package Vyatta::IpTables::Rule; use strict; use Vyatta::Config; use Vyatta::IpTables::Mgr; require Vyatta::IpTables::AddressFilter; my $src = new Vyatta::IpTables::AddressFilter; my $dst = new Vyatta::IpTables::AddressFilter; my %fields = ( _name => undef, _rule_number => undef, _protocol => undef, _state => { _established => undef, _new => undef, _related => undef, _invalid => undef, }, _action => undef, _log => undef, _tcp_flags => undef, _icmp_code => undef, _icmp_type => undef, _icmp_name => undef, _icmpv6_type => undef, _mod_mark => undef, _mod_table => undef, _mod_dscp => undef, _mod_tcpmss => undef, _ipsec => undef, _non_ipsec => undef, _frag => undef, _non_frag => undef, _recent_time => undef, _recent_cnt => undef, _p2p => { _all => undef, _apple => undef, _bit => undef, _dc => undef, _edk => undef, _gnu => undef, _kazaa => undef, }, _time => { _startdate => undef, _stopdate => undef, _starttime => undef, _stoptime => undef, _monthdays => undef, _weekdays => undef, _utc => undef, }, _limit => { _rate => undef, _burst => undef, }, _disable => undef, _ip_version => undef, _comment => undef, _hop_limit => { _eq => undef, _lt => undef, _gt => undef, } ); my %dummy_rule = ( _rule_number => 10000, _protocol => "all", _state => { _established => undef, _new => undef, _related => undef, _invalid => undef, }, _action => "DROP", _log => undef, _tcp_flags => undef, _icmp_code => undef, _icmp_type => undef, _icmp_name => undef, _icmpv6_type => undef, _mod_mark => undef, _mod_table => undef, _mod_dscp => undef, _mod_tcpmss => undef, _ipsec => undef, _non_ipsec => undef, _frag => undef, _non_frag => undef, _recent_time => undef, _recent_cnt => undef, _p2p => { _all => undef, _apple => undef, _bit => undef, _dc => undef, _edk => undef, _gnu => undef, _kazaa => undef, }, _time => { _startdate => undef, _stopdate => undef, _starttime => undef, _stoptime => undef, _monthdays => undef, _weekdays => undef, _utc => undef, }, _limit => { _rate => undef, _burst => undef, }, _disable => undef, _ip_version => undef, _comment => undef, _hop_limit => { _eq => undef, _lt => undef, _gt => undef, } ); my $DEBUG = 'false'; sub new { my $that = shift; my $class = ref($that) || $that; my $self = {%fields,}; bless $self, $class; return $self; } sub setupDummy { my ($self, $level) = @_; %{$self} = %dummy_rule; $src = new Vyatta::IpTables::AddressFilter; $dst = new Vyatta::IpTables::AddressFilter; # set the default policy my $config = new Vyatta::Config; $config->setLevel("$level"); my $policy = $config->returnOrigValue('default-action'); $policy = 'drop' if !defined $policy; $self->{_action} = $policy; my $log = $config->existsOrig('enable-default-log'); $log = 'enable' if defined $log; $self->{_log} = $log; } sub setup_base { my ($self, $level, $val_func, $exists_func, $addr_setup) = @_; my $config = new Vyatta::Config; $self->{_comment} = $level; $config->setLevel("$level"); # for documentation sake. nodes returns an array so must transform # and ".. .. .." means go up three levels in the current hierarchy $self->{_name} = $config->returnParent(".. .. .."); $self->{_rule_number} = $config->returnParent(".."); $self->{_protocol} = $config->$val_func("protocol"); $self->{_state}->{_established} = $config->$val_func("state established"); $self->{_state}->{_new} = $config->$val_func("state new"); $self->{_state}->{_related} = $config->$val_func("state related"); $self->{_state}->{_invalid} = $config->$val_func("state invalid"); $self->{_action} = $config->$val_func("action"); $self->{_log} = $config->$val_func("log"); $self->{_tcp_flags} = $config->$val_func("tcp flags"); $self->{_icmp_code} = $config->$val_func("icmp code"); $self->{_icmp_type} = $config->$val_func("icmp type"); $self->{_icmp_name} = $config->$val_func("icmp type-name"); $self->{_icmpv6_type} = $config->$val_func("icmpv6 type"); $self->{_mod_mark} = $config->$val_func("set mark"); $self->{_mod_table} = $config->$val_func("set table"); if ($self->{_mod_table} eq 'main') { $self->{_mod_table} = 254; } $self->{_mod_dscp} = $config->$val_func("set dscp"); $self->{_mod_tcpmss} = $config->$val_func("set tcp-mss"); $self->{_ipsec} = $config->$exists_func("ipsec match-ipsec"); $self->{_non_ipsec} = $config->$exists_func("ipsec match-none"); $self->{_frag} = $config->$exists_func("fragment match-frag"); $self->{_non_frag} = $config->$exists_func("fragment match-non-frag"); $self->{_recent_time} = $config->$val_func('recent time'); $self->{_recent_cnt} = $config->$val_func('recent count'); $self->{_p2p}->{_all} = $config->$exists_func("p2p all"); $self->{_p2p}->{_apple} = $config->$exists_func("p2p applejuice"); $self->{_p2p}->{_bit} = $config->$exists_func("p2p bittorrent"); $self->{_p2p}->{_dc} = $config->$exists_func("p2p directconnect"); $self->{_p2p}->{_edk} = $config->$exists_func("p2p edonkey"); $self->{_p2p}->{_gnu} = $config->$exists_func("p2p gnutella"); $self->{_p2p}->{_kazaa} = $config->$exists_func("p2p kazaa"); $self->{_time}->{_startdate} = $config->$val_func("time startdate"); $self->{_time}->{_stopdate} = $config->$val_func("time stopdate"); $self->{_time}->{_starttime} = $config->$val_func("time starttime"); $self->{_time}->{_stoptime} = $config->$val_func("time stoptime"); $self->{_time}->{_monthdays} = $config->$val_func("time monthdays"); $self->{_time}->{_weekdays} = $config->$val_func("time weekdays"); $self->{_time}->{_utc} = $config->$exists_func("time utc"); $self->{_limit}->{_rate} = $config->$val_func("limit rate"); $self->{_limit}->{_burst} = $config->$val_func("limit burst"); $self->{_disable} = $config->$exists_func("disable"); $self->{_hop_limit}->{_eq} = $config->$val_func("hop-limit eq"); $self->{_hop_limit}->{_lt} = $config->$val_func("hop-limit lt"); $self->{_hop_limit}->{_gt} = $config->$val_func("hop-limit gt"); # TODO: need $config->exists("$level source") in Vyatta::Config.pm $src->$addr_setup("$level source"); $dst->$addr_setup("$level destination"); # Default to IPv4 $self->{_ip_version} = "ipv4"; return 0; } sub setup { my ($self, $level) = @_; $self->setup_base($level, 'returnValue', 'exists', 'setup'); return 0; } sub setupOrig { my ($self, $level) = @_; $self->setup_base($level, 'returnOrigValue', 'existsOrig', 'setupOrig'); $self->{_ip_version} = "ipv4"; return 0; } sub set_ip_version { my ($self, $ip_version) = @_; $self->{_ip_version} = $ip_version; $src->set_ip_version($ip_version); $dst->set_ip_version($ip_version); } sub print { my ($self) = @_; print "name: $self->{_name}\n" if defined $self->{_name}; print "rulenum: $self->{_rule_number}\n" if defined $self->{_rule_number}; print "protocol: $self->{_protocol}\n" if defined $self->{_protocol}; print "state: $self->{_state}\n" if defined $self->{_state}; print "action: $self->{_action}\n" if defined $self->{_action}; print "log: $self->{_log}\n" if defined $self->{_log}; print "icmp code: $self->{_icmp_code}\n" if defined $self->{_icmp_code}; print "icmp type: $self->{_icmp_type}\n" if defined $self->{_icmp_type}; print "icmpv6 type: $self->{_icmpv6_type}\n" if defined $self->{_icmpv6_type}; print "mod mark: $self->{_mod_mark}\n" if defined $self->{_mod_mark}; print "mod table: $self->{_mod_table}\n" if defined $self->{_mod_table}; print "mod dscp: $self->{_mod_dscp}\n" if defined $self->{_mod_dscp}; print "mod tcp-mss: $self->{_mod_tcpmss}\n" if defined $self->{_mod_tcpmss}; print "hop-limit: $self->{_hop_limit}\n" if defined $self->{_hop_limit}; $src->print(); $dst->print(); } sub is_stateful { my $self = shift; return 0 if defined $self->{_disable}; my @states = qw(established new related invalid); foreach (@states) { if ( defined($self->{_state}->{"_$_"}) && $self->{_state}->{"_$_"} eq "enable") { return 1; } } return 0; } sub is_disabled { my $self = shift; return 1 if defined $self->{_disable}; return 0; } sub is_route_table { my $self = shift; return $self->{_mod_table}; } sub get_state_str { my $self = shift; my @states = qw(established new related invalid); my @add_states = (); foreach (@states) { if ( defined($self->{_state}->{"_$_"}) && $self->{_state}->{"_$_"} eq "enable") { push @add_states, $_; } } if ($#add_states >= 0) { my $str = join ',', @add_states; return $str; } else { return ""; } } sub get_log_prefix { my ($chain, $rule_num, $action) = @_; # In iptables it allows a 29 character log_prefix, but we ideally # want to include "[$chain-$rule_num-$action] " but that would require # 1 29 1 4 1 1 11 = 39 # so truncate the chain name so that it'll all fit. my $action_char = uc(substr($action, 0, 1)); if (length($chain) > 19) { $chain = substr($chain, 0, 19); printf STDERR "Firewall config warning: rule $rule_num logging prefix will be truncated to [$chain-$rule_num-$action_char]\n"; } my $log_prefix = "[$chain-$rule_num-$action_char] "; return $log_prefix; } sub get_num_ipt_rules { my $self = shift; my $ipt_rules = 1; return 0 if defined $self->{_disable}; my $protocol_tcpudp = 0; if (defined $self->{_protocol} && $self->{_protocol} eq 'tcp_udp') { $ipt_rules++; $protocol_tcpudp = 1; } if (( "$self->{_log}" eq "enable") && ( ("$self->{_action}" eq "drop") ||("$self->{_action}" eq "accept") ||("$self->{_action}" eq "reject") ||("$self->{_action}" eq "inspect") ||("$self->{_action}" eq "modify"))){ $ipt_rules += 1; $ipt_rules++ if $protocol_tcpudp == 1; } if (defined($self->{_recent_time}) || defined($self->{_recent_cnt})) { $ipt_rules += 1; $ipt_rules++ if $protocol_tcpudp == 1; } return $ipt_rules; } sub rule { my ($self) = @_; my ($rule, $srcrule, $dstrule, $err_str); my $tcp_and_udp = 0; # set CLI rule num as comment my @level_nodes = split(' ', $self->{_comment}); $rule .= "-m comment --comment \"$level_nodes[2]-$level_nodes[4]\" "; # set the protocol if (defined($self->{_protocol})) { my $str = $self->{_protocol}; my $negate = ''; if ($str =~ /^\!(.*)$/) { $str = $1; $negate = '! '; } if ($str eq 'tcp_udp') { $tcp_and_udp = 1; $rule .= " $negate -p tcp "; # we'll add the '-p udp' to 2nd rule later } else { $rule .= " $negate -p $str "; } } my $state_str = uc(get_state_str($self)); if ($state_str ne "") { $rule .= "-m state --state $state_str "; } # set tcp flags if applicable my $tcp_flags = undef; if (defined $self->{_tcp_flags}) { if (($self->{_protocol} eq "tcp") || ($self->{_protocol} eq "6")) { $tcp_flags = get_tcp_flags_string($self->{_tcp_flags}); } else { return ("TCP flags can only be set if protocol is set to TCP",); } } if (defined($tcp_flags)) { $rule .= " -m tcp --tcp-flags $tcp_flags "; } # set the icmp code and type if applicable if (($self->{_protocol} eq "icmp") || ($self->{_protocol} eq "1")) { if (defined $self->{_icmp_name}) { if (defined($self->{_icmp_type}) || defined($self->{_icmp_code})){ return ("Cannot use ICMP type/code with ICMP type-name",); } $rule .= "--icmp-type $self->{_icmp_name} "; } elsif (defined $self->{_icmp_type}) { $rule .= "--icmp-type $self->{_icmp_type}"; if (defined $self->{_icmp_code}) { $rule .= "/$self->{_icmp_code}"; } $rule .= " "; } elsif (defined $self->{_icmp_code}) { return ("ICMP code can only be defined if ICMP type is defined",); } } elsif (defined($self->{_icmp_type}) || defined($self->{_icmp_code}) || defined($self->{_icmp_name})) { return ("ICMP type/code or type-name can only be defined if protocol is ICMP",); } # Setup ICMPv6 rule if configured # ICMPv6 parameters are only valid if the rule is matching on the # ICMPv6 protocol ID. # if ( ($self->{_protocol} eq "icmpv6") ||($self->{_protocol} eq "ipv6-icmp") ||($self->{_protocol} eq "58")) { if (defined($self->{_icmpv6_type})) { $rule .= "-m icmpv6 --icmpv6-type $self->{_icmpv6_type}"; } } # Setup HL rule if configured # if ( defined($self->{_hop_limit}->{_eq}) ) { $rule .= " -m hl --hl-eq $self->{_hop_limit}->{_eq}"; } elsif ( defined($self->{_hop_limit}->{_lt}) ) { $rule .= " -m hl --hl-lt $self->{_hop_limit}->{_lt}"; } elsif ( defined($self->{_hop_limit}->{_gt}) ) { $rule .= " -m hl --hl-gt $self->{_hop_limit}->{_gt}"; } # add the source and destination rules ($srcrule, $err_str) = $src->rule(); return ($err_str,) if (!defined($srcrule)); ($dstrule, $err_str) = $dst->rule(); return ($err_str,) if (!defined($dstrule)); # make sure multiport is always behind single port option if ((grep /multiport/, $srcrule)) { $rule .= " $dstrule $srcrule "; } elsif ((grep /multiport/, $dstrule)) { $rule .= " $srcrule $dstrule "; } else { $rule .= " $srcrule $dstrule "; } return ('Cannot specify both "match-frag" and "match-non-frag"',) if (defined($self->{_frag}) && defined($self->{_non_frag})); if (defined($self->{_frag})) { $rule .= ' -f '; } elsif (defined($self->{_non_frag})) { $rule .= ' ! -f '; } # note: "out" is not valid in the INPUT chain. return ('Cannot specify both "match-ipsec" and "match-none"',) if (defined($self->{_ipsec}) && defined($self->{_non_ipsec})); if (defined($self->{_ipsec})) { $rule .= ' -m policy --pol ipsec --dir in '; } elsif (defined($self->{_non_ipsec})) { $rule .= ' -m policy --pol none --dir in '; } my $p2p = undef; if (defined($self->{_p2p}->{_all})) { $p2p = '--apple --bit --dc --edk --gnu --kazaa '; } else { my @apps = qw(apple bit dc edk gnu kazaa); foreach (@apps) { if (defined($self->{_p2p}->{"_$_"})) { $p2p .= "--$_ "; } } } if (defined($p2p)) { $rule .= " -m ipp2p $p2p "; } my $time = undef; if (defined($self->{_time}->{_utc})) { $time .= " --utc "; } if (defined($self->{_time}->{_startdate})) { my $check_date = validate_date($self->{_time}->{_startdate}, "startdate"); if (!($check_date eq "")) { return ($check_date,); } $time .= " --datestart $self->{_time}->{_startdate} "; } if (defined($self->{_time}->{_stopdate})) { my $check_date = validate_date($self->{_time}->{_stopdate}, "stopdate"); if (!($check_date eq "")) { return ($check_date,); } $time .= " --datestop $self->{_time}->{_stopdate} "; } if (defined($self->{_time}->{_starttime})) { return ("Invalid starttime $self->{_time}->{_starttime}. Time should use 24 hour notation hh:mm:ss and lie in between 00:00:00 and 23:59:59", ) if (!validate_timevalues($self->{_time}->{_starttime}, "time")); $time .= " --timestart $self->{_time}->{_starttime} "; } if (defined($self->{_time}->{_stoptime})) { return ("Invalid stoptime $self->{_time}->{_stoptime}. Time should use 24 hour notation hh:mm:ss and lie in between 00:00:00 and 23:59:59", ) if (!validate_timevalues($self->{_time}->{_stoptime}, "time")); $time .= " --timestop $self->{_time}->{_stoptime} "; } if (defined($self->{_time}->{_monthdays})) { my $negate = " "; if ($self->{_time}->{_monthdays} =~ m/^!/) { $negate = "! "; $self->{_time}->{_monthdays} = substr $self->{_time}->{_monthdays}, 1; } return ("Invalid monthdays value $self->{_time}->{_monthdays}. Monthdays should have values between 1 and 31 with multiple days separated by commas eg. 2,12,21 For negation, add ! in front eg. !2,12,21", ) if (!validate_timevalues($self->{_time}->{_monthdays}, "monthdays")); $time .= " $negate --monthdays $self->{_time}->{_monthdays} "; } if (defined($self->{_time}->{_weekdays})) { my $negate = " "; if ($self->{_time}->{_weekdays} =~ m/^!/) { $negate = "! "; $self->{_time}->{_weekdays} = substr $self->{_time}->{_weekdays}, 1; } return ("Invalid weekdays value $self->{_time}->{_weekdays}. Weekdays should be specified using the first three characters of the day with the first character capitalized eg. Mon,Thu,Sat For negation, add ! in front eg. !Mon,Thu,Sat", ) if (!validate_timevalues($self->{_time}->{_weekdays}, "weekdays")); $time .= " $negate --weekdays $self->{_time}->{_weekdays} "; } if (defined($time)) { $rule .= " -m time $time "; } my $limit = undef; if (defined $self->{_limit}->{_rate}) { my $rate_integer = $self->{_limit}->{_rate}; $rate_integer =~ s/\/(second|minute|hour|day)//; if ($rate_integer < 1) { return ("integer value in rate cannot be less than 1",); } $limit = "--limit $self->{_limit}->{_rate} --limit-burst $self->{_limit}->{_burst}"; } $rule .= " -m limit $limit " if defined $limit; # recent match condition SHOULD BE DONE IN THE LAST so # all options in $rule are copied to $recent_rule below my $recent_rule = undef; if (defined($self->{_recent_time}) || defined($self->{_recent_cnt})) { my $recent_rule1 = undef; my $recent_rule2 = undef; $recent_rule1 .= ' -m recent --update '; $recent_rule2 .= ' -m recent --set '; if (defined($self->{_recent_time})) { $recent_rule1 .= " --seconds $self->{_recent_time} "; } if (defined($self->{_recent_cnt})) { $recent_rule1 .= " --hitcount $self->{_recent_cnt} "; } $recent_rule1 .= " --name $self->{_name}-$self->{_rule_number} "; $recent_rule2 .= " --name $self->{_name}-$self->{_rule_number} "; $recent_rule = $rule; if ($rule =~ m/\-m\s+set\s+\-\-match\-set/) { # firewall group being used in this rule. iptables complains if recent # match condition is placed after group match conditions [see bug 5744] # so instead of appending recent match place it before group match my @split_rules = (); @split_rules = split(/(\-m\s+set\s+\-\-match\-set)/, $rule, 2); $rule = $split_rules[0] . $recent_rule1 .$split_rules[1] . $split_rules[2]; @split_rules = split(/(\-m\s+set\s+\-\-match\-set)/, $recent_rule, 2); $recent_rule = $split_rules[0] . $recent_rule2 .$split_rules[1] . $split_rules[2]; } else { # append recent match conditions to the two rules needed for recent match $rule .= $recent_rule1; $recent_rule .= $recent_rule2; } } my $chain = $self->{_name}; my $rule_num = $self->{_rule_number}; my $rule2 = undef; # set the jump target. Depends on action and log if ("$self->{_log}" eq "enable") { $rule2 = $rule; my $log_prefix = get_log_prefix($chain, $rule_num, $self->{_action}); $rule2 .= "-j LOG --log-prefix \"$log_prefix\" "; } if ("$self->{_action}" eq "drop") { $rule .= "-j DROP "; } elsif ("$self->{_action}" eq "accept") { $rule .= "-j RETURN "; } elsif ("$self->{_action}" eq "reject") { $rule .= "-j REJECT "; } elsif ("$self->{_action}" eq 'inspect') { my $target = ipt_get_queue_target('SNORT'); return ('Undefined target for inspect',) if !defined $target; $rule .= "-j $target "; } elsif ($self->{_comment} =~ m/^policy/) { # mangle actions my $count = 0; if (defined($self->{_mod_mark})) { # MARK $rule .= "-j MARK --set-mark $self->{_mod_mark} "; $count++; } if (defined($self->{_mod_table})) { # Route table $rule .= "-j VYATTA_PBR_$self->{_mod_table} "; $count++; } if (defined($self->{_mod_dscp})) { # DSCP $rule .= "-j DSCP --set-dscp $self->{_mod_dscp} "; $count++; } if (defined($self->{_mod_tcpmss})) { # TCP-MSS # check for SYN flag if ( !defined $self->{_tcp_flags} ||!(($self->{_tcp_flags} =~ m/SYN/) && !($self->{_tcp_flags} =~ m/!SYN/))) { return ('need to set TCP SYN flag to modify TCP MSS',); } if ($self->{_mod_tcpmss} =~ m/\d/) { $rule .= "-j TCPMSS --set-mss $self->{_mod_tcpmss} "; } else { $rule .= "-j TCPMSS --clamp-mss-to-pmtu "; } $count++; } # others if ($count == 0) { return ('Policy route requires "action drop" or "set" parameters be defined.'); } elsif ($count > 1) { return ('Can not define more than one "set" parameter per policy route'); } } else { return ("\"action\" must be defined in rule $rule_num",); } if (defined($rule2)) { my $tmp = $rule2; $rule2 = $rule; $rule = $tmp; } elsif (defined($recent_rule)) { $rule2 = $recent_rule; $recent_rule = undef; } return (undef, undef) if defined $self->{_disable}; my ($udp_rule, $udp_rule2, $udp_recent_rule) = (undef, undef, undef); if ($tcp_and_udp == 1) { # create udp rules $udp_rule = $rule; $udp_rule2 = $rule2 if defined $rule2; $udp_recent_rule = $recent_rule if defined $recent_rule; foreach my $each_udprule ($udp_rule, $udp_rule2, $udp_recent_rule) { $each_udprule =~ s/ \-p tcp / -p udp / if defined $each_udprule; } } if ($DEBUG eq 'true') { # print all potential iptables rules that could be formed for # a single CLI rule. see get_num_ipt_rules to see exact count print "rule :\n$rule\n" if defined $rule; print "rule2 :\n$rule2\n" if defined $rule2; print "recent rule :\n$recent_rule\n" if defined $recent_rule; print "udp rule :\n$udp_rule\n" if defined $udp_rule; print "udp rule2 :\n$udp_rule2\n" if defined $udp_rule2; print "udp recent rule :\n$udp_recent_rule\n" if defined $udp_recent_rule; } return (undef, $rule, $rule2, $recent_rule, $udp_rule, $udp_rule2, $udp_recent_rule); } sub outputXmlElem { my ($name, $value, $fh) = @_; print $fh " <$name>$value\n"; } sub outputXml { my ($self, $fh) = @_; if (!defined($self->{_protocol})) { $self->{_protocol} = "all"; } outputXmlElem("protocol", $self->{_protocol}, $fh); my $state_str = get_state_str($self); if ($state_str ne "") { $state_str =~ s/,/%2C/g; $state_str .= "+"; } outputXmlElem("state", $state_str, $fh); outputXmlElem("action", uc($self->{_action}), $fh); outputXmlElem("log", $self->{_log}, $fh); outputXmlElem("icmp_type", $self->{_icmp_type}, $fh); outputXmlElem("icmp_code", $self->{_icmp_code}, $fh); $src->outputXml("src", $fh); $dst->outputXml("dst", $fh); } sub validate_timevalues { my ($string, $type) = @_; use Switch; use Time::Local; switch ($type) { case "date" { $string =~ s/-//g; my ($year, $month, $day) = unpack "A4 A2 A2", $string; eval { timelocal(0,0,0,$day, $month-1, $year); 1; } or return 0; } case "time" { $string =~ s/://g; my ($hour, $min, $sec) = unpack "A2 A2 A2", $string; eval { timelocal($sec,$min,$hour, 1, 0, 1970); 1; } or return 0; } case "monthdays" { while($string =~ m/(\d+)/g) { if ($1 < 1 || $1 > 31) { return 0; } } } case "weekdays" { my @weekdays = ("Mon", "Tue", "Wed", "Thu", "Fri", "Sat", "Sun"); while($string =~ m/(\w+)/g) { if (!grep(/$1/,@weekdays)) { return 0; } } } else { print"Invalid type '$type' passed to sub validate_timevalues()\n"; return 0; } } return 1; } sub validate_date { my ($date, $string) = @_; if ($date =~ m/T/) { my $actualdate = substr $date, 0, 10; my $datetime = substr $date, 11; return ("Invalid $string $actualdate. Date should use yyyy-mm-dd format and lie in between 1970-01-01 and 2038-01-19") if (!validate_timevalues($actualdate, "date")); return ("Invalid time $datetime for $string $actualdate. Time should use 24 hour notation hh:mm:ss and lie in between 00:00:00 and 23:59:59") if (!validate_timevalues($datetime, "time")); } else { return ("Invalid $string $date. Date should use yyyy-mm-dd format and lie in between 1970-01-01 and 2038-01-19") if (!validate_timevalues($date, "date")); } return (""); } sub get_tcp_flags_string { my $string = shift; my @list_of_flags = (); # list of tcp flags to be examined my @list_of_set_flags = (); # list of flags which must be set my @string_list = split(/,/, $string); while(@string_list) { if (!grep(/!/,$string_list[0])) { push @list_of_flags, $string_list[0]; push @list_of_set_flags, $string_list[0]; } else { $string_list[0] =~ s/!//g; push @list_of_flags, $string_list[0]; } shift(@string_list); } push @list_of_set_flags, 'NONE' if @list_of_set_flags == (); return join(",",@list_of_flags) . " " . join(",",@list_of_set_flags); } 1;