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|
/*
SSSD
Async resolver
Authors:
Martin Nagy <mnagy@redhat.com>
Jakub Hrozek <jhrozek@redhat.com>
Copyright (C) Red Hat, Inc 2009
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include <sys/select.h>
#include <arpa/inet.h>
#include <arpa/nameser.h>
#include <ares.h>
#include <talloc.h>
#include <tevent.h>
#include <errno.h>
#include <netdb.h>
#include <stddef.h>
#include <string.h>
#include <unistd.h>
#include "config.h"
#include "resolv/async_resolv.h"
#include "util/dlinklist.h"
#include "util/util.h"
#ifndef HAVE_ARES_DATA
#define ares_parse_srv_reply(abuf, alen, srv_out) \
_ares_parse_srv_reply(abuf, alen, srv_out)
#define ares_parse_txt_reply(abuf, alen, txt_out) \
_ares_parse_txt_reply(abuf, alen, txt_out)
#define ares_free_data(dataptr) \
_ares_free_data(dataptr)
#define ares_malloc_data(data) \
_ares_malloc_data(data)
#endif /* HAVE_ARES_DATA */
#ifndef HAVE_STRUCT_ARES_ADDRTTL
#define ares_addrttl addrttl
#endif
#ifndef HAVE_STRUCT_ARES_ADDR6TTL
#define ares_addr6ttl addr6ttl
#endif
#define DNS__16BIT(p) (((p)[0] << 8) | (p)[1])
#define DNS_HEADER_ANCOUNT(h) DNS__16BIT((h) + 6)
#define RESOLV_TIMEOUTMS 5000
enum host_database default_host_dbs[] = { DB_FILES, DB_DNS, DB_SENTINEL };
struct fd_watch {
struct fd_watch *prev;
struct fd_watch *next;
int fd;
struct resolv_ctx *ctx;
struct tevent_fd *fde;
};
struct resolv_ctx {
/* Contexts are linked so we can keep track of them and re-create
* the ares channels in all of them at once if we need to. */
struct resolv_ctx *prev;
struct resolv_ctx *next;
struct tevent_context *ev_ctx;
ares_channel channel;
/* List of file descriptors that are watched by tevent. */
struct fd_watch *fds;
/* Time in milliseconds before canceling a DNS request */
int timeout;
/* The timeout watcher periodically calls ares_process_fd() to check
* if our pending requests didn't timeout. */
int pending_requests;
struct tevent_timer *timeout_watcher;
};
struct request_watch {
struct tevent_req *req;
struct resolv_request *rr;
};
struct resolv_request {
struct resolv_ctx *ctx;
struct request_watch *rwatch;
struct tevent_timer *request_timeout;
};
struct resolv_ctx *context_list;
errno_t
resolv_get_family_order(struct confdb_ctx *cdb, const char *conf_path,
enum restrict_family *family_order)
{
errno_t ret;
TALLOC_CTX *tmp_ctx;
char *str_opt;
tmp_ctx = talloc_new(NULL);
if (!tmp_ctx) return ENOMEM;
ret = confdb_get_string(cdb, tmp_ctx, conf_path,
CONFDB_DOMAIN_FAMILY_ORDER,
"ipv4_first", &str_opt);
if (ret != EOK) {
goto done;
}
DEBUG(7, ("Lookup order: %s\n", str_opt));
if (strcasecmp(str_opt, "ipv4_first") == 0) {
*family_order = IPV4_FIRST;
} else if (strcasecmp(str_opt, "ipv4_only") == 0) {
*family_order = IPV4_ONLY;
} else if (strcasecmp(str_opt, "ipv6_first") == 0) {
*family_order = IPV6_FIRST;
} else if (strcasecmp(str_opt, "ipv6_only") == 0) {
*family_order = IPV6_ONLY;
} else {
DEBUG(1, ("Unknown value for option %s: %s\n",
CONFDB_DOMAIN_FAMILY_ORDER, str_opt));
ret = EINVAL;
goto done;
}
ret = EOK;
done:
talloc_free(tmp_ctx);
return ret;
}
static int
return_code(int ares_code)
{
switch (ares_code) {
case ARES_SUCCESS:
return EOK;
case ARES_ENOMEM:
return ENOMEM;
case ARES_EFILE:
default:
return EIO;
}
}
const char *
resolv_strerror(int ares_code)
{
return ares_strerror(ares_code);
}
static int
fd_watch_destructor(struct fd_watch *f)
{
DLIST_REMOVE(f->ctx->fds, f);
f->fd = -1;
return 0;
}
static void
fd_input_available(struct tevent_context *ev, struct tevent_fd *fde,
uint16_t flags, void *data)
{
struct fd_watch *watch = talloc_get_type(data, struct fd_watch);
if (watch->ctx->channel == NULL) {
DEBUG(1, ("Invalid ares channel - this is likely a bug\n"));
return;
}
if (flags & TEVENT_FD_READ) {
ares_process_fd(watch->ctx->channel, watch->fd, ARES_SOCKET_BAD);
}
if (flags & TEVENT_FD_WRITE) {
ares_process_fd(watch->ctx->channel, ARES_SOCKET_BAD, watch->fd);
}
}
static void
check_fd_timeouts(struct tevent_context *ev, struct tevent_timer *te,
struct timeval current_time, void *private_data);
static void
add_timeout_timer(struct tevent_context *ev, struct resolv_ctx *ctx)
{
struct timeval tv = { 0, 0 };
struct timeval *tvp;
if (ctx->timeout_watcher) {
return;
}
tvp = ares_timeout(ctx->channel, NULL, &tv);
if (tvp == NULL) {
tvp = &tv;
}
/* Enforce a minimum of 1 second. */
if (tvp->tv_sec < 1) {
tv = tevent_timeval_current_ofs(1, 0);
} else {
tv = tevent_timeval_current_ofs(tvp->tv_sec, tvp->tv_usec);
}
ctx->timeout_watcher = tevent_add_timer(ev, ctx, tv, check_fd_timeouts,
ctx);
if (ctx->timeout_watcher == NULL) {
DEBUG(1, ("Out of memory\n"));
}
}
static void
check_fd_timeouts(struct tevent_context *ev, struct tevent_timer *te,
struct timeval current_time, void *private_data)
{
struct resolv_ctx *ctx = talloc_get_type(private_data, struct resolv_ctx);
DEBUG(9, ("Checking for DNS timeouts\n"));
/* NULLify the timeout_watcher so we don't
* free it in the _done() function if it
* gets called. Now that we're already in
* the handler, tevent will take care of
* freeing it when it returns.
*/
ctx->timeout_watcher = NULL;
ares_process_fd(ctx->channel, ARES_SOCKET_BAD, ARES_SOCKET_BAD);
if (ctx->pending_requests > 0) {
add_timeout_timer(ev, ctx);
}
}
static void
resolv_request_timeout(struct tevent_context *ev,
struct tevent_timer *te,
struct timeval tv, void *pvt)
{
struct resolv_request *rreq;
DEBUG(SSSDBG_MINOR_FAILURE, ("The resolve request timed out\n"));
rreq = talloc_get_type(pvt, struct resolv_request);
if (rreq->rwatch == NULL) {
DEBUG(SSSDBG_CRIT_FAILURE, ("The request already completed\n"));
return;
}
tevent_req_error(rreq->rwatch->req, ETIMEDOUT);
rreq->rwatch = NULL;
}
static int
request_watch_destructor(struct request_watch *rwatch)
{
DEBUG(SSSDBG_TRACE_FUNC, ("Deleting request watch\n"));
if (rwatch->rr) rwatch->rr->rwatch = NULL;
return 0;
}
static struct resolv_request *
schedule_request_timeout(struct tevent_context *ev, struct resolv_ctx *ctx,
struct tevent_req *req)
{
struct resolv_request *rreq;
struct timeval tv;
DEBUG(SSSDBG_TRACE_INTERNAL, ("Scheduling a timeout of %d seconds\n",
ctx->timeout));
tv = tevent_timeval_current_ofs(ctx->timeout, 0);
/* Intentionally allocating on ctx, because the request might go away
* before c-ares returns */
rreq = talloc(ctx, struct resolv_request);
if (!rreq) {
talloc_zfree(req);
return NULL;
}
rreq->ctx = ctx;
rreq->request_timeout = tevent_add_timer(ev, rreq, tv,
resolv_request_timeout,
rreq);
if (rreq->request_timeout == NULL) {
talloc_free(rreq);
return NULL;
}
/* The watch will go away when the request finishes */
rreq->rwatch = talloc(req, struct request_watch);
if (!rreq->rwatch) {
talloc_zfree(req);
return NULL;
}
rreq->rwatch->req = req;
rreq->rwatch->rr = rreq;
talloc_set_destructor(rreq->rwatch, request_watch_destructor);
return rreq;
}
static struct resolv_request *
schedule_timeout_watcher(struct tevent_context *ev, struct resolv_ctx *ctx,
struct tevent_req *req)
{
struct resolv_request *rreq;
rreq = schedule_request_timeout(ev, ctx, req);
if (!rreq) return NULL;
ctx->pending_requests++;
DEBUG(SSSDBG_TRACE_INTERNAL, ("Scheduling DNS timeout watcher\n"));
add_timeout_timer(ev, ctx);
return rreq;
}
static void
unschedule_timeout_watcher(struct resolv_ctx *ctx, struct resolv_request *rreq)
{
/* Unlink the watch if the request is still active */
if (rreq->rwatch) {
rreq->rwatch->rr = NULL;
}
talloc_free(rreq); /* Cancels the tevent timeout as well */
if (ctx->pending_requests <= 0) {
DEBUG(1, ("Pending DNS requests mismatch\n"));
return;
}
ctx->pending_requests--;
if (ctx->pending_requests == 0) {
DEBUG(9, ("Unscheduling DNS timeout watcher\n"));
talloc_zfree(ctx->timeout_watcher);
}
}
static void fd_event_add(struct resolv_ctx *ctx, int s, int flags);
static void fd_event_close(struct resolv_ctx *ctx, int s);
/*
* When ares is ready to read or write to a file descriptor, it will
* call this callback. If both read and write are 0, it means that ares
* will soon close the socket. We are mainly using this function to register
* new file descriptors with tevent.
*/
static void
fd_event(void *data, int s, int fd_read, int fd_write)
{
struct resolv_ctx *ctx = talloc_get_type(data, struct resolv_ctx);
struct fd_watch *watch;
int flags;
/* The socket is about to get closed. */
if (fd_read == 0 && fd_write == 0) {
fd_event_close(ctx, s);
return;
}
flags = fd_read ? TEVENT_FD_READ : 0;
flags |= fd_write ? TEVENT_FD_WRITE : 0;
/* Are we already watching this file descriptor? */
watch = ctx->fds;
while (watch) {
if (watch->fd == s) {
tevent_fd_set_flags(watch->fde, flags);
return;
}
watch = watch->next;
}
fd_event_add(ctx, s, flags);
}
static void
fd_event_add(struct resolv_ctx *ctx, int s, int flags)
{
struct fd_watch *watch;
/* The file descriptor is new, register it with tevent. */
watch = talloc(ctx, struct fd_watch);
if (watch == NULL) {
DEBUG(1, ("Out of memory allocating fd_watch structure\n"));
return;
}
talloc_set_destructor(watch, fd_watch_destructor);
watch->fd = s;
watch->ctx = ctx;
watch->fde = tevent_add_fd(ctx->ev_ctx, watch, s, flags,
fd_input_available, watch);
if (watch->fde == NULL) {
DEBUG(1, ("tevent_add_fd() failed\n"));
talloc_free(watch);
return;
}
DLIST_ADD(ctx->fds, watch);
}
static void
fd_event_close(struct resolv_ctx *ctx, int s)
{
struct fd_watch *watch;
/* Remove the socket from list */
watch = ctx->fds;
while (watch) {
if (watch->fd == s) {
talloc_free(watch);
return;
}
watch = watch->next;
}
}
static int
resolv_ctx_destructor(struct resolv_ctx *ctx)
{
ares_channel channel;
DLIST_REMOVE(context_list, ctx);
if (ctx->channel == NULL) {
DEBUG(1, ("Ares channel already destroyed?\n"));
return -1;
}
/* Set ctx->channel to NULL first, so that callbacks that get
* ARES_EDESTRUCTION won't retry. */
channel = ctx->channel;
ctx->channel = NULL;
ares_destroy(channel);
return 0;
}
static int
recreate_ares_channel(struct resolv_ctx *ctx)
{
int ret;
ares_channel new_channel;
ares_channel old_channel;
struct ares_options options;
DEBUG(4, ("Initializing new c-ares channel\n"));
/* FIXME: the options would contain
* the nameservers to contact, the domains
* to search... => get from confdb
*/
options.sock_state_cb = fd_event;
options.sock_state_cb_data = ctx;
options.timeout = RESOLV_TIMEOUTMS;
/* Only affects ares_gethostbyname */
options.lookups = discard_const("f");
options.tries = 1;
ret = ares_init_options(&new_channel, &options,
ARES_OPT_SOCK_STATE_CB |
ARES_OPT_TIMEOUTMS |
ARES_OPT_LOOKUPS |
ARES_OPT_TRIES);
if (ret != ARES_SUCCESS) {
DEBUG(1, ("Failed to initialize ares channel: %s\n",
resolv_strerror(ret)));
return return_code(ret);
}
old_channel = ctx->channel;
ctx->channel = new_channel;
if (old_channel != NULL) {
DEBUG(4, ("Destroying the old c-ares channel\n"));
ares_destroy(old_channel);
}
return EOK;
}
int
resolv_init(TALLOC_CTX *mem_ctx, struct tevent_context *ev_ctx,
int timeout, struct resolv_ctx **ctxp)
{
int ret;
struct resolv_ctx *ctx;
if (timeout < 1) {
return EINVAL;
}
ctx = talloc_zero(mem_ctx, struct resolv_ctx);
if (ctx == NULL)
return ENOMEM;
ctx->ev_ctx = ev_ctx;
ctx->timeout = timeout;
ret = recreate_ares_channel(ctx);
if (ret != EOK) {
goto done;
}
DLIST_ADD(context_list, ctx);
talloc_set_destructor(ctx, resolv_ctx_destructor);
*ctxp = ctx;
return EOK;
done:
talloc_free(ctx);
return ret;
}
void
resolv_reread_configuration(void)
{
struct resolv_ctx *ctx;
DEBUG(4, ("Recreating all c-ares channels\n"));
DLIST_FOR_EACH(ctx, context_list) {
recreate_ares_channel(ctx);
}
}
static errno_t
resolv_copy_in_addr(TALLOC_CTX *mem_ctx, struct resolv_addr *ret,
struct ares_addrttl *attl)
{
ret->ipaddr = talloc_array(mem_ctx, uint8_t, sizeof(struct in_addr));
if (!ret->ipaddr) return ENOMEM;
memcpy(ret->ipaddr, &attl->ipaddr, sizeof(struct in_addr));
ret->ttl = attl->ttl;
return EOK;
}
static errno_t
resolv_copy_in6_addr(TALLOC_CTX *mem_ctx, struct resolv_addr *ret,
struct ares_addr6ttl *a6ttl)
{
ret->ipaddr = talloc_array(mem_ctx, uint8_t, sizeof(struct in6_addr));
if (!ret->ipaddr) return ENOMEM;
memcpy(ret->ipaddr, &a6ttl->ip6addr, sizeof(struct in6_addr));
ret->ttl = a6ttl->ttl;
return EOK;
}
static struct resolv_hostent *
resolv_copy_hostent_common(TALLOC_CTX *mem_ctx, struct hostent *src)
{
struct resolv_hostent *ret;
int len;
int i;
ret = talloc_zero(mem_ctx, struct resolv_hostent);
if (ret == NULL) {
return NULL;
}
if (src->h_name != NULL) {
ret->name = talloc_strdup(ret, src->h_name);
if (ret->name == NULL) {
goto fail;
}
}
if (src->h_aliases != NULL) {
for (len = 0; src->h_aliases[len] != NULL; len++);
ret->aliases = talloc_array(ret, char *, len + 1);
if (ret->aliases == NULL) {
goto fail;
}
for (i = 0; i < len; i++) {
ret->aliases[i] = talloc_strdup(ret->aliases, src->h_aliases[i]);
if (ret->aliases[i] == NULL) {
goto fail;
}
}
ret->aliases[len] = NULL;
}
ret->family = src->h_addrtype;
return ret;
fail:
talloc_free(ret);
return NULL;
}
struct resolv_hostent *
resolv_copy_hostent(TALLOC_CTX *mem_ctx, struct hostent *src)
{
struct resolv_hostent *ret;
int len;
int i;
ret = resolv_copy_hostent_common(mem_ctx, src);
if (ret == NULL) {
return NULL;
}
if (src->h_addr_list != NULL) {
for (len = 0; src->h_addr_list[len] != NULL; len++);
ret->addr_list = talloc_array(ret, struct resolv_addr *, len + 1);
if (ret->addr_list == NULL) {
goto fail;
}
for (i = 0; i < len; i++) {
ret->addr_list[i] = talloc_zero(ret->addr_list,
struct resolv_addr);
if (ret->addr_list[i] == NULL) {
goto fail;
}
ret->addr_list[i]->ipaddr = talloc_memdup(ret->addr_list[i],
src->h_addr_list[i],
src->h_length);
if (ret->addr_list[i]->ipaddr == NULL) {
goto fail;
}
ret->addr_list[i]->ttl = RESOLV_DEFAULT_TTL;
}
ret->addr_list[len] = NULL;
}
return ret;
fail:
talloc_free(ret);
return NULL;
}
struct resolv_hostent *
resolv_copy_hostent_ares(TALLOC_CTX *mem_ctx, struct hostent *src,
int family, void *ares_ttl_data,
int num_ares_ttl_data)
{
struct resolv_hostent *ret;
errno_t cret;
int i;
ret = resolv_copy_hostent_common(mem_ctx, src);
if (ret == NULL) {
return NULL;
}
if (num_ares_ttl_data > 0) {
ret->addr_list = talloc_array(ret, struct resolv_addr *,
num_ares_ttl_data + 1);
if (ret->addr_list == NULL) {
goto fail;
}
for (i = 0; i < num_ares_ttl_data; i++) {
ret->addr_list[i] = talloc_zero(ret->addr_list,
struct resolv_addr);
if (ret->addr_list[i] == NULL) {
goto fail;
}
switch (family) {
case AF_INET:
cret = resolv_copy_in_addr(ret->addr_list, ret->addr_list[i],
&((struct ares_addrttl *) ares_ttl_data)[i]);
break;
case AF_INET6:
cret = resolv_copy_in6_addr(ret->addr_list, ret->addr_list[i],
&((struct ares_addr6ttl *) ares_ttl_data)[i]);
break;
default:
DEBUG(1, ("Unknown address family %d\n"));
goto fail;
}
if (cret != EOK) {
DEBUG(1, ("Could not copy address\n"));
goto fail;
}
}
ret->addr_list[num_ares_ttl_data] = NULL;
}
ret->family = family;
return ret;
fail:
talloc_free(ret);
return NULL;
}
/* =================== Resolve host name in files =========================*/
struct gethostbyname_files_state {
struct resolv_ctx *resolv_ctx;
/* Part of the query. */
const char *name;
int family;
/* query result */
struct resolv_hostent *rhostent;
/* returned by ares. */
int status;
};
/* Fake up an async interface even though files would
* always be blocking */
static struct tevent_req *
resolv_gethostbyname_files_send(TALLOC_CTX *mem_ctx,
struct tevent_context *ev,
struct resolv_ctx *ctx,
const char *name,
int family)
{
struct tevent_req *req;
struct gethostbyname_files_state *state;
struct hostent *hostent = NULL;
req = tevent_req_create(mem_ctx, &state,
struct gethostbyname_files_state);
if (req == NULL) {
tevent_req_error(req, ENOMEM);
goto done;
}
state->resolv_ctx = ctx;
state->name = name;
state->rhostent = NULL;
state->family = family;
DEBUG(4, ("Trying to resolve %s record of '%s' in files\n",
state->family == AF_INET ? "A" : "AAAA", state->name));
state->status = ares_gethostbyname_file(state->resolv_ctx->channel,
state->name, state->family,
&hostent);
if (state->status == ARES_SUCCESS) {
state->rhostent = resolv_copy_hostent(state, hostent);
if (state->rhostent == NULL) {
tevent_req_error(req, ENOMEM);
goto done;
}
} else if (state->status == ARES_ENOTFOUND ||
state->status == ARES_ENODATA) {
/* Just say we didn't find anything and let the caller decide
* about retrying */
tevent_req_error(req, ENOENT);
goto done;
} else {
tevent_req_error(req, return_code(state->status));
goto done;
}
tevent_req_done(req);
done:
if (hostent) ares_free_hostent(hostent);
tevent_req_post(req, ev);
return req;
}
static errno_t
resolv_gethostbyname_files_recv(struct tevent_req *req, TALLOC_CTX *mem_ctx,
int *status, struct resolv_hostent **rhostent)
{
struct gethostbyname_files_state *state = tevent_req_data(req,
struct gethostbyname_files_state);
/* Fill in even in case of error as status contains the
* c-ares return code */
if (status) {
*status = state->status;
}
if (rhostent) {
*rhostent = talloc_steal(mem_ctx, state->rhostent);
}
TEVENT_REQ_RETURN_ON_ERROR(req);
return EOK;
}
/* ==================== Resolve host name in DNS =========================*/
struct gethostbyname_dns_state {
struct resolv_ctx *resolv_ctx;
struct tevent_context *ev;
/* Part of the query. */
const char *name;
int family;
/* query result */
struct resolv_hostent *rhostent;
/* These are returned by ares. */
int status;
int timeouts;
int retrying;
};
static void
resolv_gethostbyname_dns_wakeup(struct tevent_req *subreq);
static void
resolv_gethostbyname_dns_query(struct tevent_req *req,
struct gethostbyname_dns_state *state);
static void
resolv_gethostbyname_dns_query_done(void *arg, int status, int timeouts,
unsigned char *abuf, int alen);
static int
resolv_gethostbyname_dns_parse(struct gethostbyname_dns_state *state, int status,
int timeouts, unsigned char *abuf, int alen);
static struct tevent_req *
resolv_gethostbyname_dns_send(TALLOC_CTX *mem_ctx, struct tevent_context *ev,
struct resolv_ctx *ctx, const char *name,
int family)
{
struct tevent_req *req, *subreq;
struct gethostbyname_dns_state *state;
struct timeval tv = { 0, 0 };
if (ctx->channel == NULL) {
DEBUG(1, ("Invalid ares channel - this is likely a bug\n"));
return NULL;
}
req = tevent_req_create(mem_ctx, &state, struct gethostbyname_dns_state);
if (req == NULL) {
return NULL;
}
state->resolv_ctx = ctx;
state->ev = ev;
state->name = name;
state->rhostent = NULL;
state->status = 0;
state->timeouts = 0;
state->retrying = 0;
state->family = family;
/* We need to have a wrapper around ares async calls, because
* they can in some cases call it's callback immediately.
* This would not let our caller to set a callback for req. */
subreq = tevent_wakeup_send(req, ev, tv);
if (subreq == NULL) {
DEBUG(1, ("Failed to add critical timer to run next operation!\n"));
talloc_zfree(req);
return NULL;
}
tevent_req_set_callback(subreq, resolv_gethostbyname_dns_wakeup, req);
return req;
}
static void
resolv_gethostbyname_dns_wakeup(struct tevent_req *subreq)
{
struct tevent_req *req = tevent_req_callback_data(subreq,
struct tevent_req);
struct gethostbyname_dns_state *state = tevent_req_data(req,
struct gethostbyname_dns_state);
if (!tevent_wakeup_recv(subreq)) {
tevent_req_error(req, EIO);
return;
}
talloc_zfree(subreq);
if (state->resolv_ctx->channel == NULL) {
DEBUG(1, ("Invalid ares channel - this is likely a bug\n"));
tevent_req_error(req, EIO);
return;
}
resolv_gethostbyname_dns_query(req, state);
}
static void
resolv_gethostbyname_dns_query(struct tevent_req *req,
struct gethostbyname_dns_state *state)
{
struct resolv_request *rreq;
DEBUG(4, ("Trying to resolve %s record of '%s' in DNS\n",
state->family == AF_INET ? "A" : "AAAA", state->name));
rreq = schedule_timeout_watcher(state->ev, state->resolv_ctx, req);
if (!rreq) {
tevent_req_error(req, ENOMEM);
return;
}
ares_search(state->resolv_ctx->channel,
state->name, ns_c_in,
(state->family == AF_INET) ? ns_t_a : ns_t_aaaa,
resolv_gethostbyname_dns_query_done, rreq);
}
static void
resolv_gethostbyname_dns_query_done(void *arg, int status, int timeouts,
unsigned char *abuf, int alen)
{
errno_t ret;
struct gethostbyname_dns_state *state;
struct resolv_request *rreq = talloc_get_type(arg, struct resolv_request);
struct tevent_req *req;
if (rreq->rwatch == NULL) {
/* The tevent request was cancelled while the ares call was still in
* progress so nobody cares about the result now. Quit. */
unschedule_timeout_watcher(rreq->ctx, rreq);
return;
}
req = rreq->rwatch->req;
unschedule_timeout_watcher(rreq->ctx, rreq);
state = tevent_req_data(req, struct gethostbyname_dns_state);
state->status = status;
state->timeouts = timeouts;
/* If resolv.conf changed during processing of a request we might
* destroy the old channel before the request has a chance to finish.
* We must resend the request in this case */
if (state->retrying == 0 && status == ARES_EDESTRUCTION
&& state->resolv_ctx->channel != NULL) {
state->retrying = 1;
resolv_gethostbyname_dns_query(req, state);
return;
}
if (status == ARES_ENOTFOUND || status == ARES_ENODATA) {
/* Just say we didn't find anything and let the caller decide
* about retrying */
tevent_req_error(req, ENOENT);
return;
}
if (status != ARES_SUCCESS) {
/* Any other error indicates a server error,
* so don't bother trying again
*/
tevent_req_error(req, return_code(status));
return;
}
ret = resolv_gethostbyname_dns_parse(state, status, timeouts, abuf, alen);
if (ret != EOK) {
tevent_req_error(req, ret);
return;
}
tevent_req_done(req);
}
static int
resolv_gethostbyname_dns_parse(struct gethostbyname_dns_state *state,
int status, int timeouts,
unsigned char *abuf, int alen)
{
TALLOC_CTX *tmp_ctx;
struct hostent *hostent;
int naddrttls;
errno_t ret;
void *addr;
tmp_ctx = talloc_new(NULL);
if (!tmp_ctx) return ENOMEM;
naddrttls = DNS_HEADER_ANCOUNT(abuf);
switch (state->family) {
case AF_INET:
DEBUG(7, ("Parsing an A reply\n"));
addr = talloc_array(state, struct ares_addrttl, naddrttls);
if (!addr) {
ret = ENOMEM;
goto fail;
}
status = ares_parse_a_reply(abuf, alen, &hostent,
(struct ares_addrttl *) addr,
&naddrttls);
break;
case AF_INET6:
DEBUG(7, ("Parsing an AAAA reply\n"));
addr = talloc_array(state, struct ares_addr6ttl, naddrttls);
if (!addr) {
ret = ENOMEM;
goto fail;
}
status = ares_parse_aaaa_reply(abuf, alen, &hostent,
(struct ares_addr6ttl *) addr,
&naddrttls);
break;
default:
DEBUG(1, ("Unknown family %d\n", state->family));
ret = EAFNOSUPPORT;
goto fail;
}
if (hostent != NULL) {
state->rhostent = resolv_copy_hostent_ares(state, hostent,
state->family,
addr, naddrttls);
ares_free_hostent(hostent);
if (state->rhostent == NULL) {
ret = ENOMEM;
goto fail;
}
}
talloc_free(tmp_ctx);
return return_code(status);
fail:
talloc_free(tmp_ctx);
return ret;
}
static int
resolv_gethostbyname_dns_recv(struct tevent_req *req, TALLOC_CTX *mem_ctx,
int *status, int *timeouts,
struct resolv_hostent **rhostent)
{
struct gethostbyname_dns_state *state = tevent_req_data(req,
struct gethostbyname_dns_state);
/* Fill in even in case of error as status contains the
* c-ares return code */
if (status) {
*status = state->status;
}
if (timeouts) {
*timeouts = state->timeouts;
}
if (rhostent) {
*rhostent = talloc_steal(mem_ctx, state->rhostent);
}
TEVENT_REQ_RETURN_ON_ERROR(req);
return EOK;
}
/*******************************************************************
* Get host by name. *
*******************************************************************/
struct gethostbyname_state {
struct resolv_ctx *resolv_ctx;
struct tevent_context *ev;
/* Part of the query. */
const char *name;
int family;
/* In which order to use IPv4, or v6 */
enum restrict_family family_order;
/* Known hosts databases and index to the current one */
enum host_database *db;
int dbi;
/* These are returned by ares. The hostent struct will be freed
* when the user callback returns. */
struct resolv_hostent *rhostent;
int status;
int timeouts;
int retrying;
};
static errno_t
resolv_gethostbyname_address(TALLOC_CTX *mem_ctx, const char *address,
struct resolv_hostent **_rhostent);
static inline int
resolv_gethostbyname_family_init(enum restrict_family family_order);
static bool
resolv_is_address(const char *name);
static errno_t
resolv_gethostbyname_step(struct tevent_req *req);
struct tevent_req *
resolv_gethostbyname_send(TALLOC_CTX *mem_ctx, struct tevent_context *ev,
struct resolv_ctx *ctx, const char *name,
enum restrict_family family_order,
enum host_database *db)
{
struct tevent_req *req;
struct gethostbyname_state *state;
errno_t ret;
if (ctx->channel == NULL) {
DEBUG(1, ("Invalid ares channel - this is likely a bug\n"));
return NULL;
}
req = tevent_req_create(mem_ctx, &state, struct gethostbyname_state);
if (req == NULL) {
return NULL;
}
state->resolv_ctx = ctx;
state->ev = ev;
state->name = name;
state->rhostent = NULL;
state->status = 0;
state->timeouts = 0;
state->retrying = 0;
state->family_order = family_order;
state->family = resolv_gethostbyname_family_init(state->family_order);
state->db = db;
state->dbi = 0;
/* Do not attempt to resolve IP addresses */
if (resolv_is_address(state->name)) {
ret = resolv_gethostbyname_address(state, state->name,
&state->rhostent);
if (ret != EOK) {
DEBUG(1, ("Canot create a fake hostent structure\n"));
talloc_zfree(req);
return NULL;
}
tevent_req_done(req);
tevent_req_post(req, ev);
return req;
}
ret = resolv_gethostbyname_step(req);
if (ret != EOK) {
DEBUG(1, ("Cannot start the resolving\n"));
talloc_zfree(req);
return NULL;
}
return req;
}
static bool
resolv_is_address(const char *name)
{
struct addrinfo hints;
struct addrinfo *res = NULL;
int ret;
memset((void *) &hints, 0, sizeof(struct addrinfo));
hints.ai_family = AF_UNSPEC;
hints.ai_flags = AI_NUMERICHOST; /* No network lookups */
ret = getaddrinfo(name, NULL, &hints, &res);
freeaddrinfo(res);
if (ret != 0) {
if (ret == -2) {
DEBUG(9, ("[%s] does not look like an IP address\n", name));
} else {
DEBUG(2, ("getaddrinfo failed [%d]: %s\n",
ret, gai_strerror(ret)));
}
}
return ret == 0;
}
static errno_t
resolv_gethostbyname_address(TALLOC_CTX *mem_ctx, const char *address,
struct resolv_hostent **_rhostent)
{
struct resolv_hostent *rhostent;
TALLOC_CTX *tmp_ctx;
errno_t ret;
int family;
tmp_ctx = talloc_new(NULL);
if (!tmp_ctx) return ENOMEM;
rhostent = talloc_zero(tmp_ctx, struct resolv_hostent);
if (!rhostent) {
ret = ENOMEM;
goto done;
}
rhostent->name = talloc_strdup(rhostent, address);
rhostent->addr_list = talloc_array(rhostent, struct resolv_addr *, 2);
if (!rhostent->name ||
!rhostent->addr_list) {
ret = ENOMEM;
goto done;
}
rhostent->addr_list[0] = talloc_zero(rhostent->addr_list,
struct resolv_addr);
if (!rhostent->addr_list[0]) {
ret = ENOMEM;
goto done;
}
rhostent->addr_list[0]->ipaddr = talloc_array(rhostent->addr_list[0],
uint8_t,
sizeof(struct in6_addr));
if (!rhostent->addr_list[0]->ipaddr) {
ret = ENOMEM;
goto done;
}
family = AF_INET;
ret = inet_pton(family, address,
rhostent->addr_list[0]->ipaddr);
if (ret != 1) {
family = AF_INET6;
ret = inet_pton(family, address,
rhostent->addr_list[0]->ipaddr);
if (ret != 1) {
DEBUG(1, ("Could not parse address as neither v4 nor v6\n"));
ret = EINVAL;
goto done;
}
}
rhostent->addr_list[0]->ttl = RESOLV_DEFAULT_TTL;
rhostent->addr_list[1] = NULL;
rhostent->family = family;
rhostent->aliases = NULL;
*_rhostent = talloc_move(mem_ctx, &rhostent);
ret = EOK;
done:
talloc_free(tmp_ctx);
return ret;
}
static inline int
resolv_gethostbyname_family_init(enum restrict_family family_order)
{
switch(family_order) {
case IPV4_ONLY:
case IPV4_FIRST:
return AF_INET;
case IPV6_ONLY:
case IPV6_FIRST:
return AF_INET6;
}
DEBUG(1, ("Unknown address family order %d\n", family_order));
return -1;
}
static int
resolv_gethostbyname_next(struct gethostbyname_state *state)
{
if (state->family_order == IPV4_FIRST &&
state->family == AF_INET) {
state->family = AF_INET6;
return EOK;
} else if (state->family_order == IPV6_FIRST &&
state->family == AF_INET6) {
state->family = AF_INET;
return EOK;
} else {
/* No more address families for this DB, check if
* there is another DB to try */
DEBUG(5, ("No more address families to retry\n"));
state->dbi++;
if (state->db[state->dbi] != DB_SENTINEL) {
state->family = resolv_gethostbyname_family_init(
state->family_order);
return EOK;
}
}
DEBUG(4, ("No more hosts databases to retry\n"));
return ENOENT;
}
static void
resolv_gethostbyname_done(struct tevent_req *subreq);
static errno_t
resolv_gethostbyname_step(struct tevent_req *req)
{
struct gethostbyname_state *state = tevent_req_data(req,
struct gethostbyname_state);
struct tevent_req *subreq;
switch(state->db[state->dbi]) {
case DB_FILES:
DEBUG(8, ("Querying files\n"));
subreq = resolv_gethostbyname_files_send(state, state->ev,
state->resolv_ctx,
state->name,
state->family);
break;
case DB_DNS:
DEBUG(8, ("Querying DNS\n"));
subreq = resolv_gethostbyname_dns_send(state, state->ev,
state->resolv_ctx,
state->name,
state->family);
break;
default:
DEBUG(1, ("Invalid hosts database\n"));
return EINVAL;
}
if (subreq == NULL) {
return ENOMEM;
}
tevent_req_set_callback(subreq, resolv_gethostbyname_done, req);
return EOK;
}
static void
resolv_gethostbyname_done(struct tevent_req *subreq)
{
struct tevent_req *req = tevent_req_callback_data(subreq,
struct tevent_req);
struct gethostbyname_state *state = tevent_req_data(req,
struct gethostbyname_state);
errno_t ret;
switch(state->db[state->dbi]) {
case DB_FILES:
ret = resolv_gethostbyname_files_recv(subreq, state,
&state->status,
&state->rhostent);
/* files is synchronous, there can be no timeouts */
state->timeouts = 0;
break;
case DB_DNS:
ret = resolv_gethostbyname_dns_recv(subreq, state,
&state->status, &state->timeouts,
&state->rhostent);
break;
default:
DEBUG(1, ("Invalid hosts database\n"));
tevent_req_error(req, EINVAL);
return;
}
talloc_zfree(subreq);
if (ret == ENOENT) {
ret = resolv_gethostbyname_next(state);
if (ret == EOK) {
ret = resolv_gethostbyname_step(req);
if (ret != EOK) {
tevent_req_error(req, ret);
}
return;
}
/* No more databases and/or address families */
tevent_req_error(req, ENOENT);
return;
}
if (ret != EOK) {
DEBUG(2, ("querying hosts database failed [%d]: %s\n",
ret, strerror(ret)));
tevent_req_error(req, ret);
return;
}
tevent_req_done(req);
}
int
resolv_gethostbyname_recv(struct tevent_req *req, TALLOC_CTX *mem_ctx,
int *status, int *timeouts,
struct resolv_hostent **rhostent)
{
struct gethostbyname_state *state = tevent_req_data(req, struct gethostbyname_state);
/* Fill in even in case of error as status contains the
* c-ares return code */
if (status) {
*status = state->status;
}
if (timeouts) {
*timeouts = state->timeouts;
}
if (rhostent) {
*rhostent = talloc_steal(mem_ctx, state->rhostent);
}
TEVENT_REQ_RETURN_ON_ERROR(req);
return EOK;
}
char *
resolv_get_string_address_index(TALLOC_CTX *mem_ctx,
struct resolv_hostent *hostent,
unsigned int addrindex)
{
char *address;
if (!hostent) return NULL;
address = talloc_zero_size(mem_ctx, 128);
if (address == NULL) {
DEBUG(1, ("talloc_zero failed.\n"));
return NULL;
}
errno = 0;
if (inet_ntop(hostent->family, hostent->addr_list[addrindex]->ipaddr,
address, 128) == NULL) {
DEBUG(1, ("inet_ntop failed [%d][%s].\n", errno, strerror(errno)));
talloc_free(address);
return NULL;
}
return address;
}
struct sockaddr_storage *
resolv_get_sockaddr_address(TALLOC_CTX *mem_ctx, struct resolv_hostent *hostent,
int port)
{
struct sockaddr_storage *sockaddr;
if (!hostent) return NULL;
sockaddr = talloc_zero(mem_ctx, struct sockaddr_storage);
if (sockaddr == NULL) {
DEBUG(1, ("talloc_zero failed.\n"));
return NULL;
}
switch(hostent->family) {
case AF_INET:
sockaddr->ss_family = AF_INET;
memcpy(&((struct sockaddr_in *) sockaddr)->sin_addr,
hostent->addr_list[0]->ipaddr, sizeof(struct in_addr));
((struct sockaddr_in *) sockaddr)->sin_port = (in_port_t) htons(port);
break;
case AF_INET6:
sockaddr->ss_family = AF_INET6;
memcpy(&((struct sockaddr_in6 *) sockaddr)->sin6_addr,
hostent->addr_list[0]->ipaddr, sizeof(struct in6_addr));
((struct sockaddr_in6 *) sockaddr)->sin6_port = (in_port_t) htons(port);
break;
default:
DEBUG(1, ("Unknown address family %d\n"));
return NULL;
}
return sockaddr;
}
/*
* A simple helper function that will take an array of struct ares_srv_reply that
* was allocated by malloc() in c-ares and copies it using talloc. The old one
* is freed and the talloc one is put into 'reply_list' instead.
*/
static int
rewrite_talloc_srv_reply(TALLOC_CTX *mem_ctx, struct ares_srv_reply **reply_list)
{
struct ares_srv_reply *ptr = NULL;
struct ares_srv_reply *new_list = NULL;
struct ares_srv_reply *old_list = *reply_list;
/* Nothing to do, but not an error */
if (!old_list) {
return EOK;
}
/* Copy the linked list */
while (old_list) {
/* Special case for the first node */
if (!new_list) {
new_list = talloc_zero(mem_ctx, struct ares_srv_reply);
if (new_list == NULL) {
ares_free_data(*reply_list);
return ENOMEM;
}
ptr = new_list;
} else {
ptr->next = talloc_zero(new_list, struct ares_srv_reply);
if (ptr->next == NULL) {
ares_free_data(*reply_list);
talloc_free(new_list);
return ENOMEM;
}
ptr = ptr->next;
}
ptr->weight = old_list->weight;
ptr->priority = old_list->priority;
ptr->port = old_list->port;
ptr->host = talloc_strdup(ptr, old_list->host);
if (ptr->host == NULL) {
ares_free_data(*reply_list);
talloc_free(new_list);
return ENOMEM;
}
old_list = old_list->next;
}
/* Free the old one (uses malloc). */
ares_free_data(*reply_list);
/* And now put our own new_list in place. */
*reply_list = new_list;
return EOK;
}
/*******************************************************************
* Get SRV record *
*******************************************************************/
struct getsrv_state {
struct tevent_context *ev;
struct resolv_ctx *resolv_ctx;
/* the SRV query - for example _ldap._tcp.example.com */
const char *query;
/* parsed data returned by ares */
struct ares_srv_reply *reply_list;
int status;
int timeouts;
int retrying;
};
static void
ares_getsrv_wakeup(struct tevent_req *subreq);
static void
resolv_getsrv_query(struct tevent_req *req,
struct getsrv_state *state);
struct tevent_req *
resolv_getsrv_send(TALLOC_CTX *mem_ctx, struct tevent_context *ev,
struct resolv_ctx *ctx, const char *query)
{
struct tevent_req *req, *subreq;
struct getsrv_state *state;
struct timeval tv = { 0, 0 };
DEBUG(4, ("Trying to resolve SRV record of '%s'\n", query));
if (ctx->channel == NULL) {
DEBUG(1, ("Invalid ares channel - this is likely a bug\n"));
return NULL;
}
req = tevent_req_create(mem_ctx, &state, struct getsrv_state);
if (req == NULL)
return NULL;
state->resolv_ctx = ctx;
state->query = query;
state->reply_list = NULL;
state->status = 0;
state->timeouts = 0;
state->retrying = 0;
state->ev = ev;
subreq = tevent_wakeup_send(req, ev, tv);
if (subreq == NULL) {
DEBUG(1, ("Failed to add critical timer to run next operation!\n"));
talloc_zfree(req);
return NULL;
}
tevent_req_set_callback(subreq, ares_getsrv_wakeup, req);
return req;
}
static void
resolv_getsrv_done(void *arg, int status, int timeouts, unsigned char *abuf, int alen)
{
struct resolv_request *rreq = talloc_get_type(arg, struct resolv_request);
struct tevent_req *req;
struct getsrv_state *state;
int ret;
struct ares_srv_reply *reply_list;
if (rreq->rwatch == NULL) {
/* The tevent request was cancelled while the ares call was still in
* progress so nobody cares about the result now. Quit. */
unschedule_timeout_watcher(rreq->ctx, rreq);
return;
}
req = rreq->rwatch->req;
unschedule_timeout_watcher(rreq->ctx, rreq);
state = tevent_req_data(req, struct getsrv_state);
if (state->retrying == 0 && status == ARES_EDESTRUCTION
&& state->resolv_ctx->channel != NULL) {
state->retrying = 1;
resolv_getsrv_query(req, state);
return;
}
state->status = status;
state->timeouts = timeouts;
if (status != ARES_SUCCESS) {
ret = return_code(status);
goto fail;
}
ret = ares_parse_srv_reply(abuf, alen, &reply_list);
if (status != ARES_SUCCESS) {
DEBUG(2, ("SRV record parsing failed: %d: %s\n", ret, ares_strerror(ret)));
ret = return_code(ret);
goto fail;
}
ret = rewrite_talloc_srv_reply(req, &reply_list);
if (ret != EOK) {
goto fail;
}
state->reply_list = reply_list;
tevent_req_done(req);
return;
fail:
state->reply_list = NULL;
tevent_req_error(req, ret);
}
int
resolv_getsrv_recv(TALLOC_CTX *mem_ctx, struct tevent_req *req, int *status,
int *timeouts, struct ares_srv_reply **reply_list)
{
struct getsrv_state *state = tevent_req_data(req, struct getsrv_state);
if (status)
*status = state->status;
if (timeouts)
*timeouts = state->timeouts;
if (reply_list)
*reply_list = talloc_steal(mem_ctx, state->reply_list);
TEVENT_REQ_RETURN_ON_ERROR(req);
return EOK;
}
static void
ares_getsrv_wakeup(struct tevent_req *subreq)
{
struct tevent_req *req = tevent_req_callback_data(subreq,
struct tevent_req);
struct getsrv_state *state = tevent_req_data(req,
struct getsrv_state);
if (!tevent_wakeup_recv(subreq)) {
return;
}
talloc_zfree(subreq);
if (state->resolv_ctx->channel == NULL) {
DEBUG(1, ("Invalid ares channel - this is likely a bug\n"));
tevent_req_error(req, EIO);
return;
}
return resolv_getsrv_query(req, state);
}
static void
resolv_getsrv_query(struct tevent_req *req,
struct getsrv_state *state)
{
struct resolv_request *rreq;
rreq = schedule_timeout_watcher(state->ev, state->resolv_ctx, req);
if (!rreq) {
tevent_req_error(req, ENOMEM);
return;
}
ares_query(state->resolv_ctx->channel, state->query,
ns_c_in, ns_t_srv, resolv_getsrv_done, rreq);
}
/* TXT parsing is not used anywhere in the code yet, so we disable it
* for now
*/
#ifdef BUILD_TXT
/*
* A simple helper function that will take an array of struct txt_reply that
* was allocated by malloc() in c-ares and copies it using talloc. The old one
* is freed and the talloc one is put into 'reply_list' instead.
*/
static int
rewrite_talloc_txt_reply(TALLOC_CTX *mem_ctx, struct ares_txt_reply **reply_list)
{
struct ares_txt_reply *ptr = NULL;
struct ares_txt_reply *new_list = NULL;
struct ares_txt_reply *old_list = *reply_list;
/* Nothing to do, but not an error */
if (!old_list) {
return EOK;
}
/* Copy the linked list */
while (old_list) {
/* Special case for the first node */
if (!new_list) {
new_list = talloc_zero(mem_ctx, struct ares_txt_reply);
if (new_list == NULL) {
ares_free_data(*reply_list);
talloc_free(new_list);
return ENOMEM;
}
ptr = new_list;
} else {
ptr->next = talloc_zero(new_list, struct ares_txt_reply);
if (ptr->next == NULL) {
ares_free_data(*reply_list);
talloc_free(new_list);
return ENOMEM;
}
ptr = ptr->next;
}
ptr->length = old_list->length;
ptr->txt = talloc_memdup(ptr, old_list->txt,
old_list->length);
if (ptr->txt == NULL) {
ares_free_data(*reply_list);
talloc_free(new_list);
return ENOMEM;
}
old_list = old_list->next;
}
ares_free_data(*reply_list);
/* And now put our own new_list in place. */
*reply_list = new_list;
return EOK;
}
/*******************************************************************
* Get TXT record *
*******************************************************************/
struct gettxt_state {
struct tevent_context *ev;
struct resolv_ctx *resolv_ctx;
/* the TXT query */
const char *query;
/* parsed data returned by ares */
struct ares_txt_reply *reply_list;
int status;
int timeouts;
int retrying;
};
static void
ares_gettxt_wakeup(struct tevent_req *subreq);
static void
resolv_gettxt_query(struct tevent_req *req,
struct gettxt_state *state);
struct tevent_req *
resolv_gettxt_send(TALLOC_CTX *mem_ctx, struct tevent_context *ev,
struct resolv_ctx *ctx, const char *query)
{
struct tevent_req *req, *subreq;
struct gettxt_state *state;
struct timeval tv = { 0, 0 };
DEBUG(4, ("Trying to resolve TXT record of '%s'\n", query));
if (ctx->channel == NULL) {
DEBUG(1, ("Invalid ares channel - this is likely a bug\n"));
return NULL;
}
req = tevent_req_create(mem_ctx, &state, struct gettxt_state);
if (req == NULL)
return NULL;
state->resolv_ctx = ctx;
state->query = query;
state->reply_list = NULL;
state->status = 0;
state->timeouts = 0;
state->retrying = 0;
state->ev = ev;
subreq = tevent_wakeup_send(req, ev, tv);
if (subreq == NULL) {
DEBUG(1, ("Failed to add critical timer to run next operation!\n"));
talloc_zfree(req);
return NULL;
}
tevent_req_set_callback(subreq, ares_gettxt_wakeup, req);
return req;
}
static void
resolv_gettxt_done(void *arg, int status, int timeouts, unsigned char *abuf, int alen)
{
struct resolv_request *rreq = talloc_get_type(arg, struct resolv_request);
struct tevent_req *req;
struct gettxt_state *state;
int ret;
struct ares_txt_reply *reply_list;
if (rreq->rwatch == NULL) {
/* The tevent request was cancelled while the ares call was still in
* progress so nobody cares about the result now. Quit. */
unschedule_timeout_watcher(rreq->ctx, rreq);
return;
}
req = rreq->rwatch->req;
unschedule_timeout_watcher(rreq->ctx, rreq);
state = tevent_req_data(req, struct gettxt_state);
if (state->retrying == 0 && status == ARES_EDESTRUCTION
&& state->resolv_ctx->channel != NULL) {
state->retrying = 1;
ares_query(state->resolv_ctx->channel, state->query,
ns_c_in, ns_t_txt, resolv_gettxt_done, req);
return;
}
state->status = status;
state->timeouts = timeouts;
if (status != ARES_SUCCESS) {
ret = return_code(status);
goto fail;
}
ret = ares_parse_txt_reply(abuf, alen, &reply_list);
if (status != ARES_SUCCESS) {
DEBUG(2, ("TXT record parsing failed: %d: %s\n", ret, ares_strerror(ret)));
ret = return_code(ret);
goto fail;
}
ret = rewrite_talloc_txt_reply(req, &reply_list);
if (ret != EOK) {
goto fail;
}
state->reply_list = reply_list;
tevent_req_done(req);
return;
fail:
state->reply_list = NULL;
tevent_req_error(req, ret);
}
int
resolv_gettxt_recv(TALLOC_CTX *mem_ctx, struct tevent_req *req, int *status,
int *timeouts, struct ares_txt_reply **reply_list)
{
struct gettxt_state *state = tevent_req_data(req, struct gettxt_state);
if (status)
*status = state->status;
if (timeouts)
*timeouts = state->timeouts;
if (reply_list)
*reply_list = talloc_steal(mem_ctx, state->reply_list);
TEVENT_REQ_RETURN_ON_ERROR(req);
return EOK;
}
static void
ares_gettxt_wakeup(struct tevent_req *subreq)
{
struct tevent_req *req = tevent_req_callback_data(subreq,
struct tevent_req);
struct gettxt_state *state = tevent_req_data(req,
struct gettxt_state);
if (!tevent_wakeup_recv(subreq)) {
return;
}
talloc_zfree(subreq);
if (state->resolv_ctx->channel == NULL) {
DEBUG(1, ("Invalid ares channel - this is likely a bug\n"));
tevent_req_error(req, EIO);
return;
}
return resolv_gettxt_query(req, state);
}
static void
resolv_gettxt_query(struct tevent_req *req,
struct gettxt_state *state)
{
struct resolv_request *rreq;
rreq = schedule_timeout_watcher(state->ev, state->resolv_ctx, req);
if (!rreq) {
tevent_req_error(req, ENOMEM);
return;
}
ares_query(state->resolv_ctx->channel, state->query,
ns_c_in, ns_t_txt, resolv_gettxt_done, rreq);
}
#endif
static struct ares_srv_reply *split_reply_list(struct ares_srv_reply *list)
{
struct ares_srv_reply *single_step, *double_step, *prev;
if (!list) {
return NULL;
}
prev = list;
single_step = list->next;
double_step = single_step->next;
while (double_step && double_step->next) {
prev = single_step;
single_step = single_step->next;
double_step = double_step->next->next;
}
prev->next = NULL;
return single_step;
}
static struct ares_srv_reply *merge_reply_list(struct ares_srv_reply *left,
struct ares_srv_reply *right)
{
struct ares_srv_reply *l, *r;
struct ares_srv_reply *res, *res_start;
if (!left)
return right;
if (!right)
return left;
if (left->priority < right->priority) {
res_start = left;
l = left->next;
r = right;
} else {
res_start = right;
l = left;
r = right->next;
}
res = res_start;
while(l && r) {
if (l->priority < r->priority) {
res->next = l;
res = l;
l = l->next;
} else {
res->next = r;
res = r;
r = r->next;
}
}
res->next = l ? l : r;
return res_start;
}
/**
* sort linked list of struct ares_srv_reply by priority using merge sort.
*
* Merge sort is ideal for sorting linked lists as there is no problem
* with absence of random access into the list. The complexity is O(n log n)
*
* For reference, see Robert Sedgewick's "Algorithms in C", Addison-Wesley,
* ISBN 0-201-51425
*/
static struct ares_srv_reply *reply_priority_sort(struct ares_srv_reply *list)
{
struct ares_srv_reply *half;
if (!list || !list->next)
return list;
half = split_reply_list(list);
list = merge_reply_list(reply_priority_sort(list),
reply_priority_sort(half));
return list;
}
static int reply_weight_rearrange(TALLOC_CTX *mem_ctx,
int len,
struct ares_srv_reply **start,
struct ares_srv_reply **end)
{
int i;
int total, selected;
int *totals;
struct ares_srv_reply *r, *prev, *tmp;
struct ares_srv_reply *new_start = NULL;
struct ares_srv_reply *new_end = NULL;
if (len <= 1) {
return EOK;
}
totals = talloc_array(mem_ctx, int, len);
if (!totals) {
return ENOMEM;
}
srand(time(NULL) * getpid());
/* promote all servers with weight==0 to the top */
r = *(start);
prev = NULL;
while (r != NULL) {
if (r->weight == 0) {
/* remove from the old list */
if (prev) {
prev->next = r->next;
} else {
*start = r->next;
}
/* add to the head of the new list */
tmp = r;
r = r->next;
tmp->next = *start;
*start = tmp;
} else {
prev = r;
r = r->next;
}
}
*end = prev ? prev : *start;
while (*start != NULL) {
/* Commpute the sum of the weights of those RRs, and with each RR
* associate the running sum in the selected order.
*/
total = 0;
memset(totals, -1, sizeof(int) * len);
for (i = 0, r = *start; r != NULL; r=r->next, ++i) {
totals[i] = r->weight + total;
total = totals[i];
}
/* choose a uniform random number between 0 and the sum computed
* (inclusive), and select the RR whose running sum value is the
* first in the selected order which is greater than or equal to
* the random number selected.
*/
selected = (int)((total + 1) * (rand()/(RAND_MAX + 1.0)));
for (i = 0, r = *start, prev = NULL; r != NULL; r=r->next, ++i) {
if (totals[i] >= selected)
break;
prev = r;
}
if (r == NULL || totals[i] == -1) {
DEBUG(1, ("Bug: did not select any server!\n"));
return EIO;
}
/* remove r from the old list */
if (prev) {
prev->next = r->next;
} else {
*start = r->next;
}
/* add r to the end of the new list */
if (!new_start) {
new_start = r;
new_end = r;
} else {
new_end->next = r;
new_end = r;
}
}
new_end->next = NULL;
/* return the rearranged list */
*start = new_start;
*end = new_end;
talloc_free(totals);
return EOK;
}
int
resolv_sort_srv_reply(TALLOC_CTX *mem_ctx, struct ares_srv_reply **reply)
{
int ret;
struct ares_srv_reply *pri_start, *pri_end, *next, *prev_end;
int len;
/* RFC 2782 says: If there is precisely one SRV RR, and its Target is "."
* (the root domain), abort.
*/
if (*reply && !(*reply)->next && strcmp((*reply)->host, ".") == 0) {
DEBUG(1, ("DNS returned only the root domain, aborting\n"));
return EIO;
}
/* sort the list by priority */
*reply = reply_priority_sort(*reply);
pri_start = *reply;
prev_end = NULL;
while (pri_start) {
pri_end = pri_start;
/* Find nodes with the same priority */
len = 1;
while (pri_end->next && pri_end->priority == pri_end->next->priority) {
pri_end = pri_end->next;
len++;
}
/* rearrange each priority level according to the weight field */
next = pri_end->next;
pri_end->next = NULL;
ret = reply_weight_rearrange(mem_ctx, len, &pri_start, &pri_end);
if (ret) {
DEBUG(1, ("Error rearranging priority level [%d]: %s\n",
ret, strerror(ret)));
return ret;
}
/* Hook the level back into the list */
if (prev_end) {
prev_end->next = pri_start;
} else {
*reply = pri_start;
}
pri_end->next = next;
/* Move on to the next level */
prev_end = pri_end;
pri_start = next;
}
return EOK;
}
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