rfc822_header; if (count($message->entities)) { $boundary = $this->mimeBoundary(); $rfc822_header->content_type->properties['boundary']='"'.$boundary.'"'; } else { $boundary=''; } $raw_length = 0; // calculate reply header if needed // if ($reply_id) { global $imapConnection, $username, $imapServerAddress, $imapPort, $mailbox; if (!is_resource($imapConnection)) $imapConnection = sqimap_login($username, FALSE, $imapServerAddress, $imapPort, 0); sqimap_mailbox_select($imapConnection, $mailbox); $reply_message = sqimap_get_message($imapConnection, $reply_id, $mailbox); if ($reply_ent_id) { /* redefine the messsage in case of message/rfc822 */ $reply_message = $message->getEntity($reply_ent_id); /* message is an entity which contains the envelope and type0=message * and type1=rfc822. The actual entities are childs from * $reply_message->entities[0]. That's where the encoding and is located */ $orig_header = $reply_message->rfc822_header; /* here is the envelope located */ } else { $orig_header = $reply_message->rfc822_header; } $message->reply_rfc822_header = $orig_header; } $reply_rfc822_header = (isset($message->reply_rfc822_header) ? $message->reply_rfc822_header : ''); $header = $this->prepareRFC822_Header($rfc822_header, $reply_rfc822_header, $raw_length); $this->send_mail($message, $header, $boundary, $stream, $raw_length, $extra); return array($raw_length, $this->message_id); } /** * function send_mail - send the message parts to the IMAP stream * * @param Message $message Message object to send * @param string $header Headers ready to send * @param string $boundary Message parts boundary * @param resource $stream Handle to the SMTP stream * (when FALSE, nothing will be * written to the stream; this can * be used to determine the actual * number of bytes that will be * written to the stream) * @param int &$raw_length The number of bytes written (or that * would have been written) to the * output stream - NOTE that this is * passed by reference * @param mixed $extra Any implementation-specific variables * can be passed in here and used in * an overloaded version of this method * if needed. * * @return void * */ function send_mail($message, $header, $boundary, $stream=false, &$raw_length, $extra=NULL) { if ($stream) { $this->preWriteToStream($header); $this->writeToStream($stream, $header); } $this->writeBody($message, $stream, $raw_length, $boundary); } /** * function writeBody - generate and write the mime boundaries around each part to the stream * * Recursively formats and writes the MIME boundaries of the $message * to the output stream. * * @param Message $message Message object to transform * @param resource $stream SMTP output stream * (when FALSE, nothing will be * written to the stream; this can * be used to determine the actual * number of bytes that will be * written to the stream) * @param integer &$length_raw raw length of the message (part) * as returned by mail fn * @param string $boundary custom boundary to call, usually for subparts * * @return void */ function writeBody($message, $stream, &$length_raw, $boundary='') { // calculate boundary in case of multidimensional mime structures if ($boundary && $message->entity_id && count($message->entities)) { if (strpos($boundary,'_part_')) { $boundary = substr($boundary,0,strpos($boundary,'_part_')); // the next four lines use strrev to reverse any nested boundaries // because RFC 2046 (5.1.1) says that if a line starts with the outer // boundary string (doesn't matter what the line ends with), that // can be considered a match for the outer boundary; thus the nested // boundary needs to be unique from the outer one // } else if (strpos($boundary,'_trap_')) { $boundary = substr(strrev($boundary),0,strpos(strrev($boundary),'_part_')); } $boundary_new = strrev($boundary . '_part_'.$message->entity_id); } else { $boundary_new = $boundary; } if ($boundary && !$message->rfc822_header) { $s = '--'.$boundary."\r\n"; $s .= $this->prepareMIME_Header($message, $boundary_new); $length_raw += strlen($s); if ($stream) { $this->preWriteToStream($s); $this->writeToStream($stream, $s); } } $this->writeBodyPart($message, $stream, $length_raw); $last = false; for ($i=0, $entCount=count($message->entities);$i<$entCount;$i++) { $msg = $this->writeBody($message->entities[$i], $stream, $length_raw, $boundary_new); if ($i == $entCount-1) $last = true; } if ($boundary && $last) { $s = "--".$boundary_new."--\r\n\r\n"; $length_raw += strlen($s); if ($stream) { $this->preWriteToStream($s); $this->writeToStream($stream, $s); } } } /** * function writeBodyPart - write each individual mimepart * * Recursively called by WriteBody to write each mime part to the SMTP stream * * @param Message $message Message object to transform * @param resource $stream SMTP output stream * (when FALSE, nothing will be * written to the stream; this can * be used to determine the actual * number of bytes that will be * written to the stream) * @param integer &$length length of the message part * as returned by mail fn * * @return void */ function writeBodyPart($message, $stream, &$length) { if ($message->mime_header) { $type0 = $message->mime_header->type0; } else { $type0 = $message->rfc822_header->content_type->type0; } $body_part_trailing = $last = ''; switch ($type0) { case 'text': case 'message': if ($message->body_part) { $body_part = $message->body_part; // remove NUL characters $body_part = str_replace("\0",'',$body_part); $length += $this->clean_crlf($body_part); if ($stream) { $this->preWriteToStream($body_part); $this->writeToStream($stream, $body_part); } $last = $body_part; } elseif ($message->att_local_name) { global $username, $attachment_dir; $hashed_attachment_dir = getHashedDir($username, $attachment_dir); $filename = $message->att_local_name; $file = fopen ($hashed_attachment_dir . '/' . $filename, 'rb'); while ($body_part = fgets($file, 4096)) { // remove NUL characters $body_part = str_replace("\0",'',$body_part); $length += $this->clean_crlf($body_part); if ($stream) { $this->preWriteToStream($body_part); $this->writeToStream($stream, $body_part); } $last = $body_part; } fclose($file); } break; default: if ($message->body_part) { $body_part = $message->body_part; // remove NUL characters $body_part = str_replace("\0",'',$body_part); $length += $this->clean_crlf($body_part); if ($stream) { $this->writeToStream($stream, $body_part); } } elseif ($message->att_local_name) { global $username, $attachment_dir; $hashed_attachment_dir = getHashedDir($username, $attachment_dir); $filename = $message->att_local_name; $file = fopen ($hashed_attachment_dir . '/' . $filename, 'rb'); while ($tmp = fread($file, 570)) { $body_part = chunk_split(base64_encode($tmp)); // Up to 4.3.10 chunk_split always appends a newline, // while in 4.3.11 it doesn't if the string to split // is shorter than the chunk length. if( substr($body_part, -1 , 1 ) != "\n" ) $body_part .= "\n"; $length += $this->clean_crlf($body_part); if ($stream) { $this->writeToStream($stream, $body_part); } } fclose($file); } break; } $body_part_trailing = ''; if ($last && substr($last,-1) != "\n") { $body_part_trailing = "\r\n"; } if ($body_part_trailing) { $length += strlen($body_part_trailing); if ($stream) { $this->preWriteToStream($body_part_trailing); $this->writeToStream($stream, $body_part_trailing); } } } /** * function clean_crlf - change linefeeds and newlines to legal characters * * The SMTP format only allows CRLF as line terminators. * This function replaces illegal teminators with the correct terminator. * * @param string &$s string to clean linefeeds on * * @return void */ function clean_crlf(&$s) { $s = str_replace("\r\n", "\n", $s); $s = str_replace("\r", "\n", $s); $s = str_replace("\n", "\r\n", $s); return strlen($s); } /** * function strip_crlf - strip linefeeds and newlines from a string * * The SMTP format only allows CRLF as line terminators. * This function strips all line terminators from the string. * * @param string &$s string to clean linefeeds on * * @return void */ function strip_crlf(&$s) { $s = str_replace("\r\n ", '', $s); $s = str_replace("\r", '', $s); $s = str_replace("\n", '', $s); } /** * function preWriteToStream - reserved for extended functionality * * This function is not yet implemented. * Reserved for extended functionality. * * @param string &$s string to operate on * * @return void */ function preWriteToStream(&$s) { } /** * function writeToStream - write data to the SMTP stream * * @param resource $stream SMTP output stream * @param string $data string with data to send to the SMTP stream * * @return void */ function writeToStream($stream, $data) { fputs($stream, $data); } /** * function initStream - reserved for extended functionality * * This function is not yet implemented. * Reserved for extended functionality. * * @param Message $message Message object * @param string $host host name or IP to connect to * @param string $user username to log into the SMTP server with * @param string $pass password to log into the SMTP server with * @param integer $length * * @return handle $stream file handle resource to SMTP stream */ function initStream($message, $length=0, $host='', $port='', $user='', $pass='') { return $stream; } /** * function getBCC - reserved for extended functionality * * This function is not yet implemented. * Reserved for extended functionality. * */ function getBCC() { return false; } /** * function prepareMIME_Header - creates the mime header * * @param Message $message Message object to act on * @param string $boundary mime boundary from fn MimeBoundary * * @return string $header properly formatted mime header */ function prepareMIME_Header($message, $boundary) { $mime_header = $message->mime_header; $rn="\r\n"; $header = array(); $contenttype = 'Content-Type: '. $mime_header->type0 .'/'. $mime_header->type1; if (count($message->entities)) { $contenttype .= ';' . 'boundary="'.$boundary.'"'; } if (isset($mime_header->parameters['name'])) { $contenttype .= '; name="'. encodeHeader($mime_header->parameters['name']). '"'; } if (isset($mime_header->parameters['charset'])) { $charset = $mime_header->parameters['charset']; $contenttype .= '; charset="'. encodeHeader($charset). '"'; } $header[] = $contenttype . $rn; if ($mime_header->description) { $header[] = 'Content-Description: ' . $mime_header->description . $rn; } if ($mime_header->encoding) { $header[] = 'Content-Transfer-Encoding: ' . $mime_header->encoding . $rn; } else { if ($mime_header->type0 == 'text' || $mime_header->type0 == 'message') { $header[] = 'Content-Transfer-Encoding: 8bit' . $rn; } else { $header[] = 'Content-Transfer-Encoding: base64' . $rn; } } if ($mime_header->id) { $header[] = 'Content-ID: ' . $mime_header->id . $rn; } if ($mime_header->disposition) { $disposition = $mime_header->disposition; $contentdisp = 'Content-Disposition: ' . $disposition->name; if ($disposition->getProperty('filename')) { $contentdisp .= '; filename="'. encodeHeader($disposition->getProperty('filename')). '"'; } $header[] = $contentdisp . $rn; } if ($mime_header->md5) { $header[] = 'Content-MD5: ' . $mime_header->md5 . $rn; } if ($mime_header->language) { $header[] = 'Content-Language: ' . $mime_header->language . $rn; } $cnt = count($header); $hdr_s = ''; for ($i = 0 ; $i < $cnt ; $i++) { $hdr_s .= $this->foldLine($header[$i], 78,str_pad('',4)); } $header = $hdr_s; $header .= $rn; /* One blank line to separate mimeheader and body-entity */ return $header; } /** * function prepareRFC822_Header - prepares the RFC822 header string from Rfc822Header object(s) * * This function takes the Rfc822Header object(s) and formats them * into the RFC822Header string to send to the SMTP server as part * of the SMTP message. * * @param Rfc822Header $rfc822_header * @param Rfc822Header $reply_rfc822_header * @param integer &$raw_length length of the message * * @return string $header */ function prepareRFC822_Header($rfc822_header, $reply_rfc822_header, &$raw_length) { global $domain, $username, $encode_header_key, $edit_identity, $hide_auth_header; /* if server var SERVER_NAME not available, or contains ":" (e.g. IPv6) which is illegal in a Message-ID, use $domain */ if(!sqGetGlobalVar('SERVER_NAME', $SERVER_NAME, SQ_SERVER) || strpos($SERVER_NAME,':') !== FALSE) { $SERVER_NAME = $domain; } sqGetGlobalVar('REMOTE_ADDR', $REMOTE_ADDR, SQ_SERVER); sqGetGlobalVar('REMOTE_PORT', $REMOTE_PORT, SQ_SERVER); sqGetGlobalVar('REMOTE_HOST', $REMOTE_HOST, SQ_SERVER); sqGetGlobalVar('HTTP_VIA', $HTTP_VIA, SQ_SERVER); sqGetGlobalVar('HTTP_X_FORWARDED_FOR', $HTTP_X_FORWARDED_FOR, SQ_SERVER); $rn = "\r\n"; /* This creates an RFC 822 date */ $date = date('D, j M Y H:i:s ', time()) . $this->timezone(); /* Create a message-id */ $message_id = '<'; /* user-specifc data to decrease collision chance */ $seed_data = $username . '.'; $seed_data .= (!empty($REMOTE_PORT) ? $REMOTE_PORT . '.' : ''); $seed_data .= (!empty($REMOTE_ADDR) ? $REMOTE_ADDR . '.' : ''); /* add the current time in milliseconds and randomness */ $seed_data .= uniqid(mt_rand(),true); /* put it through one-way hash and add it to the ID */ $message_id .= md5($seed_data) . '.squirrel@' . $SERVER_NAME .'>'; $this->message_id = $message_id; /* Make an RFC822 Received: line */ if (isset($REMOTE_HOST)) { $received_from = "$REMOTE_HOST ([$REMOTE_ADDR])"; } else { $received_from = $REMOTE_ADDR; } if (isset($HTTP_VIA) || isset ($HTTP_X_FORWARDED_FOR)) { if (!isset($HTTP_X_FORWARDED_FOR) || $HTTP_X_FORWARDED_FOR == '') { $HTTP_X_FORWARDED_FOR = 'unknown'; } $received_from .= " (proxying for $HTTP_X_FORWARDED_FOR)"; } $header = array(); /** * SquirrelMail header * * This Received: header provides information that allows to track * user and machine that was used to send email. Don't remove it * unless you understand all possible forging issues or your * webmail installation does not prevent changes in user's email address. * See SquirrelMail bug tracker #847107 for more details about it. * * Add $hide_squirrelmail_header as a candidate for config_local.php * to allow completely hiding SquirrelMail participation in message * processing; This is dangerous, especially if users can modify their * account information, as it makes mapping a sent message back to the * original sender almost impossible. */ $show_sm_header = ( defined('hide_squirrelmail_header') ? ! hide_squirrelmail_header : 1 ); if ( $show_sm_header ) { if (isset($encode_header_key) && trim($encode_header_key)!='') { // use encoded headers, if encryption key is set and not empty $header[] = 'X-Squirrel-UserHash: '.OneTimePadEncrypt($username,base64_encode($encode_header_key)).$rn; $header[] = 'X-Squirrel-FromHash: '.OneTimePadEncrypt($this->ip2hex($REMOTE_ADDR),base64_encode($encode_header_key)).$rn; if (isset($HTTP_X_FORWARDED_FOR)) $header[] = 'X-Squirrel-ProxyHash:'.OneTimePadEncrypt($this->ip2hex($HTTP_X_FORWARDED_FOR),base64_encode($encode_header_key)).$rn; } else { // use default received headers $header[] = "Received: from $received_from" . $rn; if ($edit_identity || ! isset($hide_auth_header) || ! $hide_auth_header) $header[] = " (SquirrelMail authenticated user $username)" . $rn; $header[] = " by $SERVER_NAME with HTTP;" . $rn; $header[] = " $date" . $rn; } } /* Insert the rest of the header fields */ $header[] = 'Message-ID: '. $message_id . $rn; if (is_object($reply_rfc822_header) && isset($reply_rfc822_header->message_id) && $reply_rfc822_header->message_id) { $rep_message_id = $reply_rfc822_header->message_id; // $this->strip_crlf($message_id); $header[] = 'In-Reply-To: '.$rep_message_id . $rn; $references = $this->calculate_references($reply_rfc822_header); $header[] = 'References: '.$references . $rn; } $header[] = "Date: $date" . $rn; $header[] = 'Subject: '.encodeHeader($rfc822_header->subject) . $rn; $header[] = 'From: '. $rfc822_header->getAddr_s('from',",$rn ",true) . $rn; // folding address list [From|To|Cc|Bcc] happens by using ",$rn" // as delimiter // Do not use foldLine for that. // RFC2822 if from contains more then 1 address if (count($rfc822_header->from) > 1) { $header[] = 'Sender: '. $rfc822_header->getAddr_s('sender',',',true) . $rn; } if (count($rfc822_header->to)) { $header[] = 'To: '. $rfc822_header->getAddr_s('to',",$rn ",true) . $rn; } if (count($rfc822_header->cc)) { $header[] = 'Cc: '. $rfc822_header->getAddr_s('cc',",$rn ",true) . $rn; } if (count($rfc822_header->reply_to)) { $header[] = 'Reply-To: '. $rfc822_header->getAddr_s('reply_to',',',true) . $rn; } /* Sendmail should return true. Default = false */ $bcc = $this->getBcc(); if (count($rfc822_header->bcc)) { $s = 'Bcc: '. $rfc822_header->getAddr_s('bcc',",$rn ",true) . $rn; if (!$bcc) { $raw_length += strlen($s); } else { $header[] = $s; } } /* Identify SquirrelMail */ $header[] = 'User-Agent: SquirrelMail/' . SM_VERSION . $rn; /* Do the MIME-stuff */ $header[] = 'MIME-Version: 1.0' . $rn; $contenttype = 'Content-Type: '. $rfc822_header->content_type->type0 .'/'. $rfc822_header->content_type->type1; if (count($rfc822_header->content_type->properties)) { foreach ($rfc822_header->content_type->properties as $k => $v) { if ($k && $v) { $contenttype .= ';' .$k.'='.$v; } } } $header[] = $contenttype . $rn; if ($encoding = $rfc822_header->encoding) { $header[] = 'Content-Transfer-Encoding: ' . $encoding . $rn; } if (isset($rfc822_header->dnt) && $rfc822_header->dnt) { $dnt = $rfc822_header->getAddr_s('dnt'); /* Pegasus Mail */ $header[] = 'X-Confirm-Reading-To: '.$dnt. $rn; /* RFC 2298 */ $header[] = 'Disposition-Notification-To: '.$dnt. $rn; } if ($rfc822_header->priority) { switch($rfc822_header->priority) { case 1: $header[] = 'X-Priority: 1 (Highest)'.$rn; $header[] = 'Importance: High'. $rn; break; case 5: $header[] = 'X-Priority: 5 (Lowest)'.$rn; $header[] = 'Importance: Low'. $rn; break; default: break; } } /* Insert headers from the $more_headers array */ if(count($rfc822_header->more_headers)) { reset($rfc822_header->more_headers); foreach ($rfc822_header->more_headers as $k => $v) { $header[] = $k.': '.$v .$rn; } } $cnt = count($header); $hdr_s = ''; for ($i = 0 ; $i < $cnt ; $i++) { $sKey = substr($header[$i],0,strpos($header[$i],':')); switch ($sKey) { case 'Message-ID': case 'In-Reply_To': $hdr_s .= $header[$i]; break; case 'References': $sRefs = substr($header[$i],12); $aRefs = explode(' ',$sRefs); $sLine = 'References:'; foreach ($aRefs as $sReference) { if ( trim($sReference) == '' ) { /* Don't add spaces. */ } elseif (strlen($sLine)+strlen($sReference) >76) { $hdr_s .= $sLine; $sLine = $rn . ' ' . $sReference; } else { $sLine .= ' '. $sReference; } } $hdr_s .= $sLine; break; case 'To': case 'Cc': case 'Bcc': case 'From': $hdr_s .= $header[$i]; break; default: $hdr_s .= $this->foldLine($header[$i], 78, str_pad('',4)); break; } } $header = $hdr_s; $header .= $rn; /* One blank line to separate header and body */ $raw_length += strlen($header); return $header; } /** * function foldLine - for cleanly folding of headerlines * * @param string $line * @param integer $length length to fold the line at * @param string $pre prefix the line with... * * @return string $line folded line with trailing CRLF */ function foldLine($line, $length, $pre='') { $line = substr($line,0, -2); $length -= 2; /* do not fold between \r and \n */ $cnt = strlen($line); if ($cnt > $length) { /* try folding */ $fold_string = "\r\n " . $pre; $bFirstFold = false; $aFoldLine = array(); while (strlen($line) > $length) { $fold = false; /* handle encoded parts */ if (preg_match('/(=\?([^?]*)\?(Q|B)\?([^?]*)\?=)(\s+|.*)/Ui',$line,$regs)) { $fold_tmp = $regs[1]; if (!trim($regs[5])) { $fold_tmp .= $regs[5]; } $iPosEnc = strpos($line,$fold_tmp); $iLengthEnc = strlen($fold_tmp); $iPosEncEnd = $iPosEnc+$iLengthEnc; if ($iPosEnc < $length && (($iPosEncEnd) > $length)) { $fold = true; /* fold just before the start of the encoded string */ if ($iPosEnc) { $aFoldLine[] = substr($line,0,$iPosEnc); } $line = substr($line,$iPosEnc); if (!$bFirstFold) { $bFirstFold = true; $length -= strlen($fold_string); } if ($iLengthEnc > $length) { /* place the encoded string on a separate line and do not fold inside it*/ /* minimize foldstring */ $fold_string = "\r\n "; $aFoldLine[] = substr($line,0,$iLengthEnc); $line = substr($line,$iLengthEnc); } } else if ($iPosEnc < $length) { /* the encoded string fits into the foldlength */ /*remainder */ $sLineRem = substr($line,$iPosEncEnd,$length - $iPosEncEnd); if (preg_match('/^(=\?([^?]*)\?(Q|B)\?([^?]*)\?=)(.*)/Ui',$sLineRem) || !preg_match('/[=,;\s]/',$sLineRem)) { /*impossible to fold clean in the next part -> fold after the enc string */ $aFoldLine[] = substr($line,0,$iPosEncEnd); $line = substr($line,$iPosEncEnd); $fold = true; if (!$bFirstFold) { $bFirstFold = true; $length -= strlen($fold_string); } } } } if (!$fold) { $line_tmp = substr($line,0,$length); $iFoldPos = false; /* try to fold at logical places */ switch (true) { case ($iFoldPos = strrpos($line_tmp,',')): break; case ($iFoldPos = strrpos($line_tmp,';')): break; case ($iFoldPos = strrpos($line_tmp,' ')): break; case ($iFoldPos = strrpos($line_tmp,'=')): break; default: break; } if (!$iFoldPos) { /* clean folding didn't work */ $iFoldPos = $length; } $aFoldLine[] = substr($line,0,$iFoldPos+1); $line = substr($line,$iFoldPos+1); if (!$bFirstFold) { $bFirstFold = true; $length -= strlen($fold_string); } } } /*$reconstruct the line */ if ($line) { $aFoldLine[] = $line; } $line = implode($fold_string,$aFoldLine); } return $line."\r\n"; } /** * function mimeBoundary - calculates the mime boundary to use * * This function will generate a random mime boundary base part * for the message if the boundary has not already been set. * * @return string $mimeBoundaryString random mime boundary string */ function mimeBoundary () { static $mimeBoundaryString; if ( !isset( $mimeBoundaryString ) || $mimeBoundaryString == '') { $mimeBoundaryString = '----=_' . date( 'YmdHis' ) . '_' . mt_rand( 10000, 99999 ); } return $mimeBoundaryString; } /** * function timezone - Time offset for correct timezone * * @return string $result with timezone and offset */ function timezone () { global $invert_time; $diff_second = date('Z'); if ($invert_time) { $diff_second = - $diff_second; } if ($diff_second > 0) { $sign = '+'; } else { $sign = '-'; } $diff_second = abs($diff_second); $diff_hour = floor ($diff_second / 3600); $diff_minute = floor (($diff_second-3600*$diff_hour) / 60); $zonename = '('.strftime('%Z').')'; $result = sprintf ("%s%02d%02d %s", $sign, $diff_hour, $diff_minute, $zonename); return ($result); } /** * function calculate_references - calculate correct References string * Adds the current message ID, and makes sure it doesn't grow forever, * to that extent it drops message-ID's in a smart way until the string * length is under the recommended value of 1000 ("References: <986>\r\n"). * It always keeps the first and the last three ID's. * * @param Rfc822Header $hdr message header to calculate from * * @return string $refer concatenated and trimmed References string */ function calculate_references($hdr) { $aReferences = preg_split('/\s+/', $hdr->references); $message_id = $hdr->message_id; $in_reply_to = $hdr->in_reply_to; // if References already exists, add the current message ID at the end. // no References exists; if we know a IRT, add that aswell if (count($aReferences) == 0 && $in_reply_to) { $aReferences[] = $in_reply_to; } $aReferences[] = $message_id; // sanitize the array: trim whitespace, remove dupes array_walk($aReferences, 'sq_trim_value'); $aReferences = array_unique($aReferences); while ( count($aReferences) > 4 && strlen(implode(' ', $aReferences)) >= 986 ) { $aReferences = array_merge(array_slice($aReferences,0,1),array_slice($aReferences,2)); } return implode(' ', $aReferences); } /** * Converts ip address to hexadecimal string * * Function is used to convert ipv4 and ipv6 addresses to hex strings. * It removes all delimiter symbols from ip addresses, converts decimal * ipv4 numbers to hex and pads strings in order to present full length * address. ipv4 addresses are represented as 8 byte strings, ipv6 addresses * are represented as 32 byte string. * * If function fails to detect address format, it returns unprocessed string. * @param string $string ip address string * @return string processed ip address string * @since 1.5.1 and 1.4.5 */ function ip2hex($string) { if (preg_match("/^(\d+)\.(\d+)\.(\d+)\.(\d+)$/",$string,$match)) { // ipv4 address $ret = str_pad(dechex($match[1]),2,'0',STR_PAD_LEFT) . str_pad(dechex($match[2]),2,'0',STR_PAD_LEFT) . str_pad(dechex($match[3]),2,'0',STR_PAD_LEFT) . str_pad(dechex($match[4]),2,'0',STR_PAD_LEFT); } elseif (preg_match("/^([0-9a-h]+)\:([0-9a-h]+)\:([0-9a-h]+)\:([0-9a-h]+)\:([0-9a-h]+)\:([0-9a-h]+)\:([0-9a-h]+)\:([0-9a-h]+)$/i",$string,$match)) { // full ipv6 address $ret = str_pad($match[1],4,'0',STR_PAD_LEFT) . str_pad($match[2],4,'0',STR_PAD_LEFT) . str_pad($match[3],4,'0',STR_PAD_LEFT) . str_pad($match[4],4,'0',STR_PAD_LEFT) . str_pad($match[5],4,'0',STR_PAD_LEFT) . str_pad($match[6],4,'0',STR_PAD_LEFT) . str_pad($match[7],4,'0',STR_PAD_LEFT) . str_pad($match[8],4,'0',STR_PAD_LEFT); } elseif (preg_match("/^\:\:([0-9a-h\:]+)$/i",$string,$match)) { // short ipv6 with all starting symbols nulled $aAddr=explode(':',$match[1]); $ret=''; foreach ($aAddr as $addr) { $ret.=str_pad($addr,4,'0',STR_PAD_LEFT); } $ret=str_pad($ret,32,'0',STR_PAD_LEFT); } elseif (preg_match("/^([0-9a-h\:]+)::([0-9a-h\:]+)$/i",$string,$match)) { // short ipv6 with middle part nulled $aStart=explode(':',$match[1]); $sStart=''; foreach($aStart as $addr) { $sStart.=str_pad($addr,4,'0',STR_PAD_LEFT); } $aEnd = explode(':',$match[2]); $sEnd=''; foreach($aEnd as $addr) { $sEnd.=str_pad($addr,4,'0',STR_PAD_LEFT); } $ret = $sStart . str_pad('',(32 - strlen($sStart . $sEnd)),'0',STR_PAD_LEFT) . $sEnd; } else { // unknown addressing $ret = $string; } return $ret; } }