/** * @file * DNS - host name to IP address resolver. * */ /** * This file implements a DNS host name to IP address resolver. * Port to lwIP from uIP * by Jim Pettinato April 2007 * uIP version Copyright (c) 2002-2003, Adam Dunkels. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. The name of the author may not be used to endorse or promote * products derived from this software without specific prior * written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE * GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * * DNS.C * * The lwIP DNS resolver functions are used to lookup a host name and * map it to a numerical IP address. It maintains a list of resolved * hostnames that can be queried with the dns_lookup() function. * New hostnames can be resolved using the dns_query() function. * * The lwIP version of the resolver also adds a non-blocking version of * gethostbyname() that will work with a raw API application. This function * checks for an IP address string first and converts it if it is valid. * gethostbyname() then does a dns_lookup() to see if the name is * already in the table. If so, the IP is returned. If not, a query is * issued and the function returns with a ERR_INPROGRESS status. The app * using the dns client must then go into a waiting state. * * Once a hostname has been resolved (or found to be non-existent), * the resolver code calls a specified callback function (which * must be implemented by the module that uses the resolver). */ /*----------------------------------------------------------------------------- * RFC 1035 - Domain names - implementation and specification * RFC 2181 - Clarifications to the DNS Specification *----------------------------------------------------------------------------*/ /** @todo: define good default values (rfc compliance) */ /** @todo: improve answer parsing, more checkings... */ /** @todo: check RFC1035 - 7.3. Processing responses */ /*----------------------------------------------------------------------------- * Includes *----------------------------------------------------------------------------*/ #include "lwip/opt.h" #if LWIP_DNS /* don't build if not configured for use in lwipopts.h */ #include "lwip/udp.h" #include "lwip/mem.h" #include "lwip/dns.h" #include /** DNS server IP address */ #ifndef DNS_SERVER_ADDRESS #define DNS_SERVER_ADDRESS inet_addr("208.67.222.222") /* resolver1.opendns.com */ #endif /** DNS server port address */ #ifndef DNS_SERVER_PORT #define DNS_SERVER_PORT 53 #endif /** DNS maximum number of retries when asking for a name, before "timeout". */ #ifndef DNS_MAX_RETRIES #define DNS_MAX_RETRIES 4 #endif /** DNS resource record max. TTL (one week as default) */ #ifndef DNS_MAX_TTL #define DNS_MAX_TTL 604800 #endif /* DNS protocol flags */ #define DNS_FLAG1_RESPONSE 0x80 #define DNS_FLAG1_OPCODE_STATUS 0x10 #define DNS_FLAG1_OPCODE_INVERSE 0x08 #define DNS_FLAG1_OPCODE_STANDARD 0x00 #define DNS_FLAG1_AUTHORATIVE 0x04 #define DNS_FLAG1_TRUNC 0x02 #define DNS_FLAG1_RD 0x01 #define DNS_FLAG2_RA 0x80 #define DNS_FLAG2_ERR_MASK 0x0f #define DNS_FLAG2_ERR_NONE 0x00 #define DNS_FLAG2_ERR_NAME 0x03 /* DNS protocol states */ #define DNS_STATE_UNUSED 0 #define DNS_STATE_NEW 1 #define DNS_STATE_ASKING 2 #define DNS_STATE_DONE 3 #ifdef PACK_STRUCT_USE_INCLUDES # include "arch/bpstruct.h" #endif PACK_STRUCT_BEGIN /** DNS message header */ struct dns_hdr { u16_t id; u8_t flags1; u8_t flags2; u16_t numquestions; u16_t numanswers; u16_t numauthrr; u16_t numextrarr; } PACK_STRUCT_STRUCT; PACK_STRUCT_END #ifdef PACK_STRUCT_USE_INCLUDES # include "arch/epstruct.h" #endif #ifdef PACK_STRUCT_USE_INCLUDES # include "arch/bpstruct.h" #endif PACK_STRUCT_BEGIN /** DNS query message structure */ struct dns_query { /* DNS query record starts with either a domain name or a pointer to a name already present somewhere in the packet. */ u16_t type; u16_t class; } PACK_STRUCT_STRUCT; PACK_STRUCT_END #ifdef PACK_STRUCT_USE_INCLUDES # include "arch/epstruct.h" #endif #ifdef PACK_STRUCT_USE_INCLUDES # include "arch/bpstruct.h" #endif PACK_STRUCT_BEGIN /** DNS answer message structure */ struct dns_answer { /* DNS answer record starts with either a domain name or a pointer to a name already present somewhere in the packet. */ u16_t type; u16_t class; u32_t ttl; u16_t len; } PACK_STRUCT_STRUCT; PACK_STRUCT_END #ifdef PACK_STRUCT_USE_INCLUDES # include "arch/epstruct.h" #endif /** DNS table entry */ struct dns_table_entry { u8_t state; u8_t numdns; u8_t tmr; u8_t retries; u8_t seqno; u8_t err; u32_t ttl; char name[DNS_MAX_NAME_LENGTH]; struct ip_addr ipaddr; /* pointer to callback on DNS query done */ dns_found_callback found; void *arg; }; /* forward declarations */ static void dns_recv(void *s, struct udp_pcb *pcb, struct pbuf *p, struct ip_addr *addr, u16_t port); static void dns_check_entries(void); /*----------------------------------------------------------------------------- * Globales *----------------------------------------------------------------------------*/ /* DNS variables */ static struct udp_pcb *dns_pcb; static u8_t dns_seqno; static struct dns_table_entry dns_table[DNS_TABLE_SIZE]; static struct ip_addr dns_servers[DNS_MAX_SERVERS]; #if (DNS_USES_STATIC_BUF == 1) static u8_t dns_payload[DNS_MSG_SIZE]; #endif /* (DNS_USES_STATIC_BUF == 1) */ /** * Initialize the resolver: set up the UDP pcb and configure the default server * (DNS_SERVER_ADDRESS). */ void dns_init() { struct ip_addr dnsserver; /* initialize default DNS server address */ dnsserver.addr = DNS_SERVER_ADDRESS; LWIP_DEBUGF(DNS_DEBUG, ("dns_init: initializing\n")); /* if dns client not yet initialized... */ if (dns_pcb == NULL) { dns_pcb = udp_new(); if (dns_pcb != NULL) { /* initialize DNS table not needed (initialized to zero since it is a * global variable) */ LWIP_ASSERT("For implicit initialization to work, DNS_STATE_UNUSED needs to be 0", DNS_STATE_UNUSED == 0); /* initialize DNS client */ udp_bind(dns_pcb, IP_ADDR_ANY, 0); udp_recv(dns_pcb, dns_recv, NULL); /* initialize default DNS primary server */ dns_setserver(0, &dnsserver); } } } /** * Initialize one of the DNS servers. * * @param numdns the index of the DNS server to set must be < DNS_MAX_SERVERS * @param dnsserver IP address of the DNS server to set */ void dns_setserver(u8_t numdns, struct ip_addr *dnsserver) { if ((numdns < DNS_MAX_SERVERS) && (dns_pcb != NULL) && (dnsserver != NULL) && (dnsserver->addr !=0 )) { dns_servers[numdns] = (*dnsserver); } } /** * Obtain one of the currently configured DNS server. * * @param numdns the index of the DNS server * @return IP address of the indexed DNS server or "ip_addr_any" if the DNS * server has not been configured. */ struct ip_addr dns_getserver(u8_t numdns) { if (numdns < DNS_MAX_SERVERS) { return dns_servers[numdns]; } else { return *IP_ADDR_ANY; } } /** * The DNS resolver client timer - handle retries and timeouts and should * be called every DNS_TMR_INTERVAL milliseconds (every second by default). */ void dns_tmr(void) { if (dns_pcb != NULL) { LWIP_DEBUGF(DNS_DEBUG, ("dns_tmr: dns_check_entries\n")); dns_check_entries(); } } /** * Look up a hostname in the array of known hostnames. * * @note This function only looks in the internal array of known * hostnames, it does not send out a query for the hostname if none * was found. The function dns_enqueue() can be used to send a query * for a hostname. * * @param name the hostname to look up * @return the hostname's IP address, as u32_t (instead of struct ip_addr to * better check for failure: != 0) or 0 if the hostname was not found * in the cached dns_table. */ static u32_t dns_lookup(const char *name) { u8_t i; /* Walk through name list, return entry if found. If not, return NULL. */ for (i = 0; i < DNS_TABLE_SIZE; ++i) { if ((dns_table[i].state == DNS_STATE_DONE) && (strcmp(name, dns_table[i].name) == 0)) { LWIP_DEBUGF(DNS_DEBUG, ("dns_lookup: \"%s\": found = ", name)); ip_addr_debug_print(DNS_DEBUG, &(dns_table[i].ipaddr)); LWIP_DEBUGF(DNS_DEBUG, ("\n")); return dns_table[i].ipaddr.addr; } } return 0; } #if DNS_DOES_NAME_CHECK /** * Compare the "dotted" name "query" with the encoded name "response" * to make sure an answer from the DNS server matches the current dns_table * entry (otherwise, answers might arrive late for hostname not on the list * any more). * * @param query hostname (not encoded) from the dns_table * @param response encoded hostname in the DNS response * @return 0: names equal; 1: names differ */ static u8_t dns_compare_name(unsigned char *query, unsigned char *response) { unsigned char n; do { n = *response++; /** @see RFC 1035 - 4.1.4. Message compression */ if ((n & 0xc0) == 0xc0) { /* Compressed name */ break; } else { /* Not compressed name */ while (n > 0) { if ((*query) != (*response)) { return 1; } ++response; ++query; --n; }; ++query; } } while (*response != 0); return 0; } #endif /* DNS_DOES_NAME_CHECK */ /** * Walk through a compact encoded DNS name and return the end of the name. * * @param query encoded DNS name in the DNS server response * @return end of the name */ static unsigned char * dns_parse_name(unsigned char *query) { unsigned char n; do { n = *query++; /** @see RFC 1035 - 4.1.4. Message compression */ if ((n & 0xc0) == 0xc0) { /* Compressed name */ break; } else { /* Not compressed name */ while (n > 0) { ++query; --n; }; } } while (*query != 0); return query + 1; } /** * Send a DNS query packet. * * @param numdns index of the DNS server in the dns_servers table * @param name hostname to query * @param id index of the hostname in dns_table, used as transaction ID in the * DNS query packet * @return ERR_OK if packet is sent; an err_t indicating the problem otherwise */ static err_t dns_send(u8_t numdns, const char* name, u8_t id) { err_t err; struct dns_hdr *hdr; struct dns_query *qry; struct pbuf *p; char *query, *nptr; const char *pHostname; u8_t n; LWIP_DEBUGF(DNS_DEBUG, ("dns_send: dns_servers[%"U16_F"] \"%s\": request\n", (u16_t)(numdns), name)); LWIP_ASSERT("dns server out of array", numdns < DNS_MAX_SERVERS); LWIP_ASSERT("dns server has no IP address set", dns_servers[numdns].addr != 0); /* if here, we have either a new query or a retry on a previous query to process */ p = pbuf_alloc(PBUF_TRANSPORT, sizeof(struct dns_hdr) + DNS_MAX_NAME_LENGTH + sizeof(struct dns_query), PBUF_RAM); if (p != NULL) { LWIP_ASSERT("pbuf must be in one piece", p->next == NULL); /* fill dns header */ hdr = (struct dns_hdr*)p->payload; memset(hdr, 0, sizeof(struct dns_hdr)); hdr->id = htons(id); hdr->flags1 = DNS_FLAG1_RD; hdr->numquestions = htons(1); query = (char*)hdr + sizeof(struct dns_hdr); pHostname = name; --pHostname; /* convert hostname into suitable query format. */ do { ++pHostname; nptr = query; ++query; for(n = 0; *pHostname != '.' && *pHostname != 0; ++pHostname) { *query = *pHostname; ++query; ++n; } *nptr = n; } while(*pHostname != 0); *query++='\0'; /* fill dns query */ qry = (struct dns_query *)query; qry->type = htons(DNS_RRTYPE_A); qry->class = htons(DNS_RRCLASS_IN); /* resize pbuf to the exact dns query */ pbuf_realloc(p, (query + sizeof(struct dns_query)) - ((char*)(p->payload))); /* connect to the server for faster receiving */ udp_connect(dns_pcb, &dns_servers[numdns], DNS_SERVER_PORT); /* send dns packet */ err = udp_sendto(dns_pcb, p, &dns_servers[numdns], DNS_SERVER_PORT); /* free pbuf */ pbuf_free(p); } else { err = ERR_MEM; } return err; } /** * dns_check_entry() - see if pEntry has not yet been queried and, if so, sends out a query. * Check an entry in the dns_table: * - send out query for new entries * - retry old pending entries on timeout (also with different servers) * - remove completed entries from the table if their TTL has expired * * @param i index of the dns_table entry to check */ static void dns_check_entry(u8_t i) { struct dns_table_entry *pEntry = &dns_table[i]; LWIP_ASSERT("array index out of bounds", i < DNS_TABLE_SIZE); switch(pEntry->state) { case DNS_STATE_NEW: { /* initialize new entry */ pEntry->state = DNS_STATE_ASKING; pEntry->numdns = 0; pEntry->tmr = 1; pEntry->retries = 0; /* send DNS packet for this entry */ dns_send(pEntry->numdns, pEntry->name, i); break; } case DNS_STATE_ASKING: { if (--pEntry->tmr == 0) { if (++pEntry->retries == DNS_MAX_RETRIES) { if ((pEntry->numdns+1numdns+1].addr!=0)) { /* change of server */ pEntry->numdns++; pEntry->tmr = 1; pEntry->retries = 0; break; } else { LWIP_DEBUGF(DNS_DEBUG, ("dns_check_entry: \"%s\": timeout\n", pEntry->name)); /* call specified callback function if provided */ if (pEntry->found) (*pEntry->found)(pEntry->name, NULL, pEntry->arg); /* flush this entry */ pEntry->state = DNS_STATE_UNUSED; pEntry->found = NULL; break; } } /* wait longer for the next retry */ pEntry->tmr = pEntry->retries; /* send DNS packet for this entry */ dns_send(pEntry->numdns, pEntry->name, i); } break; } case DNS_STATE_DONE: { /* if the time to live is nul */ if (--pEntry->ttl == 0) { LWIP_DEBUGF(DNS_DEBUG, ("dns_check_entry: \"%s\": flush\n", pEntry->name)); /* flush this entry */ pEntry->state = DNS_STATE_UNUSED; pEntry->found = NULL; } break; } case DNS_STATE_UNUSED: /* nothing to do */ break; default: LWIP_ASSERT("unknown dns_table entry state:", 0); break; } } /** * Call dns_check_entry for each entry in dns_table - check all entries. */ static void dns_check_entries(void) { u8_t i; for (i = 0; i < DNS_TABLE_SIZE; ++i) { dns_check_entry(i); } } /** * Receive input function for DNS response packets arriving for the dns UDP pcb. * * @params see udp.h */ static void dns_recv(void *arg, struct udp_pcb *pcb, struct pbuf *p, struct ip_addr *addr, u16_t port) { u8_t i; char *pHostname; struct dns_hdr *hdr; struct dns_answer *ans; struct dns_table_entry *pEntry; u8_t nquestions, nanswers; #if (DNS_USES_STATIC_BUF == 0) u8_t dns_payload[DNS_MSG_SIZE]; #endif /* (DNS_USES_STATIC_BUF == 0) */ #if (DNS_USES_STATIC_BUF == 2) u8_t* dns_payload; #endif /* (DNS_USES_STATIC_BUF == 2) */ LWIP_UNUSED_ARG(arg); LWIP_UNUSED_ARG(pcb); LWIP_UNUSED_ARG(addr); LWIP_UNUSED_ARG(port); /* is the dns message too big ? */ if (p->tot_len > DNS_MSG_SIZE) { LWIP_DEBUGF(DNS_DEBUG, ("dns_recv: pbuf too big\n")); /* free pbuf and return */ goto memerr1; } /* is the dns message big enough ? */ if (p->tot_len < (sizeof(struct dns_hdr) + sizeof(struct dns_query) + sizeof(struct dns_answer))) { LWIP_DEBUGF(DNS_DEBUG, ("dns_recv: pbuf too small\n")); /* free pbuf and return */ goto memerr1; } #if (DNS_USES_STATIC_BUF == 2) dns_payload = mem_malloc(p->tot_len); if (dns_payload == NULL) { LWIP_DEBUGF(DNS_DEBUG, ("dns_recv: mem_malloc error\n")); /* free pbuf and return */ goto memerr1; } #endif /* (DNS_USES_STATIC_BUF == 2) */ /* copy dns payload inside static buffer for processing */ if (pbuf_copy_partial(p, dns_payload, p->tot_len, 0) == p->tot_len) { /* The ID in the DNS header should be our entry into the name table. */ hdr = (struct dns_hdr*)dns_payload; i = htons(hdr->id); if (i < DNS_TABLE_SIZE) { pEntry = &dns_table[i]; if(pEntry->state == DNS_STATE_ASKING) { /* This entry is now completed. */ pEntry->state = DNS_STATE_DONE; pEntry->err = hdr->flags2 & DNS_FLAG2_ERR_MASK; /* We only care about the question(s) and the answers. The authrr and the extrarr are simply discarded. */ nquestions = htons(hdr->numquestions); nanswers = htons(hdr->numanswers); /* Check for error. If so, call callback to inform. */ if (((hdr->flags1 & DNS_FLAG1_RESPONSE) == 0) || (pEntry->err != 0) || (nquestions != 1)) { LWIP_DEBUGF(DNS_DEBUG, ("dns_recv: \"%s\": error in flags\n", pEntry->name)); /* call callback to indicate error, clean up memory and return */ goto responseerr; } #if DNS_DOES_NAME_CHECK /* Check if the name in the "question" part match with the name in the entry. */ if (dns_compare_name((unsigned char *)(pEntry->name), (unsigned char *)dns_payload + sizeof(struct dns_hdr)) != 0) { LWIP_DEBUGF(DNS_DEBUG, ("dns_recv: \"%s\": response not match to query\n", pEntry->name)); /* call callback to indicate error, clean up memory and return */ goto responseerr; } #endif /* DNS_DOES_NAME_CHECK */ /* Skip the name in the "question" part */ pHostname = (char *) dns_parse_name((unsigned char *)dns_payload + sizeof(struct dns_hdr)) + sizeof(struct dns_query); while(nanswers > 0) { /* skip answer resource record's host name */ pHostname = (char *) dns_parse_name((unsigned char *)pHostname); /* Check for IP address type and Internet class. Others are discarded. */ ans = (struct dns_answer *)pHostname; if((ntohs(ans->type) == DNS_RRTYPE_A) && (ntohs(ans->class) == DNS_RRCLASS_IN) && (ntohs(ans->len) == sizeof(struct ip_addr)) ) { /* read the answer resource record's TTL, and maximize it if needed */ pEntry->ttl = ntohl(ans->ttl); if (pEntry->ttl > DNS_MAX_TTL) { pEntry->ttl = DNS_MAX_TTL; } /* read the IP address after answer resource record's header */ pEntry->ipaddr = (*((struct ip_addr*)(ans+1))); LWIP_DEBUGF(DNS_DEBUG, ("dns_recv: \"%s\": response = ", pEntry->name)); ip_addr_debug_print(DNS_DEBUG, (&(pEntry->ipaddr))); LWIP_DEBUGF(DNS_DEBUG, ("\n")); /* call specified callback function if provided */ if (pEntry->found) { (*pEntry->found)(pEntry->name, &pEntry->ipaddr, pEntry->arg); } /* deallocate memory and return */ goto memerr2; } else { pHostname = pHostname + sizeof(struct dns_answer) + htons(ans->len); } --nanswers; } LWIP_DEBUGF(DNS_DEBUG, ("dns_recv: \"%s\": error in response\n", pEntry->name)); /* call callback to indicate error, clean up memory and return */ goto responseerr; } } } /* deallocate memory and return */ goto memerr2; responseerr: /* ERROR: call specified callback function with NULL as name to indicate an error */ if (pEntry->found) { (*pEntry->found)(pEntry->name, NULL, pEntry->arg); } /* flush this entry */ pEntry->state = DNS_STATE_UNUSED; pEntry->found = NULL; memerr2: #if (DNS_USES_STATIC_BUF == 2) /* free dns buffer */ mem_free(dns_payload); #endif /* (DNS_USES_STATIC_BUF == 2) */ memerr1: /* free pbuf */ pbuf_free(p); return; } /** * Queues a new hostname to resolve and sends out a DNS query for that hostname * * @param name the hostname that is to be queried * @param found a callback founction to be called on success, failure or timeout * @param callback_arg argument to pass to the callback function * @return @return a err_t return code. */ static err_t dns_enqueue(const char *name, dns_found_callback found, void *callback_arg) { u8_t i; u8_t lseq, lseqi; struct dns_table_entry *pEntry = NULL; /* search an unused entry, or the oldest one */ lseq = lseqi = 0; for (i = 0; i < DNS_TABLE_SIZE; ++i) { pEntry = &dns_table[i]; /* is it an unused entry ? */ if (pEntry->state == DNS_STATE_UNUSED) break; /* check if this is the oldest completed entry */ if (pEntry->state == DNS_STATE_DONE) { if ((dns_seqno - pEntry->seqno) > lseq) { lseq = dns_seqno - pEntry->seqno; lseqi = i; } } } /* if we don't have found an unused entry, use the oldest completed one */ if (i == DNS_TABLE_SIZE) { if ((lseqi >= DNS_TABLE_SIZE) || (dns_table[lseqi].state != DNS_STATE_DONE)) { /* no entry can't be used now, table is full */ LWIP_DEBUGF(DNS_DEBUG, ("dns_enqueue: \"%s\": DNS entries table is full\n", name)); return ERR_MEM; } else { /* use the oldest completed one */ i = lseqi; pEntry = &dns_table[i]; } } /* use this entry */ LWIP_DEBUGF(DNS_DEBUG, ("dns_enqueue: \"%s\": use DNS entry %"U16_F"\n", name, (u16_t)(i))); /* fill the entry */ pEntry->state = DNS_STATE_NEW; pEntry->seqno = dns_seqno++; pEntry->found = found; pEntry->arg = callback_arg; strcpy(pEntry->name, name); /* force to send query without waiting timer */ dns_check_entry(i); /* dns query is enqueued */ return ERR_INPROGRESS; } /** * Resolve a hostname (string) into an IP address. * NON-BLOCKING callback version for use with raw API!!! * * Returns immediately with one of err_t return codes: * - ERR_OK if hostname is a valid IP address string or the host * name is already in the local names table. * - ERR_INPROGRESS enqueue a request to be sent to the DNS server * for resolution if no errors are present. * * @param hostname the hostname that is to be queried * @param addr pointer to a struct ip_addr where to store the address if it is already * cached in the dns_table (only valid if ERR_OK is returned!) * @param found a callback function to be called on success, failure or timeout (only if * ERR_INPROGRESS is returned!) * @param callback_arg argument to pass to the callback function * @return a err_t return code. */ err_t dns_gethostbyname(const char *hostname, struct ip_addr *addr, dns_found_callback found, void *callback_arg) { /* not initialized or no valid server yet, or invalid addr pointer * or invalid hostname or invalid hostname length */ if ((dns_pcb == NULL) || (addr == NULL) || (!hostname) || (!hostname[0]) || (strlen(hostname) >= DNS_MAX_NAME_LENGTH)) { return ERR_VAL; } #if LWIP_HAVE_LOOPIF if (strcmp(hostname,"localhost")==0) { addr->addr = INADDR_LOOPBACK; return ERR_OK; } #endif /* LWIP_HAVE_LOOPIF */ /* host name already in octet notation? set ip addr and return ERR_OK * already have this address cached? */ if (((addr->addr = inet_addr(hostname)) != INADDR_NONE) || ((addr->addr = dns_lookup(hostname)) != 0)) { return ERR_OK; } /* queue query with specified callback */ return dns_enqueue(hostname, found, callback_arg); } #endif /* LWIP_DNS */