mqtt/mqtt_template.c
author Edouard Tisserant <edouard@beremiz.fr>
Fri, 06 Dec 2024 12:16:07 +0100
changeset 4062 1994928ce3d2
parent 4023 b344393859df
permissions -rw-r--r--
py_ext: fix CSV update happening only once.
/* code generated by beremiz MQTT extension */

#include <stdint.h>
#include <unistd.h>
#include <pthread.h>
#include <string.h>
#include <stdio.h>
#include <errno.h>

#include "frozen.h"

#include "MQTTClient.h"
#include "MQTTClientPersistence.h"

#include "POUS.h"

#define _Log(level, ...)                                                                          \
    {{                                                                                            \
        char mstr[256];                                                                           \
        snprintf(mstr, 255, __VA_ARGS__);                                                         \
        LogMessage(level, mstr, strlen(mstr));                                                    \
    }}

#define LogInfo(...) _Log(LOG_INFO, __VA_ARGS__);
#define LogError(...) _Log(LOG_CRITICAL, __VA_ARGS__);
#define LogWarning(...) _Log(LOG_WARNING, __VA_ARGS__);

// Selected debug level for paho stack
// can be:
// MQTTCLIENT_TRACE_PROTOCOL, MQTTCLIENT_TRACE_MAXIMUM, MQTTCLIENT_TRACE_ERROR
#define MQTT_DEBUG_LEVEL MQTTCLIENT_TRACE_ERROR

void trace_callback(enum MQTTCLIENT_TRACE_LEVELS level, char* message)
{{
    if(level >= MQTT_DEBUG_LEVEL)
    {{
        int beremiz_log_level = (level >= MQTTCLIENT_TRACE_ERROR ) ? LOG_CRITICAL :
                                (level > MQTTCLIENT_TRACE_MINIMUM) ? LOG_WARNING : 
                                LOG_INFO;
        _Log(beremiz_log_level,"Paho MQTT Trace : %s\n", message);
    }}
}}

#define CHANGED 1
#define UNCHANGED 0

extern INT CONFIG__MQTT_STATUS_{locstr};

#define DECL_VAR(iec_type, C_type, c_loc_name)                                                     \
static C_type PLC_##c_loc_name##_buf;                                                              \
static C_type MQTT_##c_loc_name##_buf;                                                             \
static int MQTT_##c_loc_name##_state = UNCHANGED;  /* systematically published at init */          \
C_type *c_loc_name = &PLC_##c_loc_name##_buf;

{decl}

/* JSON topic content encoding macros matching "json_decl" in substitution*/

#define printf_fmt_BOOL   "%B"
#define printf_fmt_SINT   "%hhd"
#define printf_fmt_USINT  "%uhhd"
#define printf_fmt_INT    "%hd" 
#define printf_fmt_UINT   "%uhd"
#define printf_fmt_DINT   "%d" 
#define printf_fmt_UDINT  "%ud"
#define printf_fmt_LINT   "%ld"
#define printf_fmt_ULINT  "%uld"
#define printf_fmt_REAL   "%f"
#define printf_fmt_LREAL  "%Lf"
#define printf_fmt_STRING "%.*Q"

#define printf_fmt_separator ", "

#define printf_fmt_SIMPLE(C_type, C_name, name, _A) #name " : " printf_fmt_##C_type
#define printf_fmt_OBJECT(C_type, C_name, name, _A) #name " : {{ " TYPE_##C_type(printf_fmt, _A) " }}"
#define printf_fmt_ARRAY(C_type, C_name, name, _A) #name " : [ " TYPE_##C_type(printf_fmt, _A) " ]"
#define printf_fmt_ARRAY_SIMPLE(C_type, index, _A) printf_fmt_##C_type
#define printf_fmt_ARRAY_OBJECT(C_type, index, _A) "{{ " TYPE_##C_type(printf_fmt, _A) " }}"

#define scanf_fmt_BOOL   "%B"
#define scanf_fmt_SINT   "%hhd"
#define scanf_fmt_USINT  "%uhhd"
#define scanf_fmt_INT    "%hd" 
#define scanf_fmt_UINT   "%uhd"
#define scanf_fmt_DINT   "%d" 
#define scanf_fmt_UDINT  "%ud"
#define scanf_fmt_LINT   "%ld"
#define scanf_fmt_ULINT  "%uld"
#define scanf_fmt_REAL   "%f"
#define scanf_fmt_LREAL  "%Lf"
#define scanf_fmt_STRING "%M"

#define scanf_fmt_separator ", "

#define scanf_fmt_SIMPLE(C_type, C_name, name, _A) #name " : " scanf_fmt_##C_type
#define scanf_fmt_OBJECT(C_type, C_name, name, _A) #name " : {{ " TYPE_##C_type(scanf_fmt, _A) " }}"
#define scanf_fmt_ARRAY(C_type, C_name, name, _A) #name " : [ " TYPE_##C_type(scanf_fmt, _A) " ]"
#define scanf_fmt_ARRAY_SIMPLE(C_type, index, _A) scanf_fmt_##C_type
#define scanf_fmt_ARRAY_OBJECT(C_type, index, _A) "{{ " TYPE_##C_type(scanf_fmt, _A) " }}"

#define   scanf_arg_BOOL(arg) arg
#define   scanf_arg_SINT(arg) arg
#define  scanf_arg_USINT(arg) arg
#define    scanf_arg_INT(arg) arg
#define   scanf_arg_UINT(arg) arg
#define   scanf_arg_DINT(arg) arg
#define  scanf_arg_UDINT(arg) arg
#define   scanf_arg_LINT(arg) arg
#define  scanf_arg_ULINT(arg) arg
#define   scanf_arg_REAL(arg) arg
#define  scanf_arg_LREAL(arg) arg
#define scanf_arg_STRING(arg) scan_string, arg

#define scanf_args_separator ,

#define scanf_args_SIMPLE(C_type, C_name, name, data_ptr) scanf_arg_##C_type(&data_ptr->C_name)
#define scanf_args_OBJECT(C_type, C_name, name, data_ptr) TYPE_##C_type(scanf_args, (&data_ptr->C_name))
#define scanf_args_ARRAY(C_type, C_name, name, data_ptr) TYPE_##C_type(scanf_args, data_ptr->C_name.table)
#define scanf_args_ARRAY_SIMPLE(C_type, index, data_ptr) scanf_arg_##C_type(&data_ptr[index])
#define scanf_args_ARRAY_OBJECT(C_type, index, data_ptr) TYPE_##C_type(scanf_args, (&data_ptr[index]))

#define   printf_arg_BOOL(arg) arg
#define   printf_arg_SINT(arg) arg
#define  printf_arg_USINT(arg) arg
#define    printf_arg_INT(arg) arg
#define   printf_arg_UINT(arg) arg
#define   printf_arg_DINT(arg) arg
#define  printf_arg_UDINT(arg) arg
#define   printf_arg_LINT(arg) arg
#define  printf_arg_ULINT(arg) arg
#define   printf_arg_REAL(arg) arg
#define  printf_arg_LREAL(arg) arg
#define printf_arg_STRING(arg) arg.len, arg.body 

#define printf_args_separator ,

#define printf_args_SIMPLE(C_type, C_name, name, data_ptr) printf_arg_##C_type(data_ptr->C_name)
#define printf_args_OBJECT(C_type, C_name, name, data_ptr) TYPE_##C_type(printf_args, (&data_ptr->C_name))
#define printf_args_ARRAY(C_type, C_name, name, data_ptr) TYPE_##C_type(printf_args, (&data_ptr->C_name.table))
#define printf_args_ARRAY_SIMPLE(C_type, index, data_ptr) printf_arg_##C_type(data_ptr[index])
#define printf_args_ARRAY_OBJECT(C_type, index, data_ptr) TYPE_##C_type(printf_args, (data_ptr[index]))

static void scan_string(const char *str, int len, void *user_data) {{
	IEC_STRING *iecstr = (IEC_STRING*)user_data;
	__strlen_t ieclen = len > STR_MAX_LEN ? STR_MAX_LEN : len;
	memcpy(iecstr->body, str, ieclen);
    iecstr->len = ieclen;
}}

#define DECL_JSON_INPUT(C_type, c_loc_name) \
int json_parse_##c_loc_name(char *json, const int len, void *void_ptr) {{ \
    C_type *struct_ptr = (C_type *)void_ptr; \
    return json_scanf(json, len, "{{" TYPE_##C_type(scanf_fmt,) "}}", TYPE_##C_type(scanf_args, struct_ptr)); \
}}

/* Pre-allocated json output buffer for json_printf */
#define json_out_size 1<<12 // 4K
static char json_out_buf[json_out_size] = {{0,}};
static int json_out_len = 0;

#define DECL_JSON_OUTPUT(C_type, c_loc_name) \
int json_gen_##c_loc_name(C_type *struct_ptr) {{ \
    struct json_out out = JSON_OUT_BUF(json_out_buf, json_out_size); \
    json_out_len = json_printf(&out, "{{" TYPE_##C_type(printf_fmt,) "}}", TYPE_##C_type(printf_args, struct_ptr)); \
    if(json_out_len > json_out_size){{ \
        json_out_len = 0; \
        return -EOVERFLOW; \
    }} \
    return 0; \
}}

{json_decl}

static MQTTClient client;
#ifdef USE_MQTT_5
static MQTTClient_connectOptions conn_opts = MQTTClient_connectOptions_initializer5;
#else
static MQTTClient_connectOptions conn_opts = MQTTClient_connectOptions_initializer;
#endif

MQTTClient_SSLOptions ssl_opts = MQTTClient_SSLOptions_initializer;

/* condition to quit publish thread */
static int MQTT_stop_thread = 0;

/* condition to wakeup publish thread */
static int MQTT_any_pub_var_changed = 0;

/* Keep track of connection state */
static volatile int MQTT_is_disconnected = 1;

/* mutex to keep incoming PLC data consistent */
static pthread_mutex_t MQTT_retrieve_mutex = PTHREAD_MUTEX_INITIALIZER;

/* mutex to keep outgoing PLC data consistent, and protect MQTT_any_pub_var_changed */
static pthread_mutex_t MQTT_thread_wakeup_mutex = PTHREAD_MUTEX_INITIALIZER;

/* wakeup publish thread when PLC changed published variable */
static pthread_cond_t MQTT_thread_wakeup = PTHREAD_COND_INITIALIZER;

/* thread that handles publish and reconnection */
static pthread_t MQTT_thread;

#define INIT_TOPIC(topic, iec_type, c_loc_name) \
{{#topic, sizeof(#topic)-1, &MQTT_##c_loc_name##_buf, &MQTT_##c_loc_name##_state, .is_json_type=0, .vartype = iec_type##_ENUM}},

#define INIT_JSON_TOPIC(topic, iec_type, c_loc_name) \
{{#topic, sizeof(#topic)-1, &MQTT_##c_loc_name##_buf, &MQTT_##c_loc_name##_state, .is_json_type=1, .json_parse_func=json_parse_##c_loc_name}},

typedef int (*json_parse_func_t)(char *json, int len, void *void_ptr);

static struct {{
    const char *topic; //null terminated topic string
    const unsigned int topic_len;
    void *mqtt_pdata; // pointer to data from/for MQTT stack
    int *mqtt_pstate; // pointer to changed flag
    int is_json_type;
    union {{
       __IEC_types_enum vartype;
       json_parse_func_t json_parse_func;
    }};
}} topics [] = {{
{topics}
}};

void __cleanup_{locstr}(void)
{{
    int rc;

    /* stop publish thread */
    MQTT_stop_thread = 1;
    if (pthread_mutex_lock(&MQTT_thread_wakeup_mutex) == 0){{
        /* unblock publish thread so that it can stop normally */
        pthread_cond_signal(&MQTT_thread_wakeup);
        pthread_mutex_unlock(&MQTT_thread_wakeup_mutex);
    }}
    pthread_join(MQTT_thread, NULL);

#ifdef USE_MQTT_5
    if (rc = MQTTClient_disconnect5(client, 5000, MQTTREASONCODE_SUCCESS, NULL) != MQTTCLIENT_SUCCESS)
#else
    if (rc = MQTTClient_disconnect(client, 5000) != MQTTCLIENT_SUCCESS)
#endif
    {{
        LogError("MQTT Failed to disconnect, return code %d\n", rc);
    }}
    MQTTClient_destroy(&client);
}}

void connectionLost(void* context, char* reason)
{{
    int rc;
    LogWarning("ConnectionLost, reconnecting\\n");
    if (pthread_mutex_lock(&MQTT_thread_wakeup_mutex) == 0){{
        /* unblock publish thread so that it can reconnect */
        MQTT_is_disconnected = 1;
        pthread_cond_signal(&MQTT_thread_wakeup);
        pthread_mutex_unlock(&MQTT_thread_wakeup_mutex);
    }}
}}



int messageArrived(void *context, char *topicName, int topicLen, MQTTClient_message *message)
{{
    int low = 0;
    int size = sizeof(topics) / sizeof(topics[0]);
    int high = size - 1;
    int mid;
    int is_json_type;

    // bisect topic among subscribed topics
    while (low <= high) {{
        int res, len, delta_len;
        mid = low + (high - low) / 2;
        if(topicLen == 0) {{
            // zero topic len means null-terminated
            topicLen = strlen(topicName);
        }}

        len = topics[mid].topic_len;

        // keep track of length difference
        delta_len = len - topicLen;

        // len = min(len, topicLen)
        len = topicLen > len ? len : topicLen;

        // compare strings as far as possible
        res = strncmp(topics[mid].topic, topicName, len);

        // if partial comparison matches, longest string is the greatest
        if (res == 0)
            // update res to continue bisection
            res = delta_len;

        // Check if key is present at mid
        if (res == 0)
            goto found;

        // If key greater, ignore left half
        if (res < 0)
            low = mid + 1;

        // If key is smaller, ignore right half
        else
            high = mid - 1;
    }}
    // If we reach here, then the element was not present
    LogWarning("MQTT unknown topic: %s\n", topicName);
    goto exit;

found:
    
    is_json_type = topics[mid].is_json_type;
    if(is_json_type || (__get_type_enum_size(topics[mid].vartype) == message->payloadlen)){{
        if (pthread_mutex_lock(&MQTT_retrieve_mutex) == 0){{
            if(is_json_type){{
                (topics[mid].json_parse_func)((char*)message->payload, message->payloadlen, topics[mid].mqtt_pdata);
            }} else {{
                memcpy(topics[mid].mqtt_pdata, (char*)message->payload, message->payloadlen);
            }}
            *topics[mid].mqtt_pstate = CHANGED;
            pthread_mutex_unlock(&MQTT_retrieve_mutex);
        }}
    }} else {{
        LogWarning("MQTT wrong payload size for topic: %s. Should be %d, but got %d.", 
            topicName, __get_type_enum_size(topics[mid].vartype), message->payloadlen);
    }}
exit:
    MQTTClient_freeMessage(&message);
    MQTTClient_free(topicName);
    return 1;
}}

#define INIT_NoAuth()                                                                             \
    LogInfo("MQTT Init no auth\n");

#define INIT_x509(Verify, KeyStore, TrustStore)                                                   \
    LogInfo("MQTT Init x509 with %s,%s\n", KeyStore?KeyStore:"NULL", TrustStore?TrustStore:"NULL")\
    ssl_opts.verify = Verify;                                                                     \
    ssl_opts.keyStore = KeyStore;                                                                 \
    ssl_opts.trustStore = TrustStore;                                                             \
    conn_opts.ssl = &ssl_opts;

#define INIT_PSK(Secret, ID)                                                                      \
    LogError("MQTT PSK NOT IMPLEMENTED\n")                                                        \
    /* LogInfo("MQTT Init PSK for ID %s\n", ID) */                                                \
    /* ssl_opts.ssl_psk_cb = TODO; */                                                             \
    /* ssl_opts.ssl_psk_context = TODO; */                                                        \
    conn_opts.ssl = &ssl_opts;

#define INIT_UserPassword(User, Password)                                                         \
    LogInfo("MQTT Init UserPassword %s,%s\n", User, Password);                                    \
    conn_opts.username = User;                                                                    \
    conn_opts.password = Password;

#ifdef USE_MQTT_5
#define _SUBSCRIBE(Topic, QoS)                                                                    \
        MQTTResponse response = MQTTClient_subscribe5(client, #Topic, QoS, NULL, NULL);           \
        /* when using MQTT5 responce code is 1 for some reason even if no error */                \
        rc = response.reasonCode == 1 ? MQTTCLIENT_SUCCESS : response.reasonCode;                 \
        MQTTResponse_free(response);
#else
#define _SUBSCRIBE(Topic, QoS)                                                                    \
        rc = MQTTClient_subscribe(client, #Topic, QoS);
#endif

#define INIT_SUBSCRIPTION(Topic, QoS)                                                             \
    {{                                                                                            \
        int rc;                                                                                   \
        _SUBSCRIBE(Topic, QoS)                                                                    \
        if (rc != MQTTCLIENT_SUCCESS)                                                             \
        {{                                                                                        \
            LogError("MQTT client failed to subscribe to '%s', return code %d\n", #Topic, rc);    \
        }}                                                                                        \
    }}


#ifdef USE_MQTT_5
#define _PUBLISH(Topic, QoS, cstring_size, cstring_ptr, Retained)                                 \
        MQTTResponse response = MQTTClient_publish5(client, #Topic, cstring_size,                  \
            cstring_ptr, QoS, Retained, NULL, NULL);                                              \
        rc = response.reasonCode;                                                                 \
        MQTTResponse_free(response);
#else
#define _PUBLISH(Topic, QoS, cstring_size, cstring_ptr, Retained)                                 \
        rc = MQTTClient_publish(client, #Topic, cstring_size,                                     \
            cstring_ptr, QoS, Retained, NULL);
#endif

#define PUBLISH_SIMPLE(Topic, QoS, C_type, c_loc_name, Retained)                                  \
        _PUBLISH(Topic, QoS, sizeof(C_type), &MQTT_##c_loc_name##_buf, Retained)

#define PUBLISH_JSON(Topic, QoS, C_type, c_loc_name, Retained)                                    \
        int res = json_gen_##c_loc_name(&MQTT_##c_loc_name##_buf);                                \
        if(res == 0) {{                                                                           \
            _PUBLISH(Topic, QoS, json_out_len, json_out_buf, Retained)                            \
        }}

#define INIT_PUBLICATION(encoding, Topic, QoS, C_type, c_loc_name, Retained)                      \
    {{                                                                                            \
        int rc;                                                                                   \
        PUBLISH_##encoding(Topic, QoS, C_type, c_loc_name, Retained)                              \
        if (rc != MQTTCLIENT_SUCCESS)                                                             \
        {{                                                                                        \
            LogError("MQTT client failed to init publication of '%s', return code %d\n", #Topic, rc);\
            /* TODO update status variable accordingly */                                         \
        }}                                                                                        \
    }}

#define PUBLISH_CHANGE(encoding, Topic, QoS, C_type, c_loc_name, Retained)                        \
    if(MQTT_##c_loc_name##_state == CHANGED)                                                      \
    {{                                                                                            \
        int rc;                                                                                   \
        PUBLISH_##encoding(Topic, QoS, C_type, c_loc_name, Retained)                              \
        if (rc != MQTTCLIENT_SUCCESS)                                                             \
        {{                                                                                        \
            LogError("MQTT client failed to publish '%s', return code %d\n", #Topic, rc);         \
            /* TODO update status variable accordingly */                                         \
        }} else {{                                                                                \
            MQTT_##c_loc_name##_state = UNCHANGED;                                                \
        }}                                                                                        \
    }}

static int _connect_mqtt(void)
{{
    int rc;

#ifdef USE_MQTT_5
    MQTTProperties props = MQTTProperties_initializer;
    MQTTProperties willProps = MQTTProperties_initializer;
    MQTTResponse response = MQTTResponse_initializer;

    response = MQTTClient_connect5(client, &conn_opts, &props, &willProps);
    rc = response.reasonCode;
    MQTTResponse_free(response);
#else
    rc = MQTTClient_connect(client, &conn_opts);
#endif

    if (rc != MQTTCLIENT_SUCCESS) {{
        MQTT_is_disconnected = 1;
        return rc;
    }}else{{
        MQTT_is_disconnected = 0;
    }}

{init_pubsub}

    return MQTTCLIENT_SUCCESS;
}}

static void *__MQTT_thread_proc(void *_unused) {{
    int rc = 0;

    while((rc = pthread_mutex_lock(&MQTT_thread_wakeup_mutex)) == 0 && !MQTT_stop_thread){{
        int do_publish; 

        pthread_cond_wait(&MQTT_thread_wakeup, &MQTT_thread_wakeup_mutex);
        
        if(MQTT_is_disconnected)
        {{
            /* TODO growing retry delay */
            /* TODO max retry delay as config parameter */
            sleep(5);
            rc = _connect_mqtt();
            if (rc == MQTTCLIENT_SUCCESS) {{
                LogInfo("MQTT Reconnected\n");
            }} else {{
                LogError("MQTT Reconnect Failed, return code %d\n", rc);
            }}
        }} 
        if(!MQTT_is_disconnected && MQTT_any_pub_var_changed)
        {{
            /* publish changes, and reset variable's state to UNCHANGED */
{publish_changes}
            MQTT_any_pub_var_changed = 0;
        }}

        pthread_mutex_unlock(&MQTT_thread_wakeup_mutex);

        if(MQTT_stop_thread) break;
    }}

    if(!MQTT_stop_thread){{
        /* if thread exits outside of normal shutdown, report error*/
        LogError("MQTT client thread exited unexpectedly, return code %d\n", rc);
    }}
}}
    
int __init_{locstr}(int argc,char **argv)
{{
    char *uri = "{uri}";
    char *clientID = "{clientID}";
    int rc;

    MQTTClient_createOptions createOpts = MQTTClient_createOptions_initializer;

#ifdef USE_MQTT_5
    conn_opts.MQTTVersion = MQTTVERSION_5;
    conn_opts.cleanstart = 1;

    createOpts.MQTTVersion = MQTTVERSION_5;
#else
    conn_opts.cleansession = 1;
#endif

    MQTTClient_setTraceCallback(trace_callback);
    MQTTClient_setTraceLevel(MQTT_DEBUG_LEVEL);

    rc = MQTTClient_createWithOptions(
        &client, uri, clientID, MQTTCLIENT_PERSISTENCE_NONE, NULL, &createOpts);
    if (rc != MQTTCLIENT_SUCCESS)
    {{
        LogError("MQTT Failed to create client, return code %d\n", rc);
        goto exit_error;
    }}

    rc = MQTTClient_setCallbacks(client, NULL, connectionLost, messageArrived, NULL);
    if (rc != MQTTCLIENT_SUCCESS)
    {{
        LogError("MQTT Failed to set callbacks, return code %d\n", rc);
        goto exit_error;
    }}

{init}

    rc = _connect_mqtt();
	if (rc == MQTTCLIENT_SUCCESS) {{
		LogInfo("MQTT Connected\n");
	}} else {{
        LogError("MQTT Connect Failed, return code %d\n", rc);
        // Connect error at init is fine, publish thread will retry later
    }}

    /* start MQTT thread */
    MQTT_stop_thread = 0;
    rc = pthread_create(&MQTT_thread, NULL, &__MQTT_thread_proc, NULL);
    if (rc != 0) {{
        LogError("MQTT cannot create thread, return code %d\n", rc);
        goto exit_error;
    }}

    return 0;

exit_error:
    MQTTClient_destroy(&client);
    return rc;
}}

#define READ_VALUE(c_loc_name, C_type) \
    if(MQTT_##c_loc_name##_state == CHANGED){{ \
        /* TODO care about endianess */ \
        PLC_##c_loc_name##_buf = MQTT_##c_loc_name##_buf; \
        MQTT_##c_loc_name##_state = UNCHANGED; \
    }}

void __retrieve_{locstr}(void)
{{
    if (pthread_mutex_trylock(&MQTT_retrieve_mutex) == 0){{
        CONFIG__MQTT_STATUS_{locstr} = MQTT_is_disconnected ? 0 : 1;
{retrieve}
        pthread_mutex_unlock(&MQTT_retrieve_mutex);
    }}
}}

#define WRITE_VALUE(c_loc_name, C_type) \
    /* TODO care about endianess */ \
    if(memcmp(&MQTT_##c_loc_name##_buf, &PLC_##c_loc_name##_buf, sizeof(C_type))){{ \
        MQTT_##c_loc_name##_buf = PLC_##c_loc_name##_buf; \
        MQTT_##c_loc_name##_state = CHANGED; \
        MQTT_any_pub_var_changed = 1; \
    }}

void __publish_{locstr}(void)
{{
    if (pthread_mutex_trylock(&MQTT_thread_wakeup_mutex) == 0){{
        MQTT_any_pub_var_changed = 0;
        /* copy PLC_* variables to MQTT_*, and mark those who changed */
{publish}
        /* if any change detcted, unblock publish thread */
        if(MQTT_any_pub_var_changed || MQTT_is_disconnected){{
            pthread_cond_signal(&MQTT_thread_wakeup);
        }}
        pthread_mutex_unlock(&MQTT_thread_wakeup_mutex);
    }} else {{
        /* TODO if couldn't lock mutex set status variable accordingly */ 
    }}
}}