/*
* libwebsockets - small server side websockets and web server implementation
*
* Copyright (C) 2019 - 2022 Andy Green <andy@warmcat.com>
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to
* deal in the Software without restriction, including without limitation the
* rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
* sell copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS
* IN THE SOFTWARE.
*/
#include <private-lib-core.h>
static void
secstream_mqtt_cleanup(lws_ss_handle_t *h)
{
uint32_t i;
if (h->u.mqtt.heap_baggage) {
lws_free(h->u.mqtt.heap_baggage);
h->u.mqtt.heap_baggage = NULL;
}
if (h->u.mqtt.sub_info.topic) {
for (i = 0; i < h->u.mqtt.sub_info.num_topics; i++) {
if (h->u.mqtt.sub_info.topic[i].name) {
lws_free((void*)h->u.mqtt.sub_info.topic[i].name);
h->u.mqtt.sub_info.topic[i].name = NULL;
}
}
lws_free(h->u.mqtt.sub_info.topic);
h->u.mqtt.sub_info.topic = NULL;
}
lws_buflist_destroy_all_segments(&h->u.mqtt.buflist_unacked);
}
static int
secstream_mqtt_subscribe(struct lws *wsi)
{
size_t used_in, used_out, topic_limit;
lws_strexp_t exp;
char* expbuf;
lws_ss_handle_t *h = (lws_ss_handle_t *)lws_get_opaque_user_data(wsi);
if (!h || !h->policy)
return -1;
if (h->policy->u.mqtt.aws_iot)
topic_limit = LWS_MQTT_MAX_AWSIOT_TOPICLEN;
else
topic_limit = LWS_MQTT_MAX_TOPICLEN;
if (!h->policy->u.mqtt.subscribe || wsi->mqtt->done_subscribe)
return 0;
lws_strexp_init(&exp, (void*)h, lws_ss_exp_cb_metadata, NULL,
topic_limit);
/*
* Expand with no output first to calculate the size of
* expanded string then, allocate new buffer and expand
* again with the buffer
*/
if (lws_strexp_expand(&exp, h->policy->u.mqtt.subscribe,
strlen(h->policy->u.mqtt.subscribe), &used_in,
&used_out) != LSTRX_DONE) {
lwsl_err(
"%s, failed to expand MQTT subscribe"
" topic with no output\n",
__func__);
return 1;
}
expbuf = lws_malloc(used_out + 1, __func__);
if (!expbuf) {
lwsl_err(
"%s, failed to allocate MQTT subscribe"
"topic",
__func__);
return 1;
}
lws_strexp_init(&exp, (void*)h, lws_ss_exp_cb_metadata, expbuf,
used_out + 1);
if (lws_strexp_expand(&exp, h->policy->u.mqtt.subscribe,
strlen(h->policy->u.mqtt.subscribe), &used_in,
&used_out) != LSTRX_DONE) {
lwsl_err("%s, failed to expand MQTT subscribe topic\n",
__func__);
lws_free(expbuf);
return 1;
}
lwsl_notice("%s, expbuf - %s\n", __func__, expbuf);
h->u.mqtt.sub_top.name = expbuf;
/*
* The policy says to subscribe to something, and we
* haven't done it yet. Do it using the pre-prepared
* string-substituted version of the policy string.
*/
lwsl_notice("%s: subscribing %s\n", __func__,
h->u.mqtt.sub_top.name);
h->u.mqtt.sub_top.qos = h->policy->u.mqtt.qos;
memset(&h->u.mqtt.sub_info, 0, sizeof(h->u.mqtt.sub_info));
h->u.mqtt.sub_info.num_topics = 1;
h->u.mqtt.sub_info.topic = &h->u.mqtt.sub_top;
h->u.mqtt.sub_info.topic =
lws_malloc(sizeof(lws_mqtt_topic_elem_t), __func__);
h->u.mqtt.sub_info.topic[0].name = lws_strdup(expbuf);
h->u.mqtt.sub_info.topic[0].qos = h->policy->u.mqtt.qos;
if (lws_mqtt_client_send_subcribe(wsi, &h->u.mqtt.sub_info)) {
lwsl_notice("%s: unable to subscribe", __func__);
lws_free(expbuf);
h->u.mqtt.sub_top.name = NULL;
return -1;
}
lws_free(expbuf);
h->u.mqtt.sub_top.name = NULL;
/* Expect a SUBACK */
if (lws_change_pollfd(wsi, 0, LWS_POLLIN)) {
lwsl_err("%s: Unable to set LWS_POLLIN\n", __func__);
return -1;
}
return 0;
}
static int
secstream_mqtt_publish(struct lws *wsi, uint8_t *buf, size_t buf_len,
uint32_t payload_len, const char* topic,
lws_mqtt_qos_levels_t qos, uint8_t retain, uint8_t dup,
int f)
{
lws_ss_handle_t *h = (lws_ss_handle_t *)lws_get_opaque_user_data(wsi);
size_t used_in, used_out, topic_limit;
lws_strexp_t exp;
char *expbuf;
lws_mqtt_publish_param_t mqpp;
if (h->policy->u.mqtt.aws_iot)
topic_limit = LWS_MQTT_MAX_AWSIOT_TOPICLEN;
else
topic_limit = LWS_MQTT_MAX_TOPICLEN;
memset(&mqpp, 0, sizeof(mqpp));
lws_strexp_init(&exp, h, lws_ss_exp_cb_metadata, NULL,
topic_limit);
if (lws_strexp_expand(&exp, topic, strlen(topic), &used_in,
&used_out) != LSTRX_DONE) {
lwsl_err("%s, failed to expand MQTT publish"
" topic with no output\n", __func__);
return 1;
}
expbuf = lws_malloc(used_out + 1, __func__);
if (!expbuf) {
lwsl_err("%s, failed to allocate MQTT publish topic",
__func__);
return 1;
}
lws_strexp_init(&exp, (void *)h, lws_ss_exp_cb_metadata, expbuf,
used_out + 1);
if (lws_strexp_expand(&exp, topic, strlen(topic), &used_in,
&used_out) != LSTRX_DONE) {
lws_free(expbuf);
return 1;
}
lwsl_notice("%s, expbuf - %s\n", __func__, expbuf);
mqpp.topic = (char *)expbuf;
mqpp.topic_len = (uint16_t)strlen(mqpp.topic);
mqpp.packet_id = (uint16_t)(h->txord - 1);
mqpp.qos = qos;
mqpp.retain = !!retain;
mqpp.payload = buf;
mqpp.dup = !!dup;
if (payload_len)
mqpp.payload_len = payload_len;
else
mqpp.payload_len = (uint32_t)buf_len;
lwsl_notice("%s: payload len %d\n", __func__,
(int)mqpp.payload_len);
if (lws_mqtt_client_send_publish(wsi, &mqpp,
(const char *)buf,
(uint32_t)buf_len,
f & LWSSS_FLAG_EOM)) {
lwsl_notice("%s: failed to publish\n", __func__);
lws_free(expbuf);
return -1;
}
lws_free(expbuf);
if ((mqpp.qos == QOS1 || mqpp.qos == QOS2) && buf_len > 0) {
if (lws_buflist_append_segment(&h->u.mqtt.buflist_unacked,
buf, buf_len) < 0) {
lwsl_notice("%s: failed to store unacked\n", __func__);
return -1;
}
}
return 0;
}
static int
secstream_mqtt_birth(struct lws *wsi, uint8_t *buf, size_t buflen) {
lws_strexp_t exp;
size_t used_in, used_out = 0;
lws_ss_handle_t *h = (lws_ss_handle_t *)lws_get_opaque_user_data(wsi);
if (h->policy->u.mqtt.birth_message) {
lws_strexp_init(&exp, h, lws_ss_exp_cb_metadata,
(char *)buf, buflen);
if (lws_strexp_expand(&exp, h->policy->u.mqtt.birth_message,
strlen(h->policy->u.mqtt.birth_message),
&used_in, &used_out) != LSTRX_DONE) {
return 1;
}
}
wsi->mqtt->inside_birth = 1;
return secstream_mqtt_publish(wsi, buf,
used_out, 0, h->policy->u.mqtt.birth_topic,
h->policy->u.mqtt.birth_qos,
h->policy->u.mqtt.birth_retain, 0,
LWSSS_FLAG_EOM);
}
static int
secstream_mqtt_resend(struct lws *wsi, uint8_t *buf) {
uint8_t *buffered;
size_t len;
int f = 0, r;
lws_ss_handle_t *h = (lws_ss_handle_t *)lws_get_opaque_user_data(wsi);
len = lws_buflist_next_segment_len(&h->u.mqtt.buflist_unacked,
&buffered);
if (h->u.mqtt.unacked_size <= len)
f |= LWSSS_FLAG_EOM;
if (!len) {
/* when the message does not have payload */
buffered = buf;
} else {
h->u.mqtt.unacked_size -= (uint32_t)len;
}
if (wsi->mqtt->inside_birth) {
r = secstream_mqtt_publish(wsi, buffered, len, 0,
h->policy->u.mqtt.birth_topic,
h->policy->u.mqtt.birth_qos,
h->policy->u.mqtt.birth_retain,
1, f);
} else {
r = secstream_mqtt_publish(wsi, buffered, len,
(uint32_t)h->writeable_len,
h->policy->u.mqtt.topic,
h->policy->u.mqtt.qos,
h->policy->u.mqtt.retain, 1, f);
}
if (len)
lws_buflist_use_segment(&h->u.mqtt.buflist_unacked, len);
if (r) {
lws_buflist_destroy_all_segments(&h->u.mqtt.buflist_unacked);
h->u.mqtt.retry_count = h->u.mqtt.send_unacked = 0;
if (wsi->mqtt->inside_birth) {
lwsl_err("%s: %s: failed to send Birth\n", __func__,
lws_ss_tag(h));
return -1;
} else {
r = lws_ss_event_helper(h, LWSSSCS_QOS_NACK_REMOTE);
if (r != LWSSSSRET_OK)
return _lws_ss_handle_state_ret_CAN_DESTROY_HANDLE(r, wsi, &h);
}
}
return 0;
}
static char *
expand_metadata(lws_ss_handle_t *h, const char* str, const char* post, size_t max_len)
{
lws_strexp_t exp;
char *expbuf = NULL;
size_t used_in = 0, used_out = 0, post_len = 0;
memset(&exp, 0, sizeof(exp));
if (post)
post_len = strlen(post);
if (post_len > max_len)
return NULL;
lws_strexp_init(&exp, (void *)h, lws_ss_exp_cb_metadata, NULL,
max_len - post_len);
if (lws_strexp_expand(&exp, str, strlen(str), &used_in,
&used_out) != LSTRX_DONE) {
lwsl_err("%s, failed to expand %s", __func__, str);
return NULL;
}
expbuf = lws_malloc(used_out + 1 + post_len, __func__);
if (!expbuf) {
lwsl_err("%s, failed to allocate str_exp for %s", __func__, str);
return NULL;
}
lws_strexp_init(&exp, (void*)h, lws_ss_exp_cb_metadata, expbuf,
used_out + 1 + post_len);
if (lws_strexp_expand(&exp, str, strlen(str), &used_in,
&used_out) != LSTRX_DONE) {
lwsl_err("%s, failed to expand str_exp %s\n", __func__, str);
lws_free(expbuf);
return NULL;
}
if (post)
strcat(expbuf, post);
return expbuf;
}
static lws_mqtt_match_topic_return_t
secstream_mqtt_is_shadow_matched(struct lws *wsi, const char *topic)
{
lws_ss_handle_t *h = (lws_ss_handle_t *)lws_get_opaque_user_data(wsi);
const char *match[] = { LWS_MQTT_SHADOW_UNNAMED_TOPIC_MATCH,
LWS_MQTT_SHADOW_NAMED_TOPIC_MATCH };
char *expbuf = NULL;
unsigned int i = 0;
lws_mqtt_match_topic_return_t ret = LMMTR_TOPIC_NOMATCH;
if (!topic)
return LMMTR_TOPIC_MATCH_ERROR;
expbuf = expand_metadata(h, topic, NULL, LWS_MQTT_MAX_AWSIOT_TOPICLEN);
if (!expbuf) {
lwsl_wsi_warn(wsi, "Failed to expand Shadow topic");
return LMMTR_TOPIC_MATCH_ERROR;
}
for (i = 0; i < (sizeof(match) / sizeof(match[0])); i++) {
if (lws_mqtt_is_topic_matched(
match[i], expbuf) == LMMTR_TOPIC_MATCH) {
ret = LMMTR_TOPIC_MATCH;
break;
}
}
lws_free(expbuf);
return ret;
}
static void
secstream_mqtt_shadow_cleanup(struct lws *wsi)
{
lws_ss_handle_t *h = (lws_ss_handle_t *)lws_get_opaque_user_data(wsi);
uint32_t i = 0;
for (i = 0; i < h->u.mqtt.shadow_sub.num_topics; i++)
lws_free((void *)h->u.mqtt.shadow_sub.topic[i].name);
h->u.mqtt.shadow_sub.num_topics = 0;
if (h->u.mqtt.shadow_sub.topic) {
lws_free(h->u.mqtt.shadow_sub.topic);
h->u.mqtt.shadow_sub.topic = NULL;
}
}
static lws_ss_state_return_t
secstream_mqtt_shadow_unsubscribe(struct lws *wsi)
{
lws_ss_handle_t *h = (lws_ss_handle_t *)lws_get_opaque_user_data(wsi);
if (h->u.mqtt.shadow_sub.num_topics == 0) {
wsi->mqtt->send_shadow_unsubscribe = 0;
wsi->mqtt->inside_shadow = 0;
wsi->mqtt->done_shadow_subscribe = 0;
return LWSSSSRET_OK;
}
if (lws_mqtt_client_send_unsubcribe(wsi, &h->u.mqtt.shadow_sub)) {
lwsl_wsi_err(wsi, "Failed to send MQTT unsubsribe");
return LWSSSSRET_DISCONNECT_ME;
}
/* Expect a UNSUBACK */
if (lws_change_pollfd(wsi, 0, LWS_POLLIN)) {
lwsl_wsi_err(wsi, "Unable to set LWS_POLLIN");
return LWSSSSRET_DISCONNECT_ME;
}
wsi->mqtt->send_shadow_unsubscribe = 0;
return LWSSSSRET_OK;
}
static int
secstream_mqtt_shadow_subscribe(struct lws *wsi)
{
lws_ss_handle_t *h = (lws_ss_handle_t *)lws_get_opaque_user_data(wsi);
char* expbuf = NULL;
const char *suffixes[] = { LWS_MQTT_SHADOW_RESP_ACCEPTED_STR,
LWS_MQTT_SHADOW_RESP_REJECTED_STR };
unsigned int i, suffixes_len = sizeof(suffixes) / sizeof(suffixes[0]);
if (!h->policy->u.mqtt.topic || wsi->mqtt->inside_shadow)
return 0;
if (h->u.mqtt.shadow_sub.num_topics > 0)
secstream_mqtt_shadow_cleanup(wsi);
memset(&h->u.mqtt.shadow_sub, 0, sizeof(lws_mqtt_subscribe_param_t));
h->u.mqtt.shadow_sub.topic = lws_malloc(
sizeof(lws_mqtt_topic_elem_t) * suffixes_len, __func__);
if (!h->u.mqtt.shadow_sub.topic) {
lwsl_ss_err(h, "Failed to allocate Shadow topics");
return -1;
}
h->u.mqtt.shadow_sub.num_topics = suffixes_len;
for (i = 0; i < suffixes_len; i++) {
expbuf = expand_metadata(h, h->policy->u.mqtt.topic, suffixes[i],
LWS_MQTT_MAX_AWSIOT_TOPICLEN);
if (!expbuf) {
lwsl_ss_err(h, "Failed to allocate Shadow topic");
secstream_mqtt_shadow_cleanup(wsi);
return -1;
}
h->u.mqtt.shadow_sub.topic[i].name = expbuf;
h->u.mqtt.shadow_sub.topic[i].qos = h->policy->u.mqtt.qos;
}
h->u.mqtt.shadow_sub.packet_id = (uint16_t)(h->txord - 1);
if (lws_mqtt_client_send_subcribe(wsi, &h->u.mqtt.shadow_sub)) {
lwsl_wsi_notice(wsi, "Unable to subscribe Shadow topics");
return 0;
}
/* Expect a SUBACK */
if (lws_change_pollfd(wsi, 0, LWS_POLLIN)) {
lwsl_err("%s: Unable to set LWS_POLLIN\n", __func__);
return -1;
}
wsi->mqtt->inside_shadow = 1;
return 0;
}
static int
secstream_mqtt(struct lws *wsi, enum lws_callback_reasons reason, void *user,
void *in, size_t len)
{
lws_ss_handle_t *h = (lws_ss_handle_t *)lws_get_opaque_user_data(wsi);
size_t used_in = 0, used_out = 0, topic_len = 0;
lws_mqtt_publish_param_t *pmqpp = NULL;
lws_ss_state_return_t r = LWSSSSRET_OK;
uint8_t buf[LWS_PRE + 1400];
size_t buflen = sizeof(buf) - LWS_PRE;
lws_ss_metadata_t *omd = NULL;
char *sub_topic = NULL;
lws_strexp_t exp;
int f = 0;
memset(buf, 0, sizeof(buf));
memset(&exp, 0, sizeof(exp));
switch (reason) {
/* because we are protocols[0] ... */
case LWS_CALLBACK_CLIENT_CONNECTION_ERROR:
lwsl_info("%s: CLIENT_CONNECTION_ERROR: %s\n", __func__,
in ? (char *)in : "(null)");
if (!h)
break;
#if defined(LWS_WITH_CONMON)
lws_conmon_ss_json(h);
#endif
r = lws_ss_event_helper(h, LWSSSCS_UNREACHABLE);
h->wsi = NULL;
secstream_mqtt_cleanup(h);
if (r == LWSSSSRET_DESTROY_ME)
return _lws_ss_handle_state_ret_CAN_DESTROY_HANDLE(r, wsi, &h);
r = lws_ss_backoff(h);
if (r != LWSSSSRET_OK)
return _lws_ss_handle_state_ret_CAN_DESTROY_HANDLE(r, wsi, &h);
break;
case LWS_CALLBACK_MQTT_CLIENT_CLOSED:
if (!h)
break;
lws_sul_cancel(&h->sul_timeout);
#if defined(LWS_WITH_CONMON)
lws_conmon_ss_json(h);
#endif
if (h->ss_dangling_connected)
r = lws_ss_event_helper(h, LWSSSCS_DISCONNECTED);
else
r = lws_ss_event_helper(h, LWSSSCS_UNREACHABLE);
if (h->wsi)
lws_set_opaque_user_data(h->wsi, NULL);
h->wsi = NULL;
secstream_mqtt_cleanup(h);
if (r)
return _lws_ss_handle_state_ret_CAN_DESTROY_HANDLE(r, wsi, &h);
if (h->policy && !(h->policy->flags & LWSSSPOLF_OPPORTUNISTIC) &&
!h->txn_ok && !wsi->a.context->being_destroyed) {
r = lws_ss_backoff(h);
if (r != LWSSSSRET_OK)
return _lws_ss_handle_state_ret_CAN_DESTROY_HANDLE(r, wsi, &h);
}
break;
case LWS_CALLBACK_MQTT_CLIENT_ESTABLISHED:
/*
* Make sure the handle wsi points to the stream wsi not the
* original nwsi, in the case it was migrated
*/
h->wsi = wsi;
h->retry = 0;
h->seqstate = SSSEQ_CONNECTED;
if (h->policy->u.mqtt.birth_topic &&
!wsi->mqtt->done_birth) {
struct lws *nwsi = lws_get_network_wsi(wsi);
lws_start_foreach_ll(struct lws *, w, nwsi->mux.child_list) {
if (w != wsi &&
(w->mqtt->done_birth || w->mqtt->inside_birth)) {
/*
* If any Birth was sent out or
* is pending on other stream,
* skip sending Birth.
*/
wsi->mqtt->done_birth = 1;
break;
}
} lws_end_foreach_ll(w, mux.sibling_list);
}
if (!h->policy->u.mqtt.subscribe ||
!h->policy->u.mqtt.subscribe[0]) {
/*
* If subscribe is empty in the policy, then,
* skip sending SUBSCRIBE and signal the user
* application.
*/
wsi->mqtt->done_subscribe = 1;
} else if (!h->policy->u.mqtt.clean_start &&
wsi->mqtt->session_resumed) {
wsi->mqtt->inside_resume_session = 1;
/*
* If the previous session is resumed and Server has
* stored session, then, do not subscribe.
*/
if (!secstream_mqtt_subscribe(wsi))
wsi->mqtt->done_subscribe = 1;
wsi->mqtt->inside_resume_session = 0;
} else if (h->policy->u.mqtt.subscribe &&
!wsi->mqtt->done_subscribe) {
/*
* If a subscribe is pending on the stream, then make
* sure the SUBSCRIBE is done before signaling the
* user application.
*/
lws_callback_on_writable(wsi);
break;
}
if (h->policy->u.mqtt.birth_topic &&
!wsi->mqtt->done_birth) {
/*
* If a Birth is pending on the stream, then make
* sure the Birth is done before signaling the
* user application.
*/
lws_callback_on_writable(wsi);
break;
}
lws_sul_cancel(&h->sul);
#if defined(LWS_WITH_SYS_METRICS)
/*
* If any hanging caliper measurement, dump it, and free any tags
*/
lws_metrics_caliper_report_hist(h->cal_txn, (struct lws *)NULL);
#endif
r = lws_ss_event_helper(h, LWSSSCS_CONNECTED);
if (r != LWSSSSRET_OK)
return _lws_ss_handle_state_ret_CAN_DESTROY_HANDLE(r, wsi, &h);
if (h->policy->u.mqtt.topic)
lws_callback_on_writable(wsi);
break;
case LWS_CALLBACK_MQTT_CLIENT_RX:
// lwsl_user("LWS_CALLBACK_CLIENT_RECEIVE: read %d\n", (int)len);
if (!h || !h->info.rx)
return 0;
pmqpp = (lws_mqtt_publish_param_t *)in;
f = 0;
if (!pmqpp->payload_pos)
f |= LWSSS_FLAG_SOM;
if (pmqpp->payload_pos + len == pmqpp->payload_len)
f |= LWSSS_FLAG_EOM;
h->subseq = 1;
if (wsi->mqtt->inside_shadow) {
/*
* When Shadow is used, the stream receives multiple
* topics including Shadow response, set received
* topic on the metadata
*/
lws_strexp_init(&exp, (void*)h, lws_ss_exp_cb_metadata,
NULL, (size_t)-1);
if (lws_strexp_expand(&exp, h->policy->u.mqtt.subscribe,
strlen(h->policy->u.mqtt.subscribe),
&used_in, &used_out) != LSTRX_DONE) {
lwsl_err("%s, failed to expand subscribe topic",
__func__);
return -1;
}
omd = lws_ss_get_handle_metadata(h, exp.name);
if (!omd) {
lwsl_err("%s, failed to find metadata for subscribe",
__func__);
return -1;
}
sub_topic = omd->value__may_own_heap;
topic_len = omd->length;
_lws_ss_set_metadata(omd, exp.name,
(const void *)pmqpp->topic,
pmqpp->topic_len);
}
r = h->info.rx(ss_to_userobj(h), (const uint8_t *)pmqpp->payload,
len, f);
if (wsi->mqtt->inside_shadow)
_lws_ss_set_metadata(omd, exp.name, &sub_topic,
topic_len);
if (r != LWSSSSRET_OK)
return _lws_ss_handle_state_ret_CAN_DESTROY_HANDLE(r, wsi, &h);
if (wsi->mqtt->inside_shadow) {
size_t acc_n = strlen(LWS_MQTT_SHADOW_RESP_ACCEPTED_STR);
size_t rej_n = strlen(LWS_MQTT_SHADOW_RESP_REJECTED_STR);
uint32_t i;
for (i = 0; i < h->u.mqtt.shadow_sub.num_topics; i++) {
/*
* received response ('/accepted' or 'rejected')
* and clean up Shadow operation
*/
if (strncmp(h->u.mqtt.shadow_sub.topic[i].name,
pmqpp->topic, pmqpp->topic_len) ||
(strlen(pmqpp->topic) < acc_n ||
strlen(pmqpp->topic) < rej_n))
continue;
if (!strcmp(pmqpp->topic +
(strlen(pmqpp->topic) - acc_n),
LWS_MQTT_SHADOW_RESP_ACCEPTED_STR) ||
!strcmp(pmqpp->topic +
(strlen(pmqpp->topic) - rej_n),
LWS_MQTT_SHADOW_RESP_REJECTED_STR)) {
lws_sul_cancel(&wsi->mqtt->sul_shadow_wait);
wsi->mqtt->send_shadow_unsubscribe = 1;
lws_callback_on_writable(wsi);
return 0;
}
}
}
return 0; /* don't passthru */
case LWS_CALLBACK_MQTT_SUBSCRIBED:
if (wsi->mqtt->inside_shadow) {
wsi->mqtt->done_shadow_subscribe = 1;
lws_callback_on_writable(wsi);
return 0;
}
/*
* Stream demanded a subscribe without a Birth while connecting, once
* done notify CONNECTED event to the application.
*/
if (!wsi->mqtt->done_subscribe && !h->policy->u.mqtt.birth_topic) {
lws_sul_cancel(&h->sul);
r = lws_ss_event_helper(h, LWSSSCS_CONNECTED);
if (r != LWSSSSRET_OK)
return _lws_ss_handle_state_ret_CAN_DESTROY_HANDLE(r, wsi, &h);
}
wsi->mqtt->done_subscribe = 1;
lws_callback_on_writable(wsi);
break;
case LWS_CALLBACK_MQTT_ACK:
lws_sul_cancel(&h->sul_timeout);
if (h->u.mqtt.send_unacked) {
lws_buflist_destroy_all_segments(&h->u.mqtt.buflist_unacked);
h->u.mqtt.retry_count = h->u.mqtt.send_unacked = 0;
}
if (wsi->mqtt->inside_birth) {
/*
* Skip LWSSSCS_QOS_ACK_REMOTE for a Birth, notify
* CONNECTED event to the application.
*/
wsi->mqtt->inside_birth = 0;
wsi->mqtt->done_birth = 1;
r = lws_ss_event_helper(h, LWSSSCS_CONNECTED);
if (r != LWSSSSRET_OK)
return _lws_ss_handle_state_ret_CAN_DESTROY_HANDLE(r, wsi, &h);
lws_callback_on_writable(wsi);
break;
}
r = lws_ss_event_helper(h, LWSSSCS_QOS_ACK_REMOTE);
if (r != LWSSSSRET_OK)
return _lws_ss_handle_state_ret_CAN_DESTROY_HANDLE(r, wsi, &h);
break;
case LWS_CALLBACK_MQTT_RESEND:
lws_sul_cancel(&h->sul_timeout);
if (h->u.mqtt.retry_count++ < LWS_MQTT_MAX_PUBLISH_RETRY) {
h->u.mqtt.unacked_size =
(uint32_t)lws_buflist_total_len(&h->u.mqtt.buflist_unacked);
if (h->u.mqtt.unacked_size) {
lwsl_notice("%s: %s: resend unacked message (%d/%d) \n",
__func__, lws_ss_tag(h),
h->u.mqtt.retry_count,
LWS_MQTT_MAX_PUBLISH_RETRY);
h->u.mqtt.send_unacked = 1;
lws_callback_on_writable(wsi);
break;
}
}
lws_buflist_destroy_all_segments(&h->u.mqtt.buflist_unacked);
h->u.mqtt.retry_count = h->u.mqtt.send_unacked = 0;
if (wsi->mqtt->inside_birth) {
lwsl_err("%s: %s: failed to send Birth\n", __func__,
lws_ss_tag(h));
return -1;
}
r = lws_ss_event_helper(h, LWSSSCS_QOS_NACK_REMOTE);
if (r != LWSSSSRET_OK)
return _lws_ss_handle_state_ret_CAN_DESTROY_HANDLE(r, wsi, &h);
break;
case LWS_CALLBACK_MQTT_CLIENT_WRITEABLE:
{
if (!h || !h->info.tx)
return 0;
lwsl_notice("%s: %s: WRITEABLE\n", __func__, lws_ss_tag(h));
if (h->seqstate != SSSEQ_CONNECTED) {
lwsl_warn("%s: seqstate %d\n", __func__, h->seqstate);
break;
}
if (!wsi->mqtt->done_subscribe && h->policy->u.mqtt.subscribe)
return secstream_mqtt_subscribe(wsi);
if (h->u.mqtt.send_unacked)
return secstream_mqtt_resend(wsi, buf + LWS_PRE);
if (!wsi->mqtt->done_birth && h->policy->u.mqtt.birth_topic)
return secstream_mqtt_birth(wsi, buf + LWS_PRE, buflen);
if (h->policy->u.mqtt.aws_iot) {
if (secstream_mqtt_is_shadow_matched(wsi,
h->policy->u.mqtt.topic) == LMMTR_TOPIC_MATCH) {
if (!wsi->mqtt->done_shadow_subscribe)
return secstream_mqtt_shadow_subscribe(wsi);
if (wsi->mqtt->send_shadow_unsubscribe)
return secstream_mqtt_shadow_unsubscribe(wsi);
}
}
r = h->info.tx(ss_to_userobj(h), h->txord++, buf + LWS_PRE,
&buflen, &f);
if (r == LWSSSSRET_TX_DONT_SEND) {
if (wsi->mqtt->done_shadow_subscribe) {
return secstream_mqtt_shadow_unsubscribe(wsi);
}
return 0;
}
if (r == LWSSSSRET_DISCONNECT_ME) {
lws_mqtt_subscribe_param_t lmsp;
if (h->u.mqtt.sub_info.num_topics) {
lmsp.num_topics = h->u.mqtt.sub_info.num_topics;
lmsp.topic = h->u.mqtt.sub_info.topic;
lmsp.packet_id = (uint16_t)(h->txord - 1);
if (lws_mqtt_client_send_unsubcribe(wsi,
&lmsp)) {
lwsl_err("%s, failed to send"
" MQTT unsubsribe", __func__);
return -1;
}
return 0;
}
}
if (r < 0)
return _lws_ss_handle_state_ret_CAN_DESTROY_HANDLE(r, wsi, &h);
if (secstream_mqtt_publish(wsi, buf + LWS_PRE, buflen,
(uint32_t)h->writeable_len,
h->policy->u.mqtt.topic,
h->policy->u.mqtt.qos,
h->policy->u.mqtt.retain, 0, f) != 0) {
r = lws_ss_event_helper(h, LWSSSCS_QOS_NACK_REMOTE);
if (r != LWSSSSRET_OK)
return _lws_ss_handle_state_ret_CAN_DESTROY_HANDLE(r, wsi, &h);
}
return 0;
}
case LWS_CALLBACK_MQTT_UNSUBSCRIBED:
{
struct lws *nwsi = lws_get_network_wsi(wsi);
if (wsi->mqtt->inside_shadow) {
secstream_mqtt_shadow_cleanup(wsi);
wsi->mqtt->inside_shadow = 0;
wsi->mqtt->done_shadow_subscribe = 0;
break;
}
if (nwsi && (nwsi->mux.child_count == 1))
lws_mqtt_client_send_disconnect(nwsi);
return -1;
}
case LWS_CALLBACK_MQTT_UNSUBSCRIBE_TIMEOUT:
if (!wsi->mqtt)
return -1;
if (wsi->mqtt->inside_shadow) {
secstream_mqtt_shadow_cleanup(wsi);
wsi->mqtt->inside_shadow = 0;
wsi->mqtt->done_shadow_subscribe = 0;
lwsl_warn("%s: %s: Unsubscribe (Shadow) timeout.\n",
__func__, lws_ss_tag(h));
break;
}
if (wsi->mqtt->inside_unsubscribe) {
lwsl_warn("%s: %s: Unsubscribe timeout.\n", __func__,
lws_ss_tag(h));
return -1;
}
break;
case LWS_CALLBACK_MQTT_SHADOW_TIMEOUT:
if (!wsi->mqtt)
return -1;
if (wsi->mqtt->inside_shadow) {
lwsl_warn("%s: %s: Shadow timeout.\n", __func__,
lws_ss_tag(h));
wsi->mqtt->send_shadow_unsubscribe = 1;
lws_callback_on_writable(wsi);
}
break;
default:
break;
}
return lws_callback_http_dummy(wsi, reason, user, in, len);
}
const struct lws_protocols protocol_secstream_mqtt = {
"lws-secstream-mqtt",
secstream_mqtt,
0, 0, 0, NULL, 0
};
/*
* Munge connect info according to protocol-specific considerations... this
* usually means interpreting aux in a protocol-specific way and using the
* pieces at connection setup time, eg, http url pieces.
*
* len bytes of buf can be used for things with scope until after the actual
* connect.
*
* For ws, protocol aux is <url path>;<ws subprotocol name>
*/
enum {
SSCMM_STRSUB_WILL_TOPIC,
SSCMM_STRSUB_WILL_MESSAGE,
SSCMM_STRSUB_SUBSCRIBE,
SSCMM_STRSUB_TOPIC,
SSCMM_STRSUB_BIRTH_TOPIC,
SSCMM_STRSUB_BIRTH_MESSAGE
};
static int
secstream_connect_munge_mqtt(lws_ss_handle_t *h, char *buf, size_t len,
struct lws_client_connect_info *i,
union lws_ss_contemp *ct)
{
const char *sources[6] = {
/* we're going to string-substitute these before use */
h->policy->u.mqtt.will_topic,
h->policy->u.mqtt.will_message,
h->policy->u.mqtt.subscribe,
h->policy->u.mqtt.topic,
h->policy->u.mqtt.birth_topic,
h->policy->u.mqtt.birth_message
};
size_t used_in, olen[6] = { 0, 0, 0, 0, 0, 0 }, tot = 0;
lws_strexp_t exp;
char *ps[6];
uint8_t *p = NULL;
int n = -1;
size_t blen;
lws_system_blob_t *b = NULL;
memset(&ct->ccp, 0, sizeof(ct->ccp));
b = lws_system_get_blob(i->context,
LWS_SYSBLOB_TYPE_MQTT_CLIENT_ID, 0);
/* If LWS_SYSBLOB_TYPE_MQTT_CLIENT_ID is set */
if (b && (blen = lws_system_blob_get_size(b))) {
if (blen > LWS_MQTT_MAX_CIDLEN) {
lwsl_err("%s - Client ID too long.\n",
__func__);
return -1;
}
p = (uint8_t *)lws_zalloc(blen+1, __func__);
if (!p)
return -1;
n = lws_system_blob_get(b, p, &blen, 0);
if (n) {
ct->ccp.client_id = NULL;
} else {
ct->ccp.client_id = (const char *)p;
lwsl_notice("%s - Client ID = %s\n",
__func__, ct->ccp.client_id);
}
} else {
/* Default (Random) client ID */
ct->ccp.client_id = NULL;
}
b = lws_system_get_blob(i->context,
LWS_SYSBLOB_TYPE_MQTT_USERNAME, 0);
/* If LWS_SYSBLOB_TYPE_MQTT_USERNAME is set */
if (b && (blen = lws_system_blob_get_size(b))) {
p = (uint8_t *)lws_zalloc(blen+1, __func__);
if (!p)
return -1;
n = lws_system_blob_get(b, p, &blen, 0);
if (n) {
ct->ccp.username = NULL;
} else {
ct->ccp.username = (const char *)p;
lwsl_notice("%s - Username ID = %s\n",
__func__, ct->ccp.username);
}
}
b = lws_system_get_blob(i->context,
LWS_SYSBLOB_TYPE_MQTT_PASSWORD, 0);
/* If LWS_SYSBLOB_TYPE_MQTT_PASSWORD is set */
if (b && (blen = lws_system_blob_get_size(b))) {
p = (uint8_t *)lws_zalloc(blen+1, __func__);
if (!p)
return -1;
n = lws_system_blob_get(b, p, &blen, 0);
if (n) {
ct->ccp.password = NULL;
} else {
ct->ccp.password = (const char *)p;
lwsl_notice("%s - Password ID = %s\n",
__func__, ct->ccp.password);
}
}
ct->ccp.keep_alive = h->policy->u.mqtt.keep_alive;
ct->ccp.clean_start = (h->policy->u.mqtt.clean_start & 1u);
ct->ccp.will_param.qos = h->policy->u.mqtt.will_qos;
ct->ccp.will_param.retain = h->policy->u.mqtt.will_retain;
ct->ccp.birth_param.qos = h->policy->u.mqtt.birth_qos;
ct->ccp.birth_param.retain = h->policy->u.mqtt.birth_retain;
ct->ccp.aws_iot = h->policy->u.mqtt.aws_iot;
h->u.mqtt.topic_qos.qos = h->policy->u.mqtt.qos;
/*
* We're going to string-substitute several of these parameters, which
* have unknown, possibly large size. And, as their usage is deferred
* inside the asynchronous lifetime of the MQTT connection, they need
* to live on the heap.
*
* Notice these allocations at h->u.mqtt.heap_baggage belong to the
* underlying MQTT stream lifetime, not the logical SS lifetime, and
* are destroyed if present at connection error or close of the
* underlying connection.
*
*
* First, compute the length of each without producing strsubst output,
* and keep a running total.
*/
for (n = 0; n < (int)LWS_ARRAY_SIZE(sources); n++) {
if (!sources[n])
continue;
lws_strexp_init(&exp, (void *)h, lws_ss_exp_cb_metadata,
NULL, (size_t)-1);
if (lws_strexp_expand(&exp, sources[n], strlen(sources[n]),
&used_in, &olen[n]) != LSTRX_DONE) {
lwsl_err("%s: failed to subsitute %s\n", __func__,
sources[n]);
return 1;
}
tot += olen[n] + 1;
}
/*
* Then, allocate enough space on the heap for the total of the
* substituted results
*/
h->u.mqtt.heap_baggage = lws_malloc(tot, __func__);
if (!h->u.mqtt.heap_baggage)
return 1;
/*
* Finally, issue the subsitutions one after the other into the single
* allocated result buffer and prepare pointers into them
*/
p = h->u.mqtt.heap_baggage;
for (n = 0; n < (int)LWS_ARRAY_SIZE(sources); n++) {
lws_strexp_init(&exp, (void *)h, lws_ss_exp_cb_metadata,
(char *)p, (size_t)-1);
if (!sources[n]) {
ps[n] = NULL;
continue;
}
ps[n] = (char *)p;
if (lws_strexp_expand(&exp, sources[n], strlen(sources[n]),
&used_in, &olen[n]) != LSTRX_DONE)
return 1;
p += olen[n] + 1;
}
/*
* Point the guys who want the substituted content at the substituted
* strings
*/
ct->ccp.will_param.topic = ps[SSCMM_STRSUB_WILL_TOPIC];
ct->ccp.will_param.message = ps[SSCMM_STRSUB_WILL_MESSAGE];
h->u.mqtt.subscribe_to = ps[SSCMM_STRSUB_SUBSCRIBE];
h->u.mqtt.subscribe_to_len = olen[SSCMM_STRSUB_SUBSCRIBE];
h->u.mqtt.topic_qos.name = ps[SSCMM_STRSUB_TOPIC];
ct->ccp.birth_param.topic = ps[SSCMM_STRSUB_BIRTH_TOPIC];
ct->ccp.birth_param.message = ps[SSCMM_STRSUB_BIRTH_MESSAGE];
i->method = "MQTT";
i->mqtt_cp = &ct->ccp;
i->alpn = "x-amzn-mqtt-ca";
/* share connections where possible */
i->ssl_connection |= LCCSCF_PIPELINE;
return 0;
}
const struct ss_pcols ss_pcol_mqtt = {
"MQTT",
"x-amzn-mqtt-ca", //"mqtt/3.1.1",
&protocol_secstream_mqtt,
secstream_connect_munge_mqtt,
NULL, NULL
};