/*
- * A rewrite of Darren Reeds original res.c As there is nothing
- * left of Darrens original code, this is now licensed by the hybrid group.
+ * A rewrite of Darren Reed's original res.c As there is nothing
+ * left of Darren's original code, this is now licensed by the hybrid group.
* (Well, some of the function names are the same, and bits of the structs..)
* You can use it where it is useful, free even. Buy us a beer and stuff.
*
* The authors takes no responsibility for any damage or loss
* of property which results from the use of this software.
*
- * $Id$
- *
* July 1999 - Rewrote a bunch of stuff here. Change hostent builder code,
* added callbacks and reference counting of returned hostents.
* --Bleep (Thomas Helvey <tomh@inxpress.net>)
*
* Apr 28, 2003 --cryogen and Dianora
*/
+/** @file
+ * @brief IRC resolver functions.
+ * @version $Id$
+ */
#include "client.h"
#include "ircd_alloc.h"
#include "ircd.h"
#include "numeric.h"
#include "fileio.h" /* for fbopen / fbclose / fbputs */
+#include "random.h"
#include "s_bsd.h"
#include "s_debug.h"
#include "s_stats.h"
#include "res.h"
#include "ircd_reslib.h"
-#include <assert.h>
+/* #include <assert.h> -- Now using assert in ircd_log.h */
#include <string.h>
#include <sys/time.h>
#include <sys/socket.h>
#error this code needs to be able to address individual octets
#endif
-static struct Socket res_socket;
+/** IPv4 resolver UDP socket. */
+static struct Socket res_socket_v4;
+/** IPv6 resolver UDP socket. */
+static struct Socket res_socket_v6;
+/** Next DNS lookup timeout. */
static struct Timer res_timeout;
-
-#define MAXPACKET 1024 /* rfc sez 512 but we expand names so ... */
-#define RES_MAXALIASES 35 /* maximum aliases allowed */
-#define RES_MAXADDRS 35 /* maximum addresses allowed */
-#define AR_TTL 600 /* TTL in seconds for dns cache entries */
+/** Local address for IPv4 DNS lookups. */
+struct irc_sockaddr VirtualHost_dns_v4;
+/** Local address for IPv6 DNS lookups. */
+struct irc_sockaddr VirtualHost_dns_v6;
+/** Check for whether the resolver has been initialized yet. */
+#define resolver_started() (request_list.next != NULL)
+
+/** Maximum DNS packet length.
+ * RFC says 512, but we add extra for expanded names.
+ */
+#define MAXPACKET 1024
+#define AR_TTL 600 /**< TTL in seconds for dns cache entries */
/* RFC 1104/1105 wasn't very helpful about what these fields
* should be named, so for now, we'll just name them this way.
* we probably should look at what named calls them or something.
*/
+/** Size of TYPE field of a DNS RR header. */
#define TYPE_SIZE (size_t)2
+/** Size of CLASS field of a DNS RR header. */
#define CLASS_SIZE (size_t)2
+/** Size of TTL field of a DNS RR header. */
#define TTL_SIZE (size_t)4
+/** Size of RDLENGTH field of a DNS RR header. */
#define RDLENGTH_SIZE (size_t)2
+/** Size of fixed-format part of a DNS RR header. */
#define ANSWER_FIXED_SIZE (TYPE_SIZE + CLASS_SIZE + TTL_SIZE + RDLENGTH_SIZE)
-typedef enum
+/** Current request state. */
+typedef enum
{
- REQ_IDLE, /* We're doing not much at all */
- REQ_PTR, /* Looking up a PTR */
- REQ_A, /* Looking up an A, possibly because AAAA failed */
- REQ_AAAA, /* Looking up an AAAA */
- REQ_CNAME, /* We got a CNAME in response, we better get a real answer next */
- REQ_INT /* ip6.arpa failed, falling back to ip6.int */
+ REQ_IDLE, /**< We're doing not much at all. */
+ REQ_PTR, /**< Looking up a PTR. */
+ REQ_A, /**< Looking up an A, possibly because AAAA failed. */
+ REQ_AAAA, /**< Looking up an AAAA. */
+ REQ_CNAME, /**< We got a CNAME in response, we better get a real answer next. */
+ REQ_INT /**< ip6.arpa failed, falling back to ip6.int. */
} request_state;
+/** Doubly linked list node. */
struct dlink
{
- struct dlink *prev;
- struct dlink *next;
+ struct dlink *prev; /**< Previous element in list. */
+ struct dlink *next; /**< Next element in list. */
};
+/** A single resolver request.
+ * (Do not be fooled by the "list" in the name.)
+ */
struct reslist
{
- struct dlink node;
- int id;
- int sent; /* number of requests sent */
- request_state state; /* State the resolver machine is in */
- time_t ttl;
- char type;
- char retries; /* retry counter */
- char sends; /* number of sends (>1 means resent) */
- char resend; /* send flag. 0 == dont resend */
- time_t sentat;
- time_t timeout;
- struct irc_in_addr addr;
- char *name;
- struct DNSQuery query; /* query callback for this request */
+ struct dlink node; /**< Doubly linked list node. */
+ int id; /**< Request ID (from request header). */
+ int sent; /**< Number of requests sent. */
+ request_state state; /**< State the resolver machine is in. */
+ char type; /**< Current request type. */
+ char retries; /**< Retry counter. */
+ char sends; /**< Number of sends (>1 means resent). */
+ char resend; /**< Send flag; 0 == don't resend. */
+ time_t sentat; /**< Timestamp we last sent this request. */
+ time_t timeout; /**< When this request times out. */
+ struct irc_in_addr addr; /**< Address for this request. */
+ char *name; /**< Hostname for this request. */
+ dns_callback_f callback; /**< Callback function on completion. */
+ void *callback_ctx; /**< Context pointer for callback. */
};
+/** Base of request list. */
static struct dlink request_list;
static void rem_request(struct reslist *request);
-static struct reslist *make_request(const struct DNSQuery *query);
-static void do_query_name(const struct DNSQuery *query,
+static struct reslist *make_request(dns_callback_f callback, void *ctx);
+static void do_query_name(dns_callback_f callback, void *ctx,
const char* name, struct reslist *request, int);
-static void do_query_number(const struct DNSQuery *query,
+static void do_query_number(dns_callback_f callback, void *ctx,
const struct irc_in_addr *,
struct reslist *request);
static void query_name(const char *name, int query_class, int query_type,
static void resend_query(struct reslist *request);
static int proc_answer(struct reslist *request, HEADER *header, char *, char *);
static struct reslist *find_id(int id);
-static struct DNSReply *make_dnsreply(struct reslist *request);
static void res_readreply(struct Event *ev);
static void timeout_resolver(struct Event *notused);
extern int irc_nscount;
extern char irc_domain[HOSTLEN];
-/*
- * int
- * res_ourserver(inp)
- * looks up "inp" in irc_nsaddr_list[]
- * returns:
- * 0 : not found
- * >0 : found
- * author:
- * paul vixie, 29may94
- * revised for ircd, cryogen(stu) may03
+/** Prepare the resolver library to (optionally) accept a list of
+ * DNS servers through add_dns_server().
+ */
+void clear_nameservers(void)
+{
+ irc_nscount = 0;
+ memset(&VirtualHost_dns_v4, 0, sizeof(VirtualHost_dns_v4));
+ memset(&VirtualHost_dns_v6, 0, sizeof(VirtualHost_dns_v6));
+}
+
+/** Check whether \a inp is a nameserver we use.
+ * @param[in] inp Nameserver address.
+ * @return Non-zero if we trust \a inp; zero if not.
*/
static int
res_ourserver(const struct irc_sockaddr *inp)
return(0);
}
-/*
- * start_resolver - do everything we need to read the resolv.conf file
- * and initialize the resolver file descriptor if needed
+/** Start (or re-start) resolver.
+ * This means read resolv.conf, initialize the list of pending
+ * requests, open the resolver socket and initialize its timeout.
*/
-static void
-start_resolver(void)
+void
+restart_resolver(void)
{
+ int need_v4;
+ int need_v6;
+ int ns;
+
irc_res_init();
if (!request_list.next)
request_list.next = request_list.prev = &request_list;
- if (!s_active(&res_socket))
+ /* Check which address family (or families) our nameservers use. */
+ for (need_v4 = need_v6 = ns = 0; ns < irc_nscount; ns++)
{
- int fd;
- fd = os_socket(NULL, SOCK_DGRAM, "Resolver UDP socket");
- if (fd < 0) return;
- if (!socket_add(&res_socket, res_readreply, NULL, SS_DATAGRAM,
- SOCK_EVENT_READABLE, fd)) return;
- timer_init(&res_timeout);
+ if (irc_in_addr_is_ipv4(&irc_nsaddr_list[ns].addr))
+ need_v4 = 1;
+ else
+ need_v6 = 1;
}
-}
-/*
- * init_resolver - initialize resolver and resolver library
- */
-int
-init_resolver(void)
-{
- srand(CurrentTime);
- start_resolver();
- return(s_fd(&res_socket));
-}
+ /* If we need an IPv4 socket, and don't have one, open it. */
+ if (need_v4 && !s_active(&res_socket_v4))
+ {
+ int fd = os_socket(&VirtualHost_dns_v4, SOCK_DGRAM, "Resolver UDPv4 socket", AF_INET);
+ if (fd >= 0)
+ socket_add(&res_socket_v4, res_readreply, NULL,
+ SS_DATAGRAM, SOCK_EVENT_READABLE, fd);
+ }
-/*
- * restart_resolver - reread resolv.conf, reopen socket
- */
-void
-restart_resolver(void)
-{
- start_resolver();
+#ifdef AF_INET6
+ /* If we need an IPv6 socket, and don't have one, open it. */
+ if (need_v6 && !s_active(&res_socket_v6))
+ {
+ int fd = os_socket(&VirtualHost_dns_v6, SOCK_DGRAM, "Resolver UDPv6 socket", AF_INET6);
+ if (fd >= 0)
+ socket_add(&res_socket_v6, res_readreply, NULL,
+ SS_DATAGRAM, SOCK_EVENT_READABLE, fd);
+ }
+#endif
+
+ if (s_active(&res_socket_v4) || s_active(&res_socket_v6))
+ timer_init(&res_timeout);
}
-/*
- * add_local_domain - Add the domain to hostname, if it is missing
- * (as suggested by eps@TOASTER.SFSU.EDU)
+/** Append local domain to hostname if needed.
+ * If \a hname does not contain any '.'s, append #irc_domain to it.
+ * @param[in,out] hname Hostname to check.
+ * @param[in] size Length of \a hname buffer.
*/
void
add_local_domain(char* hname, size_t size)
}
}
-/*
- * add_dlink - add a link to a doubly linked list
+/** Add a node to a doubly linked list.
+ * @param[in,out] node Node to add to list.
+ * @param[in,out] next Add \a node before this one.
*/
static void
add_dlink(struct dlink *node, struct dlink *next)
node->next->prev = node;
}
-/*
- * rem_request - remove a request from the list.
- * This must also free any memory that has been allocated for
- * temporary storage of DNS results.
+/** Remove a request from the list and free it.
+ * @param[in] request Node to free.
*/
static void
rem_request(struct reslist *request)
MyFree(request);
}
-/*
- * make_request - Create a DNS request record for the server.
+/** Create a DNS request record for the server.
+ * @param[in] query Callback information for caller.
+ * @return Newly allocated and linked-in reslist.
*/
static struct reslist *
-make_request(const struct DNSQuery* query)
+make_request(dns_callback_f callback, void *ctx)
{
struct reslist *request;
+ if (!resolver_started())
+ restart_resolver();
+
request = (struct reslist *)MyMalloc(sizeof(struct reslist));
memset(request, 0, sizeof(struct reslist));
+ request->state = REQ_IDLE;
request->sentat = CurrentTime;
request->retries = feature_int(FEAT_IRCD_RES_RETRIES);
request->resend = 1;
request->timeout = feature_int(FEAT_IRCD_RES_TIMEOUT);
memset(&request->addr, 0, sizeof(request->addr));
- request->query.vptr = query->vptr;
- request->query.callback = query->callback;
- request->state = REQ_IDLE;
+ request->callback = callback;
+ request->callback_ctx = ctx;
add_dlink(&request->node, &request_list);
return(request);
}
-/*
- * check_resolver_timeout - Make sure that a timeout event will
- * happen by the given time.
+/** Make sure that a timeout event will happen by the given time.
+ * @param[in] when Latest time for timeout to run.
*/
static void
check_resolver_timeout(time_t when)
{
if (when > CurrentTime + AR_TTL)
when = CurrentTime + AR_TTL;
- if (!t_active(&res_timeout))
- timer_add(&res_timeout, timeout_resolver, NULL, TT_ABSOLUTE, when);
- else if (when < t_expire(&res_timeout))
+ /* TODO after 2.10.12: Rewrite the timer API because there should be
+ * no need for clients to know this kind of implementation detail. */
+ if (when > t_expire(&res_timeout))
+ /* do nothing */;
+ else if (t_onqueue(&res_timeout) && !(res_timeout.t_header.gh_flags & GEN_MARKED))
timer_chg(&res_timeout, TT_ABSOLUTE, when);
+ else
+ timer_add(&res_timeout, timeout_resolver, NULL, TT_ABSOLUTE, when);
}
-/*
- * timeout_resolver - Remove queries from the list which have been
- * there too long without being resolved.
+/** Drop pending DNS lookups which have timed out.
+ * @param[in] ev Timer event data (ignored).
*/
static void
-timeout_resolver(struct Event *notused)
+timeout_resolver(struct Event *ev)
{
struct dlink *ptr, *next_ptr;
struct reslist *request;
time_t next_time = 0;
time_t timeout = 0;
+ if (ev_type(ev) != ET_EXPIRE)
+ return;
+
for (ptr = request_list.next; ptr != &request_list; ptr = next_ptr)
{
next_ptr = ptr->next;
if (--request->retries <= 0)
{
Debug((DEBUG_DNS, "Request %p out of retries; destroying", request));
- (*request->query.callback)(request->query.vptr, 0);
+ (*request->callback)(request->callback_ctx, NULL, NULL);
rem_request(request);
continue;
}
check_resolver_timeout(next_time);
}
-/*
- * delete_resolver_queries - cleanup outstanding queries
- * for which there no longer exist clients or conf lines.
+/** Drop queries that are associated with a particular pointer.
+ * This is used to clean up lookups for clients or conf blocks
+ * that went away.
+ * @param[in] vptr User callback pointer to search for.
*/
void
delete_resolver_queries(const void *vptr)
struct dlink *ptr, *next_ptr;
struct reslist *request;
- for (ptr = request_list.next; ptr != &request_list; ptr = next_ptr)
- {
- next_ptr = ptr->next;
- request = (struct reslist*)ptr;
- if (vptr == request->query.vptr) {
- Debug((DEBUG_DNS, "Removing request %p with vptr %p", request, vptr));
- rem_request(request);
+ if (request_list.next) {
+ for (ptr = request_list.next; ptr != &request_list; ptr = next_ptr)
+ {
+ next_ptr = ptr->next;
+ request = (struct reslist*)ptr;
+ if (vptr == request->callback_ctx) {
+ Debug((DEBUG_DNS, "Removing request %p with vptr %p", request, vptr));
+ rem_request(request);
+ }
}
}
}
-/*
- * send_res_msg - sends msg to all nameservers found in the "_res" structure.
- * This should reflect /etc/resolv.conf. We will get responses
- * which arent needed but is easier than checking to see if nameserver
- * isnt present. Returns number of messages successfully sent to
- * nameservers or -1 if no successful sends.
+/** Send a message to all of our nameservers.
+ * @param[in] msg Message to send.
+ * @param[in] len Length of message.
+ * @param[in] rcount Maximum number of servers to ask.
+ * @return Number of servers that were successfully asked.
*/
static int
send_res_msg(const char *msg, int len, int rcount)
if (max_queries == 0)
max_queries = 1;
- for (i = 0; i < max_queries; i++)
- if (os_sendto_nonb(s_fd(&res_socket), msg, len, NULL, 0, &irc_nsaddr_list[i]) == IO_SUCCESS)
+ for (i = 0; i < max_queries; i++) {
+ int fd = irc_in_addr_is_ipv4(&irc_nsaddr_list[i].addr) ? s_fd(&res_socket_v4) : s_fd(&res_socket_v6);
+ if (os_sendto_nonb(fd, msg, len, NULL, 0, &irc_nsaddr_list[i]) == IO_SUCCESS)
++sent;
+ }
return(sent);
}
-/*
- * find_id - find a dns request id (id is determined by dn_mkquery)
+/** Find a DNS request by ID.
+ * @param[in] id Identifier to find.
+ * @return Matching DNS request, or NULL if none are found.
*/
static struct reslist *
find_id(int id)
return(NULL);
}
-/*
- * gethost_byname - wrapper for _type - send T_AAAA first
+/** Try to look up address for a hostname, trying IPv6 (T_AAAA) first.
+ * @param[in] name Hostname to look up.
+ * @param[in] query Callback information.
*/
void
-gethost_byname(const char *name, const struct DNSQuery *query)
+gethost_byname(const char *name, dns_callback_f callback, void *ctx)
{
- do_query_name(query, name, NULL, T_AAAA);
+ do_query_name(callback, ctx, name, NULL, T_AAAA);
}
-/*
- * gethost_byaddr - get host name from address
+/** Try to look up hostname for an address.
+ * @param[in] addr Address to look up.
+ * @param[in] query Callback information.
*/
void
-gethost_byaddr(const struct irc_in_addr *addr, const struct DNSQuery *query)
+gethost_byaddr(const struct irc_in_addr *addr, dns_callback_f callback, void *ctx)
{
- do_query_number(query, addr, NULL);
+ do_query_number(callback, ctx, addr, NULL);
}
-/*
- * do_query_name - nameserver lookup name
+/** Send a query to look up the address for a name.
+ * @param[in] query Callback information.
+ * @param[in] name Hostname to look up.
+ * @param[in] request DNS lookup structure (may be NULL).
+ * @param[in] type Preferred request type.
*/
static void
-do_query_name(const struct DNSQuery *query, const char *name,
+do_query_name(dns_callback_f callback, void *ctx, const char *name,
struct reslist *request, int type)
{
char host_name[HOSTLEN + 1];
if (request == NULL)
{
- request = make_request(query);
- request->name = (char *)MyMalloc(strlen(host_name) + 1);
- request->type = type;
- strcpy(request->name, host_name);
+ request = make_request(callback, ctx);
+ DupString(request->name, host_name);
#ifdef IPV6
if (type != T_A)
request->state = REQ_AAAA;
query_name(host_name, C_IN, type, request);
}
-/*
- * do_query_number - Use this to do reverse IP# lookups.
+/** Send a query to look up the name for an address.
+ * @param[in] query Callback information.
+ * @param[in] addr Address to look up.
+ * @param[in] request DNS lookup structure (may be NULL).
*/
static void
-do_query_number(const struct DNSQuery *query, const struct irc_in_addr *addr,
+do_query_number(dns_callback_f callback, void *ctx, const struct irc_in_addr *addr,
struct reslist *request)
{
char ipbuf[128];
}
if (request == NULL)
{
- request = make_request(query);
+ request = make_request(callback, ctx);
+ request->state= REQ_PTR;
request->type = T_PTR;
memcpy(&request->addr, addr, sizeof(request->addr));
request->name = (char *)MyMalloc(HOSTLEN + 1);
query_name(ipbuf, C_IN, T_PTR, request);
}
-/*
- * query_name - generate a query based on class, type and name.
+/** Generate a query based on class, type and name.
+ * @param[in] name Domain name to look up.
+ * @param[in] query_class Query class (see RFC 1035).
+ * @param[in] type Query type (see RFC 1035).
+ * @param[in] request DNS request structure.
*/
static void
query_name(const char *name, int query_class, int type,
*/
do
{
- header->id = (header->id + rand()) & 0xffff;
+ header->id = (header->id + ircrandom()) & 0xffff;
} while (find_id(header->id));
request->id = header->id;
++request->sends;
}
}
+/** Send a failed DNS lookup request again.
+ * @param[in] request Request to resend.
+ */
static void
resend_query(struct reslist *request)
{
switch(request->type)
{
case T_PTR:
- do_query_number(NULL, &request->addr, request);
+ do_query_number(NULL, NULL, &request->addr, request);
break;
case T_A:
- do_query_name(NULL, request->name, request, request->type);
+ do_query_name(NULL, NULL, request->name, request, request->type);
break;
case T_AAAA:
- /* didnt work, try A */
+ /* didn't work, try A */
if (request->state == REQ_AAAA)
- do_query_name(NULL, request->name, request, T_A);
+ do_query_name(NULL, NULL, request->name, request, T_A);
default:
break;
}
}
-/*
- * proc_answer - process name server reply
+/** Process the answer for a lookup request.
+ * @param[in] request DNS request that got an answer.
+ * @param[in] header Header of DNS response.
+ * @param[in] buf DNS response body.
+ * @param[in] eob Pointer to end of DNS response.
+ * @return Number of answers read from \a buf.
*/
static int
proc_answer(struct reslist *request, HEADER* header, char* buf, char* eob)
query_class = irc_ns_get16(current);
current += CLASS_SIZE;
- request->ttl = irc_ns_get32(current);
current += TTL_SIZE;
rd_length = irc_ns_get16(current);
return(1);
break;
- case T_CNAME: /* first check we already havent started looking
+ case T_CNAME: /* first check we already haven't started looking
into a cname */
- if (request->type != T_PTR)
- return(0);
-
if (request->state == REQ_CNAME)
{
n = irc_dn_expand((unsigned char *)buf, (unsigned char *)eob,
* but its possible its just a broken nameserver with still
* valid answers. But lets do some rudimentary logging for now...
*/
- log_write(LS_RESOLVER, L_ERROR, 0, "irc_res.c bogus type %d", type);
+ log_write(LS_RESOLVER, L_ERROR, 0, "irc_res.c bogus type %d", type);
+
+ if ((char*)current + rd_length >= (char*)current)
+ current += rd_length;
+ else
+ return(0);
+
break;
}
}
return(1);
}
-/*
- * res_readreply - read a dns reply from the nameserver and process it.
+/** Read a DNS reply from the nameserver and process it.
+ * @param[in] ev I/O activity event for resolver socket.
*/
static void
res_readreply(struct Event *ev)
char buf[sizeof(HEADER) + MAXPACKET];
HEADER *header;
struct reslist *request = NULL;
- struct DNSReply *reply = NULL;
unsigned int rc;
int answer_count;
- assert(ev_socket(ev) == &res_socket);
+ assert((ev_socket(ev) == &res_socket_v4) || (ev_socket(ev) == &res_socket_v6));
sock = ev_socket(ev);
if (IO_SUCCESS != os_recvfrom_nonb(s_fd(sock), buf, sizeof(buf), &rc, &lsin)
|| (rc <= sizeof(HEADER)))
return;
+ /*
+ * check against possibly fake replies
+ */
+ if (!res_ourserver(&lsin))
+ return;
+
/*
* convert DNS reply reader from Network byte order to CPU byte order.
*/
if (0 == (request = find_id(header->id)))
return;
- /*
- * check against possibly fake replies
- */
- if (!res_ourserver(&lsin))
- return;
-
if ((header->rcode != NO_ERRORS) || (header->ancount == 0))
{
- if (SERVFAIL == header->rcode)
- resend_query(request);
+ if (SERVFAIL == header->rcode || NXDOMAIN == header->rcode)
+ {
+ /*
+ * If a bad error was returned, we stop here and don't send
+ * send any more (no retries granted).
+ */
+ Debug((DEBUG_DNS, "Request %p has bad response (state %d type %d rcode %d)", request, request->state, request->type, header->rcode));
+ (*request->callback)(request->callback_ctx, NULL, NULL);
+ rem_request(request);
+ }
else
{
/*
- * If we havent already tried this, and we're looking up AAAA, try A
+ * If we haven't already tried this, and we're looking up AAAA, try A
* now
*/
request->timeout += feature_int(FEAT_IRCD_RES_TIMEOUT);
resend_query(request);
}
- else
- {
- /*
- * If a bad error was returned, we stop here and dont send
- * send any more (no retries granted).
- */
- Debug((DEBUG_DNS, "Request %p has bad response (state %d type %d)", request, request->state, request->type));
- (*request->query.callback)(request->query.vptr, 0);
- rem_request(request);
- }
}
return;
* don't bother trying again, the client address doesn't resolve
*/
Debug((DEBUG_DNS, "Request %p PTR had empty name", request));
- (*request->query.callback)(request->query.vptr, reply);
+ (*request->callback)(request->callback_ctx, NULL, NULL);
rem_request(request);
return;
}
*/
#ifdef IPV6
if (!irc_in_addr_is_ipv4(&request->addr))
- do_query_name(&request->query, request->name, NULL, T_AAAA);
+ do_query_name(request->callback, request->callback_ctx, request->name, NULL, T_AAAA);
else
#endif
- do_query_name(&request->query, request->name, NULL, T_A);
+ do_query_name(request->callback, request->callback_ctx, request->name, NULL, T_A);
Debug((DEBUG_DNS, "Request %p switching to forward resolution", request));
rem_request(request);
}
/*
* got a name and address response, client resolved
*/
- reply = make_dnsreply(request);
- (*request->query.callback)(request->query.vptr, (reply) ? reply : 0);
+ (*request->callback)(request->callback_ctx, &request->addr, request->name);
Debug((DEBUG_DNS, "Request %p got forward resolution", request));
rem_request(request);
}
}
}
-static struct DNSReply *
-make_dnsreply(struct reslist *request)
-{
- struct DNSReply *cp;
- assert(request != 0);
-
- cp = (struct DNSReply *)MyMalloc(sizeof(struct DNSReply));
-
- DupString(cp->h_name, request->name);
- memcpy(&cp->addr, &request->addr, sizeof(cp->addr));
- return(cp);
-}
-
+/** Statistics callback to list DNS servers.
+ * @param[in] source_p Client requesting statistics.
+ * @param[in] sd Stats descriptor for request (ignored).
+ * @param[in] param Extra parameter from user (ignored).
+ */
void
report_dns_servers(struct Client *source_p, const struct StatDesc *sd, char *param)
{
}
}
+/** Report memory usage to a client.
+ * @param[in] sptr Client requesting information.
+ * @return Total memory used by pending requests.
+ */
size_t
cres_mem(struct Client* sptr)
{
size_t request_mem = 0;
int request_count = 0;
- for (dlink = request_list.next; dlink != &request_list; dlink = dlink->next) {
- request = (struct reslist*)dlink;
- request_mem += sizeof(*request);
- if (request->name)
- request_mem += strlen(request->name) + 1;
- ++request_count;
+ if (request_list.next) {
+ for (dlink = request_list.next; dlink != &request_list; dlink = dlink->next) {
+ request = (struct reslist*)dlink;
+ request_mem += sizeof(*request);
+ if (request->name)
+ request_mem += strlen(request->name) + 1;
+ ++request_count;
+ }
}
send_reply(sptr, SND_EXPLICIT | RPL_STATSDEBUG,
":Resolver: requests %d(%d)", request_count, request_mem);
return request_mem;
}
-
-int irc_in_addr_valid(const struct irc_in_addr *addr)
-{
- unsigned int ii;
- unsigned short val;
-
- val = addr->in6_16[0];
- if (val != 0 || val != 0xffff)
- return 1;
- for (ii = 1; ii < 8; ii++)
- if (addr->in6_16[ii] != val)
- return 1;
- return 0;
-}
-
-int irc_in_addr_cmp(const struct irc_in_addr *a, const struct irc_in_addr *b)
-{
- if (irc_in_addr_is_ipv4(a))
- return a->in6_16[6] != b->in6_16[6]
- || a->in6_16[7] != b->in6_16[7]
- || !irc_in_addr_is_ipv4(b);
- else
- return memcmp(a, b, sizeof(*a));
-}
-
-int irc_in_addr_is_loopback(const struct irc_in_addr *addr)
-{
- if (addr->in6_16[0] != 0
- || addr->in6_16[1] != 0
- || addr->in6_16[2] != 0
- || addr->in6_16[3] != 0
- || addr->in6_16[4] != 0)
- return 0;
- if ((addr->in6_16[5] == 0xffff) || (addr->in6_16[5] == 0 && addr->in6_16[6] != 0))
- return (ntohs(addr->in6_16[6]) & 0xff00) == 0x7f00;
- else
- return addr->in6_16[5] == 0 && addr->in6_16[6] == 0 && htons(addr->in6_16[7]) == 1;
-}