mirror of
git://git.psyced.org/git/psyced
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664 lines
21 KiB
C
664 lines
21 KiB
C
// vim:syntax=lpc
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// info: to unfold and view the complete file, hit zR in your vim command mode.
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//
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// $Id: dns.c,v 1.113 2008/09/12 15:54:39 lynx Exp $
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//
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// {{{ meta-bla about foldmethod=marker
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// <lynX> hm.. find ich folding jetzt eher nützlich oder lästig? muss ich
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// noch herausfinden. auf jeden fall sind die farben eher unpraktisch.
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// steht sicher irgendwo in irgendwelchen files definiert.. juchei
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// übertreiben sollte man's jedenfalls nicht, oder was soll das
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// "whatis comment" anderes erreichen als dass der kommentar nicht
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// gelesen wird obwohl er extra dafür geschrieben wurde?
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// }}}
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// und dann ist da noch myUNL, myLowerCaseHost.
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// in der psyclib. letzteres gehört wohl eher hier her.
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// {{{ includes
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#include "net.h"
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#include "proto.h"
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#include "closures.h"
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#include <dns.h>
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#include <erq.h>
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#include <sandbox.h>
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// }}}
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// {{{ queue-inherit
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#ifdef NEW_QUEUE
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inherit NET_PATH "queue2";
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#else
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inherit NET_PATH "queue";
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#endif
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// }}}
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// {{{ variables
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//
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// this mapping has to be *volatile* or it will carry old hostnames
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// that may no longer be valid, then cause wild illogical behaviour
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volatile mapping localhosts = ([
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"localhost": "127.0.0.1",
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"127.0.0.1": "localhost",
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// unusual but valid syntax for localhost
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// then again usually any 127.* leads to localhost so it's
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// pointless and after all it can even be good for testing
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// the switch protocol on oneself.. ;)
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"127.0.1": "localhost",
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"127.1": "localhost",
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// "0": ??
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#ifdef __HOST_IP_NUMBER__
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# if __HOST_IP_NUMBER__ != "127.0.0.1"
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__HOST_IP_NUMBER__ : 1,
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# endif
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#endif
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// the hostnames need to be in lowercase... lets do it later
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// SERVER_HOST : 1,
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#if defined(_host_XMPP)
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# if _host_XMPP != SERVER_HOST
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// _host_XMPP : 1,
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# endif
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#endif
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]);
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volatile mapping host2canonical = ([ ]);
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volatile object hostsd;
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// }}}
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// {{{ query_server_ip && myip && register_localhost
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#ifndef __HOST_IP_NUMBER__
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volatile string myIP;
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#else
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# define myIP __HOST_IP_NUMBER__
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#endif
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string query_server_ip() { return myIP; }
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// take care to always pass a lowercased (virtual) hostname
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varargs void register_localhost(string name) { //, string ip) {
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//unless (ip) ip = myIP;
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localhosts[name] = 1; //ip;
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// either we have a static ip, then we already know it, or we
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// have a public ip hidden by a firewall or nat, then we can
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// find it out using #'set_my_ip - but what if by dsl relogin
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// or something like that our public ip address changes? then
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// we have an old ip number which by very unlikely circumstance
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// could possibly turn into a security problem. but what's worse:
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// we might get used having the public ip in here, and then it
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// suddenly no longer is (because there is an old one instead)
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// i have the impression we are well off if we only know all of
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// our virtual host names - we don't need our ip numbers really
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//localhosts[ip] = name;
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}
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// }}}
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#ifndef SANDBOX
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// {{{ function: del_queue
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void del_queue(string queue) {
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qDel(queue);
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}
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// }}}
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#endif
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// {{{ function: legal_host
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int legal_host(string ip, int port, string scheme, int udpflag) { // proto.h!
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P3(("legal_host %O %O %O %O\n", ip, port, scheme, udpflag))
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// do not allow logins during shutdown
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// if (shutdown_in_progress) return 0;
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// we sincerely hope our kernel will drop udp packets that
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// spoof they are coming from localhost.. would be ridiculous if not
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// if (ip == "127.0.0.1" || ip == "127.1" || ip == "0") return 9;
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#ifndef _flag_disable_trust_localhost
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if (localhosts[ip]) return 9;
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if (ip == myIP || !ip) return 8;
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#endif
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unless (hostsd) hostsd = DAEMON_PATH "hosts" -> load();
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P4(("legal_host asks %O\n", hostsd))
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return hostsd -> legal_host(ip, port, scheme, udpflag);
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}
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// }}}
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// {{{ function: legal_domain
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int legal_domain(string host, int port, string scheme, int udpflag) {
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// we sincerely hope our kernel will drop udp packets that
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// spoof they are coming from localhost.. would be ridiculous if not
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//
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// TODO: use is_localhost here?
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#ifndef _flag_disable_trust_localhost
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if (host == "localhost" || host == SERVER_HOST) return 9;
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#endif
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// if (host == myLowerCaseHost) return 8;
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// if (lower_case(host) == myLowerCaseHost) return 7;
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// unless (hostsd) hostsd = DAEMON_PATH "hosts" -> load();
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// return hostsd -> legal_domain(host, port, scheme, udpflag);
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return 5; // TODOOOOOO
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}
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// }}}
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// {{{ function: chost
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// {{{ whatis comment
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/** provides us with the "canonical" name of a host as given by DNS PTR,
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** not to be confused with the aliasing facility "CNAME" - not sure
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** about this function name but don't know any better right now.
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** this function does NOT do any DNS resolutions itself, it only consults
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** a cache which is kept up to date by the dns_*resolve functions.
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** it is therefore nice and fast.
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*/
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// }}}
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string chost(string host) {
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return host2canonical[host];
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}
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// }}}
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// {{{ function: same_host
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// {{{ whatis comment
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/** figures out if two hostnames (aliases or its ip) are the same host.
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** this is essentially chost(a) == chost(b) with one function call less.
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*/
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// }}}
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// {{{ remarks
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// we should probably lower_case() hosts, as there has been trouble w/
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// hostnames once lower_cased() (extracted from unl, probably) and
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// !lower_cased() when we were testing _identification w/ pypsycd.
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// of course we'd then have to do host = lower_case(host) in register_host(),
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// too. }}}
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int same_host(string a, string b) {
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//mixed c = host2canonical[lower_case(a)];
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mixed c = host2canonical[a];
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P2(("same_host %O -> %O ==? %O -> %O\n", a, c, b, host2canonical[b]))
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//return stringp(c) && c == host2canonical[lower_case(b)];
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return stringp(c) && c == host2canonical[b];
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}
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// }}}
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// {{{ function: register_host
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varargs void register_host(string host, mixed canonical) {
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PROTECT("REGISTER_HOST")
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P2(("register_host %O, %O.\n", host, canonical))
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if (stringp(canonical)) {
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if (host2canonical[host] != canonical && host2canonical[host]) {
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// 0 was already mapped to "andrack.tobij.de", now points ...
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// dunno why that happens, but here we catch it
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unless (host) return;
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// this probably only happens if the server has been running
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// for several weeks.. the fx are probably mostly harmless
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// just some dynamic ip which gets reused by someone else
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canonical = lower_case(canonical);
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if (host2canonical[host] != canonical) {
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// with akamai sites this happens all the time and is harmless
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#if 0
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monitor_report("_warning_overridden_register_host",
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S("%O was already mapped to %O, now points to %O.",
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host, host2canonical[host], canonical));
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#else
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P1(("%O was already mapped to %O, now points to %O.\n",
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host, host2canonical[host], canonical))
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#endif
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}
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}
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else canonical = lower_case(canonical);
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host2canonical[host] = canonical;
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P3(("%O mapped to %O.\n", host, canonical))
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return;
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}
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else if (intp(canonical) && canonical < 0) {
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if (stringp(host2canonical[host])) {
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// we do get to see this message sometimes.. weird thang dns
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P1(("%O no longer resolves, we keep it mapped to %O.\n",
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host, host2canonical[host]))
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// no this doesn't seem to be triggered by timed out dyndns
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// as dyndns usually carries around the old ip number
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return;
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}
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// host did not resolve, let's store this fact
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host2canonical[host] = canonical;
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return;
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}
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// we won't need the lambda-closure because of my ingenious varargs design
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// in dns_resolve() and dns_rresolve()
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#if 0
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dns_resolve(host, #'dns_rresolve, lambda(({ 'canonical }),
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({ #'=, ({ CL_INDEX, host2canonical, host }), 'canonical }) ) );
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#else
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dns_resolve(host, #'dns_rresolve,
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(: if (stringp($1)) $2[$3] = $1;
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return; :), host2canonical, host);
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#endif
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return;
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}
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// }}}
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// {{{ function: dns_refresh
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/** wild idea of tobi, needs an admin command to trigger it */
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void dns_refresh() {
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string host;
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PROTECT("DNS_REFRESH")
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foreach (host : m_indices(host2canonical)) { register_host(host); }
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}
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// }}}
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// {{{ usage: dns_*resolve
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// we do know that lambda() might be a quite unfamiliar concept to the usual
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// coder, so we made dns_resolve() and dns_rresolve() a little more handy.
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// you can use inline-closures at the caller side, even if you need some
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// "variables" or arguments which cannot be accessed by an unsual inline
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// closure (with 3-3 style inline closures that works, but we encourage you
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// not to use them for backward compatibility).
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//
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// so here is an usage example:
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// dns_resolve(hostname, (: sendmsg($2, "_some_mc", $3 + " has been resolved "
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// "to " + $1); :), source, hostname);
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// $1 will be the dns_resolve result, $2 will be source and $3 will be
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// hostname. as you already guessed, $2 and further are just the arguments
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// you appended to the dns_resolve() call after the closure, and $1 is, as said,
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// the dns_resolve() result.
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// this works for any number of extra arguments.
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//
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// this is also works for dns_rresolve()
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// }}}
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// {{{ function: dns_resolve
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// {{{ whatis comment
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/** sends a request to the erq to resolve a hostname, on reception of the
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** reply does the callback where it passes either the ip-number as string
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** or -1 for failure, followed by any extra arguments you gave it
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*/ // }}}
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void dns_resolve(string hostname, closure callback, varargs array(mixed) extra) {
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closure c, c2; // proto.h
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string queuename;
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P4(("dns_resolve called with (%O, %O, %O).\n", hostname, callback, extra))
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unless (stringp(hostname)) {
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P1(("dns_resolve called with (%O, %O, %O). stopping.\n", hostname, callback, extra))
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return;
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}
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#ifdef __IDNA__
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if (catch(hostname = idna_to_ascii(TO_UTF8(hostname)); nolog)) {
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P0(("catch: punycode %O in %O\n", hostname, ME))
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return;
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}
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#endif
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if (sizeof(extra)) {
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c2 = lambda( ({ 'name }),
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({ #'funcall, callback, 'name }) + extra );
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} else {
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c2 = callback;
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}
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// if unnecessary this can move into !__ERQ_MAX_SEND__
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switch(hostname) {
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// case myLowerCaseHost: // TODO!!
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#if defined(SERVER_HOST) && SERVER_HOST != "localhost"
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case SERVER_HOST:
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# ifdef __HOST_IP_NUMBER__
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funcall(c2, __HOST_IP_NUMBER__, callback);
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# else
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unless (myIP) break;
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funcall(c2, myIP, callback);
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# endif
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P4(("self rresolution used\n"))
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return;
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#endif
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case "localhost":
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P3(("localhost rresolution used\n"))
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funcall(c2, "127.0.0.1", callback);
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return;
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}
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if (sscanf(hostname,"%~D.%~D.%~D.%~D") == 4) {
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// hostname is an IP already. Just call the callback.
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funcall(c2, hostname, callback);
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return;
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}
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#ifdef __ERQ_MAX_SEND__
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queuename = "f" + hostname;
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if (qExists(queuename)) {
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enqueue(queuename, c2);
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return;
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} else {
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qInit(queuename, 1000, 10);
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enqueue(queuename, c2);
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}
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c = lambda( ({ 'name }), ({
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(#'switch), ({ #'sizeof, 'name }),
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({ 4 }), // ERQ: name resolved!
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({ (#',),
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({ (#'=),'name,({ (#'map),'name,#'&,255 }) }),
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({ (#'=),'name,
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({
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(#'sprintf),"%d.%d.%d.%d",
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({ CL_INDEX, 'name, 0 }),
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({ CL_INDEX, 'name, 1 }),
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({ CL_INDEX, 'name, 2 }),
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({ CL_INDEX, 'name, 3 })
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})
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}),
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({ #'while, ({ #'qSize, queuename }), 42,
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({ #'catch,
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({ #'funcall, ({ #'shift, queuename }),
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'name })
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})
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}),
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({ #'qDel, queuename })
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}),
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(#'break),
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# ifdef XERQ
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({ 6 + strlen(hostname) }), // XERQ
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({ (#',),
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({ (#'=),'name,({ (#'map),'name,#'&,255 }) }),
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({ (#'=),'name,
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({
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(#'sprintf),"%d.%d.%d.%d",
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({ CL_INDEX, 'name, 1 }),
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({ CL_INDEX, 'name, 2 }),
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({ CL_INDEX, 'name, 3 }),
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({ CL_INDEX, 'name, 4 })
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})
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}),
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({ #'while, ({ #'qSize, queuename }), 42,
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({ #'catch,
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({ #'funcall, ({ #'shift, queuename }),
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'name
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})
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})
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}),
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({ #'qDel, queuename })
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}),
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(#'break),
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# endif
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({ #'default }),
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({
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(#',),
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# if DEBUG > 0
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({ #'debug_message, "ERQ could not resolve \""+ hostname +"\".\n" }),
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# endif
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// host2canonical[hostname] = 0; <--
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({ #'funcall, #'register_host, hostname, -1 }),
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({ #'while, ({ #'qSize, queuename }), 42,
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/* held sagt: also zuerst sagt er
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:* ERQ could not resolve
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:* und dann die while whiles sind die queues
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:* also angestaute einträge in der queue
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:* die er dann mit -1 aufruft
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:* nach den while whiles wird die queue gelöscht
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:* und der nächste dns_resolve-aufruf geht wieder an den erq
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:* ziel der queues ist in diesem falle kein caching, sondern
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:* nur lineares aufrufen der callbacks
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:* also, fifo
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:*/
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// ({ #'debug_message, "while while "+ hostname + "\n"}),
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({ #'catch, ({ #'funcall, ({ #'shift, queuename }),
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-1 }) }) }),
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({ #'qDel, queuename })
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}),
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(#'break)
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}) );
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// this efun was introduced shortly after erq was fixed.. btw what does it do?
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# if __EFUN_DEFINED__(reverse)
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// we are currently doing too many resolutions.. this is nice for
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// dyndns but silly if we have a valid tcp connection to the host
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// in question, thus it is proven that the ip hasn't changed.
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P3(("resolving "+hostname+"\n"))
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unless (send_erq(ERQ_LOOKUP, hostname, c))
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# else
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// appending the zero byte fixes a bug in erq. sick!
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unless (send_erq(ERQ_LOOKUP, to_array(hostname) + ({ 0 }), c))
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# endif
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#else
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// it's all pretty useless if __ERQ_MAX_SEND__ is defined
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// even if ldmud was called with -N. what is this, a bug?
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P1(("no erq: returning unresolved %O\n", hostname))
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#endif
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{
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P1(("%O failed to ERQ_LOOKUP %O!\n", ME, hostname))
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// if we cannot resolve using erq, we'll send back the hostname,
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// so the driver can do a blocking resolve itself (needed for
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// net_connect())
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funcall(c2, hostname, callback);
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#ifdef __ERQ_MAX_SEND__
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qDel(queuename);
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#endif
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}
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return;
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}
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// }}}
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// {{{ function: dns_rresolve
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// {{{ whatis comment
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/** requests a reverse lookup of the given ip address from the erq process,
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** on reply calls dns_resolve() to ensure the returned host name does indeed
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** point to the ip address (protection against basic DNS spoofing), then
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** does the callback, where it passes either the hostname of the ip as given
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** by IN PTR, -1 for resolution failure, or -2 for a DNS spoofing attempt.
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** extra arguments follow, if you provided any.
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*/ // }}}
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void dns_rresolve(string ip, closure callback, varargs array(mixed) extra) {
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closure rresolve, resolve; // proto.h
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int i1, i2, i3, i4;
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string queuename;
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P4(("dns_rresolve called with (%O, %O, %O).\n", ip, callback, extra))
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unless (stringp(ip)) {
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P1(("dns_rresolve called with (%O, %O, %O). stopping.\n", ip, callback, extra))
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return;
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}
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extra = ({ #'funcall, callback, 'host }) + extra;
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// if unnecessary this can move into !__ERQ_MAX_SEND__
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switch(ip) {
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#ifdef __HOST_IP_NUMBER__
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# if __HOST_IP_NUMBER__ != "127.0.0.1"
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case __HOST_IP_NUMBER__:
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# else
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# ifndef myIP
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case myIP:
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# else
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case 0: // the hostname IS localhost, so this never happens
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# endif
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# endif
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P4(("self resolution used\n"))
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if (sizeof(extra)) funcall(lambda( ({ 'host }), extra), SERVER_HOST);
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else funcall(callback, SERVER_HOST);
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return;
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#endif
|
|
case "127.0.0.1":
|
|
P3(("localhost resolution used\n"))
|
|
if (sizeof(extra)) funcall(lambda( ({ 'host }), extra), "localhost");
|
|
else funcall(callback, "localhost");
|
|
return;
|
|
}
|
|
#ifdef __ERQ_MAX_SEND__
|
|
unless (sscanf(ip, "%D.%D.%D.%D", i1, i2, i3, i4) == 4) {
|
|
// that is not an ip. what shall we do?
|
|
// we're just returning for now. suggestions -> changestodo
|
|
P1(("dns_rresolve called with (%O, %O, %O). stopping.\n", ip, callback, extra))
|
|
return;
|
|
}
|
|
|
|
queuename = "r" + ip;
|
|
|
|
resolve = lambda( ({ 'host, 'ip, 'rip }),
|
|
({ #'?,
|
|
({ #'==, 'ip, 'rip }),
|
|
({ (#',),
|
|
({ #'while, ({ #'qSize, queuename }),
|
|
42,
|
|
({ #'catch,
|
|
({ #'funcall, ({ #'shift, queuename }), 'host })
|
|
})
|
|
}),
|
|
({ #'qDel, queuename }),
|
|
}),
|
|
({ (#',),
|
|
({ #'=, 'host, -2 }), // useless line
|
|
({ #'while, ({ #'qSize, queuename }),
|
|
42,
|
|
({ #'catch,
|
|
({ #'funcall, ({ #'shift, queuename }), -2 })
|
|
}),
|
|
}),
|
|
({ #'qDel, queuename })
|
|
})
|
|
}) );
|
|
|
|
if (qExists(queuename)) {
|
|
enqueue(queuename, sizeof(extra)
|
|
? lambda(({ 'host }), extra)
|
|
: callback);
|
|
return;
|
|
} else {
|
|
qInit(queuename, 1000, 10);
|
|
enqueue(queuename, sizeof(extra)
|
|
? lambda(({ 'host }), extra)
|
|
: callback);
|
|
}
|
|
|
|
rresolve = lambda( ({ 'name }),
|
|
({ #'funcall, (:
|
|
$1 = to_string($1[4..<2]); // extract hostname from crazy
|
|
// erq return format
|
|
unless ($1 == "") {
|
|
dns_resolve($1, lambda( ({ 'name }),
|
|
({ #'funcall, $4, $1, $2, 'name, $3 }) ));
|
|
} else {
|
|
funcall($4, -1, 0, 0, $3);
|
|
}
|
|
return; :), 'name, ip, callback, resolve }) );
|
|
|
|
unless (send_erq(ERQ_RLOOKUP, ({ i1, i2, i3, i4 }), rresolve))
|
|
#else
|
|
P1(("no erq: returning unrresolved %O\n", ip))
|
|
#endif
|
|
{
|
|
P1(("%O failed to ERQ_RLOOKUP!\n", ME))
|
|
if (sizeof(extra)) {
|
|
funcall(lambda( ({ 'host }),
|
|
extra), ip);
|
|
} else {
|
|
funcall(callback, ip);
|
|
}
|
|
#ifdef __ERQ_MAX_SEND__
|
|
qDel(queuename);
|
|
#endif
|
|
}
|
|
return;
|
|
}
|
|
// }}}
|
|
|
|
// {{{ function: is_localhost
|
|
#if 1
|
|
// take care to always pass a lowercased (virtual) hostname
|
|
int is_localhost(string host) {
|
|
// async discovery of virtual hosts is not necessary
|
|
// we should know all of our hostnames in advance for
|
|
// security anyway
|
|
return member(localhosts, host);
|
|
}
|
|
#else
|
|
int is_localhost(string host, closure callback, varargs array(mixed) extra) {
|
|
if (member(localhosts, host)) {
|
|
funcall(callback, 1, extra);
|
|
return;
|
|
}
|
|
|
|
// this is maybe not enough... we should resolve myIP,.. too
|
|
if (sscanf(host, "%~D.%~D.%~D.%~D") == 4) {
|
|
// what needs to be done?? rresolve both host and __HOST_IP_NUMBER__ ?
|
|
dns_rresolve(host,
|
|
lambda(({ 'hostname }),
|
|
({ #'funcall, callback,
|
|
({ #'==, 'hostname, SERVER_HOST }) })
|
|
+ (sizeof(extra) ? extra : ({ }) )
|
|
));
|
|
} else {
|
|
# if !defined(__HOST_IP_NUMBER__) || __HOST_IP_NUMBER__ != "127.0.0.1"
|
|
dns_resolve(host,
|
|
lambda(({ 'hostname }),
|
|
({ #'funcall, callback,
|
|
# ifdef __HOST_IP_NUMBER__
|
|
({ #'==, 'hostname, __HOST_IP_NUMBER__ })
|
|
# else
|
|
({ #'==, 'hostname, myIP })
|
|
# endif
|
|
}) + (sizeof(extra) ? extra : ({ }) )
|
|
));
|
|
# else
|
|
funcall(callback, 0, extra);
|
|
# endif
|
|
}
|
|
}
|
|
# if 0
|
|
// call either true or false
|
|
void if_localhost(string host, closure true, closure false,
|
|
varargs array(mixed) extra) {
|
|
is_localhost(host, lambda(({ 'bol }),
|
|
({ #'funcall,
|
|
({ #'?, 'bol, true, false }),
|
|
}) + (sizeof(extra) ? extra : ({ }) ) ));
|
|
}
|
|
# endif
|
|
#endif // if 1
|
|
// }}}
|
|
|
|
#ifndef ERQ_WITHOUT_SRV
|
|
// {{{ function: dns_srv_resolve
|
|
void dns_srv_resolve(string hostname, string service, string proto, closure callback, varargs array(mixed) extra)
|
|
{
|
|
#ifdef __ERQ_MAX_SEND__
|
|
string req;
|
|
int rc;
|
|
|
|
// dumme bevormundung. wegen der musste ich jetzt ewig lang suchen:
|
|
//unless (proto == "tcp" || proto == "udp") return;
|
|
// da wir mit nem String arbeiten muessen
|
|
req = sprintf("_%s._%s.%s", service, proto, hostname);
|
|
rc = send_erq(ERQ_LOOKUP_SRV, req, lambda(({ 'wu }),
|
|
({ (#',),
|
|
({ #'?, ({ #'<, ({ #'sizeof, 'wu }), 3 }),
|
|
({ (#',),
|
|
# if DEBUG > 1
|
|
({ #'debug_message, "Could not srv_resolve _" +service+"._"+proto+"."+ hostname + "\n" }),
|
|
# endif
|
|
({ #'funcall, callback, -1 }) + extra,
|
|
({ #'return, 1 }),
|
|
}),
|
|
}),
|
|
({ #'=, 'i, 0 }),
|
|
({ #'=, 'resarr, quote(({ })) }),
|
|
({ #'=, 'wu, ({ #'explode, ({ #'to_string, ({ #'[..<], 'wu, 0, 3 }) }), "\n" }) }),
|
|
// wieso die if in der condition der while ???
|
|
({ #'while, ({ #'?, ({ #'<, 'i, ({ #'sizeof, 'wu }) }) }), 42,
|
|
({ (#',),
|
|
({ #'+=, 'resarr, ({ #'({, ({ #'({, ({ #'[, 'wu, 'i }), ({ #'to_int, ({ #'[, 'wu, ({ #'+, 'i, 1 }) }) }), ({ #'to_int, ({ #'[, 'wu, ({ #'+, 'i, 2 }) }) }), ({ #'to_int, ({ #'[, 'wu, ({ #'+, 'i, 3 }) }) }) }) }) }),
|
|
({ #'=, 'i, ({ #'+, 'i, 4 }) })
|
|
})
|
|
}),
|
|
// ({ #'funcall, callback, ({ #'sort_array, 'resarr, sortsrv }) }) + extra
|
|
({ #'funcall, callback, 'resarr }) + extra
|
|
})
|
|
));
|
|
unless (rc) {
|
|
P0(("%O failed to ERQ_LOOKUP_SRV!\n", ME))
|
|
funcall(callback, -1, extra);
|
|
}
|
|
// Rueckgabe vom erq bei Fehlschlag -> empty message wie bei ERQ_RLOOKUP
|
|
// callback sollte erwarten:
|
|
// ein Array von Arrays jeweils mit name, port, pref, weigth
|
|
// oder ein einzelnes Array und man betrachtet jeweils vier Dinger
|
|
// waer dufte wenn die lambda das splitten koennte... sonst muss es
|
|
// halt nen string sein der zurueckgegeben wird
|
|
return;
|
|
#else
|
|
P1(("no erq: aborting SRV check for %O\n", hostname))
|
|
funcall(callback, -1, extra);
|
|
#endif
|
|
}
|
|
// }}}
|
|
#endif
|