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|
// SPDX-License-Identifier: GPL-3.0-or-later
#include "libnetdata/libnetdata.h"
#include "agent_cloud_link.h"
#include "aclk_lws_https_client.h"
#include "aclk_query.h"
#include "aclk_common.h"
#include "aclk_stats.h"
#ifdef ENABLE_ACLK
#include <libwebsockets.h>
#endif
int aclk_shutting_down = 0;
// Other global state
static int aclk_subscribed = 0;
static int aclk_disable_single_updates = 0;
static char *aclk_username = NULL;
static char *aclk_password = NULL;
static char *global_base_topic = NULL;
static int aclk_connecting = 0;
int aclk_force_reconnect = 0; // Indication from lower layers
usec_t aclk_session_us = 0; // Used by the mqtt layer
time_t aclk_session_sec = 0; // Used by the mqtt layer
static netdata_mutex_t aclk_mutex = NETDATA_MUTEX_INITIALIZER;
static netdata_mutex_t collector_mutex = NETDATA_MUTEX_INITIALIZER;
#define ACLK_LOCK netdata_mutex_lock(&aclk_mutex)
#define ACLK_UNLOCK netdata_mutex_unlock(&aclk_mutex)
#define COLLECTOR_LOCK netdata_mutex_lock(&collector_mutex)
#define COLLECTOR_UNLOCK netdata_mutex_unlock(&collector_mutex)
void lws_wss_check_queues(size_t *write_len, size_t *write_len_bytes, size_t *read_len);
void aclk_lws_wss_destroy_context();
/*
* Maintain a list of collectors and chart count
* If all the charts of a collector are deleted
* then a new metadata dataset must be send to the cloud
*
*/
struct _collector {
time_t created;
uint32_t count; //chart count
uint32_t hostname_hash;
uint32_t plugin_hash;
uint32_t module_hash;
char *hostname;
char *plugin_name;
char *module_name;
struct _collector *next;
};
struct _collector *collector_list = NULL;
char *create_uuid()
{
uuid_t uuid;
char *uuid_str = mallocz(36 + 1);
uuid_generate(uuid);
uuid_unparse(uuid, uuid_str);
return uuid_str;
}
int cloud_to_agent_parse(JSON_ENTRY *e)
{
struct aclk_request *data = e->callback_data;
switch (e->type) {
case JSON_OBJECT:
case JSON_ARRAY:
break;
case JSON_STRING:
if (!strcmp(e->name, "msg-id")) {
data->msg_id = strdupz(e->data.string);
break;
}
if (!strcmp(e->name, "type")) {
data->type_id = strdupz(e->data.string);
break;
}
if (!strcmp(e->name, "callback-topic")) {
data->callback_topic = strdupz(e->data.string);
break;
}
if (!strcmp(e->name, "payload")) {
if (likely(e->data.string)) {
size_t len = strlen(e->data.string);
data->payload = mallocz(len+1);
if (!url_decode_r(data->payload, e->data.string, len + 1))
strcpy(data->payload, e->data.string);
}
break;
}
break;
case JSON_NUMBER:
if (!strcmp(e->name, "version")) {
data->version = e->data.number;
break;
}
if (!strcmp(e->name, "min-version")) {
data->min_version = e->data.number;
break;
}
if (!strcmp(e->name, "max-version")) {
data->max_version = e->data.number;
break;
}
break;
case JSON_BOOLEAN:
break;
case JSON_NULL:
break;
}
return 0;
}
static RSA *aclk_private_key = NULL;
static int create_private_key()
{
if (aclk_private_key != NULL)
RSA_free(aclk_private_key);
aclk_private_key = NULL;
char filename[FILENAME_MAX + 1];
snprintfz(filename, FILENAME_MAX, "%s/cloud.d/private.pem", netdata_configured_varlib_dir);
long bytes_read;
char *private_key = read_by_filename(filename, &bytes_read);
if (!private_key) {
error("Claimed agent cannot establish ACLK - unable to load private key '%s' failed.", filename);
return 1;
}
debug(D_ACLK, "Claimed agent loaded private key len=%ld bytes", bytes_read);
BIO *key_bio = BIO_new_mem_buf(private_key, -1);
if (key_bio==NULL) {
error("Claimed agent cannot establish ACLK - failed to create BIO for key");
goto biofailed;
}
aclk_private_key = PEM_read_bio_RSAPrivateKey(key_bio, NULL, NULL, NULL);
BIO_free(key_bio);
if (aclk_private_key!=NULL)
{
freez(private_key);
return 0;
}
char err[512];
ERR_error_string_n(ERR_get_error(), err, sizeof(err));
error("Claimed agent cannot establish ACLK - cannot create private key: %s", err);
biofailed:
freez(private_key);
return 1;
}
/*
* After a connection failure -- delay in milliseconds
* When a connection is established, the delay function
* should be called with
*
* mode 0 to reset the delay
* mode 1 to calculate sleep time [0 .. ACLK_MAX_BACKOFF_DELAY * 1000] ms
*
*/
unsigned long int aclk_reconnect_delay(int mode)
{
static int fail = -1;
unsigned long int delay;
if (!mode || fail == -1) {
srandom(time(NULL));
fail = mode - 1;
return 0;
}
delay = (1 << fail);
if (delay >= ACLK_MAX_BACKOFF_DELAY) {
delay = ACLK_MAX_BACKOFF_DELAY * 1000;
} else {
fail++;
delay *= 1000;
delay += (random() % (MAX(1000, delay/2)));
}
return delay;
}
// This will give the base topic that the agent will publish messages.
// subtopics will be sent under the base topic e.g. base_topic/subtopic
// This is called during the connection, we delete any previous topic
// in-case the user has changed the agent id and reclaimed.
char *create_publish_base_topic()
{
char *agent_id = is_agent_claimed();
if (unlikely(!agent_id))
return NULL;
ACLK_LOCK;
if (global_base_topic)
freez(global_base_topic);
char tmp_topic[ACLK_MAX_TOPIC + 1], *tmp;
snprintf(tmp_topic, ACLK_MAX_TOPIC, ACLK_TOPIC_STRUCTURE, agent_id);
tmp = strchr(tmp_topic, '\n');
if (unlikely(tmp))
*tmp = '\0';
global_base_topic = strdupz(tmp_topic);
ACLK_UNLOCK;
freez(agent_id);
return global_base_topic;
}
/*
* Build a topic based on sub_topic and final_topic
* if the sub topic starts with / assume that is an absolute topic
*
*/
char *get_topic(char *sub_topic, char *final_topic, int max_size)
{
int rc;
if (likely(sub_topic && sub_topic[0] == '/'))
return sub_topic;
if (unlikely(!global_base_topic))
return sub_topic;
rc = snprintf(final_topic, max_size, "%s/%s", global_base_topic, sub_topic);
if (unlikely(rc >= max_size))
debug(D_ACLK, "Topic has been truncated to [%s] instead of [%s/%s]", final_topic, global_base_topic, sub_topic);
return final_topic;
}
#ifndef __GNUC__
#pragma region ACLK Internal Collector Tracking
#endif
/*
* Free a collector structure
*/
static void _free_collector(struct _collector *collector)
{
if (likely(collector->plugin_name))
freez(collector->plugin_name);
if (likely(collector->module_name))
freez(collector->module_name);
if (likely(collector->hostname))
freez(collector->hostname);
freez(collector);
}
/*
* This will report the collector list
*
*/
#ifdef ACLK_DEBUG
static void _dump_collector_list()
{
struct _collector *tmp_collector;
COLLECTOR_LOCK;
info("DUMPING ALL COLLECTORS");
if (unlikely(!collector_list || !collector_list->next)) {
COLLECTOR_UNLOCK;
info("DUMPING ALL COLLECTORS -- nothing found");
return;
}
// Note that the first entry is "dummy"
tmp_collector = collector_list->next;
while (tmp_collector) {
info(
"COLLECTOR %s : [%s:%s] count = %u", tmp_collector->hostname,
tmp_collector->plugin_name ? tmp_collector->plugin_name : "",
tmp_collector->module_name ? tmp_collector->module_name : "", tmp_collector->count);
tmp_collector = tmp_collector->next;
}
info("DUMPING ALL COLLECTORS DONE");
COLLECTOR_UNLOCK;
}
#endif
/*
* This will cleanup the collector list
*
*/
static void _reset_collector_list()
{
struct _collector *tmp_collector, *next_collector;
COLLECTOR_LOCK;
if (unlikely(!collector_list || !collector_list->next)) {
COLLECTOR_UNLOCK;
return;
}
// Note that the first entry is "dummy"
tmp_collector = collector_list->next;
collector_list->count = 0;
collector_list->next = NULL;
// We broke the link; we can unlock
COLLECTOR_UNLOCK;
while (tmp_collector) {
next_collector = tmp_collector->next;
_free_collector(tmp_collector);
tmp_collector = next_collector;
}
}
/*
* Find a collector (if it exists)
* Must lock before calling this
* If last_collector is not null, it will return the previous collector in the linked
* list (used in collector delete)
*/
static struct _collector *_find_collector(
const char *hostname, const char *plugin_name, const char *module_name, struct _collector **last_collector)
{
struct _collector *tmp_collector, *prev_collector;
uint32_t plugin_hash;
uint32_t module_hash;
uint32_t hostname_hash;
if (unlikely(!collector_list)) {
collector_list = callocz(1, sizeof(struct _collector));
return NULL;
}
if (unlikely(!collector_list->next))
return NULL;
plugin_hash = plugin_name ? simple_hash(plugin_name) : 1;
module_hash = module_name ? simple_hash(module_name) : 1;
hostname_hash = simple_hash(hostname);
// Note that the first entry is "dummy"
tmp_collector = collector_list->next;
prev_collector = collector_list;
while (tmp_collector) {
if (plugin_hash == tmp_collector->plugin_hash && module_hash == tmp_collector->module_hash &&
hostname_hash == tmp_collector->hostname_hash && (!strcmp(hostname, tmp_collector->hostname)) &&
(!plugin_name || !tmp_collector->plugin_name || !strcmp(plugin_name, tmp_collector->plugin_name)) &&
(!module_name || !tmp_collector->module_name || !strcmp(module_name, tmp_collector->module_name))) {
if (unlikely(last_collector))
*last_collector = prev_collector;
return tmp_collector;
}
prev_collector = tmp_collector;
tmp_collector = tmp_collector->next;
}
return tmp_collector;
}
/*
* Called to delete a collector
* It will reduce the count (chart_count) and will remove it
* from the linked list if the count reaches zero
* The structure will be returned to the caller to free
* the resources
*
*/
static struct _collector *_del_collector(const char *hostname, const char *plugin_name, const char *module_name)
{
struct _collector *tmp_collector, *prev_collector = NULL;
tmp_collector = _find_collector(hostname, plugin_name, module_name, &prev_collector);
if (likely(tmp_collector)) {
--tmp_collector->count;
if (unlikely(!tmp_collector->count))
prev_collector->next = tmp_collector->next;
}
return tmp_collector;
}
/*
* Add a new collector (plugin / module) to the list
* If it already exists just update the chart count
*
* Lock before calling
*/
static struct _collector *_add_collector(const char *hostname, const char *plugin_name, const char *module_name)
{
struct _collector *tmp_collector;
tmp_collector = _find_collector(hostname, plugin_name, module_name, NULL);
if (unlikely(!tmp_collector)) {
tmp_collector = callocz(1, sizeof(struct _collector));
tmp_collector->hostname_hash = simple_hash(hostname);
tmp_collector->plugin_hash = plugin_name ? simple_hash(plugin_name) : 1;
tmp_collector->module_hash = module_name ? simple_hash(module_name) : 1;
tmp_collector->hostname = strdupz(hostname);
tmp_collector->plugin_name = plugin_name ? strdupz(plugin_name) : NULL;
tmp_collector->module_name = module_name ? strdupz(module_name) : NULL;
tmp_collector->next = collector_list->next;
collector_list->next = tmp_collector;
}
tmp_collector->count++;
debug(
D_ACLK, "ADD COLLECTOR %s [%s:%s] -- chart %u", hostname, plugin_name ? plugin_name : "*",
module_name ? module_name : "*", tmp_collector->count);
return tmp_collector;
}
#ifndef __GNUC__
#pragma endregion
#endif
/* Avoids the need to scan trough all RRDHOSTS
* every time any Query Thread Wakes Up
* (every time we need to check child popcorn expiry)
* call with ACLK_SHARED_STATE_LOCK held
*/
void aclk_update_next_child_to_popcorn(void)
{
RRDHOST *host;
int any = 0;
rrd_rdlock();
rrdhost_foreach_read(host) {
if (unlikely(host == localhost || rrdhost_flag_check(host, RRDHOST_FLAG_ARCHIVED)))
continue;
rrdhost_aclk_state_lock(host);
if (!ACLK_IS_HOST_POPCORNING(host)) {
rrdhost_aclk_state_unlock(host);
continue;
}
any = 1;
if (unlikely(!aclk_shared_state.next_popcorn_host)) {
aclk_shared_state.next_popcorn_host = host;
rrdhost_aclk_state_unlock(host);
continue;
}
if (aclk_shared_state.next_popcorn_host->aclk_state.t_last_popcorn_update > host->aclk_state.t_last_popcorn_update)
aclk_shared_state.next_popcorn_host = host;
rrdhost_aclk_state_unlock(host);
}
if(!any)
aclk_shared_state.next_popcorn_host = NULL;
rrd_unlock();
}
/* If popcorning bump timer.
* If popcorning or initializing (host not stable) return 1
* Otherwise return 0
*/
static int aclk_popcorn_check_bump(RRDHOST *host)
{
time_t now = now_monotonic_sec();
int updated = 0, ret;
ACLK_SHARED_STATE_LOCK;
rrdhost_aclk_state_lock(host);
ret = ACLK_IS_HOST_INITIALIZING(host);
if (unlikely(ACLK_IS_HOST_POPCORNING(host))) {
if(now != host->aclk_state.t_last_popcorn_update) {
updated = 1;
info("Restarting ACLK popcorn timer for host \"%s\" with GUID \"%s\"", host->hostname, host->machine_guid);
}
host->aclk_state.t_last_popcorn_update = now;
rrdhost_aclk_state_unlock(host);
if (host != localhost && updated)
aclk_update_next_child_to_popcorn();
ACLK_SHARED_STATE_UNLOCK;
return ret;
}
rrdhost_aclk_state_unlock(host);
ACLK_SHARED_STATE_UNLOCK;
return ret;
}
inline static int aclk_host_initializing(RRDHOST *host)
{
rrdhost_aclk_state_lock(host);
int ret = ACLK_IS_HOST_INITIALIZING(host);
rrdhost_aclk_state_unlock(host);
return ret;
}
static void aclk_start_host_popcorning(RRDHOST *host)
{
usec_t now = now_monotonic_sec();
info("Starting ACLK popcorn timer for host \"%s\" with GUID \"%s\"", host->hostname, host->machine_guid);
ACLK_SHARED_STATE_LOCK;
rrdhost_aclk_state_lock(host);
if (host == localhost && !ACLK_IS_HOST_INITIALIZING(host)) {
errno = 0;
error("Localhost is allowed to do popcorning only once after startup!");
rrdhost_aclk_state_unlock(host);
ACLK_SHARED_STATE_UNLOCK;
return;
}
host->aclk_state.state = ACLK_HOST_INITIALIZING;
host->aclk_state.metadata = ACLK_METADATA_REQUIRED;
host->aclk_state.t_last_popcorn_update = now;
rrdhost_aclk_state_unlock(host);
if (host != localhost)
aclk_update_next_child_to_popcorn();
ACLK_SHARED_STATE_UNLOCK;
}
static void aclk_stop_host_popcorning(RRDHOST *host)
{
ACLK_SHARED_STATE_LOCK;
rrdhost_aclk_state_lock(host);
if (!ACLK_IS_HOST_POPCORNING(host)) {
rrdhost_aclk_state_unlock(host);
ACLK_SHARED_STATE_UNLOCK;
return;
}
info("Host Disconnected before ACLK popcorning finished. Canceling. Host \"%s\" GUID:\"%s\"", host->hostname, host->machine_guid);
host->aclk_state.t_last_popcorn_update = 0;
host->aclk_state.metadata = ACLK_METADATA_REQUIRED;
rrdhost_aclk_state_unlock(host);
if(host == aclk_shared_state.next_popcorn_host) {
aclk_shared_state.next_popcorn_host = NULL;
aclk_update_next_child_to_popcorn();
}
ACLK_SHARED_STATE_UNLOCK;
}
/*
* Add a new collector to the list
* If it exists, update the chart count
*/
void aclk_add_collector(RRDHOST *host, const char *plugin_name, const char *module_name)
{
struct _collector *tmp_collector;
if (unlikely(!netdata_ready)) {
return;
}
COLLECTOR_LOCK;
tmp_collector = _add_collector(host->machine_guid, plugin_name, module_name);
if (unlikely(tmp_collector->count != 1)) {
COLLECTOR_UNLOCK;
return;
}
COLLECTOR_UNLOCK;
if(aclk_popcorn_check_bump(host))
return;
if (unlikely(aclk_queue_query("collector", host, NULL, NULL, 0, 1, ACLK_CMD_ONCONNECT)))
debug(D_ACLK, "ACLK failed to queue on_connect command on collector addition");
}
/*
* Delete a collector from the list
* If the chart count reaches zero the collector will be removed
* from the list by calling del_collector.
*
* This function will release the memory used and schedule
* a cloud update
*/
void aclk_del_collector(RRDHOST *host, const char *plugin_name, const char *module_name)
{
struct _collector *tmp_collector;
if (unlikely(!netdata_ready)) {
return;
}
COLLECTOR_LOCK;
tmp_collector = _del_collector(host->machine_guid, plugin_name, module_name);
if (unlikely(!tmp_collector || tmp_collector->count)) {
COLLECTOR_UNLOCK;
return;
}
debug(
D_ACLK, "DEL COLLECTOR [%s:%s] -- charts %u", plugin_name ? plugin_name : "*", module_name ? module_name : "*",
tmp_collector->count);
COLLECTOR_UNLOCK;
_free_collector(tmp_collector);
if (aclk_popcorn_check_bump(host))
return;
if (unlikely(aclk_queue_query("collector", host, NULL, NULL, 0, 1, ACLK_CMD_ONCONNECT)))
debug(D_ACLK, "ACLK failed to queue on_connect command on collector deletion");
}
static void aclk_graceful_disconnect()
{
size_t write_q, write_q_bytes, read_q;
time_t event_loop_timeout;
// Send a graceful disconnect message
BUFFER *b = buffer_create(512);
aclk_create_header(b, "disconnect", NULL, 0, 0, aclk_shared_state.version_neg);
buffer_strcat(b, ",\n\t\"payload\": \"graceful\"}");
aclk_send_message(ACLK_METADATA_TOPIC, (char*)buffer_tostring(b), NULL);
buffer_free(b);
event_loop_timeout = now_realtime_sec() + 5;
write_q = 1;
while (write_q && event_loop_timeout > now_realtime_sec()) {
_link_event_loop();
lws_wss_check_queues(&write_q, &write_q_bytes, &read_q);
}
aclk_shutting_down = 1;
_link_shutdown();
aclk_lws_wss_mqtt_layer_disconect_notif();
write_q = 1;
event_loop_timeout = now_realtime_sec() + 5;
while (write_q && event_loop_timeout > now_realtime_sec()) {
_link_event_loop();
lws_wss_check_queues(&write_q, &write_q_bytes, &read_q);
}
aclk_shutting_down = 0;
}
#ifndef __GNUC__
#pragma region Incoming Msg Parsing
#endif
struct dictionary_singleton {
char *key;
char *result;
};
int json_extract_singleton(JSON_ENTRY *e)
{
struct dictionary_singleton *data = e->callback_data;
switch (e->type) {
case JSON_OBJECT:
case JSON_ARRAY:
break;
case JSON_STRING:
if (!strcmp(e->name, data->key)) {
data->result = strdupz(e->data.string);
break;
}
break;
case JSON_NUMBER:
case JSON_BOOLEAN:
case JSON_NULL:
break;
}
return 0;
}
#ifndef __GNUC__
#pragma endregion
#endif
#ifndef __GNUC__
#pragma region Challenge Response
#endif
// Base-64 decoder.
// Note: This is non-validating, invalid input will be decoded without an error.
// Challenges are packed into json strings so we don't skip newlines.
// Size errors (i.e. invalid input size or insufficient output space) are caught.
size_t base64_decode(unsigned char *input, size_t input_size, unsigned char *output, size_t output_size)
{
static char lookup[256];
static int first_time=1;
if (first_time)
{
first_time = 0;
for(int i=0; i<256; i++)
lookup[i] = -1;
for(int i='A'; i<='Z'; i++)
lookup[i] = i-'A';
for(int i='a'; i<='z'; i++)
lookup[i] = i-'a' + 26;
for(int i='0'; i<='9'; i++)
lookup[i] = i-'0' + 52;
lookup['+'] = 62;
lookup['/'] = 63;
}
if ((input_size & 3) != 0)
{
error("Can't decode base-64 input length %zu", input_size);
return 0;
}
size_t unpadded_size = (input_size/4) * 3;
if ( unpadded_size > output_size )
{
error("Output buffer size %zu is too small to decode %zu into", output_size, input_size);
return 0;
}
// Don't check padding within full quantums
for (size_t i = 0 ; i < input_size-4 ; i+=4 )
{
uint32_t value = (lookup[input[0]] << 18) + (lookup[input[1]] << 12) + (lookup[input[2]] << 6) + lookup[input[3]];
output[0] = value >> 16;
output[1] = value >> 8;
output[2] = value;
//error("Decoded %c %c %c %c -> %02x %02x %02x", input[0], input[1], input[2], input[3], output[0], output[1], output[2]);
output += 3;
input += 4;
}
// Handle padding only in last quantum
if (input[2] == '=') {
uint32_t value = (lookup[input[0]] << 6) + lookup[input[1]];
output[0] = value >> 4;
//error("Decoded %c %c %c %c -> %02x", input[0], input[1], input[2], input[3], output[0]);
return unpadded_size-2;
}
else if (input[3] == '=') {
uint32_t value = (lookup[input[0]] << 12) + (lookup[input[1]] << 6) + lookup[input[2]];
output[0] = value >> 10;
output[1] = value >> 2;
//error("Decoded %c %c %c %c -> %02x %02x", input[0], input[1], input[2], input[3], output[0], output[1]);
return unpadded_size-1;
}
else
{
uint32_t value = (input[0] << 18) + (input[1] << 12) + (input[2]<<6) + input[3];
output[0] = value >> 16;
output[1] = value >> 8;
output[2] = value;
//error("Decoded %c %c %c %c -> %02x %02x %02x", input[0], input[1], input[2], input[3], output[0], output[1], output[2]);
return unpadded_size;
}
}
size_t base64_encode(unsigned char *input, size_t input_size, char *output, size_t output_size)
{
uint32_t value;
static char lookup[] = "ABCDEFGHIJKLMNOPQRSTUVWXYZ"
"abcdefghijklmnopqrstuvwxyz"
"0123456789+/";
if ((input_size/3+1)*4 >= output_size)
{
error("Output buffer for encoding size=%zu is not large enough for %zu-bytes input", output_size, input_size);
return 0;
}
size_t count = 0;
while (input_size>3)
{
value = ((input[0] << 16) + (input[1] << 8) + input[2]) & 0xffffff;
output[0] = lookup[value >> 18];
output[1] = lookup[(value >> 12) & 0x3f];
output[2] = lookup[(value >> 6) & 0x3f];
output[3] = lookup[value & 0x3f];
//error("Base-64 encode (%04x) -> %c %c %c %c\n", value, output[0], output[1], output[2], output[3]);
output += 4;
input += 3;
input_size -= 3;
count += 4;
}
switch (input_size)
{
case 2:
value = (input[0] << 10) + (input[1] << 2);
output[0] = lookup[(value >> 12) & 0x3f];
output[1] = lookup[(value >> 6) & 0x3f];
output[2] = lookup[value & 0x3f];
output[3] = '=';
//error("Base-64 encode (%06x) -> %c %c %c %c\n", (value>>2)&0xffff, output[0], output[1], output[2], output[3]);
count += 4;
break;
case 1:
value = input[0] << 4;
output[0] = lookup[(value >> 6) & 0x3f];
output[1] = lookup[value & 0x3f];
output[2] = '=';
output[3] = '=';
//error("Base-64 encode (%06x) -> %c %c %c %c\n", value, output[0], output[1], output[2], output[3]);
count += 4;
break;
case 0:
break;
}
return count;
}
int private_decrypt(unsigned char * enc_data, int data_len, unsigned char *decrypted)
{
int result = RSA_private_decrypt( data_len, enc_data, decrypted, aclk_private_key, RSA_PKCS1_OAEP_PADDING);
if (result == -1) {
char err[512];
ERR_error_string_n(ERR_get_error(), err, sizeof(err));
error("Decryption of the challenge failed: %s", err);
}
return result;
}
void aclk_get_challenge(char *aclk_hostname, int port)
{
char *data_buffer = mallocz(NETDATA_WEB_RESPONSE_INITIAL_SIZE);
debug(D_ACLK, "Performing challenge-response sequence");
if (aclk_password != NULL)
{
freez(aclk_password);
aclk_password = NULL;
}
// curl http://cloud-iam-agent-service:8080/api/v1/auth/node/00000000-0000-0000-0000-000000000000/challenge
// TODO - target host?
char *agent_id = is_agent_claimed();
if (agent_id == NULL)
{
error("Agent was not claimed - cannot perform challenge/response");
goto CLEANUP;
}
char url[1024];
sprintf(url, "/api/v1/auth/node/%s/challenge", agent_id);
info("Retrieving challenge from cloud: %s %d %s", aclk_hostname, port, url);
if(aclk_send_https_request("GET", aclk_hostname, port, url, data_buffer, NETDATA_WEB_RESPONSE_INITIAL_SIZE, NULL))
{
error("Challenge failed: %s", data_buffer);
goto CLEANUP;
}
struct dictionary_singleton challenge = { .key = "challenge", .result = NULL };
debug(D_ACLK, "Challenge response from cloud: %s", data_buffer);
if ( json_parse(data_buffer, &challenge, json_extract_singleton) != JSON_OK)
{
freez(challenge.result);
error("Could not parse the json response with the challenge: %s", data_buffer);
goto CLEANUP;
}
if (challenge.result == NULL ) {
error("Could not retrieve challenge from auth response: %s", data_buffer);
goto CLEANUP;
}
size_t challenge_len = strlen(challenge.result);
unsigned char decoded[512];
size_t decoded_len = base64_decode((unsigned char*)challenge.result, challenge_len, decoded, sizeof(decoded));
unsigned char plaintext[4096]={};
int decrypted_length = private_decrypt(decoded, decoded_len, plaintext);
freez(challenge.result);
char encoded[512];
size_t encoded_len = base64_encode(plaintext, decrypted_length, encoded, sizeof(encoded));
encoded[encoded_len] = 0;
debug(D_ACLK, "Encoded len=%zu Decryption len=%d: '%s'", encoded_len, decrypted_length, encoded);
char response_json[4096]={};
sprintf(response_json, "{\"response\":\"%s\"}", encoded);
debug(D_ACLK, "Password phase: %s",response_json);
// TODO - host
sprintf(url, "/api/v1/auth/node/%s/password", agent_id);
if(aclk_send_https_request("POST", aclk_hostname, port, url, data_buffer, NETDATA_WEB_RESPONSE_INITIAL_SIZE, response_json))
{
error("Challenge-response failed: %s", data_buffer);
goto CLEANUP;
}
debug(D_ACLK, "Password response from cloud: %s", data_buffer);
struct dictionary_singleton password = { .key = "password", .result = NULL };
if ( json_parse(data_buffer, &password, json_extract_singleton) != JSON_OK)
{
freez(password.result);
error("Could not parse the json response with the password: %s", data_buffer);
goto CLEANUP;
}
if (password.result == NULL ) {
error("Could not retrieve password from auth response");
goto CLEANUP;
}
if (aclk_password != NULL )
freez(aclk_password);
aclk_password = password.result;
if (aclk_username != NULL)
freez(aclk_username);
aclk_username = agent_id;
agent_id = NULL;
CLEANUP:
if (agent_id != NULL)
freez(agent_id);
freez(data_buffer);
return;
}
#ifndef __GNUC__
#pragma endregion
#endif
static void aclk_try_to_connect(char *hostname, int port)
{
int rc;
// this is usefull for developers working on ACLK
// allows connecting agent to any MQTT broker
// for debugging, development and testing purposes
#ifndef ACLK_DISABLE_CHALLENGE
if (!aclk_private_key) {
error("Cannot try to establish the agent cloud link - no private key available!");
return;
}
#endif
info("Attempting to establish the agent cloud link");
#ifdef ACLK_DISABLE_CHALLENGE
error("Agent built with ACLK_DISABLE_CHALLENGE. This is for testing "
"and development purposes only. Warranty void. Won't be able "
"to connect to Netdata Cloud.");
if (aclk_password == NULL)
aclk_password = strdupz("anon");
#else
aclk_get_challenge(hostname, port);
if (aclk_password == NULL)
return;
#endif
aclk_connecting = 1;
create_publish_base_topic();
ACLK_SHARED_STATE_LOCK;
aclk_shared_state.version_neg = 0;
aclk_shared_state.version_neg_wait_till = 0;
ACLK_SHARED_STATE_UNLOCK;
rc = mqtt_attempt_connection(hostname, port, aclk_username, aclk_password);
if (unlikely(rc)) {
error("Failed to initialize the agent cloud link library");
}
}
// Sends "hello" message to negotiate ACLK version with cloud
static inline void aclk_hello_msg()
{
BUFFER *buf = buffer_create(NETDATA_WEB_RESPONSE_HEADER_SIZE);
char *msg_id = create_uuid();
ACLK_SHARED_STATE_LOCK;
aclk_shared_state.version_neg = 0;
aclk_shared_state.version_neg_wait_till = now_monotonic_usec() + USEC_PER_SEC * VERSION_NEG_TIMEOUT;
ACLK_SHARED_STATE_UNLOCK;
//Hello message is versioned separatelly from the rest of the protocol
aclk_create_header(buf, "hello", msg_id, 0, 0, ACLK_VERSION_NEG_VERSION);
buffer_sprintf(buf, ",\"min-version\":%d,\"max-version\":%d}", ACLK_VERSION_MIN, ACLK_VERSION_MAX);
aclk_send_message(ACLK_METADATA_TOPIC, buf->buffer, msg_id);
freez(msg_id);
buffer_free(buf);
}
/**
* Main agent cloud link thread
*
* This thread will simply call the main event loop that handles
* pending requests - both inbound and outbound
*
* @param ptr is a pointer to the netdata_static_thread structure.
*
* @return It always returns NULL
*/
void *aclk_main(void *ptr)
{
struct netdata_static_thread *static_thread = (struct netdata_static_thread *)ptr;
struct aclk_query_threads query_threads;
struct aclk_stats_thread *stats_thread = NULL;
time_t last_periodic_query_wakeup = 0;
query_threads.thread_list = NULL;
// This thread is unusual in that it cannot be cancelled by cancel_main_threads()
// as it must notify the far end that it shutdown gracefully and avoid the LWT.
netdata_thread_disable_cancelability();
#if defined( DISABLE_CLOUD ) || !defined( ENABLE_ACLK)
info("Killing ACLK thread -> cloud functionality has been disabled");
static_thread->enabled = NETDATA_MAIN_THREAD_EXITED;
return NULL;
#endif
#ifndef LWS_WITH_SOCKS5
ACLK_PROXY_TYPE proxy_type;
aclk_get_proxy(&proxy_type);
if(proxy_type == PROXY_TYPE_SOCKS5) {
error("Disabling ACLK due to requested SOCKS5 proxy.");
static_thread->enabled = NETDATA_MAIN_THREAD_EXITED;
return NULL;
}
#endif
info("Waiting for netdata to be ready");
while (!netdata_ready) {
sleep_usec(USEC_PER_MS * 300);
}
info("Waiting for Cloud to be enabled");
while (!netdata_cloud_setting) {
sleep_usec(USEC_PER_SEC * 1);
if (netdata_exit) {
static_thread->enabled = NETDATA_MAIN_THREAD_EXITED;
return NULL;
}
}
query_threads.count = MIN(processors/2, 6);
query_threads.count = MAX(query_threads.count, 2);
query_threads.count = config_get_number(CONFIG_SECTION_CLOUD, "query thread count", query_threads.count);
if(query_threads.count < 1) {
error("You need at least one query thread. Overriding configured setting of \"%d\"", query_threads.count);
query_threads.count = 1;
config_set_number(CONFIG_SECTION_CLOUD, "query thread count", query_threads.count);
}
//start localhost popcorning
aclk_start_host_popcorning(localhost);
aclk_stats_enabled = config_get_boolean(CONFIG_SECTION_CLOUD, "statistics", CONFIG_BOOLEAN_YES);
if (aclk_stats_enabled) {
stats_thread = callocz(1, sizeof(struct aclk_stats_thread));
stats_thread->thread = mallocz(sizeof(netdata_thread_t));
stats_thread->query_thread_count = query_threads.count;
netdata_thread_create(
stats_thread->thread, ACLK_STATS_THREAD_NAME, NETDATA_THREAD_OPTION_JOINABLE, aclk_stats_main_thread,
stats_thread);
}
char *aclk_hostname = NULL; // Initializers are over-written but prevent gcc complaining about clobbering.
int port_num = 0;
info("Waiting for netdata to be claimed");
while(1) {
char *agent_id = is_agent_claimed();
while (likely(!agent_id)) {
sleep_usec(USEC_PER_SEC * 1);
if (netdata_exit)
goto exited;
agent_id = is_agent_claimed();
}
freez(agent_id);
// The NULL return means the value was never initialised, but this value has been initialized in post_conf_load.
// We trap the impossible NULL here to keep the linter happy without using a fatal() in the code.
char *cloud_base_url = appconfig_get(&cloud_config, CONFIG_SECTION_GLOBAL, "cloud base url", NULL);
if (cloud_base_url == NULL) {
error("Do not move the cloud base url out of post_conf_load!!");
goto exited;
}
if (aclk_decode_base_url(cloud_base_url, &aclk_hostname, &port_num))
error("Agent is claimed but the configuration is invalid, please fix");
else if (!create_private_key() && !_mqtt_lib_init())
break;
for (int i=0; i<60; i++) {
if (netdata_exit)
goto exited;
sleep_usec(USEC_PER_SEC * 1);
}
}
usec_t reconnect_expiry = 0; // In usecs
while (!netdata_exit) {
static int first_init = 0;
/* size_t write_q, write_q_bytes, read_q;
lws_wss_check_queues(&write_q, &write_q_bytes, &read_q);*/
if (aclk_disable_runtime && !aclk_connected) {
sleep(1);
continue;
}
if (aclk_kill_link) { // User has reloaded the claiming state
aclk_kill_link = 0;
aclk_graceful_disconnect();
create_private_key();
continue;
}
if (aclk_force_reconnect) {
aclk_lws_wss_destroy_context();
aclk_force_reconnect = 0;
}
if (unlikely(!netdata_exit && !aclk_connected && !aclk_force_reconnect)) {
if (unlikely(!first_init)) {
aclk_try_to_connect(aclk_hostname, port_num);
first_init = 1;
} else {
if (aclk_connecting == 0) {
if (reconnect_expiry == 0) {
unsigned long int delay = aclk_reconnect_delay(1);
reconnect_expiry = now_realtime_usec() + delay * 1000;
info("Retrying to establish the ACLK connection in %.3f seconds", delay / 1000.0);
}
if (now_realtime_usec() >= reconnect_expiry) {
reconnect_expiry = 0;
aclk_try_to_connect(aclk_hostname, port_num);
}
sleep_usec(USEC_PER_MS * 100);
}
}
if (aclk_connecting) {
_link_event_loop();
sleep_usec(USEC_PER_MS * 100);
}
continue;
}
_link_event_loop();
if (unlikely(!aclk_connected || aclk_force_reconnect))
continue;
/*static int stress_counter = 0;
if (write_q_bytes==0 && stress_counter ++ >5)
{
aclk_send_stress_test(8000000);
stress_counter = 0;
}*/
if (unlikely(!aclk_subscribed)) {
aclk_subscribed = !aclk_subscribe(ACLK_COMMAND_TOPIC, 1);
aclk_hello_msg();
}
if (unlikely(!query_threads.thread_list)) {
aclk_query_threads_start(&query_threads);
}
time_t now = now_monotonic_sec();
if(aclk_connected && last_periodic_query_wakeup < now) {
// to make `aclk_queue_query()` param `run_after` work
// also makes per child popcorning work
last_periodic_query_wakeup = now;
QUERY_THREAD_WAKEUP;
}
} // forever
exited:
// Wakeup query thread to cleanup
QUERY_THREAD_WAKEUP_ALL;
freez(aclk_username);
freez(aclk_password);
freez(aclk_hostname);
if (aclk_private_key != NULL)
RSA_free(aclk_private_key);
static_thread->enabled = NETDATA_MAIN_THREAD_EXITING;
char *agent_id = is_agent_claimed();
if (agent_id && aclk_connected) {
freez(agent_id);
// Wakeup thread to cleanup
QUERY_THREAD_WAKEUP;
aclk_graceful_disconnect();
}
aclk_query_threads_cleanup(&query_threads);
_reset_collector_list();
freez(collector_list);
if(aclk_stats_enabled) {
netdata_thread_join(*stats_thread->thread, NULL);
aclk_stats_thread_cleanup();
freez(stats_thread->thread);
freez(stats_thread);
}
/*
* this must be last -> if all static threads signal
* THREAD_EXITED rrdengine will dealloc the RRDSETs
* and RRDDIMs that are used by still runing stat thread.
* see netdata_cleanup_and_exit() for reference
*/
static_thread->enabled = NETDATA_MAIN_THREAD_EXITED;
return NULL;
}
/*
* Send a message to the cloud, using a base topic and sib_topic
* The final topic will be in the form <base_topic>/<sub_topic>
* If base_topic is missing then the global_base_topic will be used (if available)
*
*/
int aclk_send_message_bin(char *sub_topic, const void *message, size_t len, char *msg_id)
{
int rc;
int mid;
char topic[ACLK_MAX_TOPIC + 1];
char *final_topic;
UNUSED(msg_id);
if (!aclk_connected)
return 0;
if (unlikely(!message))
return 0;
final_topic = get_topic(sub_topic, topic, ACLK_MAX_TOPIC);
if (unlikely(!final_topic)) {
errno = 0;
error("Unable to build outgoing topic; truncated?");
return 1;
}
ACLK_LOCK;
rc = _link_send_message(final_topic, message, len, &mid);
// TODO: link the msg_id with the mid so we can trace it
ACLK_UNLOCK;
if (unlikely(rc)) {
errno = 0;
error("Failed to send message, error code %d (%s)", rc, _link_strerror(rc));
}
return rc;
}
int aclk_send_message(char *sub_topic, char *message, char *msg_id)
{
return aclk_send_message_bin(sub_topic, message, strlen(message), msg_id);
}
/*
* Subscribe to a topic in the cloud
* The final subscription will be in the form
* /agent/claim_id/<sub_topic>
*/
int aclk_subscribe(char *sub_topic, int qos)
{
int rc;
char topic[ACLK_MAX_TOPIC + 1];
char *final_topic;
final_topic = get_topic(sub_topic, topic, ACLK_MAX_TOPIC);
if (unlikely(!final_topic)) {
errno = 0;
error("Unable to build outgoing topic; truncated?");
return 1;
}
if (!aclk_connected) {
error("Cannot subscribe to %s - not connected!", topic);
return 1;
}
ACLK_LOCK;
rc = _link_subscribe(final_topic, qos);
ACLK_UNLOCK;
// TODO: Add better handling -- error will flood the logfile here
if (unlikely(rc)) {
errno = 0;
error("Failed subscribe to command topic %d (%s)", rc, _link_strerror(rc));
}
return rc;
}
// This is called from a callback when the link goes up
void aclk_connect()
{
info("Connection detected (%u queued queries)", aclk_query_size());
aclk_stats_upd_online(1);
aclk_connected = 1;
aclk_reconnect_delay(0);
QUERY_THREAD_WAKEUP;
return;
}
// This is called from a callback when the link goes down
void aclk_disconnect()
{
if (likely(aclk_connected))
info("Disconnect detected (%u queued queries)", aclk_query_size());
aclk_stats_upd_online(0);
aclk_subscribed = 0;
rrdhost_aclk_state_lock(localhost);
localhost->aclk_state.metadata = ACLK_METADATA_REQUIRED;
rrdhost_aclk_state_unlock(localhost);
aclk_connected = 0;
aclk_connecting = 0;
aclk_force_reconnect = 1;
}
inline void aclk_create_header(BUFFER *dest, char *type, char *msg_id, time_t ts_secs, usec_t ts_us, int version)
{
uuid_t uuid;
char uuid_str[36 + 1];
if (unlikely(!msg_id)) {
uuid_generate(uuid);
uuid_unparse(uuid, uuid_str);
msg_id = uuid_str;
}
if (ts_secs == 0) {
ts_us = now_realtime_usec();
ts_secs = ts_us / USEC_PER_SEC;
ts_us = ts_us % USEC_PER_SEC;
}
buffer_sprintf(
dest,
"{\t\"type\": \"%s\",\n"
"\t\"msg-id\": \"%s\",\n"
"\t\"timestamp\": %ld,\n"
"\t\"timestamp-offset-usec\": %llu,\n"
"\t\"connect\": %ld,\n"
"\t\"connect-offset-usec\": %llu,\n"
"\t\"version\": %d",
type, msg_id, ts_secs, ts_us, aclk_session_sec, aclk_session_us, version);
debug(D_ACLK, "Sending v%d msgid [%s] type [%s] time [%ld]", version, msg_id, type, ts_secs);
}
/*
* This will send alarm information which includes
* configured alarms
* alarm_log
* active alarms
*/
void health_active_log_alarms_2json(RRDHOST *host, BUFFER *wb);
void aclk_send_alarm_metadata(ACLK_METADATA_STATE metadata_submitted)
{
BUFFER *local_buffer = buffer_create(NETDATA_WEB_RESPONSE_INITIAL_SIZE);
char *msg_id = create_uuid();
buffer_flush(local_buffer);
local_buffer->contenttype = CT_APPLICATION_JSON;
debug(D_ACLK, "Metadata alarms start");
// on_connect messages are sent on a health reload, if the on_connect message is real then we
// use the session time as the fake timestamp to indicate that it starts the session. If it is
// a fake on_connect message then use the real timestamp to indicate it is within the existing
// session.
if (metadata_submitted == ACLK_METADATA_SENT)
aclk_create_header(local_buffer, "connect_alarms", msg_id, 0, 0, aclk_shared_state.version_neg);
else
aclk_create_header(local_buffer, "connect_alarms", msg_id, aclk_session_sec, aclk_session_us, aclk_shared_state.version_neg);
buffer_strcat(local_buffer, ",\n\t\"payload\": ");
buffer_sprintf(local_buffer, "{\n\t \"configured-alarms\" : ");
health_alarms2json(localhost, local_buffer, 1);
debug(D_ACLK, "Metadata %s with configured alarms has %zu bytes", msg_id, local_buffer->len);
// buffer_sprintf(local_buffer, ",\n\t \"alarm-log\" : ");
// health_alarm_log2json(localhost, local_buffer, 0);
// debug(D_ACLK, "Metadata %s with alarm_log has %zu bytes", msg_id, local_buffer->len);
buffer_sprintf(local_buffer, ",\n\t \"alarms-active\" : ");
health_active_log_alarms_2json(localhost, local_buffer);
//debug(D_ACLK, "Metadata message %s", local_buffer->buffer);
buffer_sprintf(local_buffer, "\n}\n}");
aclk_send_message(ACLK_ALARMS_TOPIC, local_buffer->buffer, msg_id);
freez(msg_id);
buffer_free(local_buffer);
}
/*
* This will send the agent metadata
* /api/v1/info
* charts
*/
int aclk_send_info_metadata(ACLK_METADATA_STATE metadata_submitted, RRDHOST *host)
{
BUFFER *local_buffer = buffer_create(NETDATA_WEB_RESPONSE_INITIAL_SIZE);
debug(D_ACLK, "Metadata /info start");
char *msg_id = create_uuid();
buffer_flush(local_buffer);
local_buffer->contenttype = CT_APPLICATION_JSON;
// on_connect messages are sent on a health reload, if the on_connect message is real then we
// use the session time as the fake timestamp to indicate that it starts the session. If it is
// a fake on_connect message then use the real timestamp to indicate it is within the existing
// session.
if (metadata_submitted == ACLK_METADATA_SENT)
aclk_create_header(local_buffer, "update", msg_id, 0, 0, aclk_shared_state.version_neg);
else
aclk_create_header(local_buffer, "connect", msg_id, aclk_session_sec, aclk_session_us, aclk_shared_state.version_neg);
buffer_strcat(local_buffer, ",\n\t\"payload\": ");
buffer_sprintf(local_buffer, "{\n\t \"info\" : ");
web_client_api_request_v1_info_fill_buffer(host, local_buffer);
debug(D_ACLK, "Metadata %s with info has %zu bytes", msg_id, local_buffer->len);
buffer_sprintf(local_buffer, ", \n\t \"charts\" : ");
charts2json(host, local_buffer, 1, 0);
buffer_sprintf(local_buffer, "\n}\n}");
debug(D_ACLK, "Metadata %s with chart has %zu bytes", msg_id, local_buffer->len);
aclk_send_message(ACLK_METADATA_TOPIC, local_buffer->buffer, msg_id);
freez(msg_id);
buffer_free(local_buffer);
return 0;
}
int aclk_send_info_child_connection(RRDHOST *host, ACLK_CMD cmd)
{
BUFFER *local_buffer = buffer_create(NETDATA_WEB_RESPONSE_INITIAL_SIZE);
local_buffer->contenttype = CT_APPLICATION_JSON;
if(aclk_shared_state.version_neg < ACLK_V_CHILDRENSTATE)
fatal("This function should not be called if ACLK version is less than %d (current %d)", ACLK_V_CHILDRENSTATE, aclk_shared_state.version_neg);
debug(D_ACLK, "Sending Child Disconnect");
char *msg_id = create_uuid();
aclk_create_header(local_buffer, cmd == ACLK_CMD_CHILD_CONNECT ? "child_connect" : "child_disconnect", msg_id, 0, 0, aclk_shared_state.version_neg);
buffer_strcat(local_buffer, ",\"payload\":");
buffer_sprintf(local_buffer, "{\"guid\":\"%s\",\"claim_id\":", host->machine_guid);
rrdhost_aclk_state_lock(host);
if(host->aclk_state.claimed_id)
buffer_sprintf(local_buffer, "\"%s\"}}", host->aclk_state.claimed_id);
else
buffer_strcat(local_buffer, "null}}");
rrdhost_aclk_state_unlock(host);
aclk_send_message(ACLK_METADATA_TOPIC, local_buffer->buffer, msg_id);
freez(msg_id);
buffer_free(local_buffer);
return 0;
}
void aclk_host_state_update(RRDHOST *host, ACLK_CMD cmd)
{
#if ACLK_VERSION_MIN < ACLK_V_CHILDRENSTATE
if (aclk_shared_state.version_neg < ACLK_V_CHILDRENSTATE)
return;
#else
#warning "This check became unnecessary. Remove"
#endif
if (unlikely(aclk_host_initializing(localhost)))
return;
switch (cmd) {
case ACLK_CMD_CHILD_CONNECT:
debug(D_ACLK, "Child Connected %s %s.", host->hostname, host->machine_guid);
aclk_start_host_popcorning(host);
aclk_queue_query("add_child", host, NULL, NULL, 0, 1, ACLK_CMD_CHILD_CONNECT);
break;
case ACLK_CMD_CHILD_DISCONNECT:
debug(D_ACLK, "Child Disconnected %s %s.", host->hostname, host->machine_guid);
aclk_stop_host_popcorning(host);
aclk_queue_query("del_child", host, NULL, NULL, 0, 1, ACLK_CMD_CHILD_DISCONNECT);
break;
default:
error("Unknown command for aclk_host_state_update %d.", (int)cmd);
}
}
void aclk_send_stress_test(size_t size)
{
char *buffer = mallocz(size);
if (buffer != NULL)
{
for(size_t i=0; i<size; i++)
buffer[i] = 'x';
buffer[size-1] = 0;
time_t time_created = now_realtime_sec();
sprintf(buffer,"{\"type\":\"stress\", \"timestamp\":%ld,\"payload\":", time_created);
buffer[strlen(buffer)] = '"';
buffer[size-2] = '}';
buffer[size-3] = '"';
aclk_send_message(ACLK_METADATA_TOPIC, buffer, NULL);
error("Sending stress of size %zu at time %ld", size, time_created);
}
free(buffer);
}
// Send info metadata message to the cloud if the link is established
// or on request
int aclk_send_metadata(ACLK_METADATA_STATE state, RRDHOST *host)
{
aclk_send_info_metadata(state, host);
if(host == localhost)
aclk_send_alarm_metadata(state);
return 0;
}
void aclk_single_update_disable()
{
aclk_disable_single_updates = 1;
}
void aclk_single_update_enable()
{
aclk_disable_single_updates = 0;
}
// Trigged by a health reload, sends the alarm metadata
void aclk_alarm_reload()
{
if (unlikely(aclk_host_initializing(localhost)))
return;
if (unlikely(aclk_queue_query("on_connect", localhost, NULL, NULL, 0, 1, ACLK_CMD_ONCONNECT))) {
if (likely(aclk_connected)) {
errno = 0;
error("ACLK failed to queue on_connect command on alarm reload");
}
}
}
//rrd_stats_api_v1_chart(RRDSET *st, BUFFER *buf)
int aclk_send_single_chart(RRDHOST *host, char *chart)
{
RRDSET *st = rrdset_find(host, chart);
if (!st)
st = rrdset_find_byname(host, chart);
if (!st) {
info("FAILED to find chart %s", chart);
return 1;
}
BUFFER *local_buffer = buffer_create(NETDATA_WEB_RESPONSE_INITIAL_SIZE);
char *msg_id = create_uuid();
buffer_flush(local_buffer);
local_buffer->contenttype = CT_APPLICATION_JSON;
aclk_create_header(local_buffer, "chart", msg_id, 0, 0, aclk_shared_state.version_neg);
buffer_strcat(local_buffer, ",\n\t\"payload\": ");
rrdset2json(st, local_buffer, NULL, NULL, 1);
buffer_sprintf(local_buffer, "\t\n}");
aclk_send_message(ACLK_CHART_TOPIC, local_buffer->buffer, msg_id);
freez(msg_id);
buffer_free(local_buffer);
return 0;
}
int aclk_update_chart(RRDHOST *host, char *chart_name, ACLK_CMD aclk_cmd)
{
#ifndef ENABLE_ACLK
UNUSED(host);
UNUSED(chart_name);
return 0;
#else
if (unlikely(!netdata_ready))
return 0;
if (!netdata_cloud_setting)
return 0;
if (aclk_shared_state.version_neg < ACLK_V_CHILDRENSTATE && host != localhost)
return 0;
if (aclk_host_initializing(localhost))
return 0;
if (unlikely(aclk_disable_single_updates))
return 0;
if (aclk_popcorn_check_bump(host))
return 0;
if (unlikely(aclk_queue_query("_chart", host, NULL, chart_name, 0, 1, aclk_cmd))) {
if (likely(aclk_connected)) {
errno = 0;
error("ACLK failed to queue chart_update command");
}
}
return 0;
#endif
}
int aclk_update_alarm(RRDHOST *host, ALARM_ENTRY *ae)
{
BUFFER *local_buffer = NULL;
if (unlikely(!netdata_ready))
return 0;
if (host != localhost)
return 0;
if(unlikely(aclk_host_initializing(localhost)))
return 0;
/*
* Check if individual updates have been disabled
* This will be the case when we do health reload
* and all the alarms will be dropped and recreated.
* At the end of the health reload the complete alarm metadata
* info will be sent
*/
if (unlikely(aclk_disable_single_updates))
return 0;
local_buffer = buffer_create(NETDATA_WEB_RESPONSE_INITIAL_SIZE);
char *msg_id = create_uuid();
buffer_flush(local_buffer);
aclk_create_header(local_buffer, "status-change", msg_id, 0, 0, aclk_shared_state.version_neg);
buffer_strcat(local_buffer, ",\n\t\"payload\": ");
netdata_rwlock_rdlock(&host->health_log.alarm_log_rwlock);
health_alarm_entry2json_nolock(local_buffer, ae, host);
netdata_rwlock_unlock(&host->health_log.alarm_log_rwlock);
buffer_sprintf(local_buffer, "\n}");
if (unlikely(aclk_queue_query(ACLK_ALARMS_TOPIC, NULL, msg_id, local_buffer->buffer, 0, 1, ACLK_CMD_ALARM))) {
if (likely(aclk_connected)) {
errno = 0;
error("ACLK failed to queue alarm_command on alarm_update");
}
}
freez(msg_id);
buffer_free(local_buffer);
return 0;
}
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