#include "af-list.h"

#include "resolved-dns-query.h"

#include "resolved-dns-domain.h"

#define QUERY_TIMEOUT_USEC (30 * USEC_PER_SEC)

#define CNAME_MAX 8

#define QUERIES_MAX 2048

static void dns_query_stop(DnsQuery *q) {

DnsTransaction *t;

assert(q);

q->timeout_event_source = sd_event_source_unref(q->timeout_event_source);

while ((t = set_steal_first(q->transactions))) {

set_remove(t->queries, q);

dns_transaction_gc(t);

}

}

DnsQuery *dns_query_free(DnsQuery *q) {

if (!q)

return NULL;

dns_query_stop(q);

set_free(q->transactions);

dns_question_unref(q->question);

dns_answer_unref(q->answer);

sd_bus_message_unref(q->request);

if (q->manager) {

LIST_REMOVE(queries, q->manager->dns_queries, q);

q->manager->n_dns_queries--;

}

free(q);

return NULL;

}

int dns_query_new(Manager *m, DnsQuery **ret, DnsQuestion *question) {

_cleanup_(dns_query_freep) DnsQuery *q = NULL;

unsigned i;

int r;

assert(m);

assert(question);

r = dns_question_is_valid(question);

if (r < 0)

return r;

if (m->n_dns_queries >= QUERIES_MAX)

return -EBUSY;

q = new0(DnsQuery, 1);

if (!q)

return -ENOMEM;

q->question = dns_question_ref(question);

for (i = 0; i < question->n_keys; i++) {

_cleanup_free_ char *p;

r = dns_resource_key_to_string(question->keys[i], &p);

if (r < 0)

return r;

log_debug("Looking up RR for %s", p);

}

LIST_PREPEND(queries, m->dns_queries, q);

m->n_dns_queries++;

q->manager = m;

if (ret)

*ret = q;

q = NULL;

return 0;

}

static void dns_query_complete(DnsQuery *q, DnsTransactionState state) {

assert(q);

assert(!IN_SET(state, DNS_TRANSACTION_NULL, DNS_TRANSACTION_PENDING));

assert(IN_SET(q->state, DNS_TRANSACTION_NULL, DNS_TRANSACTION_PENDING));

/* Note that this call might invalidate the query. Callers

q->state = state;

dns_query_stop(q);

if (q->complete)

q->complete(q);

}

static int on_query_timeout(sd_event_source *s, usec_t usec, void *userdata) {

DnsQuery *q = userdata;

assert(s);

assert(q);

dns_query_complete(q, DNS_TRANSACTION_TIMEOUT);

return 0;

}

static int dns_query_add_transaction(DnsQuery *q, DnsScope *s, DnsResourceKey *key) {

_cleanup_(dns_question_unrefp) DnsQuestion *question = NULL;

DnsTransaction *t;

int r;

assert(q);

assert(s);

r = set_ensure_allocated(&q->transactions, NULL, NULL);

if (r < 0)

return r;

if (key) {

question = dns_question_new(1);

if (!question)

return -ENOMEM;

r = dns_question_add(question, key);

if (r < 0)

return r;

} else

question = dns_question_ref(q->question);

t = dns_scope_find_transaction(s, question);

if (!t) {

r = dns_transaction_new(&t, s, question);

if (r < 0)

return r;

}

r = set_ensure_allocated(&t->queries, NULL, NULL);

if (r < 0)

goto gc;

r = set_put(t->queries, q);

if (r < 0)

goto gc;

r = set_put(q->transactions, t);

if (r < 0) {

set_remove(t->queries, q);

goto gc;

}

return 0;

gc:

dns_transaction_gc(t);

return r;

}

static int dns_query_add_transaction_split(DnsQuery *q, DnsScope *s) {

int r;

assert(q);

assert(s);

if (s->protocol == DNS_PROTOCOL_MDNS) {

r = dns_query_add_transaction(q, s, NULL);

if (r < 0)

return r;

} else {

unsigned i;

/* On DNS and LLMNR we can only send a single

for (i = 0; i < q->question->n_keys; i++) {

r = dns_query_add_transaction(q, s, q->question->keys[i]);

if (r < 0)

return r;

}

}

return 0;

}

int dns_query_go(DnsQuery *q) {

DnsScopeMatch found = DNS_SCOPE_NO;

DnsScope *s, *first = NULL;

DnsTransaction *t;

const char *name;

Iterator i;

int r;

assert(q);

if (q->state != DNS_TRANSACTION_NULL)

return 0;

assert(q->question);

assert(q->question->n_keys > 0);

name = DNS_RESOURCE_KEY_NAME(q->question->keys[0]);

LIST_FOREACH(scopes, s, q->manager->dns_scopes) {

DnsScopeMatch match;

match = dns_scope_good_domain(s, name);

if (match < 0)

return match;

if (match == DNS_SCOPE_NO)

continue;

found = match;

if (match == DNS_SCOPE_YES) {

first = s;

break;

} else {

assert(match == DNS_SCOPE_MAYBE);

if (!first)

first = s;

}

}

if (found == DNS_SCOPE_NO)

return -ESRCH;

r = dns_query_add_transaction_split(q, first);

if (r < 0)

goto fail;

LIST_FOREACH(scopes, s, first->scopes_next) {

DnsScopeMatch match;

match = dns_scope_good_domain(s, name);

if (match < 0)

goto fail;

if (match != found)

continue;

r = dns_query_add_transaction_split(q, s);

if (r < 0)

goto fail;

}

q->answer = dns_answer_unref(q->answer);

q->answer_ifindex = 0;

q->answer_rcode = 0;

r = sd_event_add_time(

q->manager->event,

&q->timeout_event_source,

clock_boottime_or_monotonic(),

now(clock_boottime_or_monotonic()) + QUERY_TIMEOUT_USEC, 0,

on_query_timeout, q);

if (r < 0)

goto fail;

q->state = DNS_TRANSACTION_PENDING;

q->block_ready++;

/* Start the transactions that are not started yet */

SET_FOREACH(t, q->transactions, i) {

if (t->state != DNS_TRANSACTION_NULL)

continue;

r = dns_transaction_go(t);

if (r < 0)

goto fail;

}

q->block_ready--;

dns_query_ready(q);

return 1;

fail:

dns_query_stop(q);

return r;

}

void dns_query_ready(DnsQuery *q) {

DnsTransaction *t;

DnsTransactionState state = DNS_TRANSACTION_NO_SERVERS;

_cleanup_(dns_answer_unrefp) DnsAnswer *answer = NULL;

int rcode = 0;

DnsScope *scope = NULL;

bool pending = false;

Iterator i;

assert(q);

assert(IN_SET(q->state, DNS_TRANSACTION_NULL, DNS_TRANSACTION_PENDING));

/* Note that this call might invalidate the query. Callers

if (q->block_ready > 0)

return;

SET_FOREACH(t, q->transactions, i) {

/* If we found a successful answer, ignore all answers from other scopes */

if (state == DNS_TRANSACTION_SUCCESS && t->scope != scope)

continue;

/* One of the transactions is still going on, let's maybe wait for it */

if (IN_SET(t->state, DNS_TRANSACTION_PENDING, DNS_TRANSACTION_NULL)) {

pending = true;

continue;

}

/* One of the transactions is successful, let's use

if (t->state == DNS_TRANSACTION_SUCCESS) {

DnsAnswer *a;

if (t->received) {

rcode = DNS_PACKET_RCODE(t->received);

a = t->received->answer;

} else {

rcode = t->cached_rcode;

a = t->cached;

}

if (state == DNS_TRANSACTION_SUCCESS) {

DnsAnswer *merged;

merged = dns_answer_merge(answer, a);

if (!merged) {

dns_query_complete(q, DNS_TRANSACTION_RESOURCES);

return;

}

dns_answer_unref(answer);

answer = merged;

} else {

dns_answer_unref(answer);

answer = dns_answer_ref(a);

}

scope = t->scope;

state = DNS_TRANSACTION_SUCCESS;

continue;

}

/* One of the transactions has failed, let's see

if (state != DNS_TRANSACTION_SUCCESS && t->state == DNS_TRANSACTION_FAILURE) {

DnsAnswer *a;

if (t->received) {

rcode = DNS_PACKET_RCODE(t->received);

a = t->received->answer;

} else {

rcode = t->cached_rcode;

a = t->cached;

}

dns_answer_unref(answer);

answer = dns_answer_ref(a);

scope = t->scope;

state = DNS_TRANSACTION_FAILURE;

continue;

}

if (state == DNS_TRANSACTION_NO_SERVERS && t->state != DNS_TRANSACTION_NO_SERVERS)

state = t->state;

}

if (pending) {

/* If so far we weren't successful, and there's

if (state != DNS_TRANSACTION_SUCCESS)

return;

/* If we already were successful, then only wait for

SET_FOREACH(t, q->transactions, i) {

if (t->scope == scope && IN_SET(t->state, DNS_TRANSACTION_PENDING, DNS_TRANSACTION_NULL))

return;

}

}

if (IN_SET(state, DNS_TRANSACTION_SUCCESS, DNS_TRANSACTION_FAILURE)) {

q->answer = dns_answer_ref(answer);

q->answer_rcode = rcode;

q->answer_ifindex = (scope && scope->link) ? scope->link->ifindex : 0;

}

dns_query_complete(q, state);

}

int dns_query_cname_redirect(DnsQuery *q, const char *name) {

_cleanup_(dns_question_unrefp) DnsQuestion *nq = NULL;

int r;

assert(q);

if (q->n_cname_redirects > CNAME_MAX)

return -ELOOP;

r = dns_question_cname_redirect(q->question, name, &nq);

if (r < 0)

return r;

dns_question_unref(q->question);

q->question = nq;

nq = NULL;

q->n_cname_redirects++;

dns_query_stop(q);

q->state = DNS_TRANSACTION_NULL;

return 0;

}