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/*-
* Copyright 2016 Vsevolod Stakhov
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include "rdns.h"
#include "mem_pool.h"
#include "cfg_file.h"
#include "cryptobox.h"
#include "logger.h"
static const gdouble default_monitoring_interval = 60.0;
static const guint default_max_errors = 3;
struct rspamd_monitored_methods {
void * (*monitored_config) (struct rspamd_monitored *m,
struct rspamd_monitored_ctx *ctx,
const ucl_object_t *opts);
gboolean (*monitored_update) (struct rspamd_monitored *m,
struct rspamd_monitored_ctx *ctx, gpointer ud);
void (*monitored_dtor) (struct rspamd_monitored *m,
struct rspamd_monitored_ctx *ctx, gpointer ud);
gpointer ud;
};
struct rspamd_monitored_ctx {
struct rspamd_config *cfg;
struct rdns_resolver *resolver;
struct event_base *ev_base;
GPtrArray *elts;
GHashTable *helts;
mon_change_cb change_cb;
gpointer ud;
gdouble monitoring_interval;
guint max_errors;
gboolean initialized;
};
struct rspamd_monitored {
gchar *url;
gdouble monitoring_interval;
gdouble monitoring_mult;
gdouble offline_time;
gdouble total_offline_time;
gdouble latency;
guint nchecks;
guint max_errors;
guint cur_errors;
gboolean alive;
enum rspamd_monitored_type type;
enum rspamd_monitored_flags flags;
struct rspamd_monitored_ctx *ctx;
struct rspamd_monitored_methods proc;
struct event periodic;
gchar tag[RSPAMD_MONITORED_TAG_LEN];
};
#define msg_err_mon(...) rspamd_default_log_function (G_LOG_LEVEL_CRITICAL, \
"monitored", m->tag, \
G_STRFUNC, \
__VA_ARGS__)
#define msg_warn_mon(...) rspamd_default_log_function (G_LOG_LEVEL_WARNING, \
"monitored", m->tag, \
G_STRFUNC, \
__VA_ARGS__)
#define msg_info_mon(...) rspamd_default_log_function (G_LOG_LEVEL_INFO, \
"monitored", m->tag, \
G_STRFUNC, \
__VA_ARGS__)
#define msg_debug_mon(...) rspamd_default_log_function (G_LOG_LEVEL_DEBUG, \
"monitored", m->tag, \
G_STRFUNC, \
__VA_ARGS__)
static inline void
rspamd_monitored_propagate_error (struct rspamd_monitored *m,
const gchar *error)
{
if (m->alive) {
if (m->cur_errors < m->max_errors) {
msg_debug_mon ("%s on resolving %s, %d retries left",
error, m->url, m->max_errors - m->cur_errors);
m->cur_errors ++;
/* Reduce timeout */
rspamd_monitored_stop (m);
if (m->monitoring_mult > 0.1) {
m->monitoring_mult /= 2.0;
}
rspamd_monitored_start (m);
}
else {
msg_info_mon ("%s on resolving %s, disable object",
error, m->url);
m->alive = FALSE;
m->offline_time = rspamd_get_calendar_ticks ();
rspamd_monitored_stop (m);
m->monitoring_mult = 1.0;
rspamd_monitored_start (m);
if (m->ctx->change_cb) {
m->ctx->change_cb (m->ctx, m, FALSE, m->ctx->ud);
}
}
}
else {
if (m->monitoring_mult < 8.0) {
/* Increase timeout */
rspamd_monitored_stop (m);
m->monitoring_mult *= 2.0;
rspamd_monitored_start (m);
}
else {
rspamd_monitored_stop (m);
m->monitoring_mult = 8.0;
rspamd_monitored_start (m);
}
}
}
static inline void
rspamd_monitored_propagate_success (struct rspamd_monitored *m, gdouble lat)
{
gdouble t;
m->cur_errors = 0;
m->monitoring_mult = 1.0;
if (!m->alive) {
t = rspamd_get_calendar_ticks ();
m->total_offline_time += t - m->offline_time;
m->alive = TRUE;
msg_info_mon ("restoring %s after %.1f seconds of downtime, "
"total downtime: %.1f",
m->url, t - m->offline_time, m->total_offline_time);
m->offline_time = 0;
m->nchecks = 1;
m->latency = lat;
rspamd_monitored_stop (m);
rspamd_monitored_start (m);
if (m->ctx->change_cb) {
m->ctx->change_cb (m->ctx, m, TRUE, m->ctx->ud);
}
}
else {
m->latency = (lat + m->latency * m->nchecks) / (m->nchecks + 1);
m->nchecks ++;
}
}
static void
rspamd_monitored_periodic (gint fd, short what, gpointer ud)
{
struct rspamd_monitored *m = ud;
struct timeval tv;
gdouble jittered;
gboolean ret = FALSE;
jittered = rspamd_time_jitter (m->monitoring_interval * m->monitoring_mult,
0.0);
double_to_tv (jittered, &tv);
if (m->proc.monitored_update) {
ret = m->proc.monitored_update (m, m->ctx, m->proc.ud);
}
if (ret) {
event_add (&m->periodic, &tv);
}
}
struct rspamd_dns_monitored_conf {
enum rdns_request_type rt;
GString *request;
radix_compressed_t *expected;
struct rspamd_monitored *m;
gint expected_code;
gdouble check_tm;
};
static void *
rspamd_monitored_dns_conf (struct rspamd_monitored *m,
struct rspamd_monitored_ctx *ctx,
const ucl_object_t *opts)
{
struct rspamd_dns_monitored_conf *conf;
const ucl_object_t *elt;
gint rt;
GString *req = g_string_sized_new (127);
conf = g_malloc0 (sizeof (*conf));
conf->rt = RDNS_REQUEST_A;
conf->m = m;
conf->expected_code = -1;
if (opts) {
elt = ucl_object_lookup (opts, "type");
if (elt) {
rt = rdns_type_fromstr (ucl_object_tostring (elt));
if (rt != -1) {
conf->rt = rt;
}
else {
msg_err_mon ("invalid resolve type: %s",
ucl_object_tostring (elt));
}
}
elt = ucl_object_lookup (opts, "prefix");
if (elt && ucl_object_type (elt) == UCL_STRING) {
rspamd_printf_gstring (req, "%s.", ucl_object_tostring (elt));
}
elt = ucl_object_lookup (opts, "ipnet");
if (elt) {
if (ucl_object_type (elt) == UCL_STRING) {
radix_add_generic_iplist (ucl_object_tostring (elt),
&conf->expected, FALSE);
}
else if (ucl_object_type (elt) == UCL_ARRAY) {
const ucl_object_t *cur;
ucl_object_iter_t it = NULL;
while ((cur = ucl_object_iterate (elt, &it, true)) != NULL) {
radix_add_generic_iplist (ucl_object_tostring (elt),
&conf->expected, FALSE);
}
}
}
elt = ucl_object_lookup (opts, "rcode");
if (elt) {
rt = rdns_rcode_fromstr (ucl_object_tostring (elt));
if (rt != -1) {
conf->expected_code = rt;
}
else {
msg_err_mon ("invalid resolve rcode: %s",
ucl_object_tostring (elt));
}
}
}
rspamd_printf_gstring (req, "%s", m->url);
conf->request = req;
return conf;
}
static void
rspamd_monitored_dns_cb (struct rdns_reply *reply, void *arg)
{
struct rspamd_dns_monitored_conf *conf = arg;
struct rspamd_monitored *m;
gdouble lat;
m = conf->m;
lat = rspamd_get_calendar_ticks () - conf->check_tm;
conf->check_tm = 0;
msg_debug_mon ("dns callback for %s in %.2f: %s", m->url, lat,
rdns_strerror (reply->code));
if (reply->code == RDNS_RC_TIMEOUT) {
rspamd_monitored_propagate_error (m, "timeout");
}
else if (reply->code == RDNS_RC_SERVFAIL) {
rspamd_monitored_propagate_error (m, "servfail");
}
else if (reply->code == RDNS_RC_REFUSED) {
rspamd_monitored_propagate_error (m, "refused");
}
else {
if (conf->expected_code != -1) {
if (reply->code != conf->expected_code) {
if (reply->code == RDNS_RC_NOREC &&
conf->expected_code == RDNS_RC_NXDOMAIN) {
rspamd_monitored_propagate_success (m, lat);
}
else {
msg_info_mon ("DNS reply returned '%s' for %s while '%s' "
"was expected",
rdns_strerror (reply->code),
m->url,
rdns_strerror (conf->expected_code));
rspamd_monitored_propagate_error (m, "invalid return");
}
}
else {
rspamd_monitored_propagate_success (m, lat);
}
}
else if (conf->expected) {
/* We also need to check IP */
if (reply->code != RDNS_RC_NOERROR) {
rspamd_monitored_propagate_error (m, "no record");
}
else {
rspamd_inet_addr_t *addr;
addr = rspamd_inet_address_from_rnds (reply->entries);
if (!addr) {
rspamd_monitored_propagate_error (m,
"unreadable address");
}
else if (radix_find_compressed_addr (conf->expected, addr)) {
msg_info_mon ("bad address %s is returned when monitoring %s",
rspamd_inet_address_to_string (addr),
conf->request->str);
rspamd_monitored_propagate_error (m,
"invalid address");
rspamd_inet_address_free (addr);
}
else {
rspamd_monitored_propagate_success (m, lat);
rspamd_inet_address_free (addr);
}
}
}
else {
rspamd_monitored_propagate_success (m, lat);
}
}
}
static gboolean
rspamd_monitored_dns_mon (struct rspamd_monitored *m,
struct rspamd_monitored_ctx *ctx, gpointer ud)
{
struct rspamd_dns_monitored_conf *conf = ud;
if (!rdns_make_request_full (ctx->resolver, rspamd_monitored_dns_cb,
conf, ctx->cfg->dns_timeout, ctx->cfg->dns_retransmits,
1, conf->request->str, conf->rt)) {
msg_info_mon ("cannot make request to resolve %s", conf->request->str);
m->cur_errors ++;
rspamd_monitored_propagate_error (m, "failed to make DNS request");
return FALSE;
}
else {
conf->check_tm = rspamd_get_calendar_ticks ();
}
return TRUE;
}
void
rspamd_monitored_dns_dtor (struct rspamd_monitored *m,
struct rspamd_monitored_ctx *ctx, gpointer ud)
{
struct rspamd_dns_monitored_conf *conf = ud;
g_string_free (conf->request, TRUE);
if (conf->expected) {
radix_destroy_compressed (conf->expected);
}
g_free (conf);
}
struct rspamd_monitored_ctx *
rspamd_monitored_ctx_init (void)
{
struct rspamd_monitored_ctx *ctx;
ctx = g_malloc0 (sizeof (*ctx));
ctx->monitoring_interval = default_monitoring_interval;
ctx->max_errors = default_max_errors;
ctx->elts = g_ptr_array_new ();
ctx->helts = g_hash_table_new (g_str_hash, g_str_equal);
return ctx;
}
void
rspamd_monitored_ctx_config (struct rspamd_monitored_ctx *ctx,
struct rspamd_config *cfg,
struct event_base *ev_base,
struct rdns_resolver *resolver,
mon_change_cb change_cb,
gpointer ud)
{
struct rspamd_monitored *m;
guint i;
g_assert (ctx != NULL);
ctx->ev_base = ev_base;
ctx->resolver = resolver;
ctx->cfg = cfg;
ctx->initialized = TRUE;
ctx->change_cb = change_cb;
ctx->ud = ud;
if (cfg->monitored_interval != 0) {
ctx->monitoring_interval = cfg->monitored_interval;
}
/* Start all events */
for (i = 0; i < ctx->elts->len; i ++) {
m = g_ptr_array_index (ctx->elts, i);
m->monitoring_mult = 0;
rspamd_monitored_start (m);
m->monitoring_mult = 1.0;
}
}
struct event_base *
rspamd_monitored_ctx_get_ev_base (struct rspamd_monitored_ctx *ctx)
{
return ctx->ev_base;
}
struct rspamd_monitored *
rspamd_monitored_create_ (struct rspamd_monitored_ctx *ctx,
const gchar *line,
enum rspamd_monitored_type type,
enum rspamd_monitored_flags flags,
const ucl_object_t *opts,
const gchar *loc)
{
struct rspamd_monitored *m;
rspamd_cryptobox_hash_state_t st;
gchar *cksum_encoded, cksum[rspamd_cryptobox_HASHBYTES];
g_assert (ctx != NULL);
g_assert (line != NULL);
m = g_malloc0 (sizeof (*m));
m->type = type;
m->flags = flags;
m->url = g_strdup (line);
m->ctx = ctx;
m->monitoring_interval = ctx->monitoring_interval;
m->monitoring_mult = 1.0;
m->max_errors = ctx->max_errors;
m->alive = TRUE;
if (type == RSPAMD_MONITORED_DNS) {
m->proc.monitored_update = rspamd_monitored_dns_mon;
m->proc.monitored_config = rspamd_monitored_dns_conf;
m->proc.monitored_dtor = rspamd_monitored_dns_dtor;
}
else {
g_free (m);
return NULL;
}
m->proc.ud = m->proc.monitored_config (m, ctx, opts);
if (m->proc.ud == NULL) {
g_free (m);
return NULL;
}
/* Create a persistent tag */
rspamd_cryptobox_hash_init (&st, NULL, 0);
rspamd_cryptobox_hash_update (&st, m->url, strlen (m->url));
rspamd_cryptobox_hash_update (&st, loc, strlen (loc));
rspamd_cryptobox_hash_final (&st, cksum);
cksum_encoded = rspamd_encode_base32 (cksum, sizeof (cksum));
rspamd_strlcpy (m->tag, cksum_encoded, sizeof (m->tag));
if (g_hash_table_lookup (ctx->helts, m->tag) != NULL) {
msg_err ("monitored error: tag collision detected for %s; "
"url: %s", m->tag, m->url);
}
else {
g_hash_table_insert (ctx->helts, m->tag, m);
}
g_free (cksum_encoded);
g_ptr_array_add (ctx->elts, m);
if (ctx->ev_base) {
rspamd_monitored_start (m);
}
return m;
}
gboolean
rspamd_monitored_alive (struct rspamd_monitored *m)
{
g_assert (m != NULL);
return m->alive;
}
gboolean
rspamd_monitored_set_alive (struct rspamd_monitored *m, gboolean alive)
{
gboolean st;
g_assert (m != NULL);
st = m->alive;
m->alive = alive;
return st;
}
gdouble
rspamd_monitored_offline_time (struct rspamd_monitored *m)
{
g_assert (m != NULL);
if (m->offline_time > 0) {
return rspamd_get_calendar_ticks () - m->offline_time;
}
return 0;
}
gdouble
rspamd_monitored_total_offline_time (struct rspamd_monitored *m)
{
g_assert (m != NULL);
if (m->offline_time > 0) {
return rspamd_get_calendar_ticks () - m->offline_time + m->total_offline_time;
}
return m->total_offline_time;
}
gdouble
rspamd_monitored_latency (struct rspamd_monitored *m)
{
g_assert (m != NULL);
return m->latency;
}
void
rspamd_monitored_stop (struct rspamd_monitored *m)
{
g_assert (m != NULL);
if (event_get_base (&m->periodic)) {
event_del (&m->periodic);
}
}
void
rspamd_monitored_start (struct rspamd_monitored *m)
{
struct timeval tv;
gdouble jittered;
g_assert (m != NULL);
msg_debug_mon ("started monitored object %s", m->url);
jittered = rspamd_time_jitter (m->monitoring_interval * m->monitoring_mult,
0.0);
double_to_tv (jittered, &tv);
if (event_get_base (&m->periodic)) {
event_del (&m->periodic);
}
event_set (&m->periodic, -1, EV_TIMEOUT, rspamd_monitored_periodic, m);
event_base_set (m->ctx->ev_base, &m->periodic);
event_add (&m->periodic, &tv);
}
void
rspamd_monitored_ctx_destroy (struct rspamd_monitored_ctx *ctx)
{
struct rspamd_monitored *m;
guint i;
g_assert (ctx != NULL);
for (i = 0; i < ctx->elts->len; i ++) {
m = g_ptr_array_index (ctx->elts, i);
rspamd_monitored_stop (m);
g_free (m->url);
m->proc.monitored_dtor (m, m->ctx, m->proc.ud);
g_free (m);
}
g_ptr_array_free (ctx->elts, TRUE);
g_free (ctx);
}
struct rspamd_monitored *
rspamd_monitored_by_tag (struct rspamd_monitored_ctx *ctx,
guchar tag[RSPAMD_MONITORED_TAG_LEN])
{
struct rspamd_monitored *res;
gchar rtag[RSPAMD_MONITORED_TAG_LEN];
rspamd_strlcpy (rtag, tag, sizeof (rtag));
res = g_hash_table_lookup (ctx->helts, rtag);
return res;
}
void
rspamd_monitored_get_tag (struct rspamd_monitored *m,
guchar tag_out[RSPAMD_MONITORED_TAG_LEN])
{
g_assert (m != NULL);
rspamd_strlcpy (tag_out, m->tag, RSPAMD_MONITORED_TAG_LEN);
}
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