ESP-MQTT
Overview
ESP-MQTT is an implementation of MQTT protocol client, which is a lightweight publish/subscribe messaging protocol. Now ESP-MQTT supports MQTT v5.0.
Features
Support MQTT over TCP, SSL with Mbed TLS, MQTT over WebSocket, and MQTT over WebSocket Secure
Easy to setup with URI
Multiple instances (multiple clients in one application)
Support subscribing, publishing, authentication, last will messages, keep alive pings, and all 3 Quality of Service (QoS) levels (it should be a fully functional client)
Application Examples
protocols/mqtt/tcp: MQTT over TCP, default port 1883
protocols/mqtt/ssl: MQTT over TLS, default port 8883
protocols/mqtt/ssl_ds: MQTT over TLS using digital signature peripheral for authentication, default port 8883
protocols/mqtt/ssl_mutual_auth: MQTT over TLS using certificates for authentication, default port 8883
protocols/mqtt/ssl_psk: MQTT over TLS using pre-shared keys for authentication, default port 8883
protocols/mqtt/ws: MQTT over WebSocket, default port 80
protocols/mqtt/wss: MQTT over WebSocket Secure, default port 443
protocols/mqtt5: Uses ESP-MQTT library to connect to broker with MQTT v5.0
MQTT Message Retransmission
A new MQTT message is created by calling esp_mqtt_client_publish
or its non blocking counterpart esp_mqtt_client_enqueue
.
Messages with QoS 0 will be sent only once. QoS 1 and 2 have different behaviors since the protocol requires extra steps to complete the process.
The ESP-MQTT library opts to always retransmit unacknowledged QoS 1 and 2 publish messages to avoid losses in faulty connections, even though the MQTT specification requires the re-transmission only on reconnect with Clean Session flag been set to 0 (set disable_clean_session
to true for this behavior).
QoS 1 and 2 messages that may need retransmission are always enqueued, but first transmission try occurs immediately if esp_mqtt_client_publish
is used. A transmission retry for unacknowledged messages will occur after message_retransmit_timeout
. After CONFIG_MQTT_OUTBOX_EXPIRED_TIMEOUT_MS messages will expire and be deleted. If CONFIG_MQTT_REPORT_DELETED_MESSAGES is set, an event will be sent to notify the user.
Configuration
The configuration is made by setting fields in esp_mqtt_client_config_t
struct. The configuration struct has the following sub structs to configure different aspects of the client operation.
esp_mqtt_client_config_t::broker_t
- Allow to set address and security verification.
esp_mqtt_client_config_t::credentials_t
- Client credentials for authentication.
esp_mqtt_client_config_t::session_t
- Configuration for MQTT session aspects.
esp_mqtt_client_config_t::network_t
- Networking related configuration.
esp_mqtt_client_config_t::task_t
- Allow to configure FreeRTOS task.
esp_mqtt_client_config_t::buffer_t
- Buffer size for input and output.
In the following sections, the most common aspects are detailed.
Broker
Address
Broker address can be set by usage of address
struct. The configuration can be made by usage of uri
field or the combination of hostname
, transport
and port
. Optionally, path
could be set, this field is useful in WebSocket connections.
The uri
field is used in the format scheme://hostname:port/path
.
Curently support
mqtt
,mqtts
,ws
,wss
schemesMQTT over TCP samples:
mqtt://mqtt.eclipseprojects.io
: MQTT over TCP, default port 1883mqtt://mqtt.eclipseprojects.io:1884
: MQTT over TCP, port 1884mqtt://username:password@mqtt.eclipseprojects.io:1884
: MQTT over TCP, port 1884, with username and password
MQTT over SSL samples:
mqtts://mqtt.eclipseprojects.io
: MQTT over SSL, port 8883mqtts://mqtt.eclipseprojects.io:8884
: MQTT over SSL, port 8884
MQTT over WebSocket samples:
ws://mqtt.eclipseprojects.io:80/mqtt
MQTT over WebSocket Secure samples:
wss://mqtt.eclipseprojects.io:443/mqtt
Minimal configurations:
const esp_mqtt_client_config_t mqtt_cfg = {
.broker.address.uri = "mqtt://mqtt.eclipseprojects.io",
};
esp_mqtt_client_handle_t client = esp_mqtt_client_init(&mqtt_cfg);
esp_mqtt_client_register_event(client, ESP_EVENT_ANY_ID, mqtt_event_handler, client);
esp_mqtt_client_start(client);
Note
By default MQTT client uses event loop library to post related MQTT events (connected, subscribed, published, etc.).
Verification
For secure connections with TLS used, and to guarantee Broker’s identity, the verification
struct must be set.
The broker certificate may be set in PEM or DER format. To select DER, the equivalent certificate_len
field must be set. Otherwise, a null-terminated string in PEM format should be provided to certificate
field.
- Get certificate from server, example:
mqtt.eclipseprojects.io
openssl s_client -showcerts -connect mqtt.eclipseprojects.io:8883 < /dev/null \ 2> /dev/null | openssl x509 -outform PEM > mqtt_eclipse_org.pem
- Get certificate from server, example:
Check the sample application: protocols/mqtt/ssl
Configuration:
const esp_mqtt_client_config_t mqtt_cfg = {
.broker = {
.address.uri = "mqtts://mqtt.eclipseprojects.io:8883",
.verification.certificate = (const char *)mqtt_eclipse_org_pem_start,
},
};
For details about other fields, please check the API Reference and TLS Server verification.
Client Credentials
All client related credentials are under the credentials
field.
Authentication
It’s possible to set authentication parameters through the authentication
field. The client supports the following authentication methods:
password
: use a password by setting
certificate
andkey
: mutual authentication with TLS, and both can be provided in PEM or DER format
use_secure_element
: use secure element available in ESP32-WROOM-32SE
ds_data
: use Digital Signature Peripheral available in some Espressif devices
Session
For MQTT session related configurations, session
fields should be used.
Last Will and Testament
MQTT allows for a last will and testament (LWT) message to notify other clients when a client ungracefully disconnects. This is configured by the following fields in the last_will
struct.
Events
The following events may be posted by the MQTT client:
MQTT_EVENT_BEFORE_CONNECT
: The client is initialized and about to start connecting to the broker.MQTT_EVENT_CONNECTED
: The client has successfully established a connection to the broker. The client is now ready to send and receive data.MQTT_EVENT_DISCONNECTED
: The client has aborted the connection due to being unable to read or write data, e.g. because the server is unavailable.MQTT_EVENT_SUBSCRIBED
: The broker has acknowledged the client’s subscribe request. The event data will contain the message ID of the subscribe message.MQTT_EVENT_UNSUBSCRIBED
: The broker has acknowledged the client’s unsubscribe request. The event data will contain the message ID of the unsubscribe message.MQTT_EVENT_PUBLISHED
: The broker has acknowledged the client’s publish message. This will only be posted for QoS level 1 and 2, as level 0 does not use acknowledgements. The event data will contain the message ID of the publish message.MQTT_EVENT_DATA
: The client has received a publish message. The event data contains: message ID, name of the topic it was published to, received data and its length. For data that exceeds the internal buffer, multipleMQTT_EVENT_DATA
will be posted andcurrent_data_offset
andtotal_data_len
from event data updated to keep track of the fragmented message.MQTT_EVENT_ERROR
: The client has encountered an error. The fielderror_handle
in the event data containserror_type
that can be used to identify the error. The type of error will determine which parts of theerror_handle
struct is filled.
API Reference
Header File
Functions
-
esp_mqtt_client_handle_t esp_mqtt_client_init(const esp_mqtt_client_config_t *config)
Creates MQTT client handle based on the configuration.
- Parameters
config – MQTT configuration structure
- Returns
mqtt_client_handle if successfully created, NULL on error
-
esp_err_t esp_mqtt_client_set_uri(esp_mqtt_client_handle_t client, const char *uri)
Sets MQTT connection URI. This API is usually used to overrides the URI configured in esp_mqtt_client_init.
- Parameters
client – MQTT client handle
uri –
- Returns
ESP_FAIL if URI parse error, ESP_OK on success
-
esp_err_t esp_mqtt_client_start(esp_mqtt_client_handle_t client)
Starts MQTT client with already created client handle.
- Parameters
client – MQTT client handle
- Returns
ESP_OK on success ESP_ERR_INVALID_ARG on wrong initialization ESP_FAIL on other error
-
esp_err_t esp_mqtt_client_reconnect(esp_mqtt_client_handle_t client)
This api is typically used to force reconnection upon a specific event.
- Parameters
client – MQTT client handle
- Returns
ESP_OK on success ESP_ERR_INVALID_ARG on wrong initialization ESP_FAIL if client is in invalid state
-
esp_err_t esp_mqtt_client_disconnect(esp_mqtt_client_handle_t client)
This api is typically used to force disconnection from the broker.
- Parameters
client – MQTT client handle
- Returns
ESP_OK on success ESP_ERR_INVALID_ARG on wrong initialization
-
esp_err_t esp_mqtt_client_stop(esp_mqtt_client_handle_t client)
Stops MQTT client tasks.
Notes:
Cannot be called from the MQTT event handler
- Parameters
client – MQTT client handle
- Returns
ESP_OK on success ESP_ERR_INVALID_ARG on wrong initialization ESP_FAIL if client is in invalid state
-
int esp_mqtt_client_subscribe_single(esp_mqtt_client_handle_t client, const char *topic, int qos)
Subscribe the client to defined topic with defined qos.
Notes:
Client must be connected to send subscribe message
This API is could be executed from a user task or from a MQTT event callback i.e. internal MQTT task (API is protected by internal mutex, so it might block if a longer data receive operation is in progress.
esp_mqtt_client_subscribe
could be used to call this function.
- Parameters
client – MQTT client handle
topic – topic filter to subscribe
qos – Max qos level of the subscription
- Returns
message_id of the subscribe message on success -1 on failure -2 in case of full outbox.
-
int esp_mqtt_client_subscribe_multiple(esp_mqtt_client_handle_t client, const esp_mqtt_topic_t *topic_list, int size)
Subscribe the client to a list of defined topics with defined qos.
Notes:
Client must be connected to send subscribe message
This API is could be executed from a user task or from a MQTT event callback i.e. internal MQTT task (API is protected by internal mutex, so it might block if a longer data receive operation is in progress.
esp_mqtt_client_subscribe
could be used to call this function.
- Parameters
client – MQTT client handle
topic_list – List of topics to subscribe
size – size of topic_list
- Returns
message_id of the subscribe message on success -1 on failure -2 in case of full outbox.
-
int esp_mqtt_client_unsubscribe(esp_mqtt_client_handle_t client, const char *topic)
Unsubscribe the client from defined topic.
Notes:
Client must be connected to send unsubscribe message
It is thread safe, please refer to
esp_mqtt_client_subscribe_single
for details
- Parameters
client – MQTT client handle
topic –
- Returns
message_id of the subscribe message on success -1 on failure
-
int esp_mqtt_client_publish(esp_mqtt_client_handle_t client, const char *topic, const char *data, int len, int qos, int retain)
Client to send a publish message to the broker.
Notes:
This API might block for several seconds, either due to network timeout (10s) or if publishing payloads longer than internal buffer (due to message fragmentation)
Client doesn’t have to be connected for this API to work, enqueueing the messages with qos>1 (returning -1 for all the qos=0 messages if disconnected). If MQTT_SKIP_PUBLISH_IF_DISCONNECTED is enabled, this API will not attempt to publish when the client is not connected and will always return -1.
It is thread safe, please refer to
esp_mqtt_client_subscribe
for details
- Parameters
client – MQTT client handle
topic – topic string
data – payload string (set to NULL, sending empty payload message)
len – data length, if set to 0, length is calculated from payload string
qos – QoS of publish message
retain – retain flag
- Returns
message_id of the publish message (for QoS 0 message_id will always be zero) on success. -1 on failure, -2 in case of full outbox.
-
int esp_mqtt_client_enqueue(esp_mqtt_client_handle_t client, const char *topic, const char *data, int len, int qos, int retain, bool store)
Enqueue a message to the outbox, to be sent later. Typically used for messages with qos>0, but could be also used for qos=0 messages if store=true.
This API generates and stores the publish message into the internal outbox and the actual sending to the network is performed in the mqtt-task context (in contrast to the esp_mqtt_client_publish() which sends the publish message immediately in the user task’s context). Thus, it could be used as a non blocking version of esp_mqtt_client_publish().
- Parameters
client – MQTT client handle
topic – topic string
data – payload string (set to NULL, sending empty payload message)
len – data length, if set to 0, length is calculated from payload string
qos – QoS of publish message
retain – retain flag
store – if true, all messages are enqueued; otherwise only QoS 1 and QoS 2 are enqueued
- Returns
message_id if queued successfully, -1 on failure, -2 in case of full outbox.
-
esp_err_t esp_mqtt_client_destroy(esp_mqtt_client_handle_t client)
Destroys the client handle.
Notes:
Cannot be called from the MQTT event handler
- Parameters
client – MQTT client handle
- Returns
ESP_OK ESP_ERR_INVALID_ARG on wrong initialization
-
esp_err_t esp_mqtt_set_config(esp_mqtt_client_handle_t client, const esp_mqtt_client_config_t *config)
Set configuration structure, typically used when updating the config (i.e. on “before_connect” event.
- Parameters
client – MQTT client handle
config – MQTT configuration structure
- Returns
ESP_ERR_NO_MEM if failed to allocate ESP_ERR_INVALID_ARG if conflicts on transport configuration. ESP_OK on success
-
esp_err_t esp_mqtt_client_register_event(esp_mqtt_client_handle_t client, esp_mqtt_event_id_t event, esp_event_handler_t event_handler, void *event_handler_arg)
Registers MQTT event.
- Parameters
client – MQTT client handle
event – event type
event_handler – handler callback
event_handler_arg – handlers context
- Returns
ESP_ERR_NO_MEM if failed to allocate ESP_ERR_INVALID_ARG on wrong initialization ESP_OK on success
-
esp_err_t esp_mqtt_client_unregister_event(esp_mqtt_client_handle_t client, esp_mqtt_event_id_t event, esp_event_handler_t event_handler)
Unregisters mqtt event.
- Parameters
client – mqtt client handle
event – event ID
event_handler – handler to unregister
- Returns
ESP_ERR_NO_MEM if failed to allocate ESP_ERR_INVALID_ARG on invalid event ID ESP_OK on success
-
int esp_mqtt_client_get_outbox_size(esp_mqtt_client_handle_t client)
Get outbox size.
- Parameters
client – MQTT client handle
- Returns
outbox size 0 on wrong initialization
-
esp_err_t esp_mqtt_dispatch_custom_event(esp_mqtt_client_handle_t client, esp_mqtt_event_t *event)
Dispatch user event to the mqtt internal event loop.
- Parameters
client – MQTT client handle
event – MQTT event handle structure
- Returns
ESP_OK on success ESP_ERR_TIMEOUT if the event couldn’t be queued (ref also CONFIG_MQTT_EVENT_QUEUE_SIZE)
Structures
-
struct esp_mqtt_error_codes
MQTT error code structure to be passed as a contextual information into ERROR event
Important: This structure extends
esp_tls_last_error
error structure and is backward compatible with it (so might be down-casted and treated asesp_tls_last_error
error, but recommended to update applications if used this way previously)Use this structure directly checking error_type first and then appropriate error code depending on the source of the error:
| error_type | related member variables | note | | MQTT_ERROR_TYPE_TCP_TRANSPORT | esp_tls_last_esp_err, esp_tls_stack_err, esp_tls_cert_verify_flags, sock_errno | Error reported from tcp_transport/esp-tls | | MQTT_ERROR_TYPE_CONNECTION_REFUSED | connect_return_code | Internal error reported from MQTT broker on connection |
Public Members
-
int esp_tls_stack_err
tls specific error code reported from underlying tls stack
-
int esp_tls_cert_verify_flags
tls flags reported from underlying tls stack during certificate verification
-
esp_mqtt_error_type_t error_type
error type referring to the source of the error
-
esp_mqtt_connect_return_code_t connect_return_code
connection refused error code reported from MQTT* broker on connection
-
int esp_transport_sock_errno
errno from the underlying socket
-
int esp_tls_stack_err
-
struct esp_mqtt_event_t
MQTT event configuration structure
Public Members
-
esp_mqtt_event_id_t event_id
MQTT event type
-
esp_mqtt_client_handle_t client
MQTT client handle for this event
-
char *data
Data associated with this event
-
int data_len
Length of the data for this event
-
int total_data_len
Total length of the data (longer data are supplied with multiple events)
-
int current_data_offset
Actual offset for the data associated with this event
-
char *topic
Topic associated with this event
-
int topic_len
Length of the topic for this event associated with this event
-
int msg_id
MQTT messaged id of message
-
int session_present
MQTT session_present flag for connection event
-
esp_mqtt_error_codes_t *error_handle
esp-mqtt error handle including esp-tls errors as well as internal MQTT errors
-
bool retain
Retained flag of the message associated with this event
-
int qos
QoS of the messages associated with this event
-
bool dup
dup flag of the message associated with this event
-
esp_mqtt_protocol_ver_t protocol_ver
MQTT protocol version used for connection, defaults to value from menuconfig
-
esp_mqtt_event_id_t event_id
-
struct esp_mqtt_client_config_t
MQTT client configuration structure
Default values can be set via menuconfig
All certificates and key data could be passed in PEM or DER format. PEM format must have a terminating NULL character and the related len field set to 0. DER format requires a related len field set to the correct length.
Public Members
-
struct esp_mqtt_client_config_t::broker_t broker
Broker address and security verification
-
struct esp_mqtt_client_config_t::credentials_t credentials
User credentials for broker
-
struct esp_mqtt_client_config_t::session_t session
MQTT session configuration.
-
struct esp_mqtt_client_config_t::network_t network
Network configuration
-
struct esp_mqtt_client_config_t::task_t task
FreeRTOS task configuration.
-
struct esp_mqtt_client_config_t::buffer_t buffer
Buffer size configuration.
-
struct esp_mqtt_client_config_t::outbox_config_t outbox
Outbox configuration.
-
struct broker_t
Broker related configuration
Public Members
-
struct esp_mqtt_client_config_t::broker_t::address_t address
Broker address configuration
-
struct esp_mqtt_client_config_t::broker_t::verification_t verification
Security verification of the broker
-
struct address_t
Broker address
uri have precedence over other fields
If uri isn’t set at least hostname, transport and port should.
-
struct verification_t
Broker identity verification
If fields are not set broker’s identity isn’t verified. it’s recommended to set the options in this struct for security reasons.
Public Members
-
bool use_global_ca_store
Use a global ca_store, look esp-tls documentation for details.
-
esp_err_t (*crt_bundle_attach)(void *conf)
Pointer to ESP x509 Certificate Bundle attach function for the usage of certificate bundles.
-
const char *certificate
Certificate data, default is NULL, not required to verify the server.
-
size_t certificate_len
Length of the buffer pointed to by certificate.
-
const struct psk_key_hint *psk_hint_key
Pointer to PSK struct defined in esp_tls.h to enable PSK authentication (as alternative to certificate verification). PSK is enabled only if there are no other ways to verify broker.
-
bool skip_cert_common_name_check
Skip any validation of server certificate CN field, this reduces the security of TLS and makes the MQTT client susceptible to MITM attacks
-
const char **alpn_protos
NULL-terminated list of supported application protocols to be used for ALPN
-
const char *common_name
Pointer to the string containing server certificate common name. If non-NULL, server certificate CN must match this name, If NULL, server certificate CN must match hostname. This is ignored if skip_cert_common_name_check=true.
-
bool use_global_ca_store
-
struct esp_mqtt_client_config_t::broker_t::address_t address
-
struct buffer_t
Client buffer size configuration
Client have two buffers for input and output respectivelly.
-
struct credentials_t
Client related credentials for authentication.
Public Members
-
const char *username
MQTT username
-
const char *client_id
Set MQTT client identifier. Ignored if set_null_client_id == true If NULL set the default client id. Default client id is
ESP32_CHIPID%
whereCHIPID%
are last 3 bytes of MAC address in hex format
-
bool set_null_client_id
Selects a NULL client id
-
struct esp_mqtt_client_config_t::credentials_t::authentication_t authentication
Client authentication
-
struct authentication_t
Client authentication
Fields related to client authentication by broker
For mutual authentication using TLS, user could select certificate and key, secure element or digital signature peripheral if available.
Public Members
-
const char *password
MQTT password
-
const char *certificate
Certificate for ssl mutual authentication, not required if mutual authentication is not needed. Must be provided with
key
.
-
size_t certificate_len
Length of the buffer pointed to by certificate.
-
const char *key
Private key for SSL mutual authentication, not required if mutual authentication is not needed. If it is not NULL, also
certificate
has to be provided.
-
size_t key_len
Length of the buffer pointed to by key.
-
const char *key_password
Client key decryption password, not PEM nor DER, if provided
key_password_len
must be correctly set.
-
int key_password_len
Length of the password pointed to by
key_password
-
bool use_secure_element
Enable secure element, available in ESP32-ROOM-32SE, for SSL connection
-
void *ds_data
Carrier of handle for digital signature parameters, digital signature peripheral is available in some Espressif devices.
-
const char *password
-
const char *username
-
struct network_t
Network related configuration
Public Members
-
int reconnect_timeout_ms
Reconnect to the broker after this value in miliseconds if auto reconnect is not disabled (defaults to 10s)
-
int timeout_ms
Abort network operation if it is not completed after this value, in milliseconds (defaults to 10s).
-
int refresh_connection_after_ms
Refresh connection after this value (in milliseconds)
-
bool disable_auto_reconnect
Client will reconnect to server (when errors/disconnect). Set
disable_auto_reconnect=true
to disable
-
esp_transport_handle_t transport
Custom transport handle to use. Warning: The transport should be valid during the client lifetime and is destroyed when esp_mqtt_client_destroy is called.
-
struct ifreq *if_name
The name of interface for data to go through. Use the default interface without setting
-
int reconnect_timeout_ms
-
struct outbox_config_t
Client outbox configuration options.
Public Members
-
uint64_t limit
Size limit for the outbox in bytes.
-
uint64_t limit
-
struct session_t
MQTT Session related configuration
Public Members
-
struct esp_mqtt_client_config_t::session_t::last_will_t last_will
Last will configuration
-
bool disable_clean_session
MQTT clean session, default clean_session is true
-
int keepalive
MQTT keepalive, default is 120 seconds When configuring this value, keep in mind that the client attempts to communicate with the broker at half the interval that is actually set. This conservative approach allows for more attempts before the broker’s timeout occurs
-
bool disable_keepalive
Set
disable_keepalive=true
to turn off keep-alive mechanism, keepalive is active by default. Note: setting the config valuekeepalive
to0
doesn’t disable keepalive feature, but uses a default keepalive period
-
esp_mqtt_protocol_ver_t protocol_ver
MQTT protocol version used for connection.
-
int message_retransmit_timeout
timeout for retransmitting of failed packet
-
struct last_will_t
Last Will and Testament message configuration.
-
struct esp_mqtt_client_config_t::session_t::last_will_t last_will
-
struct task_t
Client task configuration
-
struct topic_t
Topic definition struct
Macros
-
MQTT_ERROR_TYPE_ESP_TLS
MQTT_ERROR_TYPE_TCP_TRANSPORT error type hold all sorts of transport layer errors, including ESP-TLS error, but in the past only the errors from MQTT_ERROR_TYPE_ESP_TLS layer were reported, so the ESP-TLS error type is re-defined here for backward compatibility
-
esp_mqtt_client_subscribe(client_handle, topic_type, qos_or_size)
Convenience macro to select subscribe function to use.
Notes:
Usage of
esp_mqtt_client_subscribe_single
is the same as previous esp_mqtt_client_subscribe, refer to it for details.
- Parameters
client_handle – MQTT client handle
topic_type – Needs to be char* for single subscription or
esp_mqtt_topic_t
for multiple topicsqos_or_size – It’s either a qos when subscribing to a single topic or the size of the subscription array when subscribing to multiple topics.
- Returns
message_id of the subscribe message on success -1 on failure -2 in case of full outbox.
Type Definitions
-
typedef struct esp_mqtt_client *esp_mqtt_client_handle_t
-
typedef enum esp_mqtt_event_id_t esp_mqtt_event_id_t
MQTT event types.
User event handler receives context data in
esp_mqtt_event_t
structure withclient - MQTT client handle
various other data depending on event type
-
typedef enum esp_mqtt_connect_return_code_t esp_mqtt_connect_return_code_t
MQTT connection error codes propagated via ERROR event
-
typedef enum esp_mqtt_error_type_t esp_mqtt_error_type_t
MQTT connection error codes propagated via ERROR event
-
typedef enum esp_mqtt_transport_t esp_mqtt_transport_t
-
typedef enum esp_mqtt_protocol_ver_t esp_mqtt_protocol_ver_t
MQTT protocol version used for connection
-
typedef struct esp_mqtt_error_codes esp_mqtt_error_codes_t
MQTT error code structure to be passed as a contextual information into ERROR event
Important: This structure extends
esp_tls_last_error
error structure and is backward compatible with it (so might be down-casted and treated asesp_tls_last_error
error, but recommended to update applications if used this way previously)Use this structure directly checking error_type first and then appropriate error code depending on the source of the error:
| error_type | related member variables | note | | MQTT_ERROR_TYPE_TCP_TRANSPORT | esp_tls_last_esp_err, esp_tls_stack_err, esp_tls_cert_verify_flags, sock_errno | Error reported from tcp_transport/esp-tls | | MQTT_ERROR_TYPE_CONNECTION_REFUSED | connect_return_code | Internal error reported from MQTT broker on connection |
-
typedef struct esp_mqtt_event_t esp_mqtt_event_t
MQTT event configuration structure
-
typedef esp_mqtt_event_t *esp_mqtt_event_handle_t
-
typedef struct esp_mqtt_client_config_t esp_mqtt_client_config_t
MQTT client configuration structure
Default values can be set via menuconfig
All certificates and key data could be passed in PEM or DER format. PEM format must have a terminating NULL character and the related len field set to 0. DER format requires a related len field set to the correct length.
Enumerations
-
enum esp_mqtt_event_id_t
MQTT event types.
User event handler receives context data in
esp_mqtt_event_t
structure withclient - MQTT client handle
various other data depending on event type
Values:
-
enumerator MQTT_EVENT_ANY
-
enumerator MQTT_EVENT_ERROR
on error event, additional context: connection return code, error handle from esp_tls (if supported)
-
enumerator MQTT_EVENT_CONNECTED
connected event, additional context: session_present flag
-
enumerator MQTT_EVENT_DISCONNECTED
disconnected event
-
enumerator MQTT_EVENT_SUBSCRIBED
subscribed event, additional context:
msg_id message id
error_handle
error_type
in case subscribing faileddata pointer to broker response, check for errors.
data_len length of the data for this event
-
enumerator MQTT_EVENT_UNSUBSCRIBED
unsubscribed event, additional context: msg_id
-
enumerator MQTT_EVENT_PUBLISHED
published event, additional context: msg_id
-
enumerator MQTT_EVENT_DATA
data event, additional context:
msg_id message id
topic pointer to the received topic
topic_len length of the topic
data pointer to the received data
data_len length of the data for this event
current_data_offset offset of the current data for this event
total_data_len total length of the data received
retain retain flag of the message
qos QoS level of the message
dup dup flag of the message Note: Multiple MQTT_EVENT_DATA could be fired for one message, if it is longer than internal buffer. In that case only first event contains topic pointer and length, other contain data only with current data length and current data offset updating.
-
enumerator MQTT_EVENT_BEFORE_CONNECT
The event occurs before connecting
-
enumerator MQTT_EVENT_DELETED
Notification on delete of one message from the internal outbox, if the message couldn’t have been sent and acknowledged before expiring defined in OUTBOX_EXPIRED_TIMEOUT_MS. (events are not posted upon deletion of successfully acknowledged messages)
This event id is posted only if MQTT_REPORT_DELETED_MESSAGES==1
Additional context: msg_id (id of the deleted message).
-
enumerator MQTT_USER_EVENT
Custom event used to queue tasks into mqtt event handler All fields from the esp_mqtt_event_t type could be used to pass an additional context data to the handler.
-
enum esp_mqtt_connect_return_code_t
MQTT connection error codes propagated via ERROR event
Values:
-
enumerator MQTT_CONNECTION_ACCEPTED
Connection accepted
-
enumerator MQTT_CONNECTION_REFUSE_PROTOCOL
MQTT connection refused reason: Wrong protocol
-
enumerator MQTT_CONNECTION_REFUSE_ID_REJECTED
MQTT connection refused reason: ID rejected
-
enumerator MQTT_CONNECTION_REFUSE_SERVER_UNAVAILABLE
MQTT connection refused reason: Server unavailable
-
enumerator MQTT_CONNECTION_REFUSE_BAD_USERNAME
MQTT connection refused reason: Wrong user
-
enumerator MQTT_CONNECTION_REFUSE_NOT_AUTHORIZED
MQTT connection refused reason: Wrong username or password
-
enumerator MQTT_CONNECTION_ACCEPTED
-
enum esp_mqtt_error_type_t
MQTT connection error codes propagated via ERROR event
Values:
-
enumerator MQTT_ERROR_TYPE_NONE
-
enumerator MQTT_ERROR_TYPE_TCP_TRANSPORT
-
enumerator MQTT_ERROR_TYPE_CONNECTION_REFUSED
-
enumerator MQTT_ERROR_TYPE_SUBSCRIBE_FAILED
-
enumerator MQTT_ERROR_TYPE_NONE
-
enum esp_mqtt_transport_t
Values:
-
enumerator MQTT_TRANSPORT_UNKNOWN
-
enumerator MQTT_TRANSPORT_OVER_TCP
MQTT over TCP, using scheme:
MQTT
-
enumerator MQTT_TRANSPORT_OVER_SSL
MQTT over SSL, using scheme:
MQTTS
-
enumerator MQTT_TRANSPORT_OVER_WS
MQTT over Websocket, using scheme::
ws
-
enumerator MQTT_TRANSPORT_OVER_WSS
MQTT over Websocket Secure, using scheme:
wss
-
enumerator MQTT_TRANSPORT_UNKNOWN