tmpdir}/test1 read only = no posix:sharedelay = 10000 posix:oplocktimeout = 3 posix:writetimeupdatedelay = 50000 [test2] path = $ctx->{tmpdir}/test2 read only = no posix:sharedelay = 10000 posix:oplocktimeout = 3 posix:writetimeupdatedelay = 50000 [cifs] read only = no ntvfs handler = cifs cifs:server = $ctx->{netbiosname} cifs:share = tmp #There is no username specified here, instead the client is expected #to log in with kerberos, and the serverwill use delegated credentials. [simple] path = $ctx->{tmpdir} read only = no ntvfs handler = simple [sysvol] path = $ctx->{lockdir}/sysvol read only = yes [netlogon] path = $ctx->{lockdir}/sysvol/$ctx->{dnsname}/scripts read only = no [cifsposix] copy = simple ntvfs handler = cifsposix "; if (defined($self->{ldap})) { $ctx->{ldapdir} = "$ctx->{privatedir}/ldap"; push(@{$ctx->{directories}}, "$ctx->{ldapdir}"); my $ldap_uri= "$ctx->{ldapdir}/ldapi"; $ldap_uri =~ s|/|%2F|g; $ldap_uri = "ldapi://$ldap_uri"; $ctx->{ldap_uri} = $ldap_uri; if ($self->{ldap} eq "fedora-ds") { $ctx->{sid_generator} = "backend"; } $ctx->{ldap_instance} = lc($ctx->{netbiosname}); } my $ret = $self->provision_raw_step1($ctx); unless ($ret) { return undef; } if (defined($self->{ldap})) { $ret->{LDAP_URI} = $ctx->{ldap_uri}; push (@{$ctx->{provision_options}}, "--ldap-backend-type=" . $self->{ldap}); push (@{$ctx->{provision_options}}, "--ldap-backend-nosync"); if ($self->{ldap} eq "openldap") { push (@{$ctx->{provision_options}}, "--slapd-path=" . $ENV{OPENLDAP_SLAPD}); ($ret->{SLAPD_CONF_D}, $ret->{OPENLDAP_PIDFILE}) = $self->mk_openldap($ctx) or die("Unable to create openldap directories"); } elsif ($self->{ldap} eq "fedora-ds") { push (@{$ctx->{provision_options}}, "--slapd-path=" . "$ENV{FEDORA_DS_ROOT}/sbin/ns-slapd"); push (@{$ctx->{provision_options}}, "--setup-ds-path=" . "$ENV{FEDORA_DS_ROOT}/sbin/setup-ds.pl"); ($ret->{FEDORA_DS_DIR}, $ret->{FEDORA_DS_PIDFILE}) = $self->mk_fedora_ds($ctx) or die("Unable to create fedora ds directories"); } } return $self->provision_raw_step2($ctx, $ret); } sub provision_member($$$) { my ($self, $prefix, $dcvars) = @_; print "PROVISIONING MEMBER..."; my $ret = $self->provision($prefix, "member server", "localmember", "member3", "SAMBADOMAIN", "samba.example.com", "2008", 3, "locMEMpass3", $dcvars->{SERVER_IP}, ""); unless ($ret) { return undef; } my $net = $self->bindir_path("net"); my $cmd = ""; $cmd .= "SOCKET_WRAPPER_DEFAULT_IFACE=\"$ret->{SOCKET_WRAPPER_DEFAULT_IFACE}\" "; $cmd .= "KRB5_CONFIG=\"$ret->{KRB5_CONFIG}\" "; $cmd .= "$net join $ret->{CONFIGURATION} $dcvars->{REALM} member"; $cmd .= " -U$dcvars->{DC_USERNAME}\%$dcvars->{DC_PASSWORD}"; unless (system($cmd) == 0) { warn("Join failed\n$cmd"); return undef; } $ret->{MEMBER_SERVER} = $ret->{SERVER}; $ret->{MEMBER_SERVER_IP} = $ret->{SERVER_IP}; $ret->{MEMBER_NETBIOSNAME} = $ret->{NETBIOSNAME}; $ret->{MEMBER_NETBIOSALIAS} = $ret->{NETBIOSALIAS}; $ret->{MEMBER_USERNAME} = $ret->{USERNAME}; $ret->{MEMBER_PASSWORD} = $ret->{PASSWORD}; $ret->{DC_SERVER} = $dcvars->{DC_SERVER}; $ret->{DC_SERVER_IP} = $dcvars->{DC_SERVER_IP}; $ret->{DC_NETBIOSNAME} = $dcvars->{DC_NETBIOSNAME}; $ret->{DC_NETBIOSALIAS} = $dcvars->{DC_NETBIOSALIAS}; $ret->{DC_USERNAME} = $dcvars->{DC_USERNAME}; $ret->{DC_PASSWORD} = $dcvars->{DC_PASSWORD}; return $ret; } sub provision_rpc_proxy($$$) { my ($self, $prefix, $dcvars) = @_; print "PROVISIONING RPC PROXY..."; my $extra_smbconf_options = "dcerpc_remote:binding = ncacn_ip_tcp:localdc dcerpc endpoint servers = epmapper, remote dcerpc_remote:interfaces = rpcecho "; my $ret = $self->provision($prefix, "member server", "localrpcproxy", "rpcproxy4", "SAMBADOMAIN", "samba.example.com", "2008", 4, "locRPCproxypass4", $dcvars->{SERVER_IP}, $extra_smbconf_options); unless ($ret) { return undef; } my $net = $self->bindir_path("net"); my $cmd = ""; $cmd .= "SOCKET_WRAPPER_DEFAULT_IFACE=\"$ret->{SOCKET_WRAPPER_DEFAULT_IFACE}\" "; $cmd .= "KRB5_CONFIG=\"$ret->{KRB5_CONFIG}\" "; $cmd .= "$net join $ret->{CONFIGURATION} $dcvars->{REALM} member"; $cmd .= " -U$dcvars->{DC_USERNAME}\%$dcvars->{DC_PASSWORD}"; unless (system($cmd) == 0) { warn("Join failed\n$cmd"); return undef; } $ret->{RPC_PROXY_SERVER} = $ret->{SERVER}; $ret->{RPC_PROXY_SERVER_IP} = $ret->{SERVER_IP}; $ret->{RPC_PROXY_NETBIOSNAME} = $ret->{NETBIOSNAME}; $ret->{RPC_PROXY_NETBIOSALIAS} = $ret->{NETBIOSALIAS}; $ret->{RPC_PROXY_USERNAME} = $ret->{USERNAME}; $ret->{RPC_PROXY_PASSWORD} = $ret->{PASSWORD}; return $ret; } sub provision_vampire_dc($$$) { my ($self, $prefix, $dcvars) = @_; print "PROVISIONING VAMPIRE DC..."; # We do this so that we don't run the provision. That's the job of 'net vampire'. my $ctx = $self->provision_raw_prepare($prefix, "domain controller", "localvampiredc", "dc2", "SAMBADOMAIN", "samba.example.com", "2008", 2, $dcvars->{PASSWORD}, $dcvars->{SERVER_IP}); $ctx->{smb_conf_extra_options} = " max xmit = 32K server max protocol = SMB2 [sysvol] path = $ctx->{lockdir}/sysvol read only = yes [netlogon] path = $ctx->{lockdir}/sysvol/$ctx->{dnsname}/scripts read only = no "; my $ret = $self->provision_raw_step1($ctx); unless ($ret) { return undef; } my $net = $self->bindir_path("net"); my $cmd = ""; $cmd .= "SOCKET_WRAPPER_DEFAULT_IFACE=\"$ret->{SOCKET_WRAPPER_DEFAULT_IFACE}\" "; $cmd .= "KRB5_CONFIG=\"$ret->{KRB5_CONFIG}\" "; $cmd .= "$net vampire $ret->{CONFIGURATION} $dcvars->{REALM} --realm=$dcvars->{REALM}"; $cmd .= " -U$dcvars->{DC_USERNAME}\%$dcvars->{DC_PASSWORD}"; unless (system($cmd) == 0) { warn("Join failed\n$cmd"); return undef; } $ret->{VAMPIRE_DC_SERVER} = $ret->{SERVER}; $ret->{VAMPIRE_DC_SERVER_IP} = $ret->{SERVER_IP}; $ret->{VAMPIRE_DC_NETBIOSNAME} = $ret->{NETBIOSNAME}; $ret->{VAMPIRE_DC_NETBIOSALIAS} = $ret->{NETBIOSALIAS}; $ret->{DC_SERVER} = $dcvars->{DC_SERVER}; $ret->{DC_SERVER_IP} = $dcvars->{DC_SERVER_IP}; $ret->{DC_NETBIOSNAME} = $dcvars->{DC_NETBIOSNAME}; $ret->{DC_NETBIOSALIAS} = $dcvars->{DC_NETBIOSALIAS}; $ret->{DC_USERNAME} = $dcvars->{DC_USERNAME}; $ret->{DC_PASSWORD} = $dcvars->{DC_PASSWORD}; return $ret; } sub provision_dc($$) { my ($self, $prefix) = @_; print "PROVISIONING DC..."; my $ret = $self->provision($prefix, "domain controller", "localdc", "dc1", "SAMBADOMAIN", "samba.example.com", "2008", 1, "locDCpass1", "127.0.0.1", ""); unless($self->add_wins_config("$prefix/private")) { warn("Unable to add wins configuration"); return undef; } $ret->{DC_SERVER} = $ret->{SERVER}; $ret->{DC_SERVER_IP} = $ret->{SERVER_IP}; $ret->{DC_NETBIOSNAME} = $ret->{NETBIOSNAME}; $ret->{DC_NETBIOSALIAS} = $ret->{NETBIOSALIAS}; $ret->{DC_USERNAME} = $ret->{USERNAME}; $ret->{DC_PASSWORD} = $ret->{PASSWORD}; return $ret; } sub provision_fl2000dc($$) { my ($self, $prefix) = @_; print "PROVISIONING DC..."; my $ret = $self->provision($prefix, "domain controller", "dc5", "localfl2000dc", "SAMBA2000", "samba2000.example.com", "2000", 5, "locDCpass5", "127.0.0.5", ""); unless($self->add_wins_config("$prefix/private")) { warn("Unable to add wins configuration"); return undef; } return $ret; } sub provision_fl2003dc($$) { my ($self, $prefix) = @_; print "PROVISIONING DC..."; my $ret = $self->provision($prefix, "domain controller", "dc6", "localfl2003dc", "SAMBA2003", "samba2003.example.com", "2003", 6, "locDCpass6", "127.0.0.6", ""); unless($self->add_wins_config("$prefix/private")) { warn("Unable to add wins configuration"); return undef; } return $ret; } sub provision_fl2008r2dc($$) { my ($self, $prefix) = @_; print "PROVISIONING DC..."; my $ret = $self->provision($prefix, "domain controller", "dc7", "localfl2000r2dc", "SAMBA2008R2", "samba2008R2.example.com", "2008_R2", 7, "locDCpass7", "127.0.0.7", ""); unless ($self->add_wins_config("$prefix/private")) { warn("Unable to add wins configuration"); return undef; } return $ret; } sub provision_rodc($$$) { my ($self, $prefix, $dcvars) = @_; print "PROVISIONING RODC..."; # We do this so that we don't run the provision. That's the job of 'net join RODC'. my $ctx = $self->provision_raw_prepare($prefix, "domain controller", "rodc", "dc8", "SAMBADOMAIN", "samba.example.com", "2008", 8, $dcvars->{PASSWORD}, $dcvars->{SERVER_IP}); unless ($ctx) { return undef; } $ctx->{tmpdir} = "$ctx->{prefix_abs}/tmp"; push(@{$ctx->{directories}}, "$ctx->{tmpdir}"); $ctx->{smb_conf_extra_options} = " max xmit = 32K server max protocol = SMB2 [sysvol] path = $ctx->{lockdir}/sysvol read only = yes [netlogon] path = $ctx->{lockdir}/sysvol/$ctx->{dnsname}/scripts read only = yes [tmp] path = $ctx->{tmpdir} read only = no posix:sharedelay = 10000 posix:oplocktimeout = 3 posix:writetimeupdatedelay = 500000 "; my $ret = $self->provision_raw_step1($ctx); unless ($ret) { return undef; } my $net = $self->bindir_path("net"); my $cmd = ""; $cmd .= "SOCKET_WRAPPER_DEFAULT_IFACE=\"$ret->{SOCKET_WRAPPER_DEFAULT_IFACE}\" "; $cmd .= "KRB5_CONFIG=\"$ret->{KRB5_CONFIG}\" "; $cmd .= "$net join $ret->{CONFIGURATION} $dcvars->{REALM} RODC"; $cmd .= " -U$dcvars->{DC_USERNAME}\%$dcvars->{DC_PASSWORD}"; $cmd .= " --server=$dcvars->{DC_SERVER}"; unless (system($cmd) == 0) { warn("RODC join failed\n$cmd"); return undef; } $ret->{RODC_DC_SERVER} = $ret->{SERVER}; $ret->{RODC_DC_SERVER_IP} = $ret->{SERVER_IP}; $ret->{RODC_DC_NETBIOSNAME} = $ret->{NETBIOSNAME}; $ret->{RODC_DC_NETBIOSALIAS} = $ret->{NETBIOSALIAS}; $ret->{DC_SERVER} = $dcvars->{DC_SERVER}; $ret->{DC_SERVER_IP} = $dcvars->{DC_SERVER_IP}; $ret->{DC_NETBIOSNAME} = $dcvars->{DC_NETBIOSNAME}; $ret->{DC_NETBIOSALIAS} = $dcvars->{DC_NETBIOSALIAS}; $ret->{DC_USERNAME} = $dcvars->{DC_USERNAME}; $ret->{DC_PASSWORD} = $dcvars->{DC_PASSWORD}; return $ret; } sub teardown_env($$) { my ($self, $envvars) = @_; my $pid; close(DATA); if (open(IN, "<$envvars->{PIDDIR}/samba.pid")) { $pid = ; close(IN); # Give the process 20 seconds to exit. gcov needs # this time to write out the covarge data my $count = 0; until (kill(0, $pid) == 0) { # if no process sucessfully signalled, then we are done sleep(1); $count++; last if $count > 20; } # If it is still around, kill it if ($count > 20) { print "server process $pid took more than $count seconds to exit, killing\n"; kill 9, $pid; } } my $failed = $? >> 8; $self->slapd_stop($envvars) if ($self->{ldap}); print $self->getlog_env($envvars); return $failed; } sub getlog_env($$) { my ($self, $envvars) = @_; my $title = "SAMBA LOG of: $envvars->{NETBIOSNAME}\n"; my $out = $title; open(LOG, "<$envvars->{SAMBA_TEST_LOG}"); seek(LOG, $envvars->{SAMBA_TEST_LOG_POS}, SEEK_SET); while () { $out .= $_; } $envvars->{SAMBA_TEST_LOG_POS} = tell(LOG); close(LOG); return "" if $out eq $title; return $out; } sub check_env($$) { my ($self, $envvars) = @_; return (-p $envvars->{SAMBA_TEST_FIFO}); } sub setup_env($$$) { my ($self, $envname, $path) = @_; $ENV{ENVNAME} = $envname; if ($envname eq "dc") { return $self->setup_dc("$path/dc"); } elsif ($envname eq "fl2000dc") { return $self->setup_fl2000dc("$path/fl2000dc"); } elsif ($envname eq "fl2003dc") { return $self->setup_fl2003dc("$path/fl2003dc"); } elsif ($envname eq "fl2008r2dc") { return $self->setup_fl2008r2dc("$path/fl2008r2dc"); } elsif ($envname eq "rpc_proxy") { if (not defined($self->{vars}->{dc})) { $self->setup_dc("$path/dc"); } return $self->setup_rpc_proxy("$path/rpc_proxy", $self->{vars}->{dc}); } elsif ($envname eq "vampire_dc") { if (not defined($self->{vars}->{dc})) { $self->setup_dc("$path/dc"); } return $self->setup_vampire_dc("$path/vampire_dc", $self->{vars}->{dc}); } elsif ($envname eq "member") { if (not defined($self->{vars}->{dc})) { $self->setup_dc("$path/dc"); } return $self->setup_member("$path/member", $self->{vars}->{dc}); } elsif ($envname eq "rodc") { if (not defined($self->{vars}->{dc})) { $self->setup_dc("$path/dc"); } return $self->setup_rodc("$path/rodc", $self->{vars}->{dc}); } elsif ($envname eq "all") { if (not defined($self->{vars}->{dc})) { $ENV{ENVNAME} = "dc"; $self->setup_dc("$path/dc"); } my $ret = $self->setup_member("$path/member", $self->{vars}->{dc}); if (not defined($self->{vars}->{rpc_proxy})) { $ENV{ENVNAME} = "rpc_proxy"; my $rpc_proxy_ret = $self->setup_rpc_proxy("$path/rpc_proxy", $self->{vars}->{dc}); $ret->{RPC_PROXY_SERVER} = $rpc_proxy_ret->{SERVER}; $ret->{RPC_PROXY_SERVER_IP} = $rpc_proxy_ret->{SERVER_IP}; $ret->{RPC_PROXY_NETBIOSNAME} = $rpc_proxy_ret->{NETBIOSNAME}; $ret->{RPC_PROXY_NETBIOSALIAS} = $rpc_proxy_ret->{NETBIOSALIAS}; $ret->{RPC_PROXY_USERNAME} = $rpc_proxy_ret->{USERNAME}; $ret->{RPC_PROXY_PASSWORD} = $rpc_proxy_ret->{PASSWORD}; } if (not defined($self->{vars}->{fl2000dc})) { $ENV{ENVNAME} = "fl2000dc"; my $fl2000dc_ret = $self->setup_fl2000dc("$path/fl2000dc", $self->{vars}->{dc}); $ret->{FL2000DC_SERVER} = $fl2000dc_ret->{SERVER}; $ret->{FL2000DC_SERVER_IP} = $fl2000dc_ret->{SERVER_IP}; $ret->{FL2000DC_NETBIOSNAME} = $fl2000dc_ret->{NETBIOSNAME}; $ret->{FL2000DC_NETBIOSALIAS} = $fl2000dc_ret->{NETBIOSALIAS}; $ret->{FL2000DC_USERNAME} = $fl2000dc_ret->{USERNAME}; $ret->{FL2000DC_PASSWORD} = $fl2000dc_ret->{PASSWORD}; } if (not defined($self->{vars}->{fl2003dc})) { $ENV{ENVNAME} = "fl2003dc"; my $fl2003dc_ret = $self->setup_fl2003dc("$path/fl2003dc", $self->{vars}->{dc}); $ret->{FL2003DC_SERVER} = $fl2003dc_ret->{SERVER}; $ret->{FL2003DC_SERVER_IP} = $fl2003dc_ret->{SERVER_IP}; $ret->{FL2003DC_NETBIOSNAME} = $fl2003dc_ret->{NETBIOSNAME}; $ret->{FL2003DC_NETBIOSALIAS} = $fl2003dc_ret->{NETBIOSALIAS}; $ret->{FL2003DC_USERNAME} = $fl2003dc_ret->{USERNAME}; $ret->{FL2003DC_PASSWORD} = $fl2003dc_ret->{PASSWORD}; } if (not defined($self->{vars}->{fl2008r2dc})) { $ENV{ENVNAME} = "fl2008r2dc"; my $fl2008r2dc_ret = $self->setup_fl2008r2dc("$path/fl2008r2dc", $self->{vars}->{dc}); $ret->{FL2008R2DC_SERVER} = $fl2008r2dc_ret->{SERVER}; $ret->{FL2008R2DC_SERVER_IP} = $fl2008r2dc_ret->{SERVER_IP}; $ret->{FL2008R2DC_NETBIOSNAME} = $fl2008r2dc_ret->{NETBIOSNAME}; $ret->{FL2008R2DC_NETBIOSALIAS} = $fl2008r2dc_ret->{NETBIOSALIAS}; $ret->{FL2008R2DC_USERNAME} = $fl2008r2dc_ret->{USERNAME}; $ret->{FL2008R2DC_PASSWORD} = $fl2008r2dc_ret->{PASSWORD}; } return $ret; } else { warn("Samba4 can't provide environment '$envname'"); return undef; } } sub setup_member($$$) { my ($self, $path, $dc_vars) = @_; my $env = $self->provision_member($path, $dc_vars); $self->check_or_start($env, ($ENV{SMBD_MAXTIME} or 7500)); $self->wait_for_start($env); $self->{vars}->{member} = $env; return $env; } sub setup_rpc_proxy($$$) { my ($self, $path, $dc_vars) = @_; my $env = $self->provision_rpc_proxy($path, $dc_vars); $self->check_or_start($env, ($ENV{SMBD_MAXTIME} or 7500)); $self->wait_for_start($env); $self->{vars}->{rpc_proxy} = $env; return $env; } sub setup_dc($$) { my ($self, $path) = @_; my $env = $self->provision_dc($path); $self->check_or_start($env, ($ENV{SMBD_MAXTIME} or 7500)); $self->wait_for_start($env); $self->{vars}->{dc} = $env; return $env; } sub setup_fl2000dc($$) { my ($self, $path) = @_; my $env = $self->provision_fl2000dc($path); $self->check_or_start($env, ($ENV{SMBD_MAXTIME} or 7500)); $self->wait_for_start($env); $self->{vars}->{fl2000dc} = $env; return $env; } sub setup_fl2003dc($$) { my ($self, $path) = @_; my $env = $self->provision_fl2003dc($path); $self->check_or_start($env, ($ENV{SMBD_MAXTIME} or 7500)); $self->wait_for_start($env); $self->{vars}->{fl2003dc} = $env; return $env; } sub setup_fl2008r2dc($$) { my ($self, $path) = @_; my $env = $self->provision_fl2008r2dc($path); $self->check_or_start($env, ($ENV{SMBD_MAXTIME} or 7500)); $self->wait_for_start($env); $self->{vars}->{fl2008r2dc} = $env; return $env; } sub setup_vampire_dc($$$) { my ($self, $path, $dc_vars) = @_; my $env = $self->provision_vampire_dc($path, $dc_vars); $self->check_or_start($env, ($ENV{SMBD_MAXTIME} or 7500)); $self->wait_for_start($env); $self->{vars}->{vampire_dc} = $env; # force replicated DC to update repsTo/repsFrom # for vampired partitions my $net = $self->bindir_path("net"); my $cmd = ""; $cmd .= "SOCKET_WRAPPER_DEFAULT_IFACE=\"$env->{SOCKET_WRAPPER_DEFAULT_IFACE}\""; $cmd .= " KRB5_CONFIG=\"$env->{KRB5_CONFIG}\""; $cmd .= " $net drs kcc $env->{DC_SERVER}"; $cmd .= " -U$dc_vars->{DC_USERNAME}\%$dc_vars->{DC_PASSWORD}"; unless (system($cmd) == 0) { warn("Failed to exec kcc\n$cmd"); return undef; } # as 'vampired' dc may add data in its local replica # we need to synchronize data between DCs my $base_dn = "DC=".join(",DC=", split(/\./, $dc_vars->{REALM})); $cmd = "SOCKET_WRAPPER_DEFAULT_IFACE=\"$env->{SOCKET_WRAPPER_DEFAULT_IFACE}\""; $cmd .= " KRB5_CONFIG=\"$env->{KRB5_CONFIG}\""; $cmd .= " $net drs replicate $env->{DC_SERVER} $env->{VAMPIRE_DC_SERVER}"; $cmd .= " -U$dc_vars->{DC_USERNAME}\%$dc_vars->{DC_PASSWORD}"; # replicate Configuration NC my $cmd_repl = "$cmd \"CN=Configuration,$base_dn\""; unless(system($cmd_repl) == 0) { warn("Failed to replicate\n$cmd_repl"); return undef; } # replicate Default NC $cmd_repl = "$cmd \"$base_dn\""; unless(system($cmd_repl) == 0) { warn("Failed to replicate\n$cmd_repl"); return undef; } return $env; } sub setup_rodc($$$) { my ($self, $path, $dc_vars) = @_; my $env = $self->provision_rodc($path, $dc_vars); unless ($env) { return undef; } $self->check_or_start($env, ($ENV{SMBD_MAXTIME} or 7500)); $self->wait_for_start($env); $self->{vars}->{rodc} = $env; return $env; } 1;