use Socket;
use POSIX;
use Time::Local;
+eval "use Time::HiRes;";
@itoa64 = split(//, "./0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz");
push(@INC, split(/:/, $config{'perllib'}));
$ENV{'PERLLIB'} .= ':'.$config{'perllib'};
}
+@startup_msg = ( );
-# Check is SSL is enabled and available
+# Check if SSL is enabled and available
if ($config{'ssl'}) {
eval "use Net::SSLeay";
if (!$@) {
}
}
+# Check if IPv6 is enabled and available
+if ($config{'ipv6'}) {
+ eval "use Socket6";
+ if (!$@) {
+ push(@startup_msg, "IPv6 support enabled");
+ $use_ipv6 = 1;
+ }
+ else {
+ push(@startup_msg, "IPv6 support cannot be enabled without ".
+ "the Socket6 perl module");
+ }
+ }
+
# Check if the syslog module is available to log hacking attempts
if ($config{'syslog'} && !$config{'inetd'}) {
eval "use Sys::Syslog qw(:DEFAULT setlogsock)";
$pam_password = "test";
$pamh->pam_authenticate();
if ($pam_conv_func_called) {
- $pam_msg = "PAM authentication enabled";
+ push(@startup_msg,
+ "PAM authentication enabled");
$use_pam = 1;
}
else {
- $pam_msg = "PAM test failed - maybe /etc/pam.d/$config{'pam'} does not exist";
+ push(@startup_msg,
+ "PAM test failed - maybe ".
+ "/etc/pam.d/$config{'pam'} does not exist");
}
}
else {
- $pam_msg = "PAM initialization of Authen::PAM failed";
+ push(@startup_msg,
+ "PAM initialization of Authen::PAM failed");
}
}
else {
- $pam_msg = "Perl module Authen::PAM needed for PAM is not installed : $@";
+ push(@startup_msg,
+ "Perl module Authen::PAM needed for PAM is ".
+ "not installed : $@");
}
}
if ($config{'pam_only'} && !$use_pam) {
- print STDERR $pam_msg;
+ print STDERR $startup_msg[0],"\n";
print STDERR "PAM use is mandatory, but could not be enabled!\n";
exit(1);
}
elsif ($pam_msg && !$use_pam) {
- $pam_msg2 = "Continuing without the Authen::PAM perl module";
+ push(@startup_msg,
+ "Continuing without the Authen::PAM perl module");
}
# Check if the User::Utmp perl module is installed
eval "use User::Utmp;";
if (!$@) {
$write_utmp = 1;
- $utmp_msg = "UTMP logging enabled";
+ push(@startup_msg, "UTMP logging enabled");
}
else {
- $utmp_msg = "Perl module User::Utmp needed for Utmp logging is not installed : $@";
+ push(@startup_msg,
+ "Perl module User::Utmp needed for Utmp logging is ".
+ "not installed : $@");
}
}
eval "use Crypt::UnixCrypt";
if (!$@) {
$use_perl_crypt = 1;
- $crypt_msg = "Using Crypt::UnixCrypt for password encryption\n";
+ push(@startup_msg,
+ "Using Crypt::UnixCrypt for password encryption");
}
else {
- $crypt_msg = "crypt() function un-implemented, and Crypt::UnixCrypt not installed - password authentication will probably fail\n";
+ push(@startup_msg,
+ "crypt() function un-implemented, and Crypt::UnixCrypt ".
+ "not installed - password authentication will fail");
}
}
# Check if /dev/urandom really generates random IDs, by calling it twice
local $rand1 = &generate_random_id("foo", 1);
local $rand2 = &generate_random_id("foo", 2);
-local $rand_msg;
if ($rand1 eq $rand2) {
$bad_urandom = 1;
- $rand_msg = "Random number generator file /dev/urandom is not reliable";
+ push(@startup_msg,
+ "Random number generator file /dev/urandom is not reliable");
}
# Check if we can call sudo
$use_sudo = 1;
}
else {
- $sudo_msg = "Perl module IO::Pty needed for calling sudo is not installed : $@";
+ push(@startup_msg,
+ "Perl module IO::Pty needed for calling sudo is not ".
+ "installed : $@");
}
}
&read_users_file();
# Setup SSL if possible and if requested
-if (!-r $config{'keyfile'} ||
- $config{'certfile'} && !-r $config{'certfile'}) {
+if (!-r $config{'keyfile'}) {
# Key file doesn't exist!
+ if ($config{'keyfile'}) {
+ print STDERR "SSL key file $config{'keyfile'} does not exist\n";
+ }
+ $use_ssl = 0;
+ }
+elsif ($config{'certfile'} && !-r $config{'certfile'}) {
+ # Cert file doesn't exist!
+ print STDERR "SSL cert file $config{'certfile'} does not exist\n";
$use_ssl = 0;
}
@ipkeys = &get_ipkeys(\%config);
}
$client_certs = 0 if (!-r $config{'ca'} || !%certs);
$ssl_contexts{"*"} = &create_ssl_context($config{'keyfile'},
- $config{'certfile'});
+ $config{'certfile'},
+ $config{'extracas'});
foreach $ipkey (@ipkeys) {
- $ctx = &create_ssl_context($ipkey->{'key'}, $ipkey->{'cert'});
+ $ctx = &create_ssl_context($ipkey->{'key'}, $ipkey->{'cert'},
+ $ipkey->{'extracas'} || $config{'extracas'});
foreach $ip (@{$ipkey->{'ips'}}) {
$ssl_contexts{$ip} = $ctx;
}
}
}
+# Load gzip library if enabled
+if ($config{'gzip'} eq '1') {
+ eval "use Compress::Zlib";
+ if (!$@) {
+ $use_gzip = 1;
+ }
+ }
+
# Setup syslog support if possible and if requested
if ($use_syslog) {
open(ERRDUP, ">&STDERR");
%webmincron_last = ( );
&read_file($config{'webmincron_last'}, \%webmincron_last);
-# Re-direct STDERR to a log file
-if ($config{'errorlog'} ne '-') {
- open(STDERR, ">>$config{'errorlog'}") || die "failed to open $config{'errorlog'} : $!";
- if ($config{'logperms'}) {
- chmod(oct($config{'logperms'}), $config{'errorlog'});
- }
- }
-select(STDERR); $| = 1; select(STDOUT);
+# Pre-cache lang files
+&precache_files();
if ($config{'inetd'}) {
# We are being run from inetd - go direct to handling the request
+ &redirect_stderr_to_log();
$SIG{'HUP'} = 'IGNORE';
$SIG{'TERM'} = 'DEFAULT';
$SIG{'PIPE'} = 'DEFAULT';
}
}
+ # Work out if IPv6 is being used locally
+ local $sn = getsockname(SOCK);
+ print DEBUG "sn=$sn\n";
+ print DEBUG "length=",length($sn),"\n";
+ $localipv6 = length($sn) > 16;
+ print DEBUG "localipv6=$localipv6\n";
+
# Initialize SSL for this connection
if ($use_ssl) {
- $ssl_con = &ssl_connection_for_ip(SOCK);
+ $ssl_con = &ssl_connection_for_ip(SOCK, $localipv6);
$ssl_con || exit;
}
# Work out the hostname for this web server
- $host = &get_socket_name(SOCK);
+ $host = &get_socket_name(SOCK, $localipv6);
+ print DEBUG "host=$host\n";
$host || exit;
$port = $config{'port'};
$acptaddr = getpeername(SOCK);
+ print DEBUG "acptaddr=$acptaddr\n";
+ print DEBUG "length=",length($acptaddr),"\n";
$acptaddr || exit;
+ # Work out remote and local IPs
+ $ipv6 = length($acptaddr) > 16;
+ print DEBUG "ipv6=$ipv6\n";
+ (undef, $locala) = &get_socket_ip(SOCK, $localipv6);
+ print DEBUG "locala=$locala\n";
+ (undef, $peera, undef) = &get_address_ip($acptaddr, $ipv6);
+ print DEBUG "peera=$peera\n";
+
print DEBUG "main: Starting handle_request loop pid=$$\n";
- while(&handle_request($acptaddr, getsockname(SOCK))) { }
+ while(&handle_request($peera, $locala, $ipv6)) { }
print DEBUG "main: Done handle_request loop pid=$$\n";
close(SOCK);
exit;
}
# Build list of sockets to listen on
-if ($config{"bind"} && $config{"bind"} ne "*") {
- push(@sockets, [ inet_aton($config{'bind'}), $config{'port'} ]);
+$config{'bind'} = '' if ($config{'bind'} eq '*');
+if ($config{'bind'}) {
+ # Listening on a specific IP
+ if (&check_ip6address($config{'bind'})) {
+ # IP is v6
+ $use_ipv6 || die "Cannot bind to $config{'bind'} without IPv6";
+ push(@sockets, [ inet_pton(Socket6::AF_INET6(),$config{'bind'}),
+ $config{'port'},
+ Socket6::PF_INET6() ]);
+ }
+ else {
+ # IP is v4
+ push(@sockets, [ inet_aton($config{'bind'}),
+ $config{'port'},
+ PF_INET() ]);
+ }
}
else {
- push(@sockets, [ INADDR_ANY, $config{'port'} ]);
+ # Listening on all IPs
+ push(@sockets, [ INADDR_ANY, $config{'port'}, PF_INET() ]);
+ if ($use_ipv6) {
+ # Also IPv6
+ push(@sockets, [ in6addr_any(), $config{'port'},
+ Socket6::PF_INET6() ]);
+ }
}
foreach $s (split(/\s+/, $config{'sockets'})) {
if ($s =~ /^(\d+)$/) {
# Just listen on another port on the main IP
- push(@sockets, [ $sockets[0]->[0], $s ]);
+ push(@sockets, [ $sockets[0]->[0], $s, $sockets[0]->[2] ]);
+ if ($use_ipv6 && !$config{'bind'}) {
+ # Also listen on that port on the main IPv6 address
+ push(@sockets, [ $sockets[1]->[0], $s,
+ $sockets[1]->[2] ]);
+ }
+ }
+ elsif ($s =~ /^\*:(\d+)$/) {
+ # Listening on all IPs on some port
+ push(@sockets, [ INADDR_ANY, $1,
+ PF_INET() ]);
+ if ($use_ipv6) {
+ push(@sockets, [ in6addr_any(), $1,
+ Socket6::PF_INET6() ]);
+ }
}
elsif ($s =~ /^(\S+):(\d+)$/) {
# Listen on a specific port and IP
- push(@sockets, [ $1 eq "*" ? INADDR_ANY : inet_aton($1), $2 ]);
+ my ($ip, $port) = ($1, $2);
+ if (&check_ip6address($ip)) {
+ $use_ipv6 || die "Cannot bind to $ip without IPv6";
+ push(@sockets, [ inet_pton(Socket6::AF_INET6(),
+ $ip),
+ $port, Socket6::PF_INET6() ]);
+ }
+ else {
+ push(@sockets, [ inet_aton($ip), $port,
+ PF_INET() ]);
+ }
}
elsif ($s =~ /^([0-9\.]+):\*$/ || $s =~ /^([0-9\.]+)$/) {
- # Listen on the main port on another IP
- push(@sockets, [ inet_aton($1), $sockets[0]->[1] ]);
+ # Listen on the main port on another IPv4 address
+ push(@sockets, [ inet_aton($1), $sockets[0]->[1],
+ PF_INET() ]);
+ }
+ elsif (($s =~ /^([0-9a-f\:]+):\*$/ || $s =~ /^([0-9a-f\:]+)$/) &&
+ $use_ipv6) {
+ # Listen on the main port on another IPv6 address
+ push(@sockets, [ inet_pton(Socket6::AF_INET6(), $1),
+ $sockets[0]->[1],
+ Socket6::PF_INET6() ]);
}
}
$tried_inaddr_any = 0;
for($i=0; $i<@sockets; $i++) {
$fh = "MAIN$i";
- socket($fh, PF_INET, SOCK_STREAM, $proto) ||
- die "Failed to open socket : $!";
+ socket($fh, $sockets[$i]->[2], SOCK_STREAM, $proto) ||
+ die "Failed to open socket family $sockets[$i]->[2] : $!";
setsockopt($fh, SOL_SOCKET, SO_REUSEADDR, pack("l", 1));
+ if ($sockets[$i]->[2] eq PF_INET()) {
+ $pack = pack_sockaddr_in($sockets[$i]->[1], $sockets[$i]->[0]);
+ }
+ else {
+ $pack = pack_sockaddr_in6($sockets[$i]->[1], $sockets[$i]->[0]);
+ setsockopt($fh, 41, 26, pack("l", 1)); # IPv6 only
+ }
for($j=0; $j<5; $j++) {
- last if (bind($fh, pack_sockaddr_in($sockets[$i]->[1],
- $sockets[$i]->[0])));
+ last if (bind($fh, $pack));
sleep(1);
}
if ($j == 5) {
# All attempts failed .. give up
- if ($sockets[$i]->[0] eq INADDR_ANY) {
- push(@sockerrs, "Failed to bind to port $sockets[$i]->[1] : $!");
+ if ($sockets[$i]->[0] eq INADDR_ANY ||
+ $use_ipv6 && $sockets[$i]->[0] eq in6addr_any()) {
+ push(@sockerrs,
+ "Failed to bind to port $sockets[$i]->[1] : $!");
$tried_inaddr_any = 1;
}
else {
- $ip = inet_ntoa($sockets[$i]->[0]);
- push(@sockerrs, "Failed to bind to IP $ip port $sockets[$i]->[1] : $!");
+ $ip = &network_to_address($sockets[$i]->[0]);
+ push(@sockerrs,
+ "Failed to bind to IP $ip port ".
+ "$sockets[$i]->[1] : $!");
}
}
else {
listen($fh, SOMAXCONN);
push(@socketfhs, $fh);
+ $ipv6fhs{$fh} = $sockets[$i]->[2] eq PF_INET() ? 0 : 1;
}
}
foreach $se (@sockerrs) {
if (!@socketfhs && !$tried_inaddr_any) {
print STDERR "Falling back to listening on any address\n";
$fh = "MAIN";
- socket($fh, PF_INET, SOCK_STREAM, $proto) ||
+ socket($fh, PF_INET(), SOCK_STREAM, $proto) ||
die "Failed to open socket : $!";
setsockopt($fh, SOL_SOCKET, SO_REUSEADDR, pack("l", 1));
- bind($fh, pack_sockaddr_in($sockets[0]->[1], INADDR_ANY)) ||
- die "Failed to bind to port $sockets[0]->[1] : $!";
+ if (!bind($fh, pack_sockaddr_in($sockets[0]->[1], INADDR_ANY))) {
+ print STDERR "Failed to bind to port $sockets[0]->[1] : $!\n";
+ exit(1);
+ }
listen($fh, SOMAXCONN);
push(@socketfhs, $fh);
}
elsif (!@socketfhs && $tried_inaddr_any) {
- die "Could not listen on any ports";
+ print STDERR "Could not listen on any ports";
+ exit(1);
}
if ($config{'listen'}) {
# Open the socket that allows other webmin servers to find this one
$proto = getprotobyname('udp');
- if (socket(LISTEN, PF_INET, SOCK_DGRAM, $proto)) {
+ if (socket(LISTEN, PF_INET(), SOCK_DGRAM, $proto)) {
setsockopt(LISTEN, SOL_SOCKET, SO_REUSEADDR, pack("l", 1));
bind(LISTEN, pack_sockaddr_in($config{'listen'}, INADDR_ANY));
listen(LISTEN, SOMAXCONN);
# Close standard file handles
open(STDIN, "</dev/null");
open(STDOUT, ">/dev/null");
+&redirect_stderr_to_log();
&log_error("miniserv.pl started");
-&log_error($pam_msg) if ($pam_msg);
-&log_error($pam_msg2) if ($pam_msg2);
-&log_error($utmp_msg) if ($utmp_msg);
-&log_error($crypt_msg) if ($crypt_msg);
-&log_error($sudo_msg) if ($sudo_msg);
-&log_error($rand_msg) if ($rand_msg);
+foreach $msg (@startup_msg) {
+ &log_error($msg);
+ }
# write out the PID file
&write_pid_file();
&allocate_pipes();
}
+ # Work out IP and port of client
+ local ($peerb, $peera, $peerp) =
+ &get_address_ip($acptaddr, $ipv6fhs{$s});
+
+ # Work out the local IP
+ (undef, $locala) = &get_socket_ip(SOCK, $ipv6fhs{$s});
+
# Check username of connecting user
- local ($peerp, $peera) = unpack_sockaddr_in($acptaddr);
$localauth_user = undef;
- if ($config{'localauth'} && inet_ntoa($peera) eq "127.0.0.1") {
+ if ($config{'localauth'} && $peera eq "127.0.0.1") {
if (open(TCP, "/proc/net/tcp")) {
# Get the info direct from the kernel
+ $peerh = sprintf("%4.4X", $peerp);
while(<TCP>) {
s/^\s+//;
local @t = split(/[\s:]+/, $_);
if ($t[1] eq '0100007F' &&
- $t[2] eq sprintf("%4.4X", $peerp)) {
- $localauth_user = getpwuid($t[11]);
+ $t[2] eq $peerh) {
+ $localauth_user =
+ getpwuid($t[11]);
last;
}
}
if (!$localauth_user) {
# Call lsof for the info
local $lsofpid = open(LSOF,
- "$config{'localauth'} -i TCP\@127.0.0.1:$peerp |");
+ "$config{'localauth'} -i ".
+ "TCP\@127.0.0.1:$peerp |");
while(<LSOF>) {
if (/^(\S+)\s+(\d+)\s+(\S+)/ &&
- $2 != $$ && $2 != $lsofpid) {
+ $2 != $$ && $2 != $lsofpid){
$localauth_user = $3;
}
}
}
# Work out the hostname for this web server
- $host = &get_socket_name(SOCK);
+ $host = &get_socket_name(SOCK, $ipv6fhs{$s});
if (!$host) {
- print STDERR "Failed to get local socket name : $!\n";
+ print STDERR
+ "Failed to get local socket name : $!\n";
close(SOCK);
next;
}
$SIG{'HUP'} = 'IGNORE';
$SIG{'USR1'} = 'IGNORE';
- # Initialize SSL for this connection
- if ($use_ssl) {
- $ssl_con = &ssl_connection_for_ip(SOCK);
- $ssl_con || exit;
- }
-
# Close the file handle for the session DBM
dbmclose(%sessiondb);
&close_all_sockets();
close(LISTEN);
+ # Initialize SSL for this connection
+ if ($use_ssl) {
+ $ssl_con = &ssl_connection_for_ip(
+ SOCK, $ipv6fhs{$s});
+ $ssl_con || exit;
+ }
+
print DEBUG
"main: Starting handle_request loop pid=$$\n";
- while(&handle_request($acptaddr,
- getsockname(SOCK))) { }
+ while(&handle_request($peera, $locala,
+ $ipv6fhs{$s})) {
+ # Loop until keepalive stops
+ }
print DEBUG
"main: Done handle_request loop pid=$$\n";
shutdown(SOCK, 1);
getsockname(LISTEN)))[1]);
if ((!@deny || !&ip_match($fromip, $toip, @deny)) &&
(!@allow || &ip_match($fromip, $toip, @allow))) {
- local $listenhost = &get_socket_name(LISTEN);
+ local $listenhost = &get_socket_name(LISTEN, 0);
send(LISTEN, "$listenhost:$config{'port'}:".
- ($use_ssl || $config{'inetd_ssl'} ? 1 : 0).":".
- ($config{'listenhost'} ?
+ ($use_ssl || $config{'inetd_ssl'} ? 1 : 0).":".
+ ($config{'listenhost'} ?
&get_system_hostname() : ""),
- 0, $from)
+ 0, $from)
if ($listenhost);
}
}
@passout = grep { defined($_) } @passout;
}
-# handle_request(remoteaddress, localaddress)
+# handle_request(remoteaddress, localaddress, ipv6-flag)
# Where the real work is done
sub handle_request
{
-$acptip = inet_ntoa((unpack_sockaddr_in($_[0]))[1]);
-$localip = $_[1] ? inet_ntoa((unpack_sockaddr_in($_[1]))[1]) : undef;
-print DEBUG "handle_request: from $acptip to $localip\n";
+local ($acptip, $localip, $ipv6) = @_;
+print DEBUG "handle_request: from $acptip to $localip ipv6=$ipv6\n";
if ($config{'loghost'}) {
- $acpthost = gethostbyaddr(inet_aton($acptip), AF_INET);
+ $acpthost = &to_hostname($acptip);
$acpthost = $acptip if (!$acpthost);
}
else {
print DEBUG "handle_request: posted_data=$posted_data\n";
}
+# Reject CONNECT request, which isn't supported
+if ($method eq "CONNECT") {
+ &http_error(405, "Method $method is not supported");
+ }
+
+# work out accepted encodings
+%acceptenc = map { $_, 1 } split(/,/, $header{'accept-encoding'});
+
# replace %XX sequences in page
$page =~ s/%(..)/pack("c",hex($1))/ge;
($authuser, $authpass) = split(/:/, &b64decode($1), 2);
print DEBUG "handle_request: doing basic auth check authuser=$authuser authpass=$authpass\n";
local ($vu, $expired, $nonexist) =
- &validate_user($authuser, $authpass, $host);
+ &validate_user($authuser, $authpass, $host,
+ $acptip, $port);
print DEBUG "handle_request: vu=$vu expired=$expired nonexist=$nonexist\n";
if ($vu && (!$expired || $config{'passwd_mode'} == 1)) {
$authuser = $vu;
}
local ($vu, $expired, $nonexist) =
- &validate_user($in{'user'}, $in{'pass'}, $host);
+ &validate_user($in{'user'}, $in{'pass'}, $host,
+ $acptip, $port);
local $hrv = &handle_login(
$vu || $in{'user'}, $vu ? 1 : 0,
$expired, $nonexist, $in{'pass'},
&write_data("WWW-authenticate: Basic ".
"realm=\"$config{'realm'}\"\r\n");
&write_keep_alive(0);
- &write_data("Content-type: text/html\r\n");
+ &write_data("Content-type: text/html; Charset=iso-8859-1\r\n");
&write_data("\r\n");
&reset_byte_count();
&write_data("<html>\n");
local $resp = "HTTP/1.0 $ok_code $ok_message\r\n".
"Date: $datestr\r\n".
"Server: $config{server}\r\n".
- "Content-type: text/html\r\n";
+ "Content-type: text/html; Charset=iso-8859-1\r\n";
&write_data($resp);
&write_keep_alive(0);
&write_data("\r\n");
$ENV{"SERVER_PORT"} = $port;
$ENV{"REMOTE_HOST"} = $acpthost;
$ENV{"REMOTE_ADDR"} = $acptip;
+ $ENV{"REMOTE_ADDR_PROTOCOL"} = $ipv6 ? 6 : 4;
$ENV{"REMOTE_USER"} = $authuser;
$ENV{"BASE_REMOTE_USER"} = $authuser ne $baseauthuser ?
$baseauthuser : undef;
}
$ENV{"QUERY_STRING"} = $querystring;
$ENV{"MINISERV_CONFIG"} = $config_file;
- $ENV{"HTTPS"} = "ON" if ($use_ssl || $config{'inetd_ssl'});
+ $ENV{"HTTPS"} = $use_ssl || $config{'inetd_ssl'} ? "ON" : "";
$ENV{"MINISERV_PID"} = $miniserv_main_pid;
$ENV{"SESSION_ID"} = $session_id if ($session_id);
$ENV{"LOCAL_USER"} = $localauth_user if ($localauth_user);
}
else {
# A file to output
- print DEBUG "handle_request: outputting file\n";
- open(FILE, $full) || &http_error(404, "Failed to open file");
+ print DEBUG "handle_request: outputting file $full\n";
+ $gzfile = $full.".gz";
+ $gzipped = 0;
+ if ($config{'gzip'} ne '0' && -r $gzfile && $acceptenc{'gzip'}) {
+ # Using gzipped version
+ @stopen = stat($gzfile);
+ if ($stopen[9] >= $stfull[9] && open(FILE, $gzfile)) {
+ print DEBUG "handle_request: using gzipped $gzfile\n";
+ $gzipped = 1;
+ }
+ }
+ if (!$gzipped) {
+ # Using original file
+ @stopen = @stfull;
+ open(FILE, $full) || &http_error(404, "Failed to open file");
+ }
binmode(FILE);
+
+ # Build common headers
local $resp = "HTTP/1.0 $ok_code $ok_message\r\n".
"Date: $datestr\r\n".
"Server: $config{server}\r\n".
"Content-type: ".&get_type($full)."\r\n".
- "Content-length: $stfull[7]\r\n".
- "Last-Modified: ".&http_date($stfull[9])."\r\n".
- "Expires: ".&http_date(time()+$config{'expires'})."\r\n";
- &write_data($resp);
- $rv = &write_keep_alive();
- &write_data("\r\n");
- &reset_byte_count();
- while(read(FILE, $buf, 1024) > 0) {
- &write_data($buf);
+ "Last-Modified: ".&http_date($stopen[9])."\r\n".
+ "Expires: ".
+ &http_date(time()+&get_expires_time($simple))."\r\n";
+
+ if (!$gzipped && $use_gzip && $acceptenc{'gzip'} &&
+ &should_gzip_file($full)) {
+ # Load and compress file, then output
+ print DEBUG "handle_request: outputting gzipped file $full\n";
+ open(FILE, $full) || &http_error(404, "Failed to open file");
+ {
+ local $/ = undef;
+ $data = <FILE>;
+ }
+ close(FILE);
+ @stopen = stat($file);
+ $data = Compress::Zlib::memGzip($data);
+ $resp .= "Content-length: ".length($data)."\r\n".
+ "Content-Encoding: gzip\r\n";
+ &write_data($resp);
+ $rv = &write_keep_alive();
+ &write_data("\r\n");
+ &reset_byte_count();
+ &write_data($data);
+ }
+ else {
+ # Stream file output
+ $resp .= "Content-length: $stopen[7]\r\n";
+ $resp .= "Content-Encoding: gzip\r\n" if ($gzipped);
+ &write_data($resp);
+ $rv = &write_keep_alive();
+ &write_data("\r\n");
+ &reset_byte_count();
+ my $bufsize = $config{'bufsize'} || 1024;
+ while(read(FILE, $buf, $bufsize) > 0) {
+ &write_data($buf);
+ }
+ close(FILE);
}
- close(FILE);
}
# log the request
&write_data("HTTP/1.0 $_[0] $_[1]\r\n");
&write_data("Server: $config{server}\r\n");
&write_data("Date: $datestr\r\n");
- &write_data("Content-type: text/html\r\n");
+ &write_data("Content-type: text/html; Charset=iso-8859-1\r\n");
&write_keep_alive(0);
&write_data("\r\n");
&reset_byte_count();
sub ip_match
{
local(@io, @mo, @ms, $i, $j, $hn, $needhn);
-@io = split(/\./, $_[0]);
+@io = &check_ip6address($_[0]) ? split(/:/, $_[0])
+ : split(/\./, $_[0]);
for($i=2; $i<@_; $i++) {
$needhn++ if ($_[$i] =~ /^\*(\S+)$/);
}
if ($needhn && !defined($hn = $ip_match_cache{$_[0]})) {
- $hn = gethostbyaddr(inet_aton($_[0]), AF_INET);
- $hn = "" if (&to_ipaddress($hn) ne $_[0]);
+ # Reverse-lookup hostname if any rules match based on it
+ $hn = &to_hostname($_[0]);
+ if (&check_ip6address($_[0])) {
+ $hn = "" if (&to_ip6address($hn) ne $_[0]);
+ }
+ else {
+ $hn = "" if (&to_ipaddress($hn) ne $_[0]);
+ }
$ip_match_cache{$_[0]} = $hn;
}
for($i=2; $i<@_; $i++) {
$_[$i] = $1."/".&prefix_to_mask($2);
}
if ($_[$i] =~ /^(\S+)\/(\S+)$/) {
- # Compare with network/mask
+ # Compare with IPv4 network/mask
@mo = split(/\./, $1); @ms = split(/\./, $2);
for($j=0; $j<4; $j++) {
if ((int($io[$j]) & int($ms[$j])) != int($mo[$j])) {
# Compare with hostname regexp
$mismatch = 1 if ($hn !~ /$1$/);
}
- elsif ($_[$i] eq 'LOCAL') {
- # Compare with local network
+ elsif ($_[$i] eq 'LOCAL' && &check_ipaddress($_[1])) {
+ # Compare with local IPv4 network
local @lo = split(/\./, $_[1]);
if ($lo[0] < 128) {
$mismatch = 1 if ($lo[0] != $io[0]);
$lo[2] != $io[2]);
}
}
- elsif ($_[$i] !~ /^[0-9\.]+$/) {
- # Compare with hostname
- $mismatch = 1 if ($_[0] ne &to_ipaddress($_[$i]));
+ elsif ($_[$i] eq 'LOCAL' && &check_ip6address($_[1])) {
+ # Compare with local IPv6 network, which is always first 4 words
+ local @lo = split(/:/, $_[1]);
+ for(my $i=0; $i<4; $i++) {
+ $mismatch = 1 if ($lo[$i] ne $io[$i]);
+ }
}
- else {
- # Compare with IP or network
+ elsif ($_[$i] =~ /^[0-9\.]+$/) {
+ # Compare with IPv4 address or network
@mo = split(/\./, $_[$i]);
while(@mo && !$mo[$#mo]) { pop(@mo); }
for($j=0; $j<@mo; $j++) {
}
}
}
+ elsif ($_[$i] =~ /^[a-f0-9:]+$/) {
+ # Compare with IPv6 address or network
+ @mo = split(/:/, $_[$i]);
+ while(@mo && !$mo[$#mo]) { pop(@mo); }
+ for($j=0; $j<@mo; $j++) {
+ if ($mo[$j] ne $io[$j]) {
+ $mismatch = 1;
+ }
+ }
+ }
+ elsif ($_[$i] !~ /^[0-9\.]+$/) {
+ # Compare with hostname
+ $mismatch = 1 if ($_[0] ne &to_ipaddress($_[$i]));
+ }
return 1 if (!$mismatch);
}
return 0;
$need_reload = 1;
}
+# to_ipaddress(address, ...)
sub to_ipaddress
{
local (@rv, $i);
foreach $i (@_) {
if ($i =~ /(\S+)\/(\S+)/ || $i =~ /^\*\S+$/ ||
- $i eq 'LOCAL' || $i =~ /^[0-9\.]+$/) { push(@rv, $i); }
- else { push(@rv, join('.', unpack("CCCC", inet_aton($i)))); }
+ $i eq 'LOCAL' || $i =~ /^[0-9\.]+$/ || $i =~ /^[a-f0-9:]+$/) {
+ # A pattern or IP, not a hostname, so don't change
+ push(@rv, $i);
+ }
+ else {
+ # Lookup IP address
+ push(@rv, join('.', unpack("CCCC", inet_aton($i))));
+ }
+ }
+return wantarray ? @rv : $rv[0];
+}
+
+# to_ip6address(address, ...)
+sub to_ip6address
+{
+local (@rv, $i);
+foreach $i (@_) {
+ if ($i =~ /(\S+)\/(\S+)/ || $i =~ /^\*\S+$/ ||
+ $i eq 'LOCAL' || $i =~ /^[0-9\.]+$/ || $i =~ /^[a-f0-9:]+$/) {
+ # A pattern, not a hostname, so don't change
+ push(@rv, $i);
+ }
+ else {
+ # Lookup IPv6 address
+ local ($inaddr, $addr);
+ (undef, undef, undef, $inaddr) =
+ getaddrinfo($i, undef, Socket6::AF_INET6(), SOCK_STREAM);
+ if ($inaddr) {
+ push(@rv, undef);
+ }
+ else {
+ (undef, $addr) = unpack_sockaddr_in6($inaddr);
+ push(@rv, inet_ntop(Socket6::AF_INET6(), $addr));
+ }
+ }
}
return wantarray ? @rv : $rv[0];
}
+# to_hostname(ipv4|ipv6-address)
+# Reverse-resolves an IPv4 or 6 address to a hostname
+sub to_hostname
+{
+local ($addr) = @_;
+if (&check_ip6address($_[0])) {
+ return gethostbyaddr(inet_pton(Socket6::AF_INET6(), $addr),
+ Socket6::AF_INET6());
+ }
+else {
+ return gethostbyaddr(inet_aton($addr), AF_INET);
+ }
+}
+
# read_line(no-wait, no-limit)
# Reads one line from SOCK or SSL
sub read_line
$more = Net::SSLeay::read($ssl_con);
}
else {
- local $ok = sysread(SOCK, $more, 1024);
+ my $bufsize = $config{'bufsize'} || 1024;
+ local $ok = sysread(SOCK, $more, $bufsize);
$more = undef if ($ok <= 0);
}
if ($more eq '') {
$r = shift;
my($buf,$len,$offset) = @_;
&write_to_sock(substr($buf, $offset, $len));
+$miniserv::page_capture_out .= substr($buf, $offset, $len)
+ if ($miniserv::page_capture);
}
sub PRINT
my $buf = join(defined($,) ? $, : "", @_);
$buf .= $\ if defined($\);
&write_to_sock($buf);
+$miniserv::page_capture_out .= $buf
+ if ($miniserv::page_capture);
}
sub PRINTF
{
shift;
my $fmt = shift;
-&write_to_sock(sprintf $fmt, @_);
+my $buf = sprintf $fmt, @_;
+&write_to_sock($buf);
+$miniserv::page_capture_out .= $buf
+ if ($miniserv::page_capture);
}
# Send back already read data while we have it, then read from SOCK
return $tmp2;
}
-# validate_user(username, password, host)
+# validate_user(username, password, host, remote-ip, webmin-port)
# Checks if some username and password are valid. Returns the modified username,
# the expired / temp pass flag, and the non-existence flag
sub validate_user
{
-local ($user, $pass, $host) = @_;
+local ($user, $pass, $host, $actpip, $port) = @_;
return ( ) if (!$user);
print DEBUG "validate_user: user=$user pass=$pass host=$host\n";
local ($canuser, $canmode, $notexist, $webminuser, $sudo) =
elsif ($canmode == 1) {
# Attempt Webmin authentication
my $uinfo = &get_user_details($webminuser);
- if ($uinfo && &password_crypt($pass, $uinfo->{'pass'})) {
+ if ($uinfo &&
+ &password_crypt($pass, $uinfo->{'pass'}) eq $uinfo->{'pass'}) {
# Password is valid .. but check for expiry
local $lc = $uinfo->{'lastchanges'};
+ print DEBUG "validate_user: Password is valid lc=$lc pass_maxdays=$config{'pass_maxdays'}\n";
if ($config{'pass_maxdays'} && $lc && !$uinfo->{'nochange'}) {
local $daysold = (time() - $lc)/(24*60*60);
print DEBUG "maxdays=$config{'pass_maxdays'} daysold=$daysold temppass=$uinfo->{'temppass'}\n";
}
return ( $user, 0, 0 );
}
+ elsif (!$uinfo) {
+ print DEBUG "validate_user: User $webminuser not found\n";
+ return ( undef, 0, 0 );
+ }
else {
+ print DEBUG "validate_user: User $webminuser password mismatch $pass != $uinfo->{'pass'}\n";
return ( undef, 0, 0 );
}
}
elsif ($canmode == 2 || $canmode == 3) {
# Attempt PAM or passwd file authentication
- local $val = &validate_unix_user($canuser, $pass);
+ local $val = &validate_unix_user($canuser, $pass, $acptip, $port);
print DEBUG "validate_user: unix val=$val\n";
if ($val && $sudo) {
# Need to check if this Unix user can sudo
}
}
-# validate_unix_user(user, password)
+# validate_unix_user(user, password, remote-ip, local-port)
# Returns 1 if a username and password are valid under unix, 0 if not,
# or 2 if the account has expired.
# Checks PAM if available, and falls back to reading the system password
local $pamh = new Authen::PAM($config{'pam'}, $pam_username,
\&pam_conv_func);
if (ref($pamh)) {
+ $pamh->pam_set_item("PAM_RHOST", $_[2]) if ($_[2]);
+ $pamh->pam_set_item("PAM_TTY", $_[3]) if ($_[3]);
local $pam_ret = $pamh->pam_authenticate();
if ($pam_ret == PAM_SUCCESS()) {
# Logged in OK .. make sure password hasn't expired
return (undef, 0, 1, undef) if (!$realuser);
local $uinfo = &get_user_details($realuser);
return (undef, 0, 1, undef) if (!$uinfo);
- local $up = $uinfo{'pass'};
+ local $up = $uinfo->{'pass'};
# Work out possible domain names from the hostname
local @doms = ( $_[2] );
return ( undef, 0, 1, undef ) if (!@uinfo && !$pamany);
if (@uinfo) {
- if (defined(@allowusers)) {
+ if (scalar(@allowusers)) {
# Only allow people on the allow list
return ( undef, 0, 0, undef )
if (!&users_match(\@uinfo, @allowusers));
}
- elsif (defined(@denyusers)) {
+ elsif (scalar(@denyusers)) {
# Disallow people on the deny list
return ( undef, 0, 0, undef )
if (&users_match(\@uinfo, @denyusers));
if ($up eq 'x') {
# PAM or passwd file authentication
+ print DEBUG "can_user_login: Validate with PAM\n";
return ( $_[0], $use_pam ? 2 : 3, 0, $realuser, $sudo );
}
elsif ($up eq 'e') {
# External authentication
+ print DEBUG "can_user_login: Validate externally\n";
return ( $_[0], 4, 0, $realuser, $sudo );
}
else {
# Fixed Webmin password
+ print DEBUG "can_user_login: Validate by Webmin\n";
return ( $_[0], 1, 0, $realuser, $sudo );
}
}
close(RANDOM);
}
-# get_socket_name(handle)
+# get_socket_ip(handle, ipv6-flag)
+# Returns the local IP address of some connection, as both a string and in
+# binary format
+sub get_socket_ip
+{
+local ($fh, $ipv6) = @_;
+local $sn = getsockname($fh);
+return undef if (!$sn);
+return &get_address_ip($sn, $ipv6);
+}
+
+# get_address_ip(address, ipv6-flag)
+# Given a sockaddr object in binary format, return the binary address, text
+# address and port number
+sub get_address_ip
+{
+local ($sn, $ipv6) = @_;
+if ($ipv6) {
+ local ($p, $b) = unpack_sockaddr_in6($sn);
+ return ($b, inet_ntop(Socket6::AF_INET6(), $b), $p);
+ }
+else {
+ local ($p, $b) = unpack_sockaddr_in($sn);
+ return ($b, inet_ntoa($b), $p);
+ }
+}
+
+# get_socket_name(handle, ipv6-flag)
# Returns the local hostname or IP address of some connection
sub get_socket_name
{
+local ($fh, $ipv6) = @_;
return $config{'host'} if ($config{'host'});
-local $sn = getsockname($_[0]);
-return undef if (!$sn);
-local $myaddr = (unpack_sockaddr_in($sn))[1];
+local ($mybin, $myaddr) = &get_socket_ip($fh, $ipv6);
if (!$get_socket_name_cache{$myaddr}) {
local $myname;
if (!$config{'no_resolv_myname'}) {
- $myname = gethostbyaddr($myaddr, AF_INET);
- }
- if ($myname eq "") {
- $myname = inet_ntoa($myaddr);
+ $myname = gethostbyaddr($mybin,
+ $ipv6 ? Socket6::AF_INET6() : AF_INET);
}
+ $myname ||= $myaddr;
$get_socket_name_cache{$myaddr} = $myname;
}
return $get_socket_name_cache{$myaddr};
sub run_login_script
{
if ($config{'login_script'}) {
- system($config{'login_script'}.
- " ".join(" ", map { quotemeta($_) || '""' } @_).
- " >/dev/null 2>&1 </dev/null");
+ alarm(5);
+ $SIG{'ALRM'} = sub { die "timeout" };
+ eval {
+ system($config{'login_script'}.
+ " ".join(" ", map { quotemeta($_) || '""' } @_).
+ " >/dev/null 2>&1 </dev/null");
+ };
+ alarm(0);
}
}
sub run_logout_script
{
if ($config{'logout_script'}) {
- system($config{'logout_script'}.
- " ".join(" ", map { quotemeta($_) || '""' } @_).
- " >/dev/null 2>&1 </dev/null");
+ alarm(5);
+ $SIG{'ALRM'} = sub { die "timeout" };
+ eval {
+ system($config{'logout_script'}.
+ " ".join(" ", map { quotemeta($_) || '""' } @_).
+ " >/dev/null 2>&1 </dev/null");
+ };
+ alarm(0);
}
}
# check with main process for delay
if ($config{'passdelay'} && $vu) {
+ print DEBUG "handle_login: requesting delay vu=$vu acptip=$acptip ok=$ok\n";
print $PASSINw "delay $vu $acptip $ok\n";
<$PASSOUTr> =~ /(\d+) (\d+)/;
$blocked = $2;
sleep($1);
+ print DEBUG "handle_login: delay=$1 blocked=$2\n";
}
if ($ok && (!$expired ||
# Logged in OK! Tell the main process about
# the new SID
local $sid = &generate_random_id($pass);
+ print DEBUG "handle_login: sid=$sid\n";
print $PASSINw "new $sid $authuser $acptip\n";
# Run the post-login script, if any
# Check for a redirect URL for the user
local $rurl = &login_redirect($authuser, $pass, $host);
+ print DEBUG "handle_login: redirect URL rurl=$rurl\n";
if ($rurl) {
# Got one .. go to it
&write_data("HTTP/1.0 302 Moved Temporarily\r\n");
'key' => $_[0]->{$k},
'index' => scalar(@rv) };
$ipkey->{'cert'} = $_[0]->{'ipcert_'.$1};
+ $ipkey->{'extracas'} = $_[0]->{'ipextracas_'.$1};
push(@rv, $ipkey);
}
}
return @rv;
}
-# create_ssl_context(keyfile, [certfile])
+# create_ssl_context(keyfile, [certfile], [extracas])
sub create_ssl_context
{
-local ($keyfile, $certfile) = @_;
+local ($keyfile, $certfile, $extracas) = @_;
local $ssl_ctx;
eval { $ssl_ctx = Net::SSLeay::new_x_ctx() };
$ssl_ctx ||= Net::SSLeay::CTX_new();
Net::SSLeay::CTX_set_verify(
$ssl_ctx, &Net::SSLeay::VERIFY_PEER, \&verify_client);
}
-if ($config{'extracas'}) {
- local $p;
- foreach $p (split(/\s+/, $config{'extracas'})) {
+if ($extracas && $extracas ne "none") {
+ foreach my $p (split(/\s+/, $extracas)) {
Net::SSLeay::CTX_load_verify_locations(
$ssl_ctx, $p, "");
}
return $ssl_ctx;
}
-# ssl_connection_for_ip(socket)
+# ssl_connection_for_ip(socket, ipv6-flag)
# Returns a new SSL connection object for some socket, or undef if failed
sub ssl_connection_for_ip
{
-local ($sock) = @_;
+local ($sock, $ipv6) = @_;
local $sn = getsockname($sock);
if (!$sn) {
print STDERR "Failed to get address for socket $sock\n";
return undef;
}
-local $myip = inet_ntoa((unpack_sockaddr_in($sn))[1]);
+local (undef, $myip, undef) = &get_address_ip($sn, $ipv6);
local $ssl_ctx = $ssl_contexts{$myip} || $ssl_contexts{"*"};
local $ssl_con = Net::SSLeay::new($ssl_ctx);
if ($config{'ssl_cipher_list'}) {
&read_mime_types();
&build_config_mappings();
&read_webmin_crons();
+&precache_files();
if ($config{'session'}) {
dbmclose(%sessiondb);
dbmopen(%sessiondb, $config{'sessiondb'}, 0700);
"maxconns", 50,
"pam", "webmin",
"sidname", "sid",
- "unauth", "^/unauthenticated/ ^/robots.txt\$ ^[A-Za-z0-9\\-/_]+\\.jar\$ ^[A-Za-z0-9\\-/_]+\\.class\$ ^[A-Za-z0-9\\-/_]+\\.gif\$ ^[A-Za-z0-9\\-/_]+\\.conf\$ ^[A-Za-z0-9\\-/_]+\\.ico\$ ^/robots.txt\$",
+ "unauth", "^/unauthenticated/ ^/robots.txt\$ ^[A-Za-z0-9\\-/_]+\\.jar\$ ^[A-Za-z0-9\\-/_]+\\.class\$ ^[A-Za-z0-9\\-/_]+\\.gif\$ ^[A-Za-z0-9\\-/_]+\\.png\$ ^[A-Za-z0-9\\-/_]+\\.conf\$ ^[A-Za-z0-9\\-/_]+\\.ico\$ ^/robots.txt\$",
"max_post", 10000,
"expires", 7*24*60*60,
"pam_test_user", "root",
+ "precache", "lang/en */lang/en",
);
foreach my $v (keys %vital) {
if (!$config{$v}) {
}
# Extract attributes
- my $pass = $u->get_value('pass');
+ my $pass = $u->get_value('webminPass');
$user = { 'name' => $username,
'id' => $u->dn(),
'pass' => $pass,
@mobile_agents = split(/\t+/, $config{'mobile_agents'});
@mobile_prefixes = split(/\s+/, $config{'mobile_prefixes'});
+# Expires time list
+@expires_paths = ( );
+foreach my $pe (split(/\t+/, $config{'expires_paths'})) {
+ my ($p, $e) = split(/=/, $pe);
+ if ($p && $e ne '') {
+ push(@expires_paths, [ $p, $e ]);
+ }
+ }
+
# Open debug log
close(DEBUG);
if ($config{'debug'}) {
close(STDIN); close(STDOUT); close(STDERR);
untie(*STDIN); untie(*STDOUT); untie(*STDERR);
close($PASSINw); close($PASSOUTr);
- $( = $uinfo[3]; $) = "$uinfo[3] $uinfo[3]";
+ ($(, $)) = ( $uinfo[3],
+ "$uinfo[3] ".join(" ", $uinfo[3],
+ &other_groups($uinfo[0])) );
($>, $<) = ($uinfo[2], $uinfo[2]);
close(SUDOw);
close($ptyfh);
kill('KILL', $pid);
waitpid($pid, 0);
-local ($ok) = ($out =~ /\(ALL\)\s+ALL/ ? 1 : 0);
+local ($ok) = ($out =~ /\(ALL\)\s+ALL|\(ALL\)\s+NOPASSWD:\s+ALL|\(ALL\s*:\s*ALL\)\s+ALL/ ? 1 : 0);
# Update cache
if ($PASSINw) {
return $ok;
}
+sub other_groups
+{
+my ($user) = @_;
+my @rv;
+setgrent();
+while(my @g = getgrent()) {
+ my @m = split(/\s+/, $g[3]);
+ push(@rv, $g[2]) if (&indexof($user, @m) >= 0);
+ }
+endgrent();
+return @rv;
+}
+
# is_mobile_useragent(agent)
# Returns 1 if some user agent looks like a cellphone or other mobile device,
# such as a treo.
"iPhone", # Apple iPhone KHTML browser
"iPod", # iPod touch browser
"MobileSafari", # HTTP client in iPhone
- "Android", # gPhone
"Opera Mini", # Opera Mini
"HTC_P3700", # HTC mobile device
"Pre/", # Palm Pre
"webOS/", # Palm WebOS
"Nintendo DS", # DSi / DSi-XL
);
+local @regexps = (
+ "Android.*Mobile", # Android phone
+ );
foreach my $p (@prefixes) {
return 1 if ($agent =~ /^\Q$p\E/);
}
foreach my $s (@substrings, @mobile_agents) {
return 1 if ($agent =~ /\Q$s\E/);
}
+foreach my $s (@regexps) {
+ return 1 if ($agent =~ /$s/);
+ }
return 0;
}
my $pid = fork();
if (!$pid) {
# Run via a wrapper command, which we run like a CGI
+ dbmclose(%sessiondb);
# Setup CGI-like environment
$envtz = $ENV{"TZ"};
}
}
}
+
+# precache_files()
+# Read into the Webmin cache all files marked for pre-caching
+sub precache_files
+{
+undef(%main::read_file_cache);
+foreach my $g (split(/\s+/, $config{'precache'})) {
+ next if ($g eq "none");
+ foreach my $f (glob("$config{'root'}/$g")) {
+ my @st = stat($f);
+ next if (!@st);
+ $main::read_file_cache{$f} = { };
+ &read_file($f, $main::read_file_cache{$f});
+ $main::read_file_cache_time{$f} = $st[9];
+ }
+ }
+}
+
+# Check if some address is valid IPv4, returns 1 if so.
+sub check_ipaddress
+{
+return $_[0] =~ /^(\d+)\.(\d+)\.(\d+)\.(\d+)$/ &&
+ $1 >= 0 && $1 <= 255 &&
+ $2 >= 0 && $2 <= 255 &&
+ $3 >= 0 && $3 <= 255 &&
+ $4 >= 0 && $4 <= 255;
+}
+
+# Check if some IPv6 address is properly formatted, and returns 1 if so.
+sub check_ip6address
+{
+ my @blocks = split(/:/, $_[0]);
+ return 0 if (@blocks == 0 || @blocks > 8);
+ my $ib = $#blocks;
+ my $where = index($blocks[$ib],"/");
+ my $m = 0;
+ if ($where != -1) {
+ my $b = substr($blocks[$ib],0,$where);
+ $m = substr($blocks[$ib],$where+1,length($blocks[$ib])-($where+1));
+ $blocks[$ib]=$b;
+ }
+ return 0 if ($m <0 || $m >128);
+ my $b;
+ my $empty = 0;
+ foreach $b (@blocks) {
+ return 0 if ($b ne "" && $b !~ /^[0-9a-f]{1,4}$/i);
+ $empty++ if ($b eq "");
+ }
+ return 0 if ($empty > 1 && !($_[0] =~ /^::/ && $empty == 2));
+ return 1;
+}
+
+# network_to_address(binary)
+# Given a network address in binary IPv4 or v4 format, return the string form
+sub network_to_address
+{
+local ($addr) = @_;
+if (length($addr) == 4 || !$use_ipv6) {
+ return inet_ntoa($addr);
+ }
+else {
+ return Socket6::inet_ntop(Socket6::AF_INET6(), $addr);
+ }
+}
+
+# redirect_stderr_to_log()
+# Re-direct STDERR to error log file
+sub redirect_stderr_to_log
+{
+if ($config{'errorlog'} ne '-') {
+ open(STDERR, ">>$config{'errorlog'}") ||
+ die "failed to open $config{'errorlog'} : $!";
+ if ($config{'logperms'}) {
+ chmod(oct($config{'logperms'}), $config{'errorlog'});
+ }
+ }
+select(STDERR); $| = 1; select(STDOUT);
+}
+
+# should_gzip_file(filename)
+# Returns 1 if some path should be gzipped
+sub should_gzip_file
+{
+my ($path) = @_;
+return $path !~ /\.(gif|png|jpg|jpeg|tif|tiff)$/i;
+}
+
+# get_expires_time(path)
+# Given a URL path, return the client-side expiry time in seconds
+sub get_expires_time
+{
+my ($path) = @_;
+foreach my $pe (@expires_paths) {
+ if ($path =~ /$pe->[0]/i) {
+ return $pe->[1];
+ }
+ }
+return $config{'expires'};
+}
+