BonjourLib - Bonjour/mDNS lib, works with the new network stack

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Bonjour/mDNS lib, works with the new network stack

Fork of BonjourLib by Dirk-Willem van Gulik (NXP/mbed)

services/mDNS/mDNSResponder.cpp@1:bb6472f455e8, 2010-08-14 (annotated)

Committer:: dirkx
Date:: Sat Aug 14 15:55:07 2010 +0000
Revision:: 1:bb6472f455e8
Parent:: 0:1a198985f183

Who changed what in which revision?

User	Revision	Line number	New contents of line
dirkx	0:1a198985f183	1	/* Class: mDNSResponder
dirkx	0:1a198985f183	2	* Copyright 1991, 2003, 2010 Dirk-Willem van Gulik <dirkx(at)apache(punto)org>
dirkx	0:1a198985f183	3	*
dirkx	0:1a198985f183	4	* License: Any BSD or ASF License.
dirkx	0:1a198985f183	5	*
dirkx	0:1a198985f183	6	* Rough and ready port of some mDNS code.
dirkx	0:1a198985f183	7	*
dirkx	0:1a198985f183	8	* Typical use is something like
dirkx	0:1a198985f183	9	*
dirkx	0:1a198985f183	10	* EthernetNetIf eth;
dirkx	0:1a198985f183	11	* HTTPServer svr;
dirkx	0:1a198985f183	12	* mDNSResponder mdns;
dirkx	0:1a198985f183	13	*
dirkx	0:1a198985f183	14	* int main()...
dirkx	0:1a198985f183	15	*
dirkx	0:1a198985f183	16	* // get internet
dirkx	0:1a198985f183	17	* EthernetErr ethErr = eth.setup();
dirkx	0:1a198985f183	18	* ... etc ..
dirkx	0:1a198985f183	19	*
dirkx	0:1a198985f183	20	* // set up some server
dirkx	0:1a198985f183	21	* svr.addHandler<SimpleHandler>("/"); //Default handler
dirkx	0:1a198985f183	22	* svr.bind(80); * *
dirkx	0:1a198985f183	23
dirkx	0:1a198985f183	24	* // Extract the IP address.
dirkx	0:1a198985f183	25	* IpAddr ip = eth.getIp();
dirkx	0:1a198985f183	26	* printf("mbed IP Address is %d.%d.%d.%d\r\n", ip[0], ip[1], ip[2], ip[3]);
dirkx	0:1a198985f183	27	*
dirkx	0:1a198985f183	28	* // Announce ourselves.
dirkx	0:1a198985f183	29	* mdns.announce(ip, "fred", "_http._tcp", 80, "The Little Server that Could", "path=/demo");
dirkx	0:1a198985f183	30	*
dirkx	0:1a198985f183	31	* while()... enter some run loop
dirkx	0:1a198985f183	32	* ...
dirkx	0:1a198985f183	33	*
dirkx	0:1a198985f183	34	* This will cause http://fred.local./demo to be announced as 'The Little Server that Could'.
dirkx	0:1a198985f183	35	*
dirkx	0:1a198985f183	36	* Or as another example: (http://files.dns-sd.org/draft-cheshire-dnsext-dns-sd.txt)
dirkx	0:1a198985f183	37	* and the various RFCs:
dirkx	0:1a198985f183	38	*
dirkx	0:1a198985f183	39	* mdns.announce(ip, "_ssh._tcp", 22, SSH to Serial Gateway", NULL);
dirkx	0:1a198985f183	40	*
dirkx	0:1a198985f183	41	* CAVEAT - a lot of the buffer overrun and copy checks
dirkx	0:1a198985f183	42	* where removed; and this is not anywhere near
dirkx	0:1a198985f183	43	* threadsafve or sane. Not for production use.
dirkx	0:1a198985f183	44	*/
dirkx	0:1a198985f183	45	#include "lwip/opt.h"
dirkx	0:1a198985f183	46	#if LWIP_DNS /* don't build if not configured for use in lwipopts.h */
dirkx	0:1a198985f183	47
dirkx	0:1a198985f183	48	#include "dbg/dbg.h"
dirkx	0:1a198985f183	49
dirkx	0:1a198985f183	50	#include "mDNSResponder.h"
dirkx	0:1a198985f183	51	#include <stdio.h>
dirkx	0:1a198985f183	52
dirkx	0:1a198985f183	53	#ifndef DNS_RRTYPE_SRV
dirkx	0:1a198985f183	54	#define DNS_RRTYPE_SRV (33)
dirkx	0:1a198985f183	55	#endif
dirkx	0:1a198985f183	56
dirkx	0:1a198985f183	57	#ifndef DNS_LOCAL
dirkx	0:1a198985f183	58	#define DNS_LOCAL "local"
dirkx	0:1a198985f183	59	#endif
dirkx	0:1a198985f183	60
dirkx	0:1a198985f183	61	mDNSResponder::mDNSResponder() : NetService(false),
dirkx	0:1a198985f183	62	moi_txt(NULL), moi_port(0), moi_ip(0),
dirkx	0:1a198985f183	63	moi_name(NULL), moi_proto(NULL),
dirkx	0:1a198985f183	64	moi_local_proto(NULL), moi_local_name(NULL), moi_local_pglue(NULL),
dirkx	0:1a198985f183	65	#ifdef MDNS_QCACHE
dirkx	0:1a198985f183	66	labelCacheCnt(0), labelCacheOffset(0),
dirkx	0:1a198985f183	67	#endif
dirkx	0:1a198985f183	68	announcer()
dirkx	0:1a198985f183	69	{
dirkx	0:1a198985f183	70	initLabelCache(0);
dirkx	0:1a198985f183	71	}
dirkx	0:1a198985f183	72
dirkx	0:1a198985f183	73	mDNSResponder::~mDNSResponder() {
dirkx	0:1a198985f183	74	announcer.stop();
dirkx	0:1a198985f183	75	close();
dirkx	0:1a198985f183	76	}
dirkx	0:1a198985f183	77
dirkx	0:1a198985f183	78	void mDNSResponder::announce(IpAddr ip, const char * ldn, const char * proto, uint16_t port, const char * name, char ** txt) {
dirkx	0:1a198985f183	79	Host localhost(IpAddr(MCAST), MDNS_PORT, NULL /* fqdn */);
dirkx	0:1a198985f183	80
dirkx	0:1a198985f183	81	m_pUDPSocket = new UDPSocket;
dirkx	0:1a198985f183	82	m_pUDPSocket->bind(localhost);
dirkx	0:1a198985f183	83
dirkx	0:1a198985f183	84	m_pUDPSocket->setOnEvent(this, &mDNSResponder::onUDPSocketEvent);
dirkx	0:1a198985f183	85
dirkx	0:1a198985f183	86	moi_port = port;
dirkx	0:1a198985f183	87	moi_txt = txt;
dirkx	0:1a198985f183	88	moi_ip = ip;
dirkx	0:1a198985f183	89	moi_proto = proto;
dirkx	0:1a198985f183	90	moi_name = name;
dirkx	0:1a198985f183	91
dirkx	0:1a198985f183	92	moi_local_proto = (char *)malloc(128);
dirkx	0:1a198985f183	93	moi_local_name = (char *)malloc(128);
dirkx	0:1a198985f183	94	moi_local_pglue = (char *)malloc(128);
dirkx	0:1a198985f183	95
dirkx	0:1a198985f183	96	snprintf(moi_local_proto,128,"%s.%s.", moi_proto, DNS_LOCAL);
dirkx	0:1a198985f183	97	snprintf(moi_local_name,128,"%s.%s.", ldn, DNS_LOCAL);
dirkx	0:1a198985f183	98	snprintf(moi_local_pglue,128,"%s.%s.%s.", moi_name,moi_proto, DNS_LOCAL);
dirkx	0:1a198985f183	99
dirkx	0:1a198985f183	100	// Gratuis intro - and repeat such regularly.. taking some
dirkx	0:1a198985f183	101	// care to not go beyond DHCP limits - but not more often
dirkx	0:1a198985f183	102	// than makes sense for our TTL. See the .h file for the
dirkx	0:1a198985f183	103	// various tradeoffs.
dirkx	0:1a198985f183	104	//
dirkx	0:1a198985f183	105	mDNSResponder::sendReply(DNS_RRTYPE_PTR, 0, localhost);
dirkx	0:1a198985f183	106	announcer.start();
dirkx	0:1a198985f183	107	}
dirkx	0:1a198985f183	108
dirkx	0:1a198985f183	109	void mDNSResponder::close() {
dirkx	0:1a198985f183	110	m_pUDPSocket->resetOnEvent();
dirkx	0:1a198985f183	111	m_pUDPSocket->close();
dirkx	0:1a198985f183	112	delete m_pUDPSocket;
dirkx	0:1a198985f183	113	}
dirkx	0:1a198985f183	114
dirkx	0:1a198985f183	115	void mDNSResponder::poll() { //Called by NetServices
dirkx	0:1a198985f183	116	if (announcer.read_ms() > 1000 * MDNS_INTERVAL) {
dirkx	0:1a198985f183	117
dirkx	0:1a198985f183	118	Host mch(IpAddr(MCAST), MDNS_PORT, NULL);
dirkx	0:1a198985f183	119	mDNSResponder::sendReply(DNS_RRTYPE_PTR, 0, mch);
dirkx	0:1a198985f183	120
dirkx	0:1a198985f183	121	announcer.reset();
dirkx	0:1a198985f183	122	}
dirkx	0:1a198985f183	123	}
dirkx	0:1a198985f183	124
dirkx	0:1a198985f183	125	char * index(char * str, char c) {
dirkx	0:1a198985f183	126	for (;str && *str;str++) {
dirkx	0:1a198985f183	127	if (*str == c) return str;
dirkx	0:1a198985f183	128	};
dirkx	0:1a198985f183	129	return NULL;
dirkx	0:1a198985f183	130	}
dirkx	0:1a198985f183	131
dirkx	0:1a198985f183	132	#ifdef MDNS_QCACHE
dirkx	0:1a198985f183	133	void mDNSResponder::initLabelCache(char * off) {
dirkx	0:1a198985f183	134	labelCacheOffset = off;
dirkx	0:1a198985f183	135	labelCacheCnt = 0;
dirkx	0:1a198985f183	136	memset(_cache_off,0, sizeof(_cache_off)); // Rely on min value to be 12
dirkx	0:1a198985f183	137	};
dirkx	0:1a198985f183	138
dirkx	0:1a198985f183	139	uint16_t mDNSResponder::checkLabelCache(char * name) {
dirkx	0:1a198985f183	140	// Bail out if not initialized with a valid (>12) offset.
dirkx	0:1a198985f183	141	//
dirkx	0:1a198985f183	142	if (!labelCacheOffset)
dirkx	0:1a198985f183	143	return 0;
dirkx	0:1a198985f183	144
dirkx	0:1a198985f183	145	for (int i=0; i < MDNS_MAXCACHEDNSLABELS; i++)
dirkx	0:1a198985f183	146	if (_cache_off[i] && !strcmp(_cache_och[i],name))
dirkx	0:1a198985f183	147	return _cache_off[i];
dirkx	0:1a198985f183	148	return 0;
dirkx	0:1a198985f183	149	};
dirkx	0:1a198985f183	150
dirkx	0:1a198985f183	151	void mDNSResponder::addLabelCache(char * p, char * name) {
dirkx	0:1a198985f183	152	// Bail out if not initialized with a valid (>12) offset.
dirkx	0:1a198985f183	153	//
dirkx	0:1a198985f183	154	if (!labelCacheOffset)
dirkx	0:1a198985f183	155	return;
dirkx	0:1a198985f183	156
dirkx	0:1a198985f183	157	_cache_off[labelCacheCnt] = p - labelCacheOffset;
dirkx	0:1a198985f183	158	_cache_och[labelCacheCnt] = name;
dirkx	0:1a198985f183	159
dirkx	0:1a198985f183	160	labelCacheCnt++;
dirkx	0:1a198985f183	161	// we intentionally do not wack the first entries - as they are the most
dirkx	0:1a198985f183	162	// likely ones to be used.
dirkx	0:1a198985f183	163	if (labelCacheCnt>= MDNS_MAXCACHEDNSLABELS)
dirkx	0:1a198985f183	164	labelCacheCnt = MDNS_MAXCACHEDNSLABELS / 3;
dirkx	0:1a198985f183	165	};
dirkx	0:1a198985f183	166	#else
dirkx	0:1a198985f183	167	#define initLabelCache(x) {} /* Ignored */
dirkx	0:1a198985f183	168	#define checkLabelCache(x) (0) /* never a hit */
dirkx	0:1a198985f183	169	#define addLabelCache(x,y) {} /* Ignored */
dirkx	0:1a198985f183	170	#endif
dirkx	0:1a198985f183	171
dirkx	0:1a198985f183	172	char * mDNSResponder::breakname(char p, char name) {
dirkx	0:1a198985f183	173	int l = 0, de = 1;
dirkx	0:1a198985f183	174	char * q;
dirkx	0:1a198985f183	175	uint16_t off;
dirkx	0:1a198985f183	176
dirkx	0:1a198985f183	177	do {
dirkx	0:1a198985f183	178	if ((off = checkLabelCache(name)) != 0) {
dirkx	0:1a198985f183	179	*p++ = 192 + (off >> 8);
dirkx	0:1a198985f183	180	*p++ = (off & 0xFF);
dirkx	0:1a198985f183	181	return p;
dirkx	0:1a198985f183	182	} else {
dirkx	0:1a198985f183	183	addLabelCache(p, name);
dirkx	0:1a198985f183	184	};
dirkx	0:1a198985f183	185
dirkx	0:1a198985f183	186	q = index(name,'.');
dirkx	0:1a198985f183	187	if (!q) {
dirkx	0:1a198985f183	188	q = name + strlen(name);
dirkx	0:1a198985f183	189	de = 0;
dirkx	0:1a198985f183	190	};
dirkx	0:1a198985f183	191	l = q - name;
dirkx	0:1a198985f183	192	*p++ = l;
dirkx	0:1a198985f183	193	memcpy(p, name, l);
dirkx	0:1a198985f183	194	p+=l;
dirkx	0:1a198985f183	195	name = q + 1;
dirkx	0:1a198985f183	196	} while (l && *name && de);
dirkx	0:1a198985f183	197
dirkx	0:1a198985f183	198	// terminating root field if any (not the case for
dirkx	0:1a198985f183	199	// things like TXTs).
dirkx	0:1a198985f183	200	if (de) *p++ = 0;
dirkx	0:1a198985f183	201	return p;
dirkx	0:1a198985f183	202	}
dirkx	0:1a198985f183	203
dirkx	0:1a198985f183	204	char * mDNSResponder::mRR(char p, char name, uint16_t tpe, uint16_t cls, uint32_t ttl) {
dirkx	0:1a198985f183	205	uint16_t i = 0;
dirkx	0:1a198985f183	206	uint32_t j = 0;
dirkx	0:1a198985f183	207
dirkx	0:1a198985f183	208	p = breakname(p, name);
dirkx	0:1a198985f183	209
dirkx	0:1a198985f183	210	// NOTE: Cannot assume proper byte boundaries; so
dirkx	0:1a198985f183	211	// we assume the compiler does not allow that for
dirkx	0:1a198985f183	212	// casts - and write it out with memcpy's
dirkx	0:1a198985f183	213	//
dirkx	0:1a198985f183	214	i = htons(tpe); // Type
dirkx	0:1a198985f183	215	memcpy(p, &i, 2);
dirkx	0:1a198985f183	216	p+=2;
dirkx	0:1a198985f183	217
dirkx	0:1a198985f183	218	i = htons(cls); // Class
dirkx	0:1a198985f183	219	memcpy(p, &i, 2);
dirkx	0:1a198985f183	220	p+=2;
dirkx	0:1a198985f183	221
dirkx	0:1a198985f183	222	j = htonl(ttl); // TTL (4 bytes)
dirkx	0:1a198985f183	223	memcpy(p, &j, 4);
dirkx	0:1a198985f183	224	p+=4;
dirkx	0:1a198985f183	225
dirkx	0:1a198985f183	226	return p;
dirkx	0:1a198985f183	227	}
dirkx	0:1a198985f183	228
dirkx	0:1a198985f183	229	char * mDNSResponder::mRRLABEL(char p, char name, uint16_t tpe, char ** rr) {
dirkx	0:1a198985f183	230	uint16_t i = 0;
dirkx	0:1a198985f183	231
dirkx	0:1a198985f183	232	p = mRR(p, name, tpe, DNS_RRCLASS_IN, MDNS_TTL); // Type, IN, TTL
dirkx	0:1a198985f183	233
dirkx	0:1a198985f183	234	// RR String
dirkx	0:1a198985f183	235	char * q = p + 2;
dirkx	0:1a198985f183	236
dirkx	0:1a198985f183	237	for (;*rr;rr++)
dirkx	0:1a198985f183	238	q = breakname(q, *rr);
dirkx	0:1a198985f183	239
dirkx	0:1a198985f183	240	i = htons(q - p - 2); // RDLEN
dirkx	0:1a198985f183	241	memcpy(p, &i, 2);
dirkx	0:1a198985f183	242	return q;
dirkx	0:1a198985f183	243	}
dirkx	0:1a198985f183	244
dirkx	0:1a198985f183	245	char * mDNSResponder::mPTR(char p, char name, char * r) {
dirkx	0:1a198985f183	246	char *rr[] = { r, NULL };
dirkx	0:1a198985f183	247	return mRRLABEL(p, name, DNS_RRTYPE_PTR, rr );
dirkx	0:1a198985f183	248	}
dirkx	0:1a198985f183	249
dirkx	0:1a198985f183	250	char * mDNSResponder::mTXT(char p, char name, char ** rr) {
dirkx	0:1a198985f183	251	return mRRLABEL(p, name, DNS_RRTYPE_TXT, rr);
dirkx	0:1a198985f183	252	}
dirkx	0:1a198985f183	253
dirkx	0:1a198985f183	254	char * mDNSResponder::mARR(char p, char name, IpAddr ip) {
dirkx	0:1a198985f183	255	uint16_t i = 0;
dirkx	0:1a198985f183	256
dirkx	0:1a198985f183	257	p = mRR(p, name, DNS_RRTYPE_A, DNS_RRCLASS_IN, MDNS_TTL ); // A, IN
dirkx	0:1a198985f183	258
dirkx	0:1a198985f183	259	i = htons(4); // RDLEN - we're just doing a single IPv4 address - our primary link ?
dirkx	0:1a198985f183	260	memcpy(p, &i, 2);
dirkx	0:1a198985f183	261
dirkx	0:1a198985f183	262	// IP already in network order.
dirkx	0:1a198985f183	263	memcpy(p+2, &ip, 4);
dirkx	0:1a198985f183	264
dirkx	0:1a198985f183	265	return p + 2 + 4;
dirkx	0:1a198985f183	266	}
dirkx	0:1a198985f183	267
dirkx	0:1a198985f183	268	char * mDNSResponder::mSRV(char p, char name, uint16_t port, char * rr) {
dirkx	0:1a198985f183	269	uint16_t i = 0;
dirkx	0:1a198985f183	270	char * q;
dirkx	0:1a198985f183	271
dirkx	0:1a198985f183	272	p = mRR(p, name, DNS_RRTYPE_SRV, DNS_RRCLASS_IN, MDNS_TTL); // SRV, IN
dirkx	0:1a198985f183	273
dirkx	0:1a198985f183	274	// Keep space for RDLEN
dirkx	0:1a198985f183	275	q = p;
dirkx	0:1a198985f183	276	p+=2;
dirkx	0:1a198985f183	277
dirkx	0:1a198985f183	278	i = htons(1); // Priority
dirkx	0:1a198985f183	279	memcpy(p, &i, 2);
dirkx	0:1a198985f183	280	p+=2;
dirkx	0:1a198985f183	281
dirkx	0:1a198985f183	282	i = htons(0); // Weight (see rfc2782)
dirkx	0:1a198985f183	283	memcpy(p, &i, 2);
dirkx	0:1a198985f183	284	p+=2;
dirkx	0:1a198985f183	285
dirkx	0:1a198985f183	286	i = htons(port); // Port
dirkx	0:1a198985f183	287	memcpy(p, &i, 2);
dirkx	0:1a198985f183	288	p+=2;
dirkx	0:1a198985f183	289
dirkx	0:1a198985f183	290	p = breakname(p, rr);
dirkx	0:1a198985f183	291
dirkx	0:1a198985f183	292	i = htons(p - q - 2); // RDLEN
dirkx	0:1a198985f183	293	memcpy(q, &i, 2);
dirkx	0:1a198985f183	294
dirkx	0:1a198985f183	295	return p;
dirkx	0:1a198985f183	296	}
dirkx	0:1a198985f183	297
dirkx	0:1a198985f183	298	char * mDNSResponder::qANY(char p, char name, uint16_t tpe, uint16_t cls) {
dirkx	0:1a198985f183	299	uint16_t i = 0;
dirkx	0:1a198985f183	300	p = breakname(p, name); // QNAME
dirkx	0:1a198985f183	301
dirkx	0:1a198985f183	302	i = htons(tpe); // QTYPE
dirkx	0:1a198985f183	303	memcpy(p, &i, 2);
dirkx	0:1a198985f183	304	p+=2;
dirkx	0:1a198985f183	305
dirkx	0:1a198985f183	306	i = htons(cls); // QCLASS
dirkx	0:1a198985f183	307	memcpy(p, &i, 2);
dirkx	0:1a198985f183	308	p+=2;
dirkx	0:1a198985f183	309
dirkx	0:1a198985f183	310	return p;
dirkx	0:1a198985f183	311	}
dirkx	0:1a198985f183	312
dirkx	0:1a198985f183	313	char * mDNSResponder::qPTR(char p, char name) {
dirkx	0:1a198985f183	314	return qANY(p,name,DNS_RRTYPE_PTR,DNS_RRCLASS_IN);
dirkx	0:1a198985f183	315	}
dirkx	0:1a198985f183	316
dirkx	0:1a198985f183	317	char * mDNSResponder::qA(char p, char name) {
dirkx	0:1a198985f183	318	return qANY(p,name,DNS_RRTYPE_A,DNS_RRCLASS_IN);
dirkx	0:1a198985f183	319	}
dirkx	0:1a198985f183	320
dirkx	0:1a198985f183	321	char * mDNSResponder::qSRV(char p, char name) {
dirkx	0:1a198985f183	322	return qANY(p,name,DNS_RRTYPE_SRV,DNS_RRCLASS_IN);
dirkx	0:1a198985f183	323	}
dirkx	0:1a198985f183	324
dirkx	0:1a198985f183	325	void mDNSResponder::mDNSResponder::sendReply(uint16_t t, uint16_t tid, Host dst) {
dirkx	0:1a198985f183	326	// sent a reply - basically a precooked A/PTR/SRV with the TransactionID
dirkx	0:1a198985f183	327	// and my URI squeezed in.
dirkx	0:1a198985f183	328	char out[ 1500 ], *p;
dirkx	0:1a198985f183	329	DNSPacket * op = (DNSPacket *) out;
dirkx	0:1a198985f183	330
dirkx	0:1a198985f183	331	initLabelCache(out); // Offsets are relative to the ID header.
dirkx	0:1a198985f183	332
dirkx	0:1a198985f183	333	op->tid = ntohs(tid);
dirkx	0:1a198985f183	334	op->flags = ntohs(0x8000U); // Answer
dirkx	0:1a198985f183	335	op->question_count = ntohs(1); // Courtesy copy of the question.
dirkx	0:1a198985f183	336	op->answer_count = ntohs(1); // The record asked for
dirkx	0:1a198985f183	337	op->a_count = ntohs(0);
dirkx	0:1a198985f183	338	p = out + 12;
dirkx	0:1a198985f183	339
dirkx	0:1a198985f183	340	switch (t) {
dirkx	0:1a198985f183	341	case DNS_RRTYPE_PTR: // PTR record, SRV, optional TXT and A with my own address.
dirkx	0:1a198985f183	342	op->aa_count = ntohs(moi_txt ? 3 : 2);
dirkx	0:1a198985f183	343	p = qPTR(p,moi_local_proto);
dirkx	0:1a198985f183	344
dirkx	0:1a198985f183	345	p = mPTR(p,moi_local_proto, moi_local_pglue);
dirkx	1:bb6472f455e8	346	p = mSRV(p,moi_local_pglue, moi_port, moi_local_name);
dirkx	1:bb6472f455e8	347
dirkx	0:1a198985f183	348	if (moi_txt && * moi_txt)
dirkx	0:1a198985f183	349	p = mTXT(p,moi_local_pglue,moi_txt);
dirkx	0:1a198985f183	350
dirkx	0:1a198985f183	351	break;
dirkx	0:1a198985f183	352	case DNS_RRTYPE_A: // A record (and nothing else)
dirkx	0:1a198985f183	353	op->aa_count = ntohs(1);
dirkx	0:1a198985f183	354	p = qA(p,moi_local_name);
dirkx	0:1a198985f183	355	break;
dirkx	0:1a198985f183	356
dirkx	1:bb6472f455e8	357	case DNS_RRTYPE_SRV: // SRV record, optional TXT and a gratious A record to complete.
dirkx	0:1a198985f183	358	op->aa_count = ntohs(moi_txt ? 2 : 1);
dirkx	0:1a198985f183	359	p = qSRV(p,moi_local_pglue);
dirkx	0:1a198985f183	360
dirkx	1:bb6472f455e8	361	p = mSRV(p,moi_local_pglue, moi_port, moi_local_name);
dirkx	0:1a198985f183	362	if (moi_txt && * moi_txt)
dirkx	0:1a198985f183	363	p = mTXT(p,moi_local_pglue,moi_txt);
dirkx	1:bb6472f455e8	364	break;
dirkx	0:1a198985f183	365	}
dirkx	0:1a198985f183	366	p = mARR(p,moi_local_name,moi_ip);
dirkx	0:1a198985f183	367	m_pUDPSocket->sendto(out,p-out,&dst);
dirkx	0:1a198985f183	368	}
dirkx	0:1a198985f183	369
dirkx	0:1a198985f183	370	char * mDNSResponder::decodeQBlock(char * udp, int len, char p, char fqdn, int fqdn_size, uint32_t Qclass, uint32_t Qtype) {
dirkx	0:1a198985f183	371	char * endp = udp + len;
dirkx	0:1a198985f183	372	int depth = 0;
dirkx	0:1a198985f183	373	int l, ll = 0;
dirkx	0:1a198985f183	374	char * q = 0;
dirkx	0:1a198985f183	375	char * ep = fqdn;
dirkx	0:1a198985f183	376
dirkx	0:1a198985f183	377	do {
dirkx	0:1a198985f183	378	while (((l = *p++) < 192) && (l > 0)) {
dirkx	0:1a198985f183	379	if (p + l >= endp) {
dirkx	0:1a198985f183	380	DBG("Malformed packet or bug, RR field larger than packet itself\n\r");
dirkx	0:1a198985f183	381	return NULL;
dirkx	0:1a198985f183	382	};
dirkx	0:1a198985f183	383
dirkx	0:1a198985f183	384	if (ll + l + 1 > fqdn_size) {
dirkx	0:1a198985f183	385	DBG("Malformed packet or bug, FQDN exceeds %d bytes\n\r", fqdn_size);
dirkx	0:1a198985f183	386	return NULL;
dirkx	0:1a198985f183	387	}
dirkx	0:1a198985f183	388
dirkx	0:1a198985f183	389	memcpy(ep,p,l);
dirkx	0:1a198985f183	390	ep[l]='.';
dirkx	0:1a198985f183	391	ep += l + 1;
dirkx	0:1a198985f183	392	p += l;
dirkx	0:1a198985f183	393	ll += l + 1;
dirkx	0:1a198985f183	394	};
dirkx	0:1a198985f183	395
dirkx	0:1a198985f183	396	if (l >= 192) {
dirkx	0:1a198985f183	397	// construct an offset pointer by wiping the top 1 bits
dirkx	0:1a198985f183	398	// and then getting the remaining 8 bytes to make 14.
dirkx	0:1a198985f183	399	l -= 192;
dirkx	0:1a198985f183	400	l = l << 8;
dirkx	0:1a198985f183	401	l += *p++;
dirkx	0:1a198985f183	402
dirkx	0:1a198985f183	403	// rescue our reference; as we've not gotten the Qt's yet
dirkx	0:1a198985f183	404	// and these follow the last entry in our record (and not
dirkx	0:1a198985f183	405	// that from the compressed values.
dirkx	0:1a198985f183	406	//
dirkx	0:1a198985f183	407	if (!q) q = p;
dirkx	0:1a198985f183	408
dirkx	0:1a198985f183	409	// printf(" [->%d] ",l);
dirkx	0:1a198985f183	410	p = udp + l;
dirkx	0:1a198985f183	411
dirkx	0:1a198985f183	412	if (p >= udp + len \|\| p < udp + 12) {
dirkx	0:1a198985f183	413	DBG("Malformed packet or bug, pointer outside UDP packet\n\r");
dirkx	0:1a198985f183	414	return NULL;
dirkx	0:1a198985f183	415	};
dirkx	0:1a198985f183	416	};
dirkx	0:1a198985f183	417
dirkx	0:1a198985f183	418	if (depth++ >= 128) {
dirkx	0:1a198985f183	419	DBG("Malformed packet or bug, depth too high\n\r");
dirkx	0:1a198985f183	420	return NULL;
dirkx	0:1a198985f183	421	};
dirkx	0:1a198985f183	422	} while (l);
dirkx	0:1a198985f183	423
dirkx	0:1a198985f183	424	// Terminate the FQDN string.
dirkx	0:1a198985f183	425	*ep = 0;
dirkx	0:1a198985f183	426
dirkx	0:1a198985f183	427	// in case no compression was used at all.
dirkx	0:1a198985f183	428	if (!q)
dirkx	0:1a198985f183	429	q = p;
dirkx	0:1a198985f183	430
dirkx	0:1a198985f183	431	Qtype = htons(q[0] + q[1]256);
dirkx	0:1a198985f183	432	Qclass = htons(q[2] + q[3]256);
dirkx	0:1a198985f183	433	return p;
dirkx	0:1a198985f183	434	}
dirkx	0:1a198985f183	435
dirkx	0:1a198985f183	436	void mDNSResponder::onUDPSocketEvent(UDPSocketEvent e) {
dirkx	0:1a198985f183	437	char udp[ 1500 ];
dirkx	0:1a198985f183	438	Host from;
dirkx	0:1a198985f183	439	int len;
dirkx	0:1a198985f183	440
dirkx	0:1a198985f183	441	//The only event for now
dirkx	0:1a198985f183	442	if (e != UDPSOCKET_READABLE)
dirkx	0:1a198985f183	443	return;
dirkx	0:1a198985f183	444
dirkx	0:1a198985f183	445	// parse through the packet; find any PTR requests
dirkx	0:1a198985f183	446	// and respond to any for _http._tcp._local.
dirkx	0:1a198985f183	447	//
dirkx	0:1a198985f183	448	while ((len = m_pUDPSocket->recvfrom( (char*)&udp, sizeof(udp), &from )) != 0) {
dirkx	0:1a198985f183	449	DNSPacket * dp = (DNSPacket *) udp;
dirkx	0:1a198985f183	450
dirkx	0:1a198985f183	451	unsigned int tid = ntohs(dp->tid);
dirkx	0:1a198985f183	452	unsigned int flags = ntohs(dp->flags);
dirkx	0:1a198985f183	453	unsigned int nQ = ntohs(dp->question_count);
dirkx	0:1a198985f183	454
dirkx	0:1a198985f183	455	if (flags & 2 != 0 \|\| nQ < 1)
dirkx	0:1a198985f183	456	continue; // we only want questions
dirkx	0:1a198985f183	457
dirkx	0:1a198985f183	458	// assume nQ NON terminated fields followed by Qtype & Qclass
dirkx	0:1a198985f183	459	//
dirkx	0:1a198985f183	460	char * p = udp + 12;
dirkx	0:1a198985f183	461	for (int i = 0; i < nQ; i++) {
dirkx	0:1a198985f183	462	char fqdn[ 256 ];
dirkx	0:1a198985f183	463	uint32_t Qt, Qc;
dirkx	0:1a198985f183	464
dirkx	0:1a198985f183	465	if ( (p = decodeQBlock(udp,len,p,fqdn,sizeof(fqdn),&Qc, &Qt)) == 0)
dirkx	0:1a198985f183	466	return;
dirkx	0:1a198985f183	467
dirkx	0:1a198985f183	468	// We only deal with INternet.
dirkx	0:1a198985f183	469	//
dirkx	0:1a198985f183	470	if (Qc != DNS_RRCLASS_IN)
dirkx	0:1a198985f183	471	continue;
dirkx	0:1a198985f183	472
dirkx	1:bb6472f455e8	473	DBG("IN query 0x%x for %s\n\r", Qt, fqdn);
dirkx	0:1a198985f183	474
dirkx	0:1a198985f183	475	// Normally we'll respond to a mCast query for the PTR of our conceptual
dirkx	0:1a198985f183	476	// service; to which we reply with the services we run; and then the A
dirkx	0:1a198985f183	477	// records for our actual endpoint. However if one of the requistors their
dirkx	0:1a198985f183	478	// cashing is not up to scratch - we may (also) get hit up a bit later for
dirkx	0:1a198985f183	479	// the secondary records under their logical names. So we respond to
dirkx	0:1a198985f183	480	// all 3. As this is likely to happen due to resource constraints on the
dirkx	0:1a198985f183	481	// side of the requestor; we are careful and reply as 'narrow' as possible.
dirkx	0:1a198985f183	482	//
dirkx	0:1a198985f183	483	// Note that we also respond to the ANY query - as to make a quick 'dig'
dirkx	0:1a198985f183	484	// testing command easier.
dirkx	0:1a198985f183	485	//
dirkx	0:1a198985f183	486	if ((Qt == DNS_RRTYPE_PTR \|\| Qt == 255) && !(strcmp(fqdn,moi_local_proto)))
dirkx	0:1a198985f183	487	sendReply(DNS_RRTYPE_PTR,tid,from);
dirkx	0:1a198985f183	488	else if ((Qt == DNS_RRTYPE_A \|\| Qt == 255) && !(strcmp(fqdn,moi_local_name)))
dirkx	0:1a198985f183	489	sendReply(DNS_RRTYPE_A,tid,from);
dirkx	0:1a198985f183	490	else if ((Qt == DNS_RRTYPE_SRV \|\| Qt == 255) && !(strcmp(fqdn,moi_local_pglue)))
dirkx	0:1a198985f183	491	sendReply(DNS_RRTYPE_SRV,tid,from);
dirkx	0:1a198985f183	492	else
dirkx	0:1a198985f183	493	DBG(".. which was ignored\n\r", Qt, fqdn);
dirkx	0:1a198985f183	494
dirkx	0:1a198985f183	495	};
dirkx	0:1a198985f183	496	}
dirkx	0:1a198985f183	497	}
dirkx	0:1a198985f183	498	#endif

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Type:	Library
Created:	30 May 2014
Imports:	0
Forks:	0
Commits:	4
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services/mDNS/mDNSResponder.cpp@1:bb6472f455e8, 2010-08-14 (annotated)

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