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mirror of https://github.com/samba-team/samba.git synced 2024-12-24 21:34:56 +03:00
samba-mirror/selftest/target/Samba.pm
Andrew Bartlett 5f70f972a5 selftest: Remove obsolete LDAP backend hooks from selftest.pl et al
This removes some quite complex logic that has not been used since the LDAP
backend project was shelved prior to 2011.

Signed-off-by: Andrew Bartlett <abartlet@samba.org>
Reviewed-by: Nadezhda Ivanova <nivanova@symas.com>
2019-08-30 08:32:30 +00:00

904 lines
24 KiB
Perl

#!/usr/bin/perl
# Bootstrap Samba and run a number of tests against it.
# Copyright (C) 2005-2007 Jelmer Vernooij <jelmer@samba.org>
# Published under the GNU GPL, v3 or later.
package Samba;
use strict;
use target::Samba3;
use target::Samba4;
use POSIX;
use Cwd qw(abs_path);
sub new($$$$$) {
my ($classname, $bindir, $srcdir, $server_maxtime) = @_;
my $self = {
samba3 => new Samba3($bindir, $srcdir, $server_maxtime),
samba4 => new Samba4($bindir, $srcdir, $server_maxtime),
};
bless $self;
return $self;
}
%Samba::ENV_DEPS = (%Samba3::ENV_DEPS, %Samba4::ENV_DEPS);
our %ENV_DEPS;
%Samba::ENV_DEPS_POST = (%Samba3::ENV_DEPS_POST, %Samba4::ENV_DEPS_POST);
our %ENV_DEPS_POST;
%Samba::ENV_TARGETS = (
(map { $_ => "Samba3" } keys %Samba3::ENV_DEPS),
(map { $_ => "Samba4" } keys %Samba4::ENV_DEPS),
);
our %ENV_TARGETS;
%Samba::ENV_NEEDS_AD_DC = (
(map { $_ => 1 } keys %Samba4::ENV_DEPS)
);
our %ENV_NEEDS_AD_DC;
foreach my $env (keys %Samba3::ENV_DEPS) {
$ENV_NEEDS_AD_DC{$env} = ($env =~ /^ad_/);
}
sub setup_env($$$)
{
my ($self, $envname, $path) = @_;
my $targetname = $ENV_TARGETS{$envname};
if (not defined($targetname)) {
warn("Samba can't provide environment '$envname'");
return "UNKNOWN";
}
my %targetlookup = (
"Samba3" => $self->{samba3},
"Samba4" => $self->{samba4}
);
my $target = $targetlookup{$targetname};
if (defined($target->{vars}->{$envname})) {
return $target->{vars}->{$envname};
}
$target->{vars}->{$envname} = "";
my @dep_vars;
foreach(@{$ENV_DEPS{$envname}}) {
my $vars = $self->setup_env($_, $path);
if (defined($vars)) {
push(@dep_vars, $vars);
} else {
warn("Failed setting up $_ as a dependency of $envname");
return undef;
}
}
$ENV{ENVNAME} = $envname;
# Avoid hitting system krb5.conf -
# An env that needs Kerberos will reset this to the real value.
$ENV{KRB5_CONFIG} = "$path/no_krb5.conf";
my $setup_name = $ENV_TARGETS{$envname}."::setup_".$envname;
my $setup_sub = \&$setup_name;
my $env = &$setup_sub($target, "$path/$envname", @dep_vars);
if (not defined($env)) {
warn("failed to start up environment '$envname'");
return undef;
}
$target->{vars}->{$envname} = $env;
$target->{vars}->{$envname}->{target} = $target;
foreach(@{$ENV_DEPS_POST{$envname}}) {
my $vars = $self->setup_env($_, $path);
if (not defined($vars)) {
return undef;
}
}
return $env;
}
sub bindir_path($$) {
my ($object, $path) = @_;
my $valpath = "$object->{bindir}/$path";
my $python_cmd = "";
my $result = $path;
if (defined $ENV{'PYTHON'}) {
$python_cmd = $ENV{'PYTHON'} . " ";
}
if (-f $valpath or -d $valpath) {
$result = $valpath;
}
# make sure we prepend samba-tool with calling $PYTHON python version
if ($path eq "samba-tool") {
$result = $python_cmd . $result;
}
return $result;
}
sub nss_wrapper_winbind_so_path($) {
my ($object) = @_;
my $ret = $ENV{NSS_WRAPPER_WINBIND_SO_PATH};
if (not defined($ret)) {
$ret = bindir_path($object, "shared/libnss_wrapper_winbind.so.2");
$ret = abs_path($ret);
}
return $ret;
}
sub copy_file_content($$)
{
my ($in, $out) = @_;
open(IN, "${in}") or die("failed to open in[${in}] for reading: $!");
open(OUT, ">${out}") or die("failed to open out[${out}] for writing: $!");
while(<IN>) {
print OUT $_;
}
close(OUT);
close(IN);
}
sub prepare_keyblobs($)
{
my ($ctx) = @_;
my $cadir = "$ENV{SRCDIR_ABS}/selftest/manage-ca/CA-samba.example.com";
my $cacert = "$cadir/Public/CA-samba.example.com-cert.pem";
my $cacrl_pem = "$cadir/Public/CA-samba.example.com-crl.pem";
my $dcdnsname = "$ctx->{hostname}.$ctx->{dnsname}";
my $dcdir = "$cadir/DCs/$dcdnsname";
my $dccert = "$dcdir/DC-$dcdnsname-cert.pem";
my $dckey_private = "$dcdir/DC-$dcdnsname-private-key.pem";
my $adminprincipalname = "administrator\@$ctx->{dnsname}";
my $admindir = "$cadir/Users/$adminprincipalname";
my $admincert = "$admindir/USER-$adminprincipalname-cert.pem";
my $adminkey_private = "$admindir/USER-$adminprincipalname-private-key.pem";
my $pkinitprincipalname = "pkinit\@$ctx->{dnsname}";
my $pkinitdir = "$cadir/Users/$pkinitprincipalname";
my $pkinitcert = "$pkinitdir/USER-$pkinitprincipalname-cert.pem";
my $pkinitkey_private = "$pkinitdir/USER-$pkinitprincipalname-private-key.pem";
my $tlsdir = "$ctx->{tlsdir}";
my $pkinitdir = "$ctx->{prefix_abs}/pkinit";
#TLS and PKINIT crypto blobs
my $dhfile = "$tlsdir/dhparms.pem";
my $cafile = "$tlsdir/ca.pem";
my $crlfile = "$tlsdir/crl.pem";
my $certfile = "$tlsdir/cert.pem";
my $keyfile = "$tlsdir/key.pem";
my $admincertfile = "$pkinitdir/USER-$adminprincipalname-cert.pem";
my $adminkeyfile = "$pkinitdir/USER-$adminprincipalname-private-key.pem";
my $pkinitcertfile = "$pkinitdir/USER-$pkinitprincipalname-cert.pem";
my $pkinitkeyfile = "$pkinitdir/USER-$pkinitprincipalname-private-key.pem";
mkdir($tlsdir, 0700);
mkdir($pkinitdir, 0700);
my $oldumask = umask;
umask 0077;
# This is specified here to avoid draining entropy on every run
# generate by
# openssl dhparam -out dhparms.pem -text -2 8192
open(DHFILE, ">$dhfile");
print DHFILE <<EOF;
-----BEGIN DH PARAMETERS-----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-----END DH PARAMETERS-----
EOF
close(DHFILE);
if (! -e ${dckey_private}) {
umask $oldumask;
return;
}
copy_file_content(${cacert}, ${cafile});
copy_file_content(${cacrl_pem}, ${crlfile});
copy_file_content(${dccert}, ${certfile});
copy_file_content(${dckey_private}, ${keyfile});
if (-e ${adminkey_private}) {
copy_file_content(${admincert}, ${admincertfile});
copy_file_content(${adminkey_private}, ${adminkeyfile});
}
if (-e ${pkinitkey_private}) {
copy_file_content(${pkinitcert}, ${pkinitcertfile});
copy_file_content(${pkinitkey_private}, ${pkinitkeyfile});
}
# COMPAT stuff to be removed in a later commit
my $kdccertfile = "$tlsdir/kdc.pem";
copy_file_content(${dccert}, ${kdccertfile});
umask $oldumask;
}
sub mk_krb5_conf($$)
{
my ($ctx) = @_;
unless (open(KRB5CONF, ">$ctx->{krb5_conf}")) {
warn("can't open $ctx->{krb5_conf}$?");
return undef;
}
my $our_realms_stanza = mk_realms_stanza($ctx->{realm},
$ctx->{dnsname},
$ctx->{domain},
$ctx->{kdc_ipv4});
print KRB5CONF "
#Generated krb5.conf for $ctx->{realm}
[libdefaults]
default_realm = $ctx->{realm}
dns_lookup_realm = false
dns_lookup_kdc = true
ticket_lifetime = 24h
forwardable = yes
allow_weak_crypto = yes
# We are running on the same machine, do not correct
# system clock differences
kdc_timesync = 0
";
if (defined($ENV{MITKRB5})) {
print KRB5CONF "
# Set the grace clocskew to 5 seconds
# This is especially required by samba3.raw.session krb5 and
# reauth tests when not using Heimdal
clockskew = 5
";
}
if (defined($ctx->{krb5_ccname})) {
print KRB5CONF "
default_ccache_name = $ctx->{krb5_ccname}
";
}
if (defined($ctx->{supported_enctypes})) {
print KRB5CONF "
default_etypes = $ctx->{supported_enctypes}
default_as_etypes = $ctx->{supported_enctypes}
default_tgs_enctypes = $ctx->{supported_enctypes}
default_tkt_enctypes = $ctx->{supported_enctypes}
permitted_enctypes = $ctx->{supported_enctypes}
";
}
print KRB5CONF "
[realms]
$our_realms_stanza
";
if (defined($ctx->{tlsdir})) {
print KRB5CONF "
[appdefaults]
pkinit_anchors = FILE:$ctx->{tlsdir}/ca.pem
[kdc]
enable-pkinit = true
pkinit_identity = FILE:$ctx->{tlsdir}/kdc.pem,$ctx->{tlsdir}/key.pem
pkinit_anchors = FILE:$ctx->{tlsdir}/ca.pem
";
}
close(KRB5CONF);
}
sub mk_realms_stanza($$$$)
{
my ($realm, $dnsname, $domain, $kdc_ipv4) = @_;
my $lc_domain = lc($domain);
my $realms_stanza = "
$realm = {
kdc = $kdc_ipv4:88
admin_server = $kdc_ipv4:88
default_domain = $dnsname
}
$dnsname = {
kdc = $kdc_ipv4:88
admin_server = $kdc_ipv4:88
default_domain = $dnsname
}
$domain = {
kdc = $kdc_ipv4:88
admin_server = $kdc_ipv4:88
default_domain = $dnsname
}
$lc_domain = {
kdc = $kdc_ipv4:88
admin_server = $kdc_ipv4:88
default_domain = $dnsname
}
";
return $realms_stanza;
}
sub mk_mitkdc_conf($$)
{
# samba_kdb_dir is the path to mit_samba.so
my ($ctx, $samba_kdb_dir) = @_;
unless (open(KDCCONF, ">$ctx->{mitkdc_conf}")) {
warn("can't open $ctx->{mitkdc_conf}$?");
return undef;
}
print KDCCONF "
# Generated kdc.conf for $ctx->{realm}
[kdcdefaults]
kdc_ports = 88
kdc_tcp_ports = 88
[realms]
$ctx->{realm} = {
}
$ctx->{dnsname} = {
}
$ctx->{domain} = {
}
[dbmodules]
db_module_dir = $samba_kdb_dir
$ctx->{realm} = {
db_library = samba
}
$ctx->{dnsname} = {
db_library = samba
}
$ctx->{domain} = {
db_library = samba
}
[logging]
kdc = FILE:$ctx->{logdir}/mit_kdc.log
";
close(KDCCONF);
}
sub realm_to_ip_mappings
{
# this maps the DNS realms for the various testenvs to the corresponding
# PDC (i.e. the first DC created for that realm).
my %realm_to_pdc_mapping = (
'adnonssdom.samba.example.com' => 'addc_no_nss',
'adnontlmdom.samba.example.com' => 'addc_no_ntlm',
'samba2000.example.com' => 'dc5',
'samba2003.example.com' => 'dc6',
'samba2008r2.example.com' => 'dc7',
'addom.samba.example.com' => 'addc',
'sub.samba.example.com' => 'localsubdc',
'chgdcpassword.samba.example.com' => 'chgdcpass',
'backupdom.samba.example.com' => 'backupfromdc',
'renamedom.samba.example.com' => 'renamedc',
'labdom.samba.example.com' => 'labdc',
'schema.samba.example.com' => 'liveupgrade1dc',
'samba.example.com' => 'localdc',
);
my @mapping = ();
# convert the hashmap to a list of key=value strings, where key is the
# realm and value is the IP address
while (my ($realm, $pdc) = each(%realm_to_pdc_mapping)) {
my $ipaddr = get_ipv4_addr($pdc);
push(@mapping, "$realm=$ipaddr");
}
# return the mapping as a single comma-separated string
return join(',', @mapping);
}
sub get_interface($)
{
my ($netbiosname) = @_;
$netbiosname = lc($netbiosname);
# this maps the SOCKET_WRAPPER_DEFAULT_IFACE value for each possible
# testenv to the DC's NETBIOS name. This value also corresponds to last
# digit of the DC's IP address. Note that the NETBIOS name may differ from
# the testenv name.
# Note that when adding a DC with a new realm, also update
# get_realm_ip_mappings() above.
my %testenv_iface_mapping = (
localnt4dc2 => 3,
localnt4member3 => 4,
localshare4 => 5,
# 6 is spare
localktest6 => 7,
maptoguest => 8,
localnt4dc9 => 9,
# 10 is spare
# 11-16 are used by selftest.pl for the client.conf. Most tests only
# use the first .11 IP. However, some tests (like winsreplication) rely
# on the client having multiple IPs.
client => 11,
addc_no_nss => 17,
addc_no_ntlm => 18,
idmapadmember => 19,
idmapridmember => 20,
localdc => 21,
localvampiredc => 22,
s4member => 23,
localrpcproxy => 24,
dc5 => 25,
dc6 => 26,
dc7 => 27,
rodc => 28,
localadmember => 29,
addc => 30,
localsubdc => 31,
chgdcpass => 32,
promotedvdc => 33,
rfc2307member => 34,
fileserver => 35,
fakednsforwarder1 => 36,
fakednsforwarder2 => 37,
s4member_dflt => 38,
vampire2000dc => 39,
backupfromdc => 40,
restoredc => 41,
renamedc => 42,
labdc => 43,
offlinebackupdc => 44,
customdc => 45,
prockilldc => 46,
proclimitdc => 47,
liveupgrade1dc => 48,
liveupgrade2dc => 49,
rootdnsforwarder => 64,
# Note: that you also need to update dns_hub.py when adding a new
# multi-DC testenv
# update lib/socket_wrapper/socket_wrapper.c
# #define MAX_WRAPPED_INTERFACES 64
# if you wish to have more than 64 interfaces
);
if (not defined($testenv_iface_mapping{$netbiosname})) {
die();
}
return $testenv_iface_mapping{$netbiosname};
}
sub get_ipv4_addr
{
my ($hostname, $iface_num) = @_;
my $swiface = Samba::get_interface($hostname);
# Handle testenvs with multiple different addresses, i.e. IP multihoming.
# Currently only the selftest client has multiple IPv4 addresses.
if (defined($iface_num)) {
$swiface += $iface_num;
}
if (use_namespaces()) {
# use real IPs if selftest is running in its own network namespace
return "10.0.0.$swiface";
} else {
# use loopback IPs with socket-wrapper
return "127.0.0.$swiface";
}
}
sub get_ipv6_addr
{
(my $hostname) = @_;
my $swiface = Samba::get_interface($hostname);
return sprintf("fd00:0000:0000:0000:0000:0000:5357:5f%02x", $swiface);
}
# returns the 'interfaces' setting for smb.conf, i.e. the IPv4/IPv6
# addresses for testenv
sub get_interfaces_config
{
my ($hostname, $num_ips) = @_;
my $interfaces = "";
# We give the client.conf multiple different IPv4 addresses.
# All other testenvs generally just have one IPv4 address.
if (! defined($num_ips)) {
$num_ips = 1;
}
for (my $i = 0; $i < $num_ips; $i++) {
my $ipv4_addr = Samba::get_ipv4_addr($hostname, $i);
if (use_namespaces()) {
# use a /24 subnet with network namespaces
$interfaces .= "$ipv4_addr/24 ";
} else {
$interfaces .= "$ipv4_addr/8 ";
}
}
my $ipv6_addr = Samba::get_ipv6_addr($hostname);
$interfaces .= "$ipv6_addr/64";
return $interfaces;
}
sub cleanup_child($$)
{
my ($pid, $name) = @_;
if (!defined($pid)) {
print STDERR "cleanup_child: pid not defined ... not calling waitpid\n";
return -1;
}
my $childpid = waitpid($pid, WNOHANG);
if ($childpid == 0) {
} elsif ($childpid < 0) {
printf STDERR "%s child process %d isn't here any more\n", $name, $pid;
return $childpid;
} elsif ($? & 127) {
printf STDERR "%s child process %d, died with signal %d, %s coredump\n",
$name, $childpid, ($? & 127), ($? & 128) ? 'with' : 'without';
} else {
printf STDERR "%s child process %d exited with value %d\n", $name, $childpid, $? >> 8;
}
return $childpid;
}
sub random_domain_sid()
{
my $domain_sid = "S-1-5-21-". int(rand(4294967295)) . "-" . int(rand(4294967295)) . "-" . int(rand(4294967295));
return $domain_sid;
}
# sets the environment variables ready for running a given process
sub set_env_for_process
{
my ($proc_name, $env_vars, $proc_envs) = @_;
if (not defined($proc_envs)) {
$proc_envs = get_env_for_process($proc_name, $env_vars);
}
foreach my $key (keys %{ $proc_envs }) {
$ENV{$key} = $proc_envs->{$key};
}
}
sub get_env_for_process
{
my ($proc_name, $env_vars) = @_;
my $proc_envs = {
KRB5_CONFIG => $env_vars->{KRB5_CONFIG},
KRB5CCNAME => "$env_vars->{KRB5_CCACHE}.$proc_name",
SELFTEST_WINBINDD_SOCKET_DIR => $env_vars->{SELFTEST_WINBINDD_SOCKET_DIR},
NMBD_SOCKET_DIR => $env_vars->{NMBD_SOCKET_DIR},
NSS_WRAPPER_PASSWD => $env_vars->{NSS_WRAPPER_PASSWD},
NSS_WRAPPER_GROUP => $env_vars->{NSS_WRAPPER_GROUP},
NSS_WRAPPER_HOSTS => $env_vars->{NSS_WRAPPER_HOSTS},
NSS_WRAPPER_HOSTNAME => $env_vars->{NSS_WRAPPER_HOSTNAME},
NSS_WRAPPER_MODULE_SO_PATH => $env_vars->{NSS_WRAPPER_MODULE_SO_PATH},
NSS_WRAPPER_MODULE_FN_PREFIX => $env_vars->{NSS_WRAPPER_MODULE_FN_PREFIX},
UID_WRAPPER_ROOT => "1",
ENVNAME => "$ENV{ENVNAME}.$proc_name",
};
if (defined($env_vars->{RESOLV_WRAPPER_CONF})) {
$proc_envs->{RESOLV_WRAPPER_CONF} = $env_vars->{RESOLV_WRAPPER_CONF};
} else {
$proc_envs->{RESOLV_WRAPPER_HOSTS} = $env_vars->{RESOLV_WRAPPER_HOSTS};
}
return $proc_envs;
}
sub fork_and_exec
{
my ($self, $env_vars, $daemon_ctx, $STDIN_READER) = @_;
unlink($daemon_ctx->{LOG_FILE});
print "STARTING $daemon_ctx->{NAME} for $ENV{ENVNAME}...";
my $parent_pid = $$;
my $pid = fork();
# exec the daemon in the child process
if ($pid == 0) {
my @preargs = ();
# redirect the daemon's stdout/stderr to a log file
if (defined($daemon_ctx->{TEE_STDOUT})) {
# in some cases, 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 $daemon_ctx->{LOG_FILE} 1>&2";
} else {
open STDOUT, ">$daemon_ctx->{LOG_FILE}";
}
open STDERR, '>&STDOUT';
SocketWrapper::set_default_iface($env_vars->{SOCKET_WRAPPER_DEFAULT_IFACE});
if (defined($daemon_ctx->{PCAP_FILE})) {
SocketWrapper::setup_pcap($daemon_ctx->{PCAP_FILE});
}
# setup ENV variables in the child process
set_env_for_process($daemon_ctx->{NAME}, $env_vars,
$daemon_ctx->{ENV_VARS});
# not all s3 daemons run in all testenvs (e.g. fileserver doesn't
# run winbindd). In which case, the child process just sleeps
if (defined($daemon_ctx->{SKIP_DAEMON})) {
$SIG{USR1} = $SIG{ALRM} = $SIG{INT} = $SIG{QUIT} = $SIG{TERM} = sub {
my $signame = shift;
print("Skip $daemon_ctx->{NAME} received signal $signame");
exit 0;
};
sleep($self->{server_maxtime});
exit 0;
}
$ENV{MAKE_TEST_BINARY} = $daemon_ctx->{BINARY_PATH};
# we close the child's write-end of the pipe and redirect the read-end
# to its stdin. That way the daemon will receive an EOF on stdin when
# parent selftest process closes its write-end.
close($env_vars->{STDIN_PIPE});
open STDIN, ">&", $STDIN_READER or die "can't dup STDIN_READER to STDIN: $!";
# if using kernel namespaces, prepend the command so the process runs in
# its own namespace
if (Samba::use_namespaces()) {
@preargs = ns_exec_preargs($parent_pid, $env_vars);
}
# the command args are stored as an array reference (because...Perl),
# so convert the reference back to an array
my @full_cmd = @{ $daemon_ctx->{FULL_CMD} };
exec(@preargs, @full_cmd) or die("Unable to start $ENV{MAKE_TEST_BINARY}: $!");
}
print "DONE ($pid)\n";
# if using kernel namespaces, we now establish a connection between the
# main selftest namespace (i.e. this process) and the new child namespace
if (use_namespaces()) {
ns_child_forked($pid, $env_vars);
}
return $pid;
}
my @exported_envvars = (
# domain stuff
"DOMAIN",
"DNSNAME",
"REALM",
"DOMSID",
# stuff related to a trusted domain
"TRUST_SERVER",
"TRUST_USERNAME",
"TRUST_PASSWORD",
"TRUST_DOMAIN",
"TRUST_REALM",
"TRUST_DOMSID",
# domain controller stuff
"DC_SERVER",
"DC_SERVER_IP",
"DC_SERVER_IPV6",
"DC_NETBIOSNAME",
"DC_NETBIOSALIAS",
# server stuff
"SERVER",
"SERVER_IP",
"SERVER_IPV6",
"NETBIOSNAME",
"NETBIOSALIAS",
"SAMSID",
# only use these 2 as a last resort. Some tests need to test both client-
# side and server-side. In this case, run as default client, ans access
# server's smb.conf as needed, typically using:
# param.LoadParm(filename_for_non_global_lp=os.environ['SERVERCONFFILE'])
"SERVERCONFFILE",
"DC_SERVERCONFFILE",
# user stuff
"USERNAME",
"USERID",
"PASSWORD",
"DC_USERNAME",
"DC_PASSWORD",
# UID/GID for rfc2307 mapping tests
"UID_RFC2307TEST",
"GID_RFC2307TEST",
# misc stuff
"KRB5_CONFIG",
"KRB5CCNAME",
"SELFTEST_WINBINDD_SOCKET_DIR",
"NMBD_SOCKET_DIR",
"LOCAL_PATH",
"DNS_FORWARDER1",
"DNS_FORWARDER2",
"RESOLV_CONF",
"UNACCEPTABLE_PASSWORD",
"LOCK_DIR",
"SMBD_TEST_LOG",
# nss_wrapper
"NSS_WRAPPER_PASSWD",
"NSS_WRAPPER_GROUP",
"NSS_WRAPPER_HOSTS",
"NSS_WRAPPER_HOSTNAME",
"NSS_WRAPPER_MODULE_SO_PATH",
"NSS_WRAPPER_MODULE_FN_PREFIX",
# resolv_wrapper
"RESOLV_WRAPPER_CONF",
"RESOLV_WRAPPER_HOSTS",
);
sub exported_envvars_str
{
my ($testenv_vars) = @_;
my $out = "";
foreach (@exported_envvars) {
next unless defined($testenv_vars->{$_});
$out .= $_."=".$testenv_vars->{$_}."\n";
}
return $out;
}
sub clear_exported_envvars
{
foreach (@exported_envvars) {
delete $ENV{$_};
}
}
sub export_envvars
{
my ($testenv_vars) = @_;
foreach (@exported_envvars) {
if (defined($testenv_vars->{$_})) {
$ENV{$_} = $testenv_vars->{$_};
} else {
delete $ENV{$_};
}
}
}
sub export_envvars_to_file
{
my ($filepath, $testenv_vars) = @_;
my $env_str = exported_envvars_str($testenv_vars);
open(FILE, "> $filepath");
print FILE "$env_str";
close(FILE);
}
# Returns true if kernel namespaces are being used instead of socket-wrapper.
# The default is false.
sub use_namespaces
{
return defined($ENV{USE_NAMESPACES});
}
# returns a given testenv's interface-name (only when USE_NAMESPACES=1)
sub ns_interface_name
{
my ($hostname) = @_;
# when using namespaces, each testenv has its own vethX interface,
# where X = Samba::get_interface(testenv_name)
my $iface = get_interface($hostname);
return "veth$iface";
}
# Called after a new child namespace has been forked
sub ns_child_forked
{
my ($child_pid, $env_vars) = @_;
# we only need to do this for the first child forked for this testenv
if (defined($env_vars->{NS_PID})) {
return;
}
# store the child PID. It's the only way the main (selftest) namespace can
# access the new child (testenv) namespace.
$env_vars->{NS_PID} = $child_pid;
# Add the new child namespace's interface to the main selftest bridge.
# This connects together the various testenvs so that selftest can talk to
# them all
my $iface = ns_interface_name($env_vars->{NETBIOSNAME});
system "$ENV{SRCDIR}/selftest/ns/add_bridge_iface.sh $iface-br selftest0";
}
# returns args to prepend to a command in order to execute it the correct
# namespace for the testenv (creating a new namespace if needed).
# This should only used when USE_NAMESPACES=1 is set.
sub ns_exec_preargs
{
my ($parent_pid, $env_vars) = @_;
# NS_PID stores the pid of the first child daemon run in this namespace
if (defined($env_vars->{NS_PID})) {
# the namespace has already been created previously. So we use nsenter
# to execute the command in the given testenv's namespace. We need to
# use the NS_PID to identify this particular namespace
return ("nsenter", "-t", "$env_vars->{NS_PID}", "--net");
} else {
# We need to create a new namespace for this daemon (i.e. we're
# setting up a new testenv). First, write the environment variables to
# an exports.sh file for this testenv (for convenient access by the
# namespace scripts).
my $exports_file = "$env_vars->{TESTENV_DIR}/exports.sh";
export_envvars_to_file($exports_file, $env_vars);
# when using namespaces, each testenv has its own veth interface
my $interface = ns_interface_name($env_vars->{NETBIOSNAME});
# we use unshare to create a new network namespace. The start_in_ns.sh
# helper script gets run first to setup the new namespace's interfaces.
# (This all gets prepended around the actual command to run in the new
# namespace)
return ("unshare", "--net", "$ENV{SRCDIR}/selftest/ns/start_in_ns.sh",
$interface, $exports_file, $parent_pid);
}
}
1;