nRF Cloud
The nRF Cloud library enables applications to connect to Nordic Semiconductor’s nRF Cloud. It abstracts and hides the details of the transport and the encoding scheme that is used for the payload and provides a simplified API interface for sending data from supported sensor types to the cloud. The current implementation supports the following technologies:
GNSS and FLIP sensor data
TLS secured MQTT as the communication protocol
JSON as the data format
Initializing
Before using any other APIs of the module, the application must call nrf_cloud_init()
.
If this API fails, the application must not use any APIs of the module.
Note
Initialize the module before starting any timers, sensor drivers, or communication on the link.
Connecting
The application can use the nrf_cloud_connect()
function to connect to the cloud.
This API triggers a series of events and actions in the system.
If the API fails, the application must retry to connect.
If the CONFIG_NRF_CLOUD_CONNECTION_POLL_THREAD
Kconfig option is not enabled, the application should monitor the connection socket.
The nrf_cloud_connect()
function blocks and returns success when the MQTT connection to the cloud completes.
If the CONFIG_NRF_CLOUD_CONNECTION_POLL_THREAD
Kconfig option is enabled, an nRF Cloud library thread monitors the connection socket.
The nrf_cloud_connect()
function does not block and returns success if the connection monitoring thread has started.
When the CONFIG_NRF_CLOUD_CONNECTION_POLL_THREAD
Kconfig option is enabled, an additional event, NRF_CLOUD_EVT_TRANSPORT_CONNECTING
, is sent to the application.
To adjust the stack size of the connection monitoring thread, set the CONFIG_NRF_CLOUD_CONNECTION_POLL_THREAD_STACK_SIZE
Kconfig option.
The NRF_CLOUD_EVT_TRANSPORT_CONNECT_ERROR
event is sent if an error occurs while the transport connection is being established.
The status field of nrf_cloud_evt
contains the reason for the error that is defined by nrf_cloud_connect_result
.
The event NRF_CLOUD_EVT_TRANSPORT_DISCONNECTED
also contains additional information in the status field that is defined by nrf_cloud_disconnect_status
.
First, the library tries to establish the transport for communicating with the cloud. This procedure involves a TLS handshake that might take up to three seconds. The API blocks for the duration of the handshake.
The cloud uses the certificates of the device for authentication. See Updating the nRF Cloud certificate and the Modem key management library for more information on modem credentials. The certificates are generated using the device ID and PIN or HWID. The device ID is also the MQTT client ID. There are multiple configuration options for the device or client ID. See Configuration options for device ID for more information.
As the next step, the API subscribes to an MQTT topic to start receiving user association requests from the cloud.
Every time nRF Cloud starts a communication session with a device, it verifies whether the device is uniquely associated with a user. If not, the user association procedure is triggered. When adding the device to an nRF Cloud account, the user must provide the correct device ID and PIN to nRF Cloud.
The following message sequence chart shows the flow of events and the expected application responses to each event during the user association procedure:
The chart shows the sequence of successful user association of an unassociated device.
Note
Currently, nRF Cloud requires that communication is re-established to update the device’s permission to send user data.
The application must disconnect using nrf_cloud_disconnect()
and then reconnect using nrf_cloud_connect()
.
When the device is successfully associated with a user on the cloud, subsequent connections to the cloud (also across power cycles) occur in the following sequence:
After receiving NRF_CLOUD_EVT_READY
, the application can start sending sensor data to the cloud.
Configuration options for device ID
CONFIG_NRF_CLOUD_CLIENT_ID_SRC_IMEI
- If you enable this option, the ID is automatically generated using a prefix and the modem’s IMEI (<prefix><IMEI>
). You can configure the prefix by usingCONFIG_NRF_CLOUD_CLIENT_ID_PREFIX
. The default format of the prefix isnrf-
and it is valid only for Nordic devices such as Thingy:91 or nRF9160 DK. For custom hardware, use a prefix other thannrf-
by modifyingCONFIG_NRF_CLOUD_CLIENT_ID_PREFIX
.CONFIG_NRF_CLOUD_CLIENT_ID_SRC_INTERNAL_UUID
- If you enable this option, the ID is automatically generated using the modem’s 128-bit internal UUID, which results in a 36 character string of hexadecimal values in the 8-4-4-4-12 UUID format. This option requires modem firmware v1.3.0 or higher.CONFIG_NRF_CLOUD_CLIENT_ID_SRC_COMPILE_TIME
- If you enable this option, the ID is set at compile time using the value specified byCONFIG_NRF_CLOUD_CLIENT_ID
.CONFIG_NRF_CLOUD_CLIENT_ID_SRC_HW_ID
- If you enable this option, the ID is automatically generated using a unique hardware ID (for example, a MAC address). You can choose the required hardware ID using theHW_ID_LIBRARY_SOURCE
Kconfig choice.CONFIG_NRF_CLOUD_CLIENT_ID_SRC_RUNTIME
- If you enable this option, the ID is set at run time. If the nRF Cloud library is used directly, set the NULL-terminated ID string innrf_cloud_init_param
when callingnrf_cloud_init()
.
Firmware over-the-air (FOTA) updates
The nRF Cloud library supports FOTA updates for your nRF9160-based device.
The CONFIG_NRF_CLOUD_FOTA
option is enabled by default when CONFIG_NRF_CLOUD_MQTT
is set.
This enables FOTA functionality in the application.
nRF Cloud FOTA enables the following additional features and libraries:
CONFIG_FOTA_DOWNLOAD
enables FOTA downloadCONFIG_DFU_TARGET
enables DFU target
For FOTA updates to work, the device must provide the information about the supported FOTA types to nRF Cloud.
The device passes this information by writing a fota_v2
field containing an array of FOTA types into the serviceInfo
field in the device’s shadow.
nrf_cloud_service_info_json_encode()
can be used to generate the proper JSON data to enable FOTA.
Additionally, nrf_cloud_shadow_device_status_update()
can be used to generate the JSON data and perform the shadow update.
Following are the supported FOTA types:
"APP"
- Updates the application."BOOT"
- Updates the Second-stage upgradable bootloader."MDM_FULL"
- Full modem FOTA updates the entire modem firmware image. Full modem updates require external flash memory with minimum 4 MB of available space. For the nRF9160, a full modem firmware image is approximately 2 MB. Consider the power and network costs before deploying full modem FOTA updates."MODEM"
- Delta modem FOTA applies incremental changes between specific versions of the modem firmware. Delta modem updates are much smaller in size and do not require external memory.
For example, a device that supports all the FOTA types writes the following data into the device shadow:
{
"state": {
"reported": {
"device": {
"serviceInfo": {
"fota_v2": [
"APP",
"MODEM",
"MDM_FULL",
"BOOT"
]
}}}}}
You can initiate FOTA updates through nRF Cloud or by using the nRF Cloud REST API (v1).
If the CONFIG_NRF_CLOUD_FOTA
Kconfig option is enabled, FOTA update job information is requested by the device after the MQTT connection to nRF Cloud is completed.
The NRF_CLOUD_FOTA_AUTO_START_JOB
Kconfig option controls how FOTA jobs are started on the device.
If enabled, the nRF Cloud library starts the FOTA update job immediately upon receipt of the FOTA update job information from nRF Cloud. If the job is successfully started, the library sends the
NRF_CLOUD_EVT_FOTA_START
event to the application.If disabled, the
NRF_CLOUD_EVT_FOTA_JOB_AVAILABLE
event is sent to the application. When the application is ready to start the FOTA update job it must callnrf_cloud_fota_job_start()
.
The FOTA update is in progress until the application receives either the NRF_CLOUD_EVT_FOTA_DONE
or NRF_CLOUD_EVT_FOTA_ERROR
event.
When receiving the NRF_CLOUD_EVT_FOTA_DONE
event, the application must perform any necessary cleanup and reboot the device to complete the update.
The message payload of the NRF_CLOUD_EVT_FOTA_DONE
event contains the nrf_cloud_fota_type
value.
If the value equals NRF_CLOUD_FOTA_MODEM_DELTA
, the application can optionally avoid a reboot by reinitializing the modem library and then calling the nrf_cloud_modem_fota_completed()
function.
See nRF Cloud FOTA for details on the FOTA service in nRF Cloud. See nRF Cloud MQTT FOTA for MQTT-specific FOTA details such as topics and payload formats.
Building FOTA images
The build system will create the files dfu_application.zip
and/or dfu_mcuboot.zip
for a properly configured application.
See Building FOTA images for more information about FOTA zip files.
When you use the files dfu_application.zip
or dfu_mcuboot.zip
to create an update bundle, the nRF Cloud UI populates the Name
and Version
fields from the manifest.json
file contained within.
However, you are free to change them as needed.
The UI populates the Version
field from only the nRF Connect SDK version field in the manifest.json
file.
Alternatively, you can use the app_update.bin
file to create an update bundle, but you need to enter the Name
and Version
fields manually.
See nRF Cloud Getting Started FOTA documentation to learn how to create an update bundle.
Modem firmware is controlled by Nordic Semiconductor. A user cannot build or upload modem firmware images. Modem FOTA update bundles (full and delta) are automatically uploaded to nRF Cloud and are available to all users.
Sending sensor data
The library offers two APIs, nrf_cloud_sensor_data_send()
and nrf_cloud_sensor_data_stream()
(lowest QoS), for sending sensor data to the cloud.
To view sensor data on nRF Cloud, the device must first inform the cloud what types of sensor data to display.
The device passes this information by writing a ui
field, containing an array of sensor types, into the serviceInfo
field in the device’s shadow.
nrf_cloud_service_info_json_encode()
can be used to generate the proper JSON data to enable FOTA.
Additionally, nrf_cloud_shadow_device_status_update()
can be used to generate the JSON data and perform the shadow update.
Following are the supported UI types on nRF Cloud:
GNSS
FLIP
TEMP
HUMIDITY
AIR_PRESS
RSRP
Removing the link between device and user
If you want to remove the link between a device and an nRF Cloud account, you must do this from nRF Cloud. A device cannot remove itself from an nRF Cloud account.
Location services
nRF Cloud offers location services that allow you to obtain the location of your device. The following enhancements to this library can be used to interact with nRF Cloud Location Services:
Assisted GNSS - nRF Cloud A-GNSS
Predicted GPS - nRF Cloud P-GPS
Cellular Positioning - nRF Cloud location
nRF Cloud REST - nRF Cloud REST
API documentation
include/net/nrf_cloud.h
subsys/net/lib/nrf_cloud/src/
- group nrf_cloud
Defines
-
NCT_MSG_ID_USE_NEXT_INCREMENT
MQTT message ID: not specified, use next incremented value
-
NCT_MSG_ID_CC_SUB
MQTT message ID: subscribe to control channel topics
-
NCT_MSG_ID_DC_SUB
MQTT message ID: subscribe to data channel topics
-
NCT_MSG_ID_FOTA_SUB
MQTT message ID: subscribe to FOTA topics
-
NCT_MSG_ID_CC_UNSUB
MQTT message ID: unsubscribe from control channel topics
-
NCT_MSG_ID_DC_UNSUB
MQTT message ID: unsubscribe from data channel topics
-
NCT_MSG_ID_FOTA_UNSUB
MQTT message ID: unsubscribe from FOTA topics
-
NCT_MSG_ID_STATE_REQUEST
MQTT message ID: request device state (shadow)
-
NCT_MSG_ID_FOTA_REQUEST
MQTT message ID: request FOTA job
-
NCT_MSG_ID_FOTA_BLE_REQUEST
MQTT message ID: request BLE FOTA job
-
NCT_MSG_ID_STATE_REPORT
MQTT message ID: update device state (shadow)
-
NCT_MSG_ID_PAIR_STATUS_REPORT
MQTT message ID: set pairing/associated state
-
NCT_MSG_ID_FOTA_REPORT
MQTT message ID: update FOTA job status
-
NCT_MSG_ID_FOTA_BLE_REPORT
MQTT message ID: update BLE FOTA job status
-
NCT_MSG_ID_INCREMENT_BEGIN
MQTT message ID: Start of incrementing range
-
NCT_MSG_ID_INCREMENT_END
MQTT message ID: End of incrementing range
-
NCT_MSG_ID_USER_TAG_BEGIN
MQTT message ID: Start of user specified (custom) range
-
NCT_MSG_ID_USER_TAG_END
MQTT message ID: End of user specified (custom) range
-
IS_VALID_USER_TAG(tag)
Determine if an MQTT message ID is a user specified tag to be used for ACK matching
-
NRF_CLOUD_JWT_VALID_TIME_S_MAX
Maximum valid duration for JWTs generated by nrf_cloud_jwt_generate
-
NRF_CLOUD_JWT_VALID_TIME_S_DEF
Default valid duration for JWTs generated by nrf_cloud_jwt_generate
-
NRF_CLOUD_NO_TIMESTAMP
Value used to disable sending a timestamp. Timestamps are in UNIX epoch format.
-
NRF_CLOUD_FOTA_JOB_ID_SIZE
Size of nRF Cloud FOTA job ID; version 4 UUID: 32 bytes, 4 hyphens, NULL
Typedefs
-
typedef void (*nrf_cloud_event_handler_t)(const struct nrf_cloud_evt *evt)
Event handler registered with the module to handle asynchronous events from the module.
- Param evt:
[in] The event and any associated parameters.
Enums
-
enum nrf_cloud_evt_type
Asynchronous nRF Cloud events notified by the module.
Values:
-
enumerator NRF_CLOUD_EVT_TRANSPORT_CONNECTED
The transport to the nRF Cloud is established.
-
enumerator NRF_CLOUD_EVT_TRANSPORT_CONNECTING
In the process of connecting to nRF Cloud.
-
enumerator NRF_CLOUD_EVT_USER_ASSOCIATION_REQUEST
There was a request from nRF Cloud to associate the device with a user on the nRF Cloud.
-
enumerator NRF_CLOUD_EVT_USER_ASSOCIATED
The device is successfully associated with a user.
-
enumerator NRF_CLOUD_EVT_READY
The device can now start sending sensor data to the cloud.
-
enumerator NRF_CLOUD_EVT_RX_DATA_GENERAL
The device received non-specific data from the cloud.
-
enumerator NRF_CLOUD_EVT_RX_DATA_LOCATION
The device received location data from the cloud and no response callback was registered.
-
enumerator NRF_CLOUD_EVT_RX_DATA_SHADOW
The device received shadow related data from the cloud.
-
enumerator NRF_CLOUD_EVT_PINGRESP
The device has received a ping response from the cloud.
-
enumerator NRF_CLOUD_EVT_SENSOR_DATA_ACK
The data sent to the cloud was acknowledged.
-
enumerator NRF_CLOUD_EVT_TRANSPORT_DISCONNECTED
The transport was disconnected. The status field in the event struct will be populated with a nrf_cloud_disconnect_status value.
-
enumerator NRF_CLOUD_EVT_FOTA_START
A FOTA update has started. This event is only sent if
CONFIG_NRF_CLOUD_FOTA_AUTO_START_JOB
is enabled.
-
enumerator NRF_CLOUD_EVT_FOTA_DONE
The device should be restarted to apply a firmware upgrade
-
enumerator NRF_CLOUD_EVT_FOTA_ERROR
An error occurred during the FOTA update.
-
enumerator NRF_CLOUD_EVT_TRANSPORT_CONNECT_ERROR
An error occurred when connecting to the nRF Cloud. The status field in the event struct will be populated with a nrf_cloud_connect_result value.
-
enumerator NRF_CLOUD_EVT_FOTA_JOB_AVAILABLE
FOTA update job information has been received. When ready, the application should start the job by calling nrf_cloud_fota_job_start. This event is only sent if
CONFIG_NRF_CLOUD_FOTA_AUTO_START_JOB
is disabled.
-
enumerator NRF_CLOUD_EVT_ERROR
An error occurred. The status field in the event struct will be populated with a nrf_cloud_error_status value.
-
enumerator NRF_CLOUD_EVT_TRANSPORT_CONNECTED
-
enum nrf_cloud_error_status
nRF Cloud error status, used to describe NRF_CLOUD_EVT_ERROR event.
Values:
-
enumerator NRF_CLOUD_ERR_STATUS_NONE
No error
-
enumerator NRF_CLOUD_ERR_STATUS_MQTT_CONN_FAIL
MQTT connection failed
-
enumerator NRF_CLOUD_ERR_STATUS_MQTT_CONN_BAD_PROT_VER
MQTT protocol version not supported by server
-
enumerator NRF_CLOUD_ERR_STATUS_MQTT_CONN_ID_REJECTED
MQTT client identifier rejected by server
-
enumerator NRF_CLOUD_ERR_STATUS_MQTT_CONN_SERVER_UNAVAIL
MQTT service is unavailable
-
enumerator NRF_CLOUD_ERR_STATUS_MQTT_CONN_BAD_USR_PWD
Malformed user name or password
-
enumerator NRF_CLOUD_ERR_STATUS_MQTT_CONN_NOT_AUTH
Client is not authorized to connect
-
enumerator NRF_CLOUD_ERR_STATUS_MQTT_SUB_FAIL
Failed to subscribe to MQTT topic
-
enumerator NRF_CLOUD_ERR_STATUS_AGNSS_PROC
Error processing A-GNSS data
-
enumerator NRF_CLOUD_ERR_STATUS_PGPS_PROC
Error processing P-GPS data
-
enumerator NRF_CLOUD_ERR_STATUS_NONE
-
enum nrf_cloud_disconnect_status
nRF Cloud disconnect status, used to describe NRF_CLOUD_EVT_TRANSPORT_DISCONNECTED event.
Values:
-
enumerator NRF_CLOUD_DISCONNECT_USER_REQUEST
Disconnect was requested by user/application
-
enumerator NRF_CLOUD_DISCONNECT_CLOSED_BY_REMOTE
Disconnect was caused by the cloud
-
enumerator NRF_CLOUD_DISCONNECT_INVALID_REQUEST
Socket received POLLNVAL event
-
enumerator NRF_CLOUD_DISCONNECT_MISC
Socket poll returned an error value or POLLERR event
-
enumerator NRF_CLOUD_DISCONNECT_USER_REQUEST
-
enum nrf_cloud_connect_result
nRF Cloud connect result. Used as return value for nrf_cloud_connect() and to describe NRF_CLOUD_EVT_TRANSPORT_CONNECT_ERROR event.
Values:
-
enumerator NRF_CLOUD_CONNECT_RES_SUCCESS
The connection was successful
-
enumerator NRF_CLOUD_CONNECT_RES_ERR_NOT_INITD
The library is not initialized; nrf_cloud_init
-
enumerator NRF_CLOUD_CONNECT_RES_ERR_NETWORK
A network error ocurred
-
enumerator NRF_CLOUD_CONNECT_RES_ERR_BACKEND
A connection error occurred relating to the nRF Cloud backend
-
enumerator NRF_CLOUD_CONNECT_RES_ERR_MISC
The connection failed due to an indeterminate reason
-
enumerator NRF_CLOUD_CONNECT_RES_ERR_NO_MEM
Insufficient memory is available
-
enumerator NRF_CLOUD_CONNECT_RES_ERR_PRV_KEY
Invalid private key
-
enumerator NRF_CLOUD_CONNECT_RES_ERR_CERT
Invalid CA or client cert
-
enumerator NRF_CLOUD_CONNECT_RES_ERR_CERT_MISC
Other cert issue
-
enumerator NRF_CLOUD_CONNECT_RES_ERR_TIMEOUT_NO_DATA
Timeout, SIM card may be out of data
-
enumerator NRF_CLOUD_CONNECT_RES_ERR_ALREADY_CONNECTED
The connection exists
-
enumerator NRF_CLOUD_CONNECT_RES_SUCCESS
-
enum nrf_cloud_error
nRF Cloud error codes. See the Error Codes section of nRF Cloud API documentation for more information.
Values:
-
enumerator NRF_CLOUD_ERROR_UNKNOWN
-
enumerator NRF_CLOUD_ERROR_NONE
-
enumerator NRF_CLOUD_ERROR_BAD_REQUEST
-
enumerator NRF_CLOUD_ERROR_INVALID_CERT
-
enumerator NRF_CLOUD_ERROR_DISSOCIATE
-
enumerator NRF_CLOUD_ERROR_ACCESS_DENIED
-
enumerator NRF_CLOUD_ERROR_DEV_ID_IN_USE
-
enumerator NRF_CLOUD_ERROR_INVALID_OWNER_CODE
-
enumerator NRF_CLOUD_ERROR_DEV_NOT_ASSOCIATED
-
enumerator NRF_CLOUD_ERROR_DATA_NOT_FOUND
-
enumerator NRF_CLOUD_ERROR_NRF_DEV_NOT_FOUND
-
enumerator NRF_CLOUD_ERROR_NO_DEV_NOT_PROV
-
enumerator NRF_CLOUD_ERROR_NO_DEV_DISSOCIATE
-
enumerator NRF_CLOUD_ERROR_NO_DEV_DELETE
-
enumerator NRF_CLOUD_ERROR_NOT_FOUND_NO_ERROR
-
enumerator NRF_CLOUD_ERROR_BAD_RANGE
-
enumerator NRF_CLOUD_ERROR_VALIDATION
-
enumerator NRF_CLOUD_ERROR_INTERNAL_SERVER
-
enumerator NRF_CLOUD_ERROR_UNKNOWN
-
enum nrf_cloud_sensor
Sensor types supported by the nRF Cloud.
Values:
-
enumerator NRF_CLOUD_SENSOR_GNSS
The GNSS sensor on the device.
-
enumerator NRF_CLOUD_SENSOR_FLIP
The FLIP movement sensor on the device.
-
enumerator NRF_CLOUD_SENSOR_BUTTON
The Button press sensor on the device.
-
enumerator NRF_CLOUD_SENSOR_TEMP
The TEMP sensor on the device.
-
enumerator NRF_CLOUD_SENSOR_HUMID
The Humidity sensor on the device.
-
enumerator NRF_CLOUD_SENSOR_AIR_PRESS
The Air Pressure sensor on the device.
-
enumerator NRF_CLOUD_SENSOR_AIR_QUAL
The Air Quality sensor on the device.
-
enumerator NRF_CLOUD_LTE_LINK_RSRP
The RSPR data obtained from the modem.
-
enumerator NRF_CLOUD_LOG
Log messages generated on the device.
-
enumerator NRF_CLOUD_DICTIONARY_LOG
Log messages generated on the device in dictionary (binary) format.
-
enumerator NRF_CLOUD_DEVICE_INFO
The descriptive DEVICE data indicating its status.
-
enumerator NRF_CLOUD_SENSOR_LIGHT
The light sensor on the device.
-
enumerator NRF_CLOUD_SENSOR_GNSS
-
enum nrf_cloud_topic_type
Topic types supported by nRF Cloud.
Values:
-
enumerator NRF_CLOUD_TOPIC_STATE
Endpoint used to update the cloud-side device shadow state .
-
enumerator NRF_CLOUD_TOPIC_MESSAGE
Endpoint used to directly message the nRF Cloud Web UI.
-
enumerator NRF_CLOUD_TOPIC_BULK
Endpoint used to publish bulk messages to nRF Cloud. Bulk messages combine multiple messages into a single message that will be unwrapped and re-published to the message topic in the nRF Cloud backend.
-
enumerator NRF_CLOUD_TOPIC_BIN
Endpoint used to publish binary data to nRF Cloud for certain services. One example is dictionary formatted logs enabled by
CONFIG_LOG_BACKEND_NRF_CLOUD_OUTPUT_DICTIONARY
, which enables the Zephyr optionCONFIG_LOG_DICTIONARY_SUPPORT
. Binary data published to this topic should be prefixed by the binary header structure defined in nrf_cloud_codec.h - struct nrf_cloud_bin_hdr. A unique format value should be included to distinguish this data from binary logging.
-
enumerator NRF_CLOUD_TOPIC_STATE
-
enum nrf_cloud_fota_status
FOTA status reported to nRF Cloud.
Values:
-
enumerator NRF_CLOUD_FOTA_QUEUED
-
enumerator NRF_CLOUD_FOTA_IN_PROGRESS
-
enumerator NRF_CLOUD_FOTA_FAILED
-
enumerator NRF_CLOUD_FOTA_SUCCEEDED
-
enumerator NRF_CLOUD_FOTA_TIMED_OUT
-
enumerator NRF_CLOUD_FOTA_CANCELED
-
enumerator NRF_CLOUD_FOTA_REJECTED
-
enumerator NRF_CLOUD_FOTA_DOWNLOADING
-
enumerator NRF_CLOUD_FOTA_QUEUED
-
enum nrf_cloud_fota_type
FOTA update type.
Values:
-
enumerator NRF_CLOUD_FOTA_TYPE__FIRST
-
enumerator NRF_CLOUD_FOTA_APPLICATION
Application update.
-
enumerator NRF_CLOUD_FOTA_MODEM_DELTA
Delta modem update
-
enumerator NRF_CLOUD_FOTA_BOOTLOADER
Bootloader update.
-
enumerator NRF_CLOUD_FOTA_MODEM_FULL
Full modem update
-
enumerator NRF_CLOUD_FOTA_TYPE__INVALID
-
enumerator NRF_CLOUD_FOTA_TYPE__FIRST
-
enum nrf_cloud_fota_validate_status
Validity of an in-progress/installed FOTA update.
Values:
-
enumerator NRF_CLOUD_FOTA_VALIDATE_NONE
No FOTA update in progress
-
enumerator NRF_CLOUD_FOTA_VALIDATE_PENDING
The FOTA update has not yet been validated
-
enumerator NRF_CLOUD_FOTA_VALIDATE_PASS
Validation succeeded
-
enumerator NRF_CLOUD_FOTA_VALIDATE_FAIL
Validation failed
-
enumerator NRF_CLOUD_FOTA_VALIDATE_UNKNOWN
Validation result could not be determined
-
enumerator NRF_CLOUD_FOTA_VALIDATE_DONE
The validation process is finished
-
enumerator NRF_CLOUD_FOTA_VALIDATE_ERROR
An error occurred before validation
-
enumerator NRF_CLOUD_FOTA_VALIDATE_NONE
-
enum nrf_cloud_fota_bootloader_status_flags
Status flags for tracking the update process of the b1 bootloader (MCUBOOT)
Values:
-
enumerator NRF_CLOUD_FOTA_BL_STATUS_CLEAR
Initial state
-
enumerator NRF_CLOUD_FOTA_BL_STATUS_S0_FLAG_SET
Indicates if the NRF_CLOUD_FOTA_BL_STATUS_S0_WAS_ACTIVE flag has been updated
-
enumerator NRF_CLOUD_FOTA_BL_STATUS_S0_WAS_ACTIVE
Indicates if slot 0 was active prior to the update
-
enumerator NRF_CLOUD_FOTA_BL_STATUS_REBOOTED
Indicates if the planned reboot has occurred during the update install process
-
enumerator NRF_CLOUD_FOTA_BL_STATUS_CLEAR
-
enum nrf_cloud_shadow_info
How the info sections are handled when encoding shadow data.
Values:
-
enumerator NRF_CLOUD_INFO_NO_CHANGE
Data will not be modified
-
enumerator NRF_CLOUD_INFO_SET
Data will be set/updated
-
enumerator NRF_CLOUD_INFO_CLEAR
Data section will be cleared
-
enumerator NRF_CLOUD_INFO_NO_CHANGE
-
enum nrf_cloud_gnss_type
GNSS data type contained in nrf_cloud_gnss_data.
Values:
-
enumerator NRF_CLOUD_GNSS_TYPE_INVALID
Invalid data type
-
enumerator NRF_CLOUD_GNSS_TYPE_PVT
Specifies a data type of nrf_cloud_gnss_pvt
-
enumerator NRF_CLOUD_GNSS_TYPE_NMEA
Specifies a data type of nrf_cloud_gnss_nmea
-
enumerator NRF_CLOUD_GNSS_TYPE_MODEM_PVT
Specifies a data type of nrf_modem_gnss_pvt_data_frame
-
enumerator NRF_CLOUD_GNSS_TYPE_MODEM_NMEA
Specifies a data type of nrf_modem_gnss_nmea_data_frame
-
enumerator NRF_CLOUD_GNSS_TYPE_INVALID
-
enum nrf_cloud_ctrl_status
How the control section is handled when either a trimmed shadow or a delta shadow is received.
Values:
-
enumerator NRF_CLOUD_CTRL_NOT_PRESENT
Data not present in shadow.
-
enumerator NRF_CLOUD_CTRL_NO_REPLY
This was not a delta, so no need to send update back.
-
enumerator NRF_CLOUD_CTRL_REPLY
Send shadow update confirmation back.
-
enumerator NRF_CLOUD_CTRL_REJECT
Reject values — update desired section, not reported.
-
enumerator NRF_CLOUD_CTRL_NOT_PRESENT
Functions
-
int nrf_cloud_init(const struct nrf_cloud_init_param *param)
Initialize the module.
Note
This API must be called prior to using nRF Cloud and it must return successfully.
- Parameters:
param – [in] Initialization parameters.
- Return values:
0 – If successful.
-EACCES – Already initialized or nrf_cloud_uninit is in progress.
- Returns:
A negative value indicates an error.
-
int nrf_cloud_uninit(void)
Uninitialize nRF Cloud; disconnects cloud connection and cleans up allocated memory.
Note
If nRF Cloud FOTA is enabled and a FOTA job is active uninit will not be performed.
Note
This function is solely intended to allow this library to be deactivated when no longer needed. You can recover from any error state you may encounter without calling this function. See nrf_cloud_disconnect for a way to reset the nRF Cloud connection state without uninitializing the whole library.
- Return values:
0 – If successful.
-EBUSY – If a FOTA job is in progress.
-EISCONN – If the expected disconnect event did not occur.
-ETIME – If
CONFIG_NRF_CLOUD_CONNECTION_POLL_THREAD
is enabled and the connection poll thread did not become inactive.
- Returns:
A negative value indicates an error.
-
int nrf_cloud_connect(void)
Connect to the cloud.
The NRF_CLOUD_EVT_TRANSPORT_CONNECTED event indicates that the cloud connection has been established. In any stage of connecting to the cloud, an NRF_CLOUD_EVT_ERROR might be received. If it is received before NRF_CLOUD_EVT_TRANSPORT_CONNECTED, the application may repeat the call to nrf_cloud_connect to try again.
- Return values:
Connect – result defined by enum nrf_cloud_connect_result.
-
int nrf_cloud_sensor_data_send(const struct nrf_cloud_sensor_data *param)
Send sensor data reliably.
This API should only be called after receiving an NRF_CLOUD_EVT_READY event. If the API succeeds, you can expect the NRF_CLOUD_EVT_SENSOR_DATA_ACK event for data sent with a valid tag value.
- Parameters:
param – [in] Sensor data; the data pointed to by param->data.ptr must be a string.
- Return values:
0 – If successful.
-EACCES – Cloud connection is not established; wait for NRF_CLOUD_EVT_READY.
- Returns:
A negative value indicates an error.
-
int nrf_cloud_shadow_device_status_update(const struct nrf_cloud_device_status *const dev_status)
Update the device status in the shadow.
- Parameters:
dev_status – [in] Device status to be encoded.
- Return values:
0 – If successful.
-EACCES – Cloud connection is not established; wait for NRF_CLOUD_EVT_READY.
- Returns:
A negative value indicates an error.
-
int nrf_cloud_sensor_data_stream(const struct nrf_cloud_sensor_data *param)
Stream sensor data. Uses lowest QoS; no acknowledgment,.
This API should only be called after receiving an NRF_CLOUD_EVT_READY event.
- Parameters:
param – [in] Sensor data; tag value is ignored.
- Return values:
0 – If successful.
-EACCES – Cloud connection is not established; wait for NRF_CLOUD_EVT_READY.
- Returns:
A negative value indicates an error.
-
int nrf_cloud_send(const struct nrf_cloud_tx_data *msg)
Send data to nRF Cloud.
This API is used for sending data to nRF Cloud.
- Parameters:
msg – [in] Pointer to a structure containing data and topic information.
- Return values:
0 – If successful.
-EACCES – Cloud connection is not established; wait for NRF_CLOUD_EVT_READY.
-EIO – Error; failed to encode data.
- Returns:
A negative value indicates an error.
-
int nrf_cloud_disconnect(void)
Disconnect from the cloud.
This API may be called any time after receiving the NRF_CLOUD_EVT_TRANSPORT_CONNECTED event. The NRF_CLOUD_EVT_TRANSPORT_DISCONNECTED event indicates that the disconnect has completed successfully.
- Return values:
0 – If successful.
-EACCES – Cloud connection is not established; wait for NRF_CLOUD_EVT_TRANSPORT_CONNECTED.
- Returns:
A negative value indicates an error.
-
int nrf_cloud_process(void)
Function that must be called periodically to keep the module functional.
- Return values:
0 – If successful.
- Returns:
A negative value indicates an error.
-
int nrf_cloud_modem_fota_completed(const bool fota_success)
The application has handled reinit after a modem FOTA update and the LTE link has been reestablished. This function must be called in order to complete the modem update. Depends on.
- Parameters:
fota_success – [in] true if modem update was successful, false otherwise.
- Return values:
0 – If successful.
- Returns:
A negative value indicates an error.
-
int nrf_cloud_client_id_get(char *id_buf, size_t id_len)
Retrieve the current device ID.
- Parameters:
id_buf – [inout] Buffer to receive the device ID.
id_len – [in] Size of buffer (NRF_CLOUD_CLIENT_ID_MAX_LEN).
- Return values:
0 – If successful.
- Returns:
A negative value indicates an error.
-
int nrf_cloud_tenant_id_get(char *id_buf, size_t id_len)
Retrieve the current customer tenant ID.
- Parameters:
id_buf – [inout] Buffer to receive the tenant ID.
id_len – [in] Size of buffer (NRF_CLOUD_TENANT_ID_MAX_LEN).
- Return values:
0 – If successful.
- Returns:
A negative value indicates an error.
-
int nrf_cloud_jwt_generate(uint32_t time_valid_s, char *const jwt_buf, size_t jwt_buf_sz)
Generate a JWT to be used with nRF Cloud’s REST API. This library’s configured values for client id and sec tag (NRF_CLOUD_SEC_TAG) will be used for generating the JWT.
- Parameters:
time_valid_s – [in] How long (seconds) the JWT will be valid. Maximum duration specified by NRF_CLOUD_JWT_VALID_TIME_S_MAX. If zero, NRF_CLOUD_JWT_VALID_TIME_S_DEF will be used.
jwt_buf – [inout] Buffer to hold the JWT.
jwt_buf_sz – [in] Size of the buffer (recommended size >= 600 bytes).
- Return values:
0 – JWT generated successfully.
-ETIME – Modem does not have valid date/time, JWT not generated.
- Returns:
A negative value indicates an error.
-
int nrf_cloud_pending_fota_job_process(struct nrf_cloud_settings_fota_job *const job, bool *const reboot_required)
Process/validate a pending FOTA update job. Typically the job information is read from non-volatile storage on startup. This function is intended to be used by custom REST-based FOTA implementations. It is called internally if.
CONFIG_NRF_CLOUD_FOTA
is enabled. For pending NRF_CLOUD_FOTA_MODEM_DELTA jobs the modem library must be initialized before calling this function, otherwise the job will be marked as completed without validation.- Parameters:
job – [in] FOTA job state information.
reboot_required – [out] A reboot is needed to complete a FOTA update.
- Return values:
0 – A Pending FOTA job has been processed.
-ENODEV – No pending/unvalidated FOTA job exists.
-ENOENT – Error; unknown FOTA job type.
-ESRCH – Error; not configured for FOTA job type.
-
int nrf_cloud_bootloader_fota_slot_set(struct nrf_cloud_settings_fota_job *const job)
Set the active bootloader (B1) slot flag which is needed to validate a bootloader FOTA update. For proper functionality,.
CONFIG_FOTA_DOWNLOAD
must be enabled.- Parameters:
job – [inout] FOTA job state information.
- Return values:
0 – Flag set successfully or not a bootloader FOTA update.
- Returns:
A negative value indicates an error.
-
int nrf_cloud_fota_pending_job_type_get(enum nrf_cloud_fota_type *const pending_fota_type)
Retrieve the FOTA type of a pending FOTA job. A value of NRF_CLOUD_FOTA_TYPE__INVALID indicates that there are no pending FOTA jobs. Depends on.
- Parameters:
pending_fota_type – [out] FOTA type of pending job.
- Return values:
0 – FOTA type was retrieved.
-EINVAL – Error; invalid parameter.
- Returns:
A negative value indicates an error.
-
int nrf_cloud_fota_pending_job_validate(enum nrf_cloud_fota_type *const fota_type_out)
Validate a pending FOTA installation before initializing this library. This function enables the application to control the reboot/reinit process during FOTA updates. If this function is not called directly by the application, it will be called internally when nrf_cloud_init is executed. For pending NRF_CLOUD_FOTA_MODEM_DELTA jobs the modem library must be initialized before calling this function, otherwise the job will be marked as completed without validation. Depends on.
- Parameters:
fota_type_out – [out] FOTA type of pending job. NRF_CLOUD_FOTA_TYPE__INVALID if no pending job. Can be NULL.
- Return values:
0 – Pending FOTA job processed.
1 – Pending FOTA job processed and requires the application to perform a reboot or, for modem FOTA types, reinitialization of the modem library.
-ENODEV – No pending/unvalidated FOTA job exists.
-EIO – Error; failed to load FOTA job info from settings module.
-ENOENT – Error; unknown FOTA job type.
-
int nrf_cloud_fota_fmfu_dev_set(const struct dfu_target_fmfu_fdev *const fmfu_dev_inf)
Set the flash device used for full modem FOTA updates. This function is intended to be used by custom REST-based FOTA implementations. It is called internally when nrf_cloud_init is executed if.
CONFIG_NRF_CLOUD_FOTA
is enabled. It can be called before nrf_cloud_init if required by the application.- Parameters:
fmfu_dev_inf – [in] Flash device information.
- Return values:
0 – Flash device was successfully set.
1 – Flash device has already been set.
- Returns:
A negative value indicates an error.
-
int nrf_cloud_fota_fmfu_apply(void)
Install a full modem update from flash. If successful, reboot the device or reinit the modem to complete the update. This function is intended to be used by custom REST-based FOTA implementations. If.
CONFIG_NRF_CLOUD_FOTA
is enabled, call nrf_cloud_fota_pending_job_validate to install a downloaded NRF_CLOUD_FOTA_MODEM_FULL update after the NRF_CLOUD_EVT_FOTA_DONE event is received. Depends onCONFIG_NRF_CLOUD_FOTA_FULL_MODEM_UPDATE
.- Return values:
0 – Modem update installed successfully.
-EACCES – Flash device not set; see nrf_cloud_fota_fmfu_dev_set or nrf_cloud_init.
- Returns:
A negative value indicates an error. Modem update not installed.
-
bool nrf_cloud_fota_is_type_modem(const enum nrf_cloud_fota_type type)
Determine if FOTA type is modem related.
- Returns:
true if FOTA is modem type, otherwise false.
-
bool nrf_cloud_fota_is_type_enabled(const enum nrf_cloud_fota_type type)
Determine if the specified FOTA type is enabled by the configuration. This function returns false if both.
CONFIG_NRF_CLOUD_FOTA
andCONFIG_NRF_CLOUD_REST
are disabled. REST-based applications are responsible for implementing FOTA updates for all configured types.- Parameters:
type – [in] Fota type.
- Return values:
true – Specified FOTA type is enabled by the configuration.
false – Specified FOTA type is not enabled by the configuration.
-
int nrf_cloud_fota_job_start(void)
Start the FOTA update job. This function should be called after the NRF_CLOUD_EVT_FOTA_JOB_AVAILABLE event is received. This function should only be called if.
CONFIG_NRF_CLOUD_FOTA_AUTO_START_JOB
is disabled. Depends onCONFIG_NRF_CLOUD_FOTA
.- Return values:
0 – FOTA update job started successfully.
-ENOTSUP – Error;
CONFIG_NRF_CLOUD_FOTA_AUTO_START_JOB
is enabled.-ENOENT – Error; FOTA update job information has not been received.
-EINPROGRESS – Error; a FOTA update job is in progress.
-EPIPE – Error; failed to start FOTA download.
- Returns:
A negative value indicates an error starting the job.
-
int nrf_cloud_credentials_check(struct nrf_cloud_credentials_status *const cs)
Check if credentials exist in the configured location.
- Parameters:
cs – [out] Results of credentials check.
- Return values:
0 – Successfully obtained status of credentials.
-EIO – Error checking if credential exists.
-EINVAL – Error; invalid parameter.
- Returns:
A negative value indicates an error.
-
struct nrf_cloud_fota_job_info
- #include <nrf_cloud.h>
Common FOTA job info.
Public Members
-
char *id
Null-terminated FOTA job identifier
-
char *id
-
struct nrf_cloud_settings_fota_job
- #include <nrf_cloud.h>
FOTA job info provided to the settings module to track FOTA job status.
-
struct nrf_cloud_data
- #include <nrf_cloud.h>
Generic encapsulation for any data that is sent to the cloud.
-
struct nrf_cloud_topic
- #include <nrf_cloud.h>
MQTT topic.
-
struct nrf_cloud_sensor_data
- #include <nrf_cloud.h>
Sensor data transmission parameters.
Public Members
-
enum nrf_cloud_sensor type
The sensor that is the source of the data.
-
struct nrf_cloud_data data
Sensor data to be transmitted.
-
uint16_t tag
Unique tag to identify the sent data. Can be used to match acknowledgment on the NRF_CLOUD_EVT_SENSOR_DATA_ACK event. Valid range: NCT_MSG_ID_USER_TAG_BEGIN to NCT_MSG_ID_USER_TAG_END. Any other value will suppress the NRF_CLOUD_EVT_SENSOR_DATA_ACK event.
-
int64_t ts_ms
UNIX epoch timestamp (in milliseconds) of the data. If a value <= NRF_CLOUD_NO_TIMESTAMP (0) is provided, the timestamp will be ignored.
-
enum nrf_cloud_sensor type
-
struct nrf_cloud_evt
- #include <nrf_cloud.h>
Asynchronous events received from the module.
Public Members
-
enum nrf_cloud_evt_type type
The event that occurred.
-
uint32_t status
Any status associated with the event.
-
struct nrf_cloud_data data
Received data.
-
struct nrf_cloud_topic topic
Topic on which data was received.
-
enum nrf_cloud_evt_type type
-
struct nrf_cloud_tx_data
- #include <nrf_cloud.h>
Structure used to send data to nRF Cloud.
Public Members
-
struct nrf_cloud_obj *obj
Object containing data to be published
-
struct nrf_cloud_data data
Pre-encoded data that is to be published if an object is not provided
-
enum nrf_cloud_topic_type topic_type
Endpoint topic type published to.
-
uint32_t id
Message ID
-
struct nrf_cloud_obj *obj
-
struct nrf_cloud_svc_info_fota
- #include <nrf_cloud.h>
Controls which values are added to the FOTA array in the “serviceInfo” shadow section.
Public Members
-
uint8_t bootloader
Flag to indicate if bootloader updates are supported
-
uint8_t modem
Flag to indicate if modem delta updates are supported
-
uint8_t application
Flag to indicate if application updates are supported
-
uint8_t modem_full
Flag to indicate if full modem image updates are supported
-
uint8_t bootloader
-
struct nrf_cloud_svc_info_ui
- #include <nrf_cloud.h>
Controls which values are added to the UI array in the “serviceInfo” shadow section.
Public Members
-
uint8_t temperature
Temperature
-
uint8_t gnss
Location (map)
-
uint8_t flip
Orientation
-
uint8_t humidity
Humidity
-
uint8_t air_pressure
Air pressure
-
uint8_t rsrp
RSRP
-
uint8_t log
Logs
-
uint8_t dictionary_log
Dictionary (binary) Logs
-
uint8_t air_quality
Air Quality
-
uint8_t light_sensor
Light sensor
-
uint8_t button
Button
-
uint8_t temperature
-
struct nrf_cloud_modem_info
- #include <nrf_cloud.h>
Modem info data and which sections should be encoded.
Public Members
-
const struct modem_param_info *mpi
Pointer to a populated modem_param_info struct. If NULL, modem data will be fetched.
-
const char *application_version
Application version string to report to nRF Cloud. Used only if device parameter is NRF_CLOUD_INFO_SET.
-
const struct modem_param_info *mpi
-
struct nrf_cloud_svc_info
- #include <nrf_cloud.h>
Structure to specify which components are added to the encoded service info object.
Public Members
-
struct nrf_cloud_svc_info_fota *fota
Specify FOTA components to enable, set to NULL to remove the FOTA entry
-
struct nrf_cloud_svc_info_ui *ui
Specify UI components to enable, set to NULL to remove the UI entry
-
struct nrf_cloud_svc_info_fota *fota
-
struct nrf_cloud_device_status
- #include <nrf_cloud.h>
Structure to specify which components are added to the encoded device status object.
Public Members
-
struct nrf_cloud_modem_info *modem
Specify which modem info components to include, set to NULL to skip
-
struct nrf_cloud_svc_info *svc
Specify which service info components to include, set to NULL to skip
-
enum nrf_cloud_shadow_info conn_inf
Specify how the connection info data should be handled
-
struct nrf_cloud_modem_info *modem
-
struct nrf_cloud_gnss_pvt
- #include <nrf_cloud.h>
PVT data.
Public Members
-
double lon
Longitude in degrees; required.
-
double lat
Latitude in degrees; required.
-
float accuracy
Position accuracy (2D 1-sigma) in meters; required.
-
float alt
Altitude above WGS-84 ellipsoid in meters; optional.
-
float speed
Horizontal speed in m/s; optional.
-
float heading
Heading of user movement in degrees; optional.
-
uint8_t has_alt
Altitude value is set
-
uint8_t has_speed
Speed value is set
-
uint8_t has_heading
Heading value is set
-
double lon
-
struct nrf_cloud_credentials_status
- #include <nrf_cloud.h>
-
struct nrf_cloud_gnss_nmea
- #include <nrf_cloud.h>
NMEA data.
Public Members
-
const char *sentence
NULL-terminated NMEA sentence. Supported types are GPGGA, GPGLL, GPRMC. Max string length is NRF_MODEM_GNSS_NMEA_MAX_LEN - 1
-
const char *sentence
-
struct nrf_cloud_gnss_data
- #include <nrf_cloud.h>
GNSS data to be sent to nRF Cloud as a device message.
Public Members
-
enum nrf_cloud_gnss_type type
The type of GNSS data below.
-
int64_t ts_ms
UNIX epoch timestamp (in milliseconds) of the data. If a value <= NRF_CLOUD_NO_TIMESTAMP (0) is provided, the timestamp will be ignored.
-
struct nrf_cloud_gnss_pvt pvt
For type: NRF_CLOUD_GNSS_TYPE_PVT
-
struct nrf_cloud_gnss_nmea nmea
For type: NRF_CLOUD_GNSS_TYPE_NMEA
-
struct nrf_modem_gnss_nmea_data_frame *mdm_nmea
For type: NRF_CLOUD_GNSS_TYPE_MODEM_PVT
-
struct nrf_modem_gnss_pvt_data_frame *mdm_pvt
For type: NRF_CLOUD_GNSS_TYPE_MODEM_NMEA
-
enum nrf_cloud_gnss_type type
-
struct nrf_cloud_gw_data
- #include <nrf_cloud.h>
Structure to hold message received from nRF Cloud.
-
struct nrf_cloud_ctrl_data
- #include <nrf_cloud.h>
Data to control behavior of the nrf_cloud library from the cloud side. This data is stored in the device shadow.
Public Members
-
bool alerts_enabled
If true, nrf_cloud_alert_send() or nrf_cloud_rest_alert_send() will transfer alerts to the cloud whenever they are raised. If false, alerts will be suppressed.
-
int log_level
If 0, the nrf_cloud library logging backend will be disabled. If values from 1 to 4, this level and any lower levels will be sent to the cloud. Level 1 is most urgent (LOG_ERR), level 4 least (LOG_DBG).
-
bool alerts_enabled
-
struct nrf_cloud_init_param
- #include <nrf_cloud.h>
Initialization parameters for the module.
Public Members
-
nrf_cloud_event_handler_t event_handler
Event handler that is registered with the module.
-
char *client_id
NULL-terminated MQTT client ID string. Must not exceed NRF_CLOUD_CLIENT_ID_MAX_LEN. Must be set if NRF_CLOUD_CLIENT_ID_SRC_RUNTIME is enabled; otherwise, NULL.
-
struct dfu_target_fmfu_fdev *fmfu_dev_inf
Flash device information required for full modem FOTA updates. Only used if
CONFIG_NRF_CLOUD_FOTA_FULL_MODEM_UPDATE
is enabled. Ignored ifCONFIG_DFU_TARGET_FULL_MODEM_USE_EXT_PARTITION
is enabled.
-
struct nrf_cloud_os_mem_hooks *hooks
Optional hooks to override memory management functions. If set, nrf_cloud_os_mem_hooks_init will be called by nrf_cloud_init.
-
const char *application_version
Optional application version that is reported to nRF Cloud if
CONFIG_NRF_CLOUD_SEND_DEVICE_STATUS
is enabled.
-
nrf_cloud_event_handler_t event_handler
-
NCT_MSG_ID_USE_NEXT_INCREMENT
nRF Cloud codec documentation
include/net/nrf_cloud_codec.h
- group nrf_cloud_codec
Defines
-
NRF_CLOUD_OBJ_JSON_DEFINE(_name)
Define an nRF Cloud JSON object.
This macro defines a codec object with the type of NRF_CLOUD_OBJ_TYPE_JSON.
- Parameters:
_name – Name of the object.
-
NRF_CLOUD_OBJ_COAP_CBOR_DEFINE(_name)
-
NRF_CLOUD_OBJ_DEFINE(_name, _type)
Define an nRF Cloud codec object of the specified type.
- Parameters:
_name – Name of the object.
_type – Type of the object.
-
NRF_CLOUD_OBJ_PRE_ENC_DEFINE(_name, _data, _len)
Define an nRF Cloud object with pre-encoded data.
This macro defines a codec object with the type of NRF_CLOUD_OBJ_TYPE__UNDEFINED and initializes the encoded data with the provided parameters.
- Parameters:
_name – Name of the object.
_data – Pointer to pre-encoded data.
_len – Size of the pre-encoded data.
-
NRF_CLOUD_OBJ_TYPE_VALID(_obj_ptr)
Check if the provided object is a valid nRF Cloud codec object type.
- Parameters:
_obj_ptr – Object to check for a valid type.
- Return values:
true – Type is valid.
false – Type is invalid.
Enums
-
enum nrf_cloud_obj_type
Object types for encoding and decoding.
Values:
-
enumerator NRF_CLOUD_OBJ_TYPE__UNDEFINED
-
enumerator NRF_CLOUD_OBJ_TYPE_JSON
-
enumerator NRF_CLOUD_OBJ_TYPE_COAP_CBOR
This object type is to be used to store only one of enum nrf_cloud_data_type using the corresponding field in the union in struct nrf_cloud_obj_coap_cbor.
-
enumerator NRF_CLOUD_OBJ_TYPE__LAST
-
enumerator NRF_CLOUD_OBJ_TYPE__UNDEFINED
-
enum nrf_cloud_enc_src
Encoded data sources.
Values:
-
enumerator NRF_CLOUD_ENC_SRC_NONE
Encoded data is not set
-
enumerator NRF_CLOUD_ENC_SRC_CLOUD_ENCODED
Encoded data was set by nrf_cloud_obj_cloud_encode
-
enumerator NRF_CLOUD_ENC_SRC_PRE_ENCODED
Encoded data was set manually or by NRF_CLOUD_OBJ_PRE_ENC_DEFINE
-
enumerator NRF_CLOUD_ENC_SRC_NONE
-
enum nrf_cloud_data_type
Data types for nrf_cloud_sensor_data.
Values:
-
enumerator NRF_CLOUD_DATA_TYPE_NONE
-
enumerator NRF_CLOUD_DATA_TYPE_PVT
The struct nrf_cloud_gnss_pvt *pvt field points to the data.
-
enumerator NRF_CLOUD_DATA_TYPE_STR
The const char *str_val field points to a NULL-terminated string.
-
enumerator NRF_CLOUD_DATA_TYPE_DOUBLE
The double double_val field contains the data.
-
enumerator NRF_CLOUD_DATA_TYPE_INT
The int int_val field contains the data.
-
enumerator NRF_CLOUD_DATA_TYPE_NONE
Functions
-
int nrf_cloud_obj_input_decode(struct nrf_cloud_obj *const obj, const struct nrf_cloud_data *const input)
Decode data received from nRF Cloud.
If the provided obj has a valid type value, decoding for only that type is performed. If the provided obj does not have a valid type value, decoding for each type is performed until successful. If successful, memory is allocated for the provided object. The nrf_cloud_obj_free function should be called when finished with the object.
- Parameters:
obj – [out] Object to be initialized with the decoded data.
input – [in] Data received from nRF Cloud.
- Return values:
-EINVAL – Invalid parameter.
-ENOTSUP – Action not supported for the object’s type.
-ENOMSG – Unable to decode data to a known type.
0 – Data successfully decoded.
-
int nrf_cloud_obj_msg_check(const struct nrf_cloud_obj *const obj, const char *const app_id, const char *const msg_type)
Check if the object contains the specified app ID and message type.
- Parameters:
obj – [in] Object to check.
app_id – [in] Desired app ID. If NULL, app ID is not checked.
msg_type – [in] Desired message type. If NULL, message type is not checked.
- Return values:
-EINVAL – Invalid parameter.
-ENOENT – Object is not initialized.
-ENOTSUP – Action not supported for the object’s type.
-ENOMSG – Object does not contain the specified values.
0 – Success; object contains the specified values.
-
int nrf_cloud_obj_num_get(const struct nrf_cloud_obj *const obj, const char *const key, double *num)
Get the number value associated with the provided key.
- Parameters:
obj – [in] Object containing the key and value.
key – [in] Key.
num – [out] Number associated with the provided key.
- Return values:
-EINVAL – Invalid parameter.
-ENODEV – Object does not contain the provided key.
-ENOENT – Object is not initialized.
-ENOTSUP – Action not supported for the object’s type.
-ENOMSG – Value associated with the key is not a number.
0 – Success; number found.
-
int nrf_cloud_obj_str_get(const struct nrf_cloud_obj *const obj, const char *const key, char **str)
Get the string value associated with the provided key.
- Parameters:
obj – [in] Object containing the key and value.
key – [in] Key.
str – [out] String associated with the provided key.
- Return values:
-EINVAL – Invalid parameter.
-ENODEV – Object does not contain the provided key.
-ENOENT – Object is not initialized.
-ENOTSUP – Action not supported for the object’s type.
-ENOMSG – Value associated with the key is not a string.
0 – Success; string found.
-
int nrf_cloud_obj_msg_init(struct nrf_cloud_obj *const obj, const char *const app_id, const char *const msg_type)
Initialize an object as an nRF Cloud device message.
If successful, memory is allocated for the provided object. The nrf_cloud_obj_free function should be called when finished with the object.
- Parameters:
obj – [out] Object to initialize.
app_id – [in] The desired app ID of the message.
msg_type – [in] The desired message type; can be NULL.
- Return values:
-EINVAL – Invalid parameter.
-ENOTEMPTY – Object already initialized.
-ENOMEM – Out of memory.
-ENOTSUP – Action not supported for the object’s type.
0 – Success; message initialized.
-
int nrf_cloud_obj_bulk_init(struct nrf_cloud_obj *const bulk)
Initialize an object as an nRF Cloud bulk message.
If successful, memory is allocated for the provided object. The nrf_cloud_obj_free function should be called when finished with the object.
- Parameters:
bulk – [out] Object to initialize.
- Return values:
-EINVAL – Invalid parameter.
-ENOTEMPTY – Object already initialized.
-ENOMEM – Out of memory.
-ENOTSUP – Action not supported for the object’s type.
0 – Success; bulk message initialized.
-
int nrf_cloud_obj_init(struct nrf_cloud_obj *const obj)
Initialize an empty object.
If successful, memory is allocated for the provided object. The nrf_cloud_obj_free function should be called when finished with the object.
- Parameters:
obj – [out] Object to initialize.
- Return values:
-EINVAL – Invalid parameter.
-ENOTEMPTY – Object already initialized.
-ENOMEM – Out of memory.
-ENOTSUP – Action not supported for the object’s type.
0 – Success; object initialized.
-
int nrf_cloud_obj_reset(struct nrf_cloud_obj *const obj)
Reset the state of an object; does not free memory.
- Parameters:
obj – [out] Object to reset.
- Return values:
-EINVAL – Invalid parameter.
-ENOTSUP – Action not supported for the object’s type.
0 – Success; object initialized.
-
int nrf_cloud_obj_free(struct nrf_cloud_obj *const obj)
Free the memory of an initialized object.
Frees the object’s memory; use nrf_cloud_obj_cloud_encoded_free to free cloud encoded data.
- Parameters:
obj – [out] Object to initialize.
- Return values:
-EINVAL – Invalid parameter.
-ENOMEM – Out of memory.
-ENOTSUP – Action not supported for the object’s type.
0 – Success; memory freed.
-
int nrf_cloud_obj_bulk_add(struct nrf_cloud_obj *const bulk, struct nrf_cloud_obj *const obj)
Add an object to a bulk message object.
If successful, the object belongs to the bulk message and should not be freed directly.
- Parameters:
bulk – [out] Bulk container object.
obj – [in] Object to add.
- Return values:
-EINVAL – Invalid parameter.
-ENOENT – Object is not initialized.
-ENODEV – Not a bulk container object.
-EIO – Error adding object.
-ENOTSUP – Action not supported for the object’s type.
0 – Success; item added.
-
int nrf_cloud_obj_ts_add(struct nrf_cloud_obj *const obj, const int64_t time_ms)
Add a timestamp to an object.
- Parameters:
obj – [out] Object to contain timestamp.
time_ms – [in] Timestamp value in milliseconds. UNIX epoch format.
- Return values:
-EINVAL – Invalid parameter.
-ENOENT – Object is not initialized.
-ENOMEM – Out of memory.
-ENOTSUP – Action not supported for the object’s type.
0 – Success; item added.
-
int nrf_cloud_obj_num_add(struct nrf_cloud_obj *const obj, const char *const key, const double val, const bool data_child)
Add a key string and number value to the provided object.
- Parameters:
obj – [out] Object to contain key and value.
key – [in] Key string; must be valid and constant for the life of the object.
val – [in] Number value.
data_child – [in] If true, key and number will be added as a child to a “data” object. If false, key and number will be added as a child to the provided object.
- Return values:
-EINVAL – Invalid parameter.
-ENOENT – Object is not initialized.
-ENOMEM – Out of memory.
-ENOTSUP – Action not supported for the object’s type.
0 – Success; item added.
-
int nrf_cloud_obj_str_add(struct nrf_cloud_obj *const obj, const char *const key, const char *const val, const bool data_child)
Add a key string and string value to the provided object.
- Parameters:
obj – [out] Object to contain key and value.
key – [in] Key string; must be valid and constant for the life of the object.
val – [in] String value.
data_child – [in] If true, key and value will be added as a child to a “data” object. If false, key and value will be added as a child to the provided object.
- Return values:
-EINVAL – Invalid parameter.
-ENOENT – Object is not initialized.
-ENOMEM – Out of memory.
-ENOTSUP – Action not supported for the object’s type.
0 – Success; item added.
-
int nrf_cloud_obj_bool_add(struct nrf_cloud_obj *const obj, const char *const key, const bool val, const bool data_child)
Add a key string and boolean value to the provided object.
- Parameters:
obj – [out] Object to contain key and value.
key – [in] Key string; must be valid and constant for the life of the object.
val – [in] Boolean value.
data_child – [in] If true, key and value will be added as a child to a “data” object. If false, key and value will be added as a child to the provided object.
- Return values:
-EINVAL – Invalid parameter.
-ENOENT – Object is not initialized.
-ENOMEM – Out of memory.
-ENOTSUP – Action not supported for the object’s type.
0 – Success; item added.
-
int nrf_cloud_obj_null_add(struct nrf_cloud_obj *const obj, const char *const key, const bool data_child)
Add a key string and null value to the provided object.
- Parameters:
obj – [out] Object to contain key and value.
key – [in] Key string; must be valid and constant for the life of the object.
data_child – [in] If true, key and value will be added as a child to a “data” object. If false, key and value will be added as a child to the provided object.
- Return values:
-EINVAL – Invalid parameter.
-ENOENT – Object is not initialized.
-ENOMEM – Out of memory.
-ENOTSUP – Action not supported for the object’s type.
0 – Success; item added.
-
int nrf_cloud_obj_object_add(struct nrf_cloud_obj *const obj, const char *const key, struct nrf_cloud_obj *const obj_to_add, const bool data_child)
Add a key string and object to the provided object.
- Parameters:
obj – [out] Object to contain key and object.
key – [in] Key string; must be valid and constant for the life of the object.
obj_to_add – [in] Object.
data_child – [in] If true, key and value will be added as a child to a “data” object. If false, key and value will be added as a child to the provided object.
- Return values:
-EINVAL – Invalid parameter.
-ENOENT – Object is not initialized.
-ENOMEM – Out of memory.
-ENOTSUP – Action not supported for the object’s type.
0 – Success; item added.
-
int nrf_cloud_obj_int_array_add(struct nrf_cloud_obj *const obj, const char *const key, const uint32_t ints[], const uint32_t ints_cnt, const bool data_child)
Add a key string and integer array value to the provided object.
- Parameters:
obj – [out] Object to contain key and value.
key – [in] Key string; must be valid and constant for the life of the object.
ints – [in] Integer array.
ints_cnt – [in] Number of items in array.
data_child – [in] If true, key and value will be added as a child to a “data” object. If false, key and value will be added as a child to the provided object.
- Return values:
-EINVAL – Invalid parameter.
-ENOENT – Object is not initialized.
-ENOMEM – Out of memory.
-ENOTSUP – Action not supported for the object’s type.
0 – Success; item added.
-
int nrf_cloud_obj_str_array_add(struct nrf_cloud_obj *const obj, const char *const key, const char *const strs[], const uint32_t strs_cnt, const bool data_child)
Add a key string and string array value to the provided object.
- Parameters:
obj – [out] Object to contain key and value.
key – [in] Key string; must be valid and constant for the life of the object.
strs – [in] String array.
strs_cnt – [in] Number of items in array.
data_child – [in] If true, key and value will be added as a child to a “data” object. If false, key and value will be added as a child to the provided object.
- Return values:
-EINVAL – Invalid parameter.
-ENOENT – Object is not initialized.
-ENOMEM – Out of memory.
-ENOTSUP – Action not supported for the object’s type.
0 – Success; item added.
-
int nrf_cloud_obj_cloud_encode(struct nrf_cloud_obj *const obj)
Encode the object’s data for transport to nRF Cloud.
If successful, memory is allocated for the encoded data. The nrf_cloud_obj_cloud_encoded_free function should be called when finished with the object.
- Parameters:
obj – [out] Object to encode.
- Return values:
-EINVAL – Invalid parameter.
-ENOMEM – Out of memory.
-ENOTSUP – Action not supported for the object’s type.
0 – Success; object initialized.
-
int nrf_cloud_obj_cloud_encoded_free(struct nrf_cloud_obj *const obj)
Free the memory of the encoded data in the object.
Frees the memory allocated by nrf_cloud_obj_cloud_encode.
- Parameters:
obj – [out] Object.
- Return values:
-EINVAL – Invalid parameter.
-EACCES – Encoded data was not encoded by nrf_cloud_obj_cloud_encode.
-ENOTSUP – Action not supported for the object’s type.
0 – Success; memory freed.
-
int nrf_cloud_obj_gnss_msg_create(struct nrf_cloud_obj *const obj, const struct nrf_cloud_gnss_data *const gnss)
Create an nRF Cloud GNSS message object.
If successful, memory is allocated for the provided object. The nrf_cloud_obj_free function should be called when finished with the object.
- Parameters:
obj – [out] Uninitialzed object to contain the GNSS message.
gnss – [in] GNSS data.
- Return values:
-EINVAL – Invalid parameter.
-EBADF – Invalid object type.
-ENOTEMPTY – Object already initialized.
-ENOMEM – Out of memory.
-ENOSYS – Modem library (NRF_MODEM) not enabled.
-EFBIG – NMEA string too large, see NRF_MODEM_GNSS_NMEA_MAX_LEN.
-EPROTO – Unhandled GNSS type.
0 – Success; GNSS message created.
-
int nrf_cloud_obj_location_request_create(struct nrf_cloud_obj *const obj, const struct lte_lc_cells_info *const cells_inf, const struct wifi_scan_info *const wifi_inf, const bool request_loc)
Create an nRF Cloud Location request message object.
If successful, memory is allocated for the provided object. The nrf_cloud_obj_free function should be called when finished with the object.
- Parameters:
obj – [out] Uninitialzed object to contain the Location message.
cells_inf – [in] Cellular network data, can be NULL if wifi_inf is provided.
wifi_inf – [in] Wi-Fi network data, can be NULL if cells_inf is provided.
request_loc – [in] If true, nRF Cloud will send the location data to the device.
- Return values:
-EINVAL – Invalid parameter.
-EDOM – Too few Wi-Fi networks, see NRF_CLOUD_LOCATION_WIFI_AP_CNT_MIN.
-EBADF – Invalid object type.
-ENOTEMPTY – Object already initialized.
-ENOMEM – Out of memory.
0 – Success; GNSS message created.
-
int nrf_cloud_obj_pvt_add(struct nrf_cloud_obj *const obj, const struct nrf_cloud_gnss_pvt *const pvt)
Add PVT data to the provided object.
- Parameters:
obj – [out] Object to contain the PVT data.
pvt – [in] PVT data.
- Return values:
-EINVAL – Invalid parameter.
-EBADF – Invalid object type.
-ENOTSUP – Action not supported for the object’s type.
-ENOENT – Object is not initialized.
-ENOMEM – Out of memory.
0 – Success; PVT data added to object.
-
int nrf_cloud_obj_modem_pvt_add(struct nrf_cloud_obj *const obj, const struct nrf_modem_gnss_pvt_data_frame *const mdm_pvt)
Add modem PVT data to the provided object.
- Parameters:
obj – [out] Object to contain the modem PVT data.
mdm_pvt – [in] Modem PVT data.
- Return values:
-EINVAL – Invalid parameter.
-EBADF – Invalid object type.
-ENOTSUP – Action not supported for the object’s type.
-ENOENT – Object is not initialized.
-ENOMEM – Out of memory.
-ENOSYS – Modem library (NRF_MODEM) not enabled.
0 – Success; modem PVT data added to object.
-
int nrf_cloud_obj_pgps_request_create(struct nrf_cloud_obj *const obj, const struct gps_pgps_request *const request)
Create an nRF Cloud P-GPS request device message object.
If successful, memory is allocated for the provided object. The nrf_cloud_obj_free function should be called when finished with the object.
- Parameters:
obj – [out] Uninitialzed object to contain the P-GPS request message.
request – [in] P-GPS request data.
- Return values:
-EINVAL – Invalid parameter.
-EBADF – Invalid object type.
-ENOTEMPTY – Object already initialized.
-ENOMEM – Out of memory.
-ENOTSUP – Action not supported for the object’s type.
0 – Success; GNSS message created.
-
int nrf_cloud_gnss_msg_json_encode(const struct nrf_cloud_gnss_data *const gnss, cJSON *const gnss_msg_obj)
Create an nRF Cloud GNSS device message using the provided GNSS data.
- Parameters:
gnss – [in] Service info to add.
gnss_msg_obj – [inout] cJSON object to which the GNSS message will be added.
- Return values:
0 – If successful.
- Returns:
A negative value indicates an error.
-
int nrf_cloud_service_info_json_encode(const struct nrf_cloud_svc_info *const svc_inf, cJSON *const svc_inf_obj)
Add service info into the provided cJSON object.
- Parameters:
svc_inf – [in] Service info to add.
svc_inf_obj – [inout] cJSON object to which the service info will be added.
- Return values:
0 – If successful.
- Returns:
A negative value indicates an error.
-
int nrf_cloud_modem_info_json_encode(const struct nrf_cloud_modem_info *const mod_inf, cJSON *const mod_inf_obj)
Add modem info into the provided cJSON object.
Note
To add modem info, CONFIG_MODEM_INFO must be enabled.
- Parameters:
mod_inf – [in] Modem info to add.
mod_inf_obj – [inout] cJSON object to which the modem info will be added.
- Return values:
0 – If successful.
- Returns:
A negative value indicates an error.
-
int nrf_cloud_error_msg_decode(const char *const buf, const char *const app_id, const char *const msg_type, enum nrf_cloud_error *const err)
Check for a JSON error message in the data received from nRF Cloud over MQTT.
- Parameters:
buf – [in] Data received from nRF Cloud.
app_id – [in] appId value to check for. Set to NULL to skip appID check.
msg_type – [in] messageType value to check for. Set to NULL to skip messageType check.
err – [out] Error code found in message.
- Return values:
0 – Error code found (and matched app_id and msg_type if provided).
-ENOENT – Error code found, but did not match specified the app_id and msg_type.
-ENOMSG – No error code found.
-EBADMSG – Invalid error code data format.
-ENODATA – JSON data was not found.
- Returns:
A negative value indicates an error.
-
int nrf_cloud_shadow_delta_response_encode(cJSON *input_obj, bool accept, struct nrf_cloud_data *const output)
Encode the response to the shadow delta update.
A delta update occurs when the shadow’s “desired” and “reported” sections do not match. The JSON for a delta update contains the actual delta data in a “state” object, along with some additional information. Example: {“version”:123,”timestamp”:1695404679, “state”:{“myData”:{“myValue”:1}}, …}
The application must inspect the delta and either accept or reject the changes.
If accepting, the delta should be passed unmodified into this function as the input_obj parameter, with the accept flag set to true. Example input_obj: “myData”:{“myValue”:1}
If rejecting, the delta should be modified with the correct data and passed into this function as the input_obj parameter, with the accept flag set to false. Example input_obj: “myData”:{“myValue”:3}
A value can be removed from the shadow by setting it to null. Example input_obj: “myData”:{“myValue”:null} The output parameter can then be sent to nRF Cloud using nrf_cloud_coap_shadow_state_update() when using CoAP or nrf_cloud_send() when using MQTT.
- Parameters:
input_obj – [in] Shadow fragment to encode for sending.
accept – [in] Flag to indicate whether to accept (place in reported section) or reject (place in desired section).
output – [out] Pointer to and length of a buffer containing the JSON-formatted text to send.
-
struct nrf_cloud_obj_coap_cbor
- #include <nrf_cloud_codec.h>
Object to support nRF Cloud CoAP CBOR messages.
Public Members
-
enum nrf_cloud_data_type type
type indicates which one of the fields in the union is valid.
-
enum nrf_cloud_data_type type
-
struct nrf_cloud_obj
- #include <nrf_cloud_codec.h>
Object used for building nRF Cloud messages.
Public Members
-
enum nrf_cloud_enc_src enc_src
Source of encoded data
-
struct nrf_cloud_data encoded_data
Encoded data
-
enum nrf_cloud_enc_src enc_src
-
NRF_CLOUD_OBJ_JSON_DEFINE(_name)
nRF Cloud common definitions
include/net/nrf_cloud_defs.h
- group nrf_cloud_defs
Defines
-
NRF_CLOUD_JSON_APPID_KEY
-
NRF_CLOUD_JSON_APPID_VAL_AGPS
-
NRF_CLOUD_JSON_APPID_VAL_PGPS
-
NRF_CLOUD_JSON_APPID_VAL_GNSS
-
NRF_CLOUD_JSON_APPID_VAL_LOCATION
-
NRF_CLOUD_JSON_APPID_VAL_DEVICE
-
NRF_CLOUD_JSON_APPID_VAL_FLIP
-
NRF_CLOUD_JSON_APPID_VAL_BTN
-
NRF_CLOUD_JSON_APPID_VAL_TEMP
-
NRF_CLOUD_JSON_APPID_VAL_HUMID
-
NRF_CLOUD_JSON_APPID_VAL_AIR_PRESS
-
NRF_CLOUD_JSON_APPID_VAL_AIR_QUAL
-
NRF_CLOUD_JSON_APPID_VAL_RSRP
-
NRF_CLOUD_JSON_APPID_VAL_LIGHT
-
NRF_CLOUD_JSON_APPID_VAL_MODEM
-
NRF_CLOUD_JSON_APPID_VAL_ALERT
-
NRF_CLOUD_JSON_APPID_VAL_LOG
-
NRF_CLOUD_JSON_APPID_VAL_DICTIONARY_LOG
-
NRF_CLOUD_JSON_MSG_TYPE_KEY
-
NRF_CLOUD_JSON_MSG_TYPE_VAL_CMD
-
NRF_CLOUD_JSON_MSG_TYPE_VAL_DATA
-
NRF_CLOUD_JSON_MSG_TYPE_VAL_DISCONNECT
-
NRF_CLOUD_JSON_DATA_KEY
-
NRF_CLOUD_JSON_ERR_KEY
-
NRF_CLOUD_JSON_FULFILL_KEY
-
NRF_CLOUD_JSON_FILTERED_KEY
-
NRF_CLOUD_MSG_TIMESTAMP_KEY
-
NRF_CLOUD_JSON_MCC_KEY
-
NRF_CLOUD_JSON_MNC_KEY
-
NRF_CLOUD_JSON_AREA_CODE_KEY
-
NRF_CLOUD_JSON_CELL_ID_KEY
-
NRF_CLOUD_JSON_PHYCID_KEY
-
NRF_CLOUD_JSON_RSRP_KEY
-
NRF_CLOUD_CELL_POS_JSON_KEY_LTE
-
NRF_CLOUD_CELL_POS_JSON_KEY_ECI
-
NRF_CLOUD_CELL_POS_JSON_KEY_MCC
-
NRF_CLOUD_CELL_POS_JSON_KEY_MNC
-
NRF_CLOUD_CELL_POS_JSON_KEY_TAC
-
NRF_CLOUD_CELL_POS_JSON_KEY_AGE
-
NRF_CLOUD_CELL_POS_JSON_KEY_T_ADV
-
NRF_CLOUD_CELL_POS_JSON_KEY_EARFCN
-
NRF_CLOUD_CELL_POS_JSON_KEY_PCI
-
NRF_CLOUD_CELL_POS_JSON_KEY_NBORS
-
NRF_CLOUD_CELL_POS_JSON_KEY_RSRP
-
NRF_CLOUD_CELL_POS_JSON_KEY_RSRQ
-
NRF_CLOUD_CELL_POS_JSON_KEY_TDIFF
-
NRF_CLOUD_LOCATION_KEY_DOREPLY
-
NRF_CLOUD_LOCATION_JSON_KEY_WIFI
-
NRF_CLOUD_LOCATION_JSON_KEY_APS
-
NRF_CLOUD_LOCATION_JSON_KEY_WIFI_MAC
-
NRF_CLOUD_LOCATION_JSON_KEY_WIFI_CH
-
NRF_CLOUD_LOCATION_JSON_KEY_WIFI_RSSI
-
NRF_CLOUD_LOCATION_JSON_KEY_WIFI_SSID
-
NRF_CLOUD_LOCATION_JSON_KEY_LAT
-
NRF_CLOUD_LOCATION_JSON_KEY_LON
-
NRF_CLOUD_LOCATION_JSON_KEY_UNCERT
-
NRF_CLOUD_LOCATION_TYPE_VAL_MCELL
-
NRF_CLOUD_LOCATION_TYPE_VAL_SCELL
-
NRF_CLOUD_LOCATION_TYPE_VAL_WIFI
-
NRF_CLOUD_JSON_PGPS_PRED_COUNT
-
NRF_CLOUD_JSON_PGPS_INT_MIN
-
NRF_CLOUD_JSON_PGPS_GPS_DAY
-
NRF_CLOUD_JSON_PGPS_GPS_TIME
-
NRF_CLOUD_PGPS_RCV_ARRAY_IDX_HOST
-
NRF_CLOUD_PGPS_RCV_ARRAY_IDX_PATH
-
NRF_CLOUD_PGPS_RCV_REST_HOST
-
NRF_CLOUD_PGPS_RCV_REST_PATH
-
NRF_CLOUD_JSON_KEY_ELEVATION_MASK
-
NRF_CLOUD_JSON_KEY_AGPS_TYPES
-
NRF_CLOUD_FOTA_TYPE_MODEM_DELTA
-
NRF_CLOUD_FOTA_TYPE_MODEM_FULL
-
NRF_CLOUD_FOTA_TYPE_BOOT
-
NRF_CLOUD_FOTA_TYPE_APP
-
NRF_CLOUD_FOTA_REST_KEY_JOB_DOC
-
NRF_CLOUD_FOTA_REST_KEY_JOB_ID
-
NRF_CLOUD_FOTA_REST_KEY_PATH
-
NRF_CLOUD_FOTA_REST_KEY_HOST
-
NRF_CLOUD_FOTA_REST_KEY_TYPE
-
NRF_CLOUD_FOTA_REST_KEY_SIZE
-
NRF_CLOUD_FOTA_REST_KEY_VER
-
NRF_CLOUD_FOTA_VER
Current FOTA version number
-
NRF_CLOUD_REST_ERROR_CODE_KEY
-
NRF_CLOUD_REST_ERROR_MSG_KEY
-
NRF_CLOUD_REST_TOPIC_KEY
-
NRF_CLOUD_REST_MSG_KEY
-
NRF_CLOUD_JSON_GNSS_PVT_KEY_LAT
-
NRF_CLOUD_JSON_GNSS_PVT_KEY_LON
-
NRF_CLOUD_JSON_GNSS_PVT_KEY_ACCURACY
-
NRF_CLOUD_JSON_GNSS_PVT_KEY_ALTITUDE
-
NRF_CLOUD_JSON_GNSS_PVT_KEY_SPEED
-
NRF_CLOUD_JSON_GNSS_PVT_KEY_HEADING
-
NRF_CLOUD_DEVICE_JSON_KEY_NET_INF
-
NRF_CLOUD_DEVICE_JSON_KEY_SIM_INF
-
NRF_CLOUD_DEVICE_JSON_KEY_DEV_INF
-
NRF_CLOUD_JSON_ALERT_SEQUENCE
-
NRF_CLOUD_JSON_ALERT_DESCRIPTION
-
NRF_CLOUD_JSON_ALERT_TYPE
-
NRF_CLOUD_JSON_ALERT_VALUE
-
NRF_CLOUD_JSON_LOG_KEY_SEQUENCE
-
NRF_CLOUD_JSON_LOG_KEY_DOMAIN
-
NRF_CLOUD_JSON_LOG_KEY_SOURCE
-
NRF_CLOUD_JSON_LOG_KEY_LEVEL
-
NRF_CLOUD_JSON_LOG_KEY_MESSAGE
-
NRF_CLOUD_SETTINGS_NAME
nRF Cloud’s string identifier for persistent settings
-
NRF_CLOUD_SETTINGS_FOTA_KEY
-
NRF_CLOUD_SETTINGS_FOTA_JOB
-
NRF_CLOUD_SETTINGS_FULL_FOTA
String used when defining a settings handler for FOTA
-
NRF_CLOUD_SETTINGS_FULL_FOTA_JOB
String used when saving FOTA job info to settings
-
NRF_CLOUD_JSON_KEY_STATE
-
NRF_CLOUD_JSON_KEY_REP
-
NRF_CLOUD_JSON_KEY_DES
-
NRF_CLOUD_JSON_KEY_DELTA
-
NRF_CLOUD_JSON_KEY_DEVICE
-
NRF_CLOUD_JSON_KEY_SRVC_INFO
-
NRF_CLOUD_JSON_KEY_SRVC_INFO_UI
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NRF_CLOUD_JSON_KEY_SRVC_INFO_FOTA
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NRF_CLOUD_JSON_KEY_CFG
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NRF_CLOUD_JSON_KEY_CTRL
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NRF_CLOUD_JSON_KEY_ALERT
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NRF_CLOUD_JSON_KEY_LOG
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NRF_CLOUD_JSON_KEY_TOPICS
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NRF_CLOUD_JSON_KEY_STAGE
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NRF_CLOUD_JSON_KEY_PAIRING
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NRF_CLOUD_JSON_KEY_PAIR_STAT
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NRF_CLOUD_JSON_KEY_TOPIC_PRFX
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NRF_CLOUD_JSON_KEY_KEEPALIVE
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NRF_CLOUD_JSON_KEY_CONN
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NRF_CLOUD_JSON_KEY_APP_VER
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NRF_CLOUD_JSON_KEY_CONN_INFO
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NRF_CLOUD_JSON_KEY_PROTOCOL
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NRF_CLOUD_JSON_KEY_METHOD
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NRF_CLOUD_JSON_VAL_NOT_ASSOC
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NRF_CLOUD_JSON_VAL_PAIRED
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NRF_CLOUD_FOTA_VER_STR
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NRF_CLOUD_STAGE_ID_MAX_LEN
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NRF_CLOUD_TENANT_ID_MAX_LEN
Max length of a tenant ID on nRF Cloud
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NRF_CLOUD_CLIENT_ID_MAX_LEN
Max length of a device’s MQTT client ID (device ID) on nRF Cloud
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NRF_CLOUD_JSON_KEY_DEVICE_TO_CLOUD
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NRF_CLOUD_JSON_KEY_CLOUD_TO_DEVICE
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NRF_CLOUD_BULK_MSG_TOPIC
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NRF_CLOUD_JSON_VAL_TOPIC_C2D
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NRF_CLOUD_JSON_VAL_TOPIC_AGPS
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NRF_CLOUD_JSON_VAL_TOPIC_PGPS
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NRF_CLOUD_JSON_VAL_TOPIC_GND_FIX
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NRF_CLOUD_JSON_VAL_TOPIC_RCV
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NRF_CLOUD_JSON_VAL_TOPIC_WILDCARD
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NRF_CLOUD_JSON_VAL_TOPIC_BIN
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NRF_CLOUD_JSON_VAL_PROTO_MQTT
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NRF_CLOUD_JSON_VAL_PROTO_COAP
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NRF_CLOUD_JSON_VAL_PROTO_REST
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NRF_CLOUD_JSON_VAL_METHOD_LTE
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NRF_CLOUD_JSON_VAL_METHOD_WIFI
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NRF_CLOUD_JSON_APPID_KEY