<?php
namespace Zotlabs\Web;
use DateTime;
use DateTimeZone;
use Zotlabs\Lib\Activity;
use Zotlabs\Lib\Config;
use Zotlabs\Lib\Crypto;
use Zotlabs\Lib\Keyutils;
use Zotlabs\Lib\Webfinger;
use Zotlabs\Lib\Zotfinger;
use Zotlabs\Lib\Libzot;
/**
* @brief Implements HTTP Signatures per draft-cavage-http-signatures-10.
*
* @see https://tools.ietf.org/html/draft-cavage-http-signatures-10
*/
class HTTPSig {
/**
* @brief RFC5843
*
* @see https://tools.ietf.org/html/rfc5843
*
* @param string $body The value to create the digest for
* @param string $alg hash algorithm (one of 'sha256','sha512')
* @return string The generated digest header string for $body
*/
static function generate_digest_header($body, $alg = 'sha256') {
if ($body === null) {
$body = '';
}
$digest = base64_encode(hash($alg, $body, true));
switch ($alg) {
case 'sha512':
return 'SHA-512=' . $digest;
case 'sha256':
default:
return 'SHA-256=' . $digest;
break;
}
}
public static function find_headers($data, &$body) {
// decide if $data arrived via controller submission or curl
// changes $body for the caller
if (is_array($data) && array_key_exists('header', $data)) {
if (!$data['success']) {
$body = EMPTY_STR;
return [];
}
if (!$data['header']) {
$body = EMPTY_STR;
return [];
}
$h = new HTTPHeaders($data['header']);
$headers = $h->fetcharr();
$body = $data['body'];
$headers['(request-target)'] = $data['request_target'];
} else {
$headers = [];
$headers['(request-target)'] = strtolower($_SERVER['REQUEST_METHOD']) . ' ' . $_SERVER['REQUEST_URI'];
$headers['content-type'] = $_SERVER['CONTENT_TYPE'];
$headers['content-length'] = $_SERVER['CONTENT_LENGTH'];
foreach ($_SERVER as $k => $v) {
if (strpos($k, 'HTTP_') === 0) {
$field = str_replace('_', '-', strtolower(substr($k, 5)));
$headers[$field] = $v;
}
}
}
//logger('SERVER: ' . print_r($_SERVER,true), LOGGER_ALL);
//logger('found_headers: ' . print_r($headers,true), LOGGER_ALL);
return $headers;
}
// See draft-cavage-http-signatures-10
static function verify($data, $key = '', $keytype = '') {
$body = $data;
$headers = null;
$result = [
'signer' => '',
'portable_id' => '',
'header_signed' => false,
'header_valid' => false,
'content_signed' => false,
'content_valid' => false
];
$headers = self::find_headers($data, $body);
if (!$headers)
return $result;
if (is_array($body)) {
btlogger('body is array:' . print_r($body, true));
}
$sig_block = null;
if (array_key_exists('signature', $headers)) {
$sig_block = self::parse_sigheader($headers['signature']);
}
elseif (array_key_exists('authorization', $headers)) {
$sig_block = self::parse_sigheader($headers['authorization']);
}
if (!$sig_block) {
logger('no signature provided.', LOGGER_DEBUG);
return $result;
}
// Warning: This log statement includes binary data
// logger('sig_block: ' . print_r($sig_block,true), LOGGER_DATA);
$result['header_signed'] = true;
$signed_headers = $sig_block['headers'];
if (!$signed_headers)
$signed_headers = ['date'];
$signed_data = '';
foreach ($signed_headers as $h) {
if (array_key_exists($h, $headers)) {
$signed_data .= $h . ': ' . $headers[$h] . "\n";
}
if ($h === 'date') {
$d = new DateTime($headers[$h]);
$d->setTimeZone(new DateTimeZone('UTC'));
$dplus = datetime_convert('UTC', 'UTC', 'now + 1 day');
$dminus = datetime_convert('UTC', 'UTC', 'now - 1 day');
$c = $d->format('Y-m-d H:i:s');
if ($c > $dplus || $c < $dminus) {
logger('bad time: ' . $c);
return $result;
}
}
}
$signed_data = rtrim($signed_data, "\n");
$algorithm = null;
if ($sig_block['algorithm'] === 'rsa-sha256') {
$algorithm = 'sha256';
}
if ($sig_block['algorithm'] === 'rsa-sha512') {
$algorithm = 'sha512';
}
if (!array_key_exists('keyId', $sig_block)) {
return $result;
}
$result['signer'] = $sig_block['keyId'];
$cached_key = self::get_key($key, $keytype, $result['signer']);
if ($sig_block['algorithm'] === 'hs2019') {
if (isset($cached_key['algorithm'])) {
if (strpos($cached_key['algorithm'], 'rsa-sha256') !== false) {
$algorithm = 'sha256';
}
if (strpos($cached_key['algorithm'], 'rsa-sha512') !== false) {
$algorithm = 'sha512';
}
}
}
if (!($cached_key && $cached_key['public_key'])) {
return $result;
}
$x = Crypto::verify($signed_data, $sig_block['signature'], $cached_key['public_key'], $algorithm);
logger('verified: ' . $x, LOGGER_DEBUG);
$fetched_key = '';
if (!$x) {
// try again, ignoring the local actor (xchan) cache and refetching the key
// from its source
$fetched_key = self::get_key($key, $keytype, $result['signer'], true);
if ($fetched_key && $fetched_key['public_key']) {
$y = Crypto::verify($signed_data, $sig_block['signature'], $fetched_key['public_key'], $algorithm);
logger('verified: (cache reload) ' . $x, LOGGER_DEBUG);
}
if (!$y) {
logger('verify failed for ' . $result['signer'] . ' alg=' . $algorithm . (($fetched_key['public_key']) ? '' : ' no key'));
$sig_block['signature'] = base64_encode($sig_block['signature']);
logger('affected sigblock: ' . print_r($sig_block, true));
logger('headers: ' . print_r($headers, true));
logger('server: ' . print_r($_SERVER, true));
return $result;
}
}
$key = (($fetched_key) ? $fetched_key : $cached_key);
$result['portable_id'] = $key['portable_id'] ?? '';
$result['header_valid'] = true;
if (in_array('digest', $signed_headers)) {
$result['content_signed'] = true;
$digest = explode('=', $headers['digest'], 2);
$digest[0] = strtoupper($digest[0]);
if ($digest[0] === 'SHA-256')
$hashalg = 'sha256';
if ($digest[0] === 'SHA-512')
$hashalg = 'sha512';
if (base64_encode(hash($hashalg, $body, true)) === $digest[1]) {
$result['content_valid'] = true;
}
logger('Content_Valid: ' . (($result['content_valid']) ? 'true' : 'false'));
if (!$result['content_valid']) {
logger('invalid content signature: data ' . print_r($data, true));
logger('invalid content signature: headers ' . print_r($headers, true));
logger('invalid content signature: body ' . print_r($body, true));
}
}
return $result;
}
static function get_key($key, $keytype, $id, $force = false) {
if (is_array($key))
btlogger('key is array: ' . print_r($key, true));
if ($key) {
if (function_exists($key)) {
return $key($id);
}
return ['public_key' => $key];
}
if ($keytype === 'zot6') {
$key = self::get_zotfinger_key($id, $force);
if ($key) {
return $key;
}
}
if (strpos($id, '#') === false) {
$key = self::get_webfinger_key($id, $force);
if ($key) {
return $key;
}
}
$delete = false;
if ($keytype === 'delete') {
$delete = true;
}
$key = self::get_activitystreams_key($id, $force, $delete);
return $key;
}
static function convertKey($key) {
if (strstr($key, 'RSA ')) {
return Keyutils::rsaToPem($key);
}
elseif (substr($key, 0, 5) === 'data:') {
return Keyutils::convertSalmonKey($key);
}
else {
return $key;
}
}
/**
* @brief get a cached key or fetch it with ActivityStreams
*
* @param string $id
* @param boolean $force (optional, default false)
* @return boolean|array
* false if no pub key found, otherwise return an array with the pub key
*/
static function get_activitystreams_key($id, $force = false, $delete = false) {
// Check the local cache first, but remove any fragments like #main-key since these won't be present in our cached data
$url = ((strpos($id, '#')) ? substr($id, 0, strpos($id, '#')) : $id);
$best = [];
// $force is used to ignore the local cache and only use the remote data; for instance the cached key might be stale
if (!$force) {
$x = q("select * from xchan join hubloc on xchan_hash = hubloc_hash where (hubloc_addr = '%s' or hubloc_id_url = '%s' or hubloc_hash = '%s') and hubloc_network in ('zot6', 'activitypub') order by hubloc_id desc",
dbesc(str_replace('acct:', '', $url)),
dbesc($url),
dbesc($url)
);
if ($x) {
$best = Libzot::zot_record_preferred($x);
}
if ($best && $best['xchan_pubkey']) {
return ['portable_id' => $best['xchan_hash'], 'public_key' => $best['xchan_pubkey'], 'algorithm' => get_xconfig($best['xchan_hash'], 'system', 'signing_algorithm'), 'hubloc' => $best];
}
}
if ($delete) {
// If we received a delete and we do not have the record cached,
// we probably never saw this actor. Do not try to fetch it now.
return false;
}
// The record wasn't in cache. Fetch it now.
$r = Activity::get_actor($id);
$signatureAlgorithm = EMPTY_STR;
if ($r) {
if (array_key_exists('publicKey', $r) && array_key_exists('publicKeyPem', $r['publicKey']) && array_key_exists('id', $r['publicKey'])) {
if ($r['publicKey']['id'] === $id || $r['id'] === $id) {
$portable_id = ((array_key_exists('owner', $r['publicKey'])) ? $r['publicKey']['owner'] : EMPTY_STR);
// the w3c sec context has conflicting names and no defined values for this property except
// "http://www.w3.org/2000/09/xmldsig#rsa-sha1"
// Since the names conflict, it could mess up LD-signatures but we will accept both, and at this
// time we will only look for the substrings 'rsa-sha256' and 'rsa-sha512' within those properties.
// We will also accept a toplevel 'sigAlgorithm' regardless of namespace with the same constraints.
// Default to rsa-sha256 if we can't figure out. If they're sending 'hs2019' we have to
// look for something.
if (isset($r['publicKey']['signingAlgorithm'])) {
$signatureAlgorithm = $r['publicKey']['signingAlgorithm'];
set_xconfig($portable_id, 'system', 'signing_algorithm', $signatureAlgorithm);
}
if (isset($r['publicKey']['signatureAlgorithm'])) {
$signatureAlgorithm = $r['publicKey']['signatureAlgorithm'];
set_xconfig($portable_id, 'system', 'signing_algorithm', $signatureAlgorithm);
}
if (isset($r['sigAlgorithm'])) {
$signatureAlgorithm = $r['sigAlgorithm'];
set_xconfig($portable_id, 'system', 'signing_algorithm', $signatureAlgorithm);
}
return ['public_key' => self::convertKey($r['publicKey']['publicKeyPem']), 'portable_id' => $portable_id, 'algorithm' => (($signatureAlgorithm) ? $signatureAlgorithm : 'rsa-sha256'), 'hubloc' => []];
}
}
}
// No key was found
return false;
}
/**
* @brief get a cached key or fetch it with Webfinger
*
* @param string $id
* @param boolean $force (optional, default false)
* @return boolean|array
* false if no pub key found, otherwise return an array with the pub key
*/
static function get_webfinger_key($id, $force = false) {
$best = [];
if (!$force) {
$x = q("select * from xchan join hubloc on xchan_hash = hubloc_hash where (hubloc_addr = '%s' or hubloc_id_url = '%s' or hubloc_hash = '%s') and hubloc_network in ('zot6', 'activitypub') order by hubloc_id desc",
dbesc(str_replace('acct:', '', $id)),
dbesc($id),
dbesc($id)
);
if ($x) {
$best = Libzot::zot_record_preferred($x);
}
if ($best && $best['xchan_pubkey']) {
return ['portable_id' => $best['xchan_hash'], 'public_key' => $best['xchan_pubkey'], 'algorithm' => get_xconfig($best['xchan_hash'], 'system', 'signing_algorithm'), 'hubloc' => $best];
}
}
$wf = Webfinger::exec($id);
$key = ['portable_id' => '', 'public_key' => '', 'hubloc' => []];
if ($wf) {
if (array_key_exists('properties', $wf) && array_key_exists('https://w3id.org/security/v1#publicKeyPem', $wf['properties'])) {
$key['public_key'] = self::convertKey($wf['properties']['https://w3id.org/security/v1#publicKeyPem']);
}
if (array_key_exists('links', $wf) && is_array($wf['links'])) {
foreach ($wf['links'] as $l) {
if (!(is_array($l) && array_key_exists('rel', $l))) {
continue;
}
if ($l['rel'] === 'magic-public-key' && array_key_exists('href', $l) && $key['public_key'] === EMPTY_STR) {
$key['public_key'] = self::convertKey($l['href']);
}
}
}
}
return (($key['public_key']) ? $key : false);
}
/**
* @brief get a cached key or fetch it with Zotfinger
*
* @param string $id
* @param boolean $force (optional, default false)
* @return boolean|array
* false if no pub key found, otherwise return an array with the public key
*/
static function get_zotfinger_key($id, $force = false) {
$best = [];
if (!$force) {
$x = q("select * from xchan join hubloc on xchan_hash = hubloc_hash where hubloc_id_url = '%s' and hubloc_network = 'zot6' order by hubloc_id desc",
dbesc($id)
);
if ($x) {
$best = Libzot::zot_record_preferred($x);
}
if ($best && $best['xchan_pubkey']) {
return ['portable_id' => $best['xchan_hash'], 'public_key' => $best['xchan_pubkey'], 'algorithm' => get_xconfig($best['xchan_hash'], 'system', 'signing_algorithm'), 'hubloc' => $best];
}
}
$wf = Webfinger::exec($id);
$key = ['portable_id' => '', 'public_key' => '', 'hubloc' => []];
if ($wf) {
if (array_key_exists('properties', $wf) && array_key_exists('https://w3id.org/security/v1#publicKeyPem', $wf['properties'])) {
$key['public_key'] = self::convertKey($wf['properties']['https://w3id.org/security/v1#publicKeyPem']);
}
if (array_key_exists('links', $wf) && is_array($wf['links'])) {
foreach ($wf['links'] as $l) {
if (!(is_array($l) && array_key_exists('rel', $l))) {
continue;
}
if ($l['rel'] === 'http://purl.org/zot/protocol/6.0' && array_key_exists('href', $l) && $l['href'] !== EMPTY_STR) {
// The third argument to Zotfinger::exec() tells it not to verify signatures
// Since we're inside a function that is fetching keys with which to verify signatures,
// this is necessary to prevent infinite loops.
$z = Zotfinger::exec($l['href'], null, false);
if ($z) {
$i = Libzot::import_xchan($z['data']);
if ($i['success']) {
$key['portable_id'] = $i['hash'];
$x = q("select * from xchan left join hubloc on xchan_hash = hubloc_hash where hubloc_id_url = '%s' and hubloc_network = 'zot6' order by hubloc_id desc",
dbesc($l['href'])
);
if ($x) {
$key['hubloc'] = $x[0];
}
}
}
}
if ($l['rel'] === 'magic-public-key' && array_key_exists('href', $l) && $key['public_key'] === EMPTY_STR) {
$key['public_key'] = self::convertKey($l['href']);
}
}
}
}
return (($key['public_key']) ? $key : false);
}
/**
* @brief
*
* @param array $head
* @param string $prvkey
* @param string $keyid (optional, default '')
* @param boolean $auth (optional, default false)
* @param string $alg (optional, default 'sha256')
* @param array $encryption [ 'key', 'algorithm' ] or false
* @return array
*/
static function create_sig($head, $prvkey, $keyid = EMPTY_STR, $auth = false, $alg = 'sha256', $encryption = false) {
$return_headers = [];
if ($alg === 'sha256') {
$algorithm = 'rsa-sha256';
}
if ($alg === 'sha512') {
$algorithm = 'rsa-sha512';
}
$x = self::sign($head, $prvkey, $alg);
// TODO: should we default to hs2019? cavage-http-signatures-12 is not very wide spread yet
if (Config::Get('system', 'use_hs2019', false) && $algorithm === 'rsa-sha256') {
$algorithm = 'hs2019';
}
$headerval = 'keyId="' . $keyid . '",algorithm="' . $algorithm . '",headers="' . $x['headers'] . '",signature="' . $x['signature'] . '"';
if ($encryption) {
$x = Crypto::encapsulate($headerval, $encryption['key'], $encryption['algorithm']);
if (is_array($x)) {
$headerval = 'iv="' . $x['iv'] . '",key="' . $x['key'] . '",alg="' . $x['alg'] . '",data="' . $x['data'] . '"';
}
}
if ($auth) {
$sighead = 'Authorization: Signature ' . $headerval;
}
else {
$sighead = 'Signature: ' . $headerval;
}
if ($head) {
foreach ($head as $k => $v) {
// strip the request-target virtual header from the output headers
if ($k === '(request-target)') {
continue;
}
$return_headers[] = $k . ': ' . $v;
}
}
$return_headers[] = $sighead;
return $return_headers;
}
/**
* @brief set headers
*
* @param array $headers
* @return void
*/
static function set_headers($headers) {
if ($headers && is_array($headers)) {
foreach ($headers as $h) {
header($h);
}
}
}
/**
* @brief
*
* @param array $head
* @param string $prvkey
* @param string $alg (optional) default 'sha256'
* @return array
*/
static function sign($head, $prvkey, $alg = 'sha256') {
$ret = [];
$headers = '';
$fields = '';
logger('signing: ' . print_r($head, true), LOGGER_DATA);
if ($head) {
foreach ($head as $k => $v) {
$k = strtolower($k);
$v = (($v) ? trim($v) : '');
$headers .= $k . ': ' . $v . "\n";
if ($fields)
$fields .= ' ';
$fields .= $k;
}
// strip the trailing linefeed
$headers = rtrim($headers, "\n");
}
$sig = base64_encode(Crypto::sign($headers, $prvkey, $alg));
$ret['headers'] = $fields;
$ret['signature'] = $sig;
return $ret;
}
/**
* @brief
*
* @param string $header
* @return array associate array with
* - \e string \b keyID
* - \e string \b algorithm
* - \e array \b headers
* - \e string \b signature
*/
static function parse_sigheader($header) {
$ret = [];
$matches = [];
// if the header is encrypted, decrypt with (default) site private key and continue
if (preg_match('/iv="(.*?)"/ism', $header, $matches))
$header = self::decrypt_sigheader($header);
if (preg_match('/keyId="(.*?)"/ism', $header, $matches))
$ret['keyId'] = $matches[1];
if (preg_match('/algorithm="(.*?)"/ism', $header, $matches))
$ret['algorithm'] = $matches[1];
if (preg_match('/headers="(.*?)"/ism', $header, $matches))
$ret['headers'] = explode(' ', $matches[1]);
if (preg_match('/signature="(.*?)"/ism', $header, $matches))
$ret['signature'] = base64_decode(preg_replace('/\s+/', '', $matches[1]));
if (isset($ret['signature']) && isset($ret['algorithm']) && !isset($ret['headers']))
$ret['headers'] = ['date'];
return $ret;
}
/**
* @brief
*
* @param string $header
* @param string $prvkey (optional), if not set use site private key
* @return array|string associative array, empty string if failue
* - \e string \b iv
* - \e string \b key
* - \e string \b alg
* - \e string \b data
*/
static function decrypt_sigheader($header, $prvkey = null) {
$iv = $key = $alg = $data = null;
if (!$prvkey) {
$prvkey = Config::Get('system', 'prvkey');
}
$matches = [];
if (preg_match('/iv="(.*?)"/ism', $header, $matches))
$iv = $matches[1];
if (preg_match('/key="(.*?)"/ism', $header, $matches))
$key = $matches[1];
if (preg_match('/alg="(.*?)"/ism', $header, $matches))
$alg = $matches[1];
if (preg_match('/data="(.*?)"/ism', $header, $matches))
$data = $matches[1];
if ($iv && $key && $alg && $data) {
return Crypto::unencapsulate(['encrypted' => true, 'iv' => $iv, 'key' => $key, 'alg' => $alg, 'data' => $data], $prvkey);
}
return '';
}
}