/Firebase-ESP-Client

Firebase Arduino Client Library for ESP8266 and ESP32. The unified version of Firebase-ESP8266 and Firebase-ESP32 Realtime database libraries with Cloud Firestore, Firebase and Google Cloud Storage, Cloud messaging and Cloud Functions supports.

Primary LanguageC++

Firebase Arduino Client Library for ESP8266 and ESP32

Google's Firebase Arduino Client Library for ESP8266 and ESP32 v 2.0.2

This library supports ESP8266 and ESP32 MCU from Espressif. The following are platforms in which the libraries are also available (RTDB only).

Tested Devices

  • Wemos D1 Mini
  • NodeMCU (ESP8266)
  • ESP-12F
  • LinkNode (ESP8266)
  • Sparkfun ESP32 Thing
  • NodeMCU-32
  • WEMOS LOLIN32
  • TTGO T8 V1.8

Unsupported AT command and Mobile Network modem Bridge

The library access to the Firebase server through the WiFi for the internet connection. The others UART/Serial mobile network modem bridge connection and AT commands were not supported.

Features

  • Supports Realtime database.

  • Supports Firebase Cloud Firestore (REST APIs).

  • Supports Firebase Storage.

  • Supports Google Cloud Storage.

  • Supports Firebase Cloud Messaging

  • Supports Google Cloud Functions

  • Supports Email/Password, custom and access token authentications using Service Account

  • Built-in easiest and non-recursive JSON parser and builder.

Dependencies

This library required ESP8266 or ESP32 Core SDK.

For Arduino IDE, ESP8266 Core SDK can be installed through Boards Manager.

For PlatfoemIO IDE, ESP8266 Core SDK can be installed through PIO Home > Platforms > Espressif 8266 or Espressif 32.

Migrate from Firebase-ESP8266 or Firebase-ESP32 to Firebase-ESP-Client

All function for Realtime database between these libraries are compattible. See this guide for migrating.

Installation

Using Library Manager

At Arduino IDE, go to menu Sketch -> Include Library -> Manage Libraries...

In Library Manager Window, search "firebase" in the search form then select "Firebase ESP Client".

Click "Install" button.

For PlatformIO IDE, using the following command.

pio lib install "Firebase ESP Client""

Or at PIO Home -> Library -> Registry then search Firebase ESP Client.

Manual installation

For Arduino IDE, download zip file from the repository (Github page) by select Clone or download dropdown at the top of repository, select Download ZIP

From Arduino IDE, select menu Sketch -> Include Library -> Add .ZIP Library....

Choose Firebase-ESP8266-master.zip that previously downloaded.

Go to menu Files -> Examples -> Firebase-ESP-Client-master and choose one from examples.

Usages

See this for complete usages.

See this for all functions details.

Initialization

//Include WiFi library
#include <FirebaseESP8266.h>
#if defined(ESP32)
#include <WiFi.h>
#elif defined(ESP8266)
#include <ESP8266WiFi.h>
#endif

//Include Firebase library (this library)
#include <Firebase_ESP_Client.h>

//Define the Firebase Data object
FirebaseData fbdo;

//Define the FirebaseAuth data for authentication data
FirebaseAuth auth;

// Define the FirebaseConfig data for config data
FirebaseConfig config;

//Assign the project host and api key 
config.host = FIREBASE_HOST;

config.api_key = API_KEY;

//Assign the user sign in credentials
auth.user.email = USER_EMAIL;
auth.user.password = USER_PASSWORD;

//Initialize the library with the Firebase authen and config.
Firebase.begin(&config, &auth);

//Optional, set AP reconnection in setup()
Firebase.reconnectWiFi(true);

//Optional, set number of error retry
Firebase.RTDB.setMaxRetry(&fbdo, 3);

//Optional, set number of error resumable queues
Firebase.RTDB.setMaxErrorQueue(&fbdo, 30);

//Optional, use classic HTTP GET and POST requests.
//This option allows get and delete functions (PUT and DELETE HTTP requests) works for
//device connected behind the Firewall that allows only GET and POST requests.
Firebase.RTDB.enableClassicRequest(&fbdo, true);

#if defined(ESP8266)
//Optional, set the size of BearSSL WiFi to receive and transmit buffers
//Firebase may not support the data transfer fragmentation, you may need to reserve the buffer to match
//the data to transport.
fbdo.setBSSLBufferSize(1024, 1024); //minimum size is 512 bytes, maximum size is 16384 bytes
#endif


//Optional, set the size of HTTP response buffer
//Prevent out of memory for large payload but data may be truncated and can't determine its type.
fbdo.setResponseSize(1024); //minimum size is 1024 bytes

Authentication

This library supports many authentication methods.

See Other authentication examples for more authentication methods.

Some authentication methods need the token generaion and exchanging process which take more time than using the legacy token.

The authentication with custom and OAuth2.0 tokens take the time in overall process included NTP time acquisition, JWT token generation and signing, more than 10 seconds in ESP8266 and 1 or 2 seconds in ESP32.

While using Email and password sign-in which use in the id token generation process takes minimum time.

The time for legacy token generation is zero as it was taken from database secret (FIREBASE_AUTH in the example).

The data transmission time depends on the SSL/TLS handshaking, the size of http request header/payload and response header/payload.

The time used in data transmission also depend on the size of token (string) which is the part of request header.

The legacy token size is smallest, approx 40 bytes, the lowest data trasmission time (averaged 200 - 400 ms for 1 byte of payload).

The id token using sign-in Email and password has approx 900 bytes in its size, the maximum data trasmission time (averaged 400 - 500 ms for 1 byte of payload).

The SSL/TLS handshake process may take 1-2 seconds to complete. The http session will be reused when you dont share a Firebase Data object usage among with the normal Firebase calls i.e. set, get, push, update and delete with other stream, messaging and storage operations.

The system time setting is required when you use the custom and OAuth2.0 tokens or when you provide the certificate for secured transmission, and it used the time for acquiring the NTP server time data.

To use Email/Password sign-in authentication as in the examples, the Email/Password Sign-in provider must be enabled.

Enable Email/Password Sign-in provider

To get API Key used in Email/Password sign-in

API Key

To get the Service accounts key JSON file used in Custom and OAuth2.0 tokens athentications.

Service Account Key File

The Firebase Host and database secret for RTDB usages.

Firebase Host

Firebase Auth

Realtime Database

See RTDB examples for complete usages.

Read Data

Data at a specific node in Firebase RTDB can be read through these get functions.

The functions included get, getInt, getFloat, getDouble, getBool, getString, getJSON, getArray, getBlob, getFile.

These functions return boolean value indicates the success of the operation which will be true if all of the following conditions were met.

  • Server returns HTTP status code 200

  • The data types matched between request and response.

The database data's payload (response) can be read or access through the following Firebase Data object's functions.

  • fbdo.intData

  • fbdo.floatData

  • fbdo.doubleData

  • fbdo.boolData

  • fbdo.stringData

  • fbdo.jsonString

  • fbdo.jsonObject

  • fbdo.jsonObjectPtr

  • fbdo.jsonArray

  • fbdo.jsonArrayPtr

  • fbdo.jsonData (for keeping parse/get result)

and

  • fbdo.blobData

Read the data which its type does not match the data type in the database from above functions will return empty (string, object or array).

The data type of returning payload can be determined by fbdo.getDataType.

BLOB and file stream data are store as special base64 encoded string which only supported and implemented by this library.

The encoded base64 string will be prefixed with some header string ("file,base64," and "blob,base64,") for data type manipulation.

The following example showed how to read integer value from node "/test/int".

  if (Firebase.RTDB.getInt(&fbdo, "/test/int")) {

    if (fbdo.dataType() == "int") {
      Serial.println(fbdo.intData());
    }

  } else {
    Serial.println(fbdo.errorReason());
  }

Store Data

To store data at a specific node in Firebase RTDB, use these set functions.

The function included set, setInt, setFloat, setDouble, setBool, setString, setJSON, setArray, setBlob and setFile.

The above functions return boolean value indicates the success of the operation which will be true if all of the following conditions matched.

  • Server returns HTTP status code 200

  • The data types matched between request and response.

Only setBlob and setFile functions that make a silent request to Firebase server, thus no payload response returned.

The priority, virtual node ".priority" of each database node can be set through Firebase's set functions.

The priority value can be used in a query or filtering the children's data under a defined node.

ETag (unique identifier value) assigned to Firebase's set functions is used as conditional checking.

If defined Etag is not matched the defined path's ETag, the set operation will fail with result 412 Precondition Failed.

ETag at any node can be read through Firebase.RTDB.getETag. ETag value changed upon the data was set or delete.

The server's Timestamp can be stored in the database through Firebase.RTDB.setTimestamp.

The returned Timestamp value can get from fbdo.intData().

To use LittleFS file system for flash memory instead of SPIFFS (for ESP8266 at this time), add the following macro in FirebaseFS.h

#define USE_LITTLEFS

The following example showed how to store file data to flash memory at node "/test/file_data".

if (Firebase.RTDB.getFile(&fbdo, mem_storage_type_flash, "/test/file_data", "/test.txt"))
{
  //To use LittleFS file system, add #define USE_LITTLEFS in FirebaseFS.h
  File file = FLASH_FS.open("/test.txt", "r");

  while (file.available())
  {     
    Serial.print(file.read(), HEX);     
  }    
  file.close();
  Serial.println();

} else {
  Serial.println(fbdo.fileTransferError());
}

Append Data

To append new data to a specific node in Firebase RTDB, use these push functions.

The function included push, pushInt, pushFloat, pushDouble, pushBool, pushString, pushJSON, pushArray, pushBlob, and pushFile.

These functions return boolean value indicates the success of the operation.

The unique key of a new appended node can be determined from fbdo.pushName.

As get functions, the Firebase's push functions support priority.

ETag was not available after push unless read the ETag at that new appended unique key later with Firebase.RTDB.getETag.

The server's Timestamp can be appended in the database through Firebase.RTDB.pushTimestamp.

The unique key of Timestamp can be determined after Timestamp was appended.

The following example showed how to append new data (using FirebaseJson object) to node "/test/append.

FirebaseJson json;
FirebaseJson json2;

json2.set("child_of_002", 123.456);
json.set("parent_001", "parent 001 text");
json.set("parent 002", json2);

if (Firebase.RTDB.pushJSON(&fbdo, "/test/append", &json)) {

  Serial.println(fbdo.dataPath());

  Serial.println(fbdo.pushName());

  Serial.println(fbdo.dataPath() + "/"+ fbdo.pushName());

} else {
  Serial.println(fbdo.errorReason());
}

Patch Data

Firebase's update functions used to patch or update new or existing data at the defined node.

These functions, updateNode and updateNodeSilent are available and work with JSON object (FirebaseJson object only)

If any key provided at a defined node in JSON object has not existed, a new key will be created.

The server returns JSON data payload which was successfully patched.

Return of large JSON payload will cost the network data, alternative function updateNodeSilent should be used to save the network data.

The following example showed how to patch data at "/test".

FirebaseJson updateData;
FirebaseJson json;
json.set("_data2","_value2");
updateData.set("data1","value1");
updateData.set("data2", json);

if (Firebase.RTDB.updateNode(&fbdo, "/test/update", &updateData)) {

  Serial.println(fbdo.dataPath());

  Serial.println(fbdo.dataType());

  Serial.println(fbdo.jsonString()); 

} else {
  Serial.println(fbdo.errorReason());
}

Delete Data

The following example showed how to delete data and its children at node "/test/append"

Firebase.RTDB.deleteNode(&fbdo, "/test/append");

Filtering Data

To filter or query the data, the following query parameters are available through the QueryFilter class.

These parameters are orderBy, limitToFirst, limitToLast, startAt, endAt, and equalTo.

To filter data, parameter orderBy should be assigned.

Use "$key" as the orderBy parameter if the key of child nodes was used for the query.

Use "$value" as the orderBy parameter if the value of child nodes was used for the query.

Use key (or full path) of child nodes as the orderBy parameter if all values of the specific key were used for the query.

Use "$priority" as orderBy parameter if child nodes's "priority" was used for query.

The above orderBy parameter can be combined with the following parameters for limited and ranged the queries.

QueryFilter.limitToFirst - The total children (number) to filter from the first child.

QueryFilter.limitToLast - The total last children (number) to filter.

QueryFilter.startAt - Starting value of range (number or string) of query upon orderBy param.

QueryFilter.endAt - Ending value of range (number or string) of query upon orderBy param.

QueryFilter.equalTo - Value (number or string) matches the orderBy param

The following example showed how to use queries parameter in QueryFilter class to filter the data at node "/test/data"

//Assume that children that have key "sensor" are under "/test/data"

//Instantiate the QueryFilter class
QueryFilter query;

//Build query using specified child node key "sensor" under "/test/data"
query.orderBy("sensor");

//Query any child that its value begins with 2 (number), assumed that its data type is float or integer
query.startAt(2);

//Query any child that its value ends with 8 (number), assumed that its data type is float or integer
query.endAt(8);

//Limit the maximum query result to return only the last 5 nodes
query.limitToLast(5);


if (Firebase.getJSON(fbdo, "/test/data", &query))
{
  //Success, then try to read the JSON payload value
  Serial.println(fbdo.jsonString());
}
else
{
  //Failed to get JSON data at defined node, print out the error reason
  Serial.println(fbdo.errorReason());
}

//Clear all query parameters
query.clear();

Stream Data

This library uses HTTP GET request with stream header to connect the stream.

The Firebase's functions that involved the stream operation are beginStream, beginMultiPathStream, setStreamCallback, setMultiPathStreamCallback and/or readStream.

Function beginStream is to subscribe to the stream changes at a defined node.

Function beginMultiPathStream is to subscribe to the stream changes at a defined parent node path with multiple child nodes value parsing and works with setMultiPathStreamCallback.

Function setStreamCallback is to assign the callback function that accept the FirebaseStream class as parameter.

Function setMultiPathStreamCallback is to assign the callback function that accept the MultiPathStream class as parameter.

The FirebaseStream contains stream event and data and interface function calls are similar to Firebase Data object.

The MultiPathStream contains stream event and data for various child nodes.

To check the stream manually, use readStream.

Function readStream used in the loop() task to continuously read the stream changes event and data.

After readStream, determine the availability of stream with Firebase Data object function fbdo.streamAvailable

Function fbdo.streamAvailable returned true when new stream data was available.

When new stream data was available, its data and event can be accessed from Firebase Data object functions.

  • fbdo.intData

  • fbdo.floatData

  • fbdo.doubleData

  • fbdo.boolData

  • fbdo.stringData

  • fbdo.blobData

  • fbdo.fileStream

  • fbdo.jsonString

  • fbdo.jsonObject

  • fbdo.jsonObjectPtr

  • fbdo.jsonArray

  • fbdo.jsonArrayPtr

and

  • fbdo.jsonData (for keeping parse/get payload)

  • fbdo.jsonDataPtr (for keeping parse/get payload)

Function endStream ends the stream operation.

Note that, when using the shared Firebase Data object for stream and other usages i.e. normal operation to read and store data, the stream will be interrupted to use in other tassks, the stream will be resumed (reconnection) after that normal usage was finished.

For the above case, you need to provide the free time for stream to listen to the server event data. The changes on the server at the streaming node path during the stream interruption will be missed.

To avoid this sitation, don't share the usagge of stream's Firebase Data object, use other Firebase Data object instead.

In addition, delay function used in the same loop block of readStream() will interrupt the stream operation, the server data changes may be missed.

More use of Firebase Data object at the same scope i.e more than 2 can lead to out of memory error as the most memory used in Firebase Data object is due to SSL client.

The following example showed how to subscribe to the stream changes at node "/test/data" with a callback function.

//In setup(), set the stream callback function to handle data
//streamCallback is the function that called when database data changes or updates occurred
//streamTimeoutCallback is the function that called when the connection between the server 
//and client was timeout during HTTP stream

Firebase.RTDB.setStreamCallback(&fbdo, streamCallback, streamTimeoutCallback);

//In setup(), set the streaming path to "/test/data" and begin stream connection

if (!Firebase.RTDB.beginStream(&fbdo, "/test/data"))
{
  //Could not begin stream connection, then print out the error detail
  Serial.println(fbdo.errorReason());
}

  
  //Global function that handles stream data
void streamCallback(FirebaseStream data)
{

  //Print out all information

  Serial.println("Stream Data...");
  Serial.println(data.streamPath());
  Serial.println(data.dataPath());
  Serial.println(data.dataType());

  //Print out the value
  //Stream data can be many types which can be determined from function dataType

  if (data.dataType() == "int")
    Serial.println(data.intData());
  else if (data.dataType() == "float")
    Serial.println(data.floatData(), 5);
  else if (data.dataType() == "double")
    printf("%.9lf\n", data.doubleData());
  else if (data.dataType() == "boolean")
    Serial.println(data.boolData() == 1 ? "true" : "false");
  else if (data.dataType() == "string")
    Serial.println(data.stringData());
  else if (data.dataType() == "json")
    Serial.println(data.jsonString());

}

//Global function that notifies when stream connection lost
//The library will resume the stream connection automatically
void streamTimeoutCallback(bool timeout)
{
  if(timeout){
    //Stream timeout occurred
    Serial.println("Stream timeout, resume streaming...");
  }  
}

For multiple paths stream, see the MultiPath_stream example.

The following example showed how to subscribe to the stream changes at "/test/data" and read the stream manually.

//In setup(), set the streaming path to "/test/data" and begin stream connection
if (!Firebase.RTDB.beginStream(&fbdo, "/test/data"))
{
  Serial.println(fbdo.errorReason());
}

//In loop()
if (!Firebase.RTDB.readStream(&fbdo))
{
  Serial.println(fbdo.errorReason());
}

if (fbdo.streamTimeout())
{
  Serial.println("Stream timeout, resume streaming...");
  Serial.println();
}

if (fbdo.streamAvailable())
{

  if (fbdo.dataType() == "int")
    Serial.println(fbdo.intData());
  else if (fbdo.dataType() == "float")
    Serial.println(fbdo.floatData(), 5);
  else if (fbdo.dataType() == "double")
    printf("%.9lf\n", fbdo.doubleData());
  else if (fbdo.dataType() == "boolean")
    Serial.println(fbdo.boolData() == 1 ? "true" : "false");
  else if (fbdo.dataType() == "string")
    Serial.println(fbdo.stringData());
  else if (fbdo.dataType() == "json")
    Serial.println(fbdo.jsonString());
    
}

Backup and Restore Data

This library allows you to backup and restores the database at the defined path.

The backup file will store in SD card or flash memory (SPIFFS or LittleFS file systems).

To use LittleFS file system for flash memory instead of SPIFFS (for ESP8266 only at this time), add the following macro in FirebaseFS.h

#define USE_LITTLEFS

Due to SD library used, only 8.3 DOS format file name supported.

The maximum 8 characters for a file name and 3 characters for file extension.

The database restoration returned completed status only when Firebase server successfully updates the data.

Any failed operation will not affect the database (no updates or changes).

The following example showed how to backup all database data at "/" and restore.

 String backupFileName = "";

 if (!Firebase.RTDB.backup(&fbdo, mem_storage_type_sd, "/", "/backup.txt"))
 {
   Serial.println(fbdo.errorReason());
 }
 else
 {
   Serial.println(fbdo.getBackupFilename());
   Serial.println(fbdo.getBackupFileSize());
   backupFileName = fbdo.getBackupFilename();
  }


  //Begin restore backed dup data back to database
  if (!Firebase.RTDB.restore(&fbdo, mem_storage_type_sd, "/", backupFileName.c_str()))
  {
    Serial.println(fbdo.errorReason());
  }
  else
  {
    Serial.println(fbdo.getBackupFilename());
  }

Database Error Handling

When read store, append and update operations were failed due to buffer overflow and network problems.

These operations can retry and queued after the retry amount was reached maximum retry set in function setMaxRetry.

//set maximum retry amount to 3
 Firebase.RTDB.setMaxRetry(&fbdo, 3);

The function setMaxErrorQueue limits the maximum queues in Error Queue collection.

The full of queue collection can be checked through function isErrorQueueFull.

 //set maximum queues to 10
 Firebase.RTDB.setMaxErrorQueue(&fbdo, 10);

 //determine whether Error Queue collection is full or not
 Firebase.RTDB.isErrorQueueFull(&fbdo);

This library provides two approaches to run or process Error Queues with two functions.

  • beginAutoRunErrorQueue
  • processErrorQueue

The function beginAutoRunErrorQueue will run or process queues automatically and can be called once.

While function processErrorQueue will run or process queues and should call inside the loop().

With function beginAutoRunErrorQueue, you can assigned callback function that accept QueueInfo object as parameter.

Which contains all information about being processed queue, number of remaining queues and Error Queue collection status.

Otherwise, Error Queues can be tracked manually with the following functions.

Function getErrorQueueID will return the unsigned integer presents the id of the queue which will keep using later.

Use getErrorQueueID and isErrorQueueExisted to check whether this queue id is still existed or not.

If Error Queue ID does not exist in Error Queues collection, that queue is already done.

The following example showed how to run Error Queues automatically and track the status with the callback function.

//In setup()

//Set the maximum Firebase Error Queues in collection (0 - 255).
//Firebase read/store operation causes by network problems and buffer overflow will be 
//added to Firebase Error Queues collection.
Firebase.RTDB.setMaxErrorQueue(&fbdo, 10);

//Begin to run Error Queues in Error Queue collection  
Firebase.RTDB.beginAutoRunErrorQueue(&fbdo, callback);


//Use to stop the auto run queues
//Firebase.endAutoRunErrorQueue(fbdo);

void errorQueueCallback (QueueInfo queueinfo){

  if (queueinfo.isQueueFull())
  {
    Serial.println("Queue is full");
  }

  Serial.print("Remaining queues: ");
  Serial.println(queueinfo.totalQueues());

  Serial.print("Being processed queue ID: ");
  Serial.println(queueinfo.currentQueueID());  

  Serial.print("Data type:");
  Serial.println(queueinfo.dataType()); 

  Serial.print("Method: ");
  Serial.println(queueinfo.method());

  Serial.print("Path: ");
  Serial.println(queueinfo.path());

  Serial.println();
}

The following example showed how to run Error Queues and track its status manually.

//In setup()

//Set the maximum Firebase Error Queues in collection (0 - 255).
//Firebase read/store operation causes by network problems and buffer overflow will be added to 
//Firebase Error Queues collection.
Firebase.RTDB.setMaxErrorQueue(&fbdo, 10);


//All of the following are in loop()

Firebase.RTDB.processErrorQueue(&fbdo);

//Detrnine the queue status
if (Firebase.RTDB.isErrorQueueFull(&fbdo))
{
  Serial.println("Queue is full");
}

//Remaining Error Queues in Error Queue collection
Serial.print("Remaining queues: ");
Serial.println(Firebase.RTDB.errorQueueCount(&fbdo));

//Assumed that queueID is unsigned integer array of queue that added to Error Queue collection 
//when error and use Firebase.getErrorQueueID to get this Error Queue id.

for (uint8_t i = 0; i < LENGTH_OF_QUEUEID_ARRAY; i++)
{
  Serial.print("Error Queue ");
  Serial.print(queueID[i]);
  if (Firebase.RTDB.isErrorQueueExisted(&fbdo, queueID[i]))
    Serial.println(" is queuing");
  else
    Serial.println(" is done");
}
Serial.println();

Error Queues can be saved as a file in SD card or flash memory with function saveErrorQueue.

To use LittleFS file system for flash memory instead of SPIFFS, add the following macro in FirebaseFS.h

#define USE_LITTLEFS

Error Queues store as a file can be restored to Error Queue collection with function restoreErrorQueue.

Two types of storage can be assigned with these functions, mem_storage_type_flash and mem_storage_type_sd.

Read data (get) operation is not support queues restore

The following example showed how to restore and save Error Queues in /test.txt file.

//To restore Error Queues

if (Firebase.RTDB.errorQueueCount(&fbdo, "/test.txt", mem_storage_type_flash) > 0)
{
    Firebase.RTDB.restoreErrorQueue(&fbdo, "/test.txt", mem_storage_type_flash);
    Firebase.deleteStorageFile("/test.txt", mem_storage_type_flash);
}

//To save Error Queues to file
Firebase.RTDB.saveErrorQueue(&fbdo, "/test.txt", mem_storage_type_flash);

Firebase Cloud Messaging (FCM)

The library acts as a app server to sends the message to registeration devices by sending request to the Google's FCM backend via the legacy HTTP and HTTPv1 APIs.

The functions available are setServerKey, send, subscibeTopic, unsubscibeTopic, appInstanceInfo and regisAPNsTokens.

Function Firebase.FCM.setServerKey to setup the Server Key which required by the legacy protocols.

Function Firebase.FCM.send to send the message with the selectable legacy and HTTPv1 messages constructors.

Function Firebase.FCM.subscribeTopic to add the subscription for instance ID (IID) tokens to the defined topic.

Function Firebase.FCM.unsubscribeTopic to remove the subscription for instance ID (IID) tokens from the defined topic.

Function Firebase.FCM.appInstanceInfo to get the app instance info for a device. This also provides the subscribed topics info.

Function Firebase.FCM.regisAPNsTokens to create the registration tokens for iOS APNs tokens.

The library provides two message constructors that hold the data to construct the JSON object payload internally.

For legacy message, see https://firebase.google.com/docs/cloud-messaging/http-server-ref

For HTTPv1 message, see ttps://firebase.google.com/docs/reference/fcm/rest/v1/projects.messages

The HTTPv1 APIs requires OAUth2.0 authentication using the Service Account credential.

The following example showed how to send FCM message.

//Provide your Firebase project's server key to send messsage using the legacy protocols
Firebase.FCM.setServerKey(FIREBASE_FCM_SERVER_KEY);

//Construct the legacy message
FCM_HTTPv1_JSON_Message msg;

//Assign the device registration token
msg.token = DEVICE_REGISTRATION_ID_TOKEN;

//Assign the notification payload
msg.notification.body = "Notification body";
msg.notification.title = "Notification title";

FirebaseJson json;
String payload;

//Assign the data payload
//all data key-values should be in string
json.add("humidity", "70");
json.toString(payload);
msg.data = payload.c_str();

//Send message
if (Firebase.FCM.send(&fbdo, &msg))
{
   erial.println("Message sent to FCM backend.");
   Serial.println(Firebase.FCM.payload(&fbdo));
}
else
{
   Serial.println("Something wrong, can't send request to FCM backend.");
   Serial.println(fbdo.errorReason());
}

Firebase Cloud Firestore

This library implements a REST Client for Cloud Firestore database. The RPC APIs are not implemented in this library.

The support functions for Cloud Firestore are export, import, create, patch, get, delete the document and list the documents and collection.

See the Firestore examples for the usages.

The unsecured security rules that allows the public usage of Firestore is

service cloud.firestore {
  match /databases/{database}/documents {
    match /todos/{document=**} {
      allow read, write: if true;
    }
  }
}

For secured Firestore usages, the security rules should include the auth field similar to this.

rules_version = '2';
service cloud.firestore {
  match /databases/{database}/documents {
    match /{document=**} {
      allow read, write: if request.auth.uid != null;
    }
  }
}

Firebase Storage

The Firebase Storage bucket file upload, download, read its meta data and listing are supported.

See the Firebase Storage examples for the usages.

Google Cloud Storage

The Firebase or Google Cloud Storage bucket file upload, download, read its meta data and listing are supported.

This Google Cloud Storage supported allows large files upload which upload the large file via the Firebase Storage functions is not allowable.

See the Google Cloud Storage examples for the usages.

Google Cloud Functions

The Google Cloud Functions create/deployment, update, call, delete and list are supported.

The library also support the source code deployment which you can edit the functions and deploy it using the embedded device.

See Cloud Functions examples for complete usages.

IAM Permission and API Enable

Some Firestore functions and all Cloud Functions functions requires the OAuth2.0 authentication and not allow the unauthentication and Email/password or custom token authenication access.

You may still get the error permission denined error even using OAuth2.0 authen with Service Account credentials, because the client in the Service Account does not has the owner permission.

To assign the owner permission to the client.

Go to https://console.cloud.google.com/iam-admin

Choose the project, look at the member which matches the client email in service account credentials. Edit the permission, add the role Owner under the Basic

IAM Edit Permission 1

IAM Edit Permission 2

IAM Edit Permission 3

For Cloud Functions Cloud Build API must be enabled for the project. To enable Cloud Build API go to https://console.developers.google.com/apis/library/cloudbuild.googleapis.com

Parse, Create and Edit JSON Objects

This library has built-in FirebaseJson Arduino library, the non-recursive easiest JSON parser, builder and editor.

FirebaseJson usages are so simple as you read, store and update(edit) the JSON node in Firebase RTDB.

It doesn't use the recursive call to parse or deserialize complex or nested JSON objects and arrays.

This makes the library can use with a limited stack memory device.

Since you declare the FirebaseJson (object) or FirebaseJsonArray, use the functions setJsonData, add, set and remove to build or edit JSON object and use get to parse the node's contents.

Defined the relative path of the specific node to add, set, remove and get functions to add, set, remove and get its contents.

Function FirebaseJson.setJsonData is to set the JSON string to JSON object.

Function FirebaseJson.add is used to add the new node with the contents e.g. String, Number (int and double), Boolean, Array and Object to the defined relative path.

Function FirebaseJson.set is used for edit, overwrite, create new (if not exist) node with contents e.g. String, Number (int and double), Boolean, Array and Object at the defined relative path.

Function FirebaseJson.remove is used to remove the node and all its children's contents at the defined relative path.

Function FirebaseJson.toString is used for (pretty or plain) print out the JSON object as Arduino string (this function takes String param).

Functions FirebaseJson.iteratorBegin, FirebaseJson.iteratorGet and FirebaseJson.iteratorEnd are used for parse all JSON object contents as list which can be iterated with index.

Function FirebaseJson.clear is used for clear JSON object contents.

Function FirebaseJsonArray.add is used for adding the new contents e.g. String, Number (int and double), Boolean, Array and Object to JSON array.

Function FirebaseJsonArray.set is for edit, overwrite, create new (if not exist) contents e.g. String, Number (int and double), Boolean, Array and Object at the defined relative path or defined index of JSON array.

Function FirebaseJsonArray.remove is used to remove the array's contents at the defined relative path or defined index of JSON array.

Function FirebaseJsonArray.toString is used for (pretty or plain) print out the JSON array object as Arduino string (this function takes String param).

Function FirebaseJsonArray.clear is used for clear JSON object contents.

To acquired the JSON object or JSON Array from FirebaseData object which returned from the get, set, push operations, these following functions are required.

FirebaseData.jsonObject

FirebaseData.jsonObjectPtr

FirebaseData.jsonArray and

FirebaseData.jsonArrayPtr

Function FirebaseData.jsonObject and FirebaseData.jsonObjectPtr will provide FirebaseJson (object) and FirebaseJson pointer respectively.

Function FirebaseData.jsonArray and FirebaseData.jsonArrayPtr will provide FirebaseJson Array and FirebaseJson Array pointer respectively.

The following example shows how to use FirebaseJson.

//Declare FirebaseJson object (global or local)
FirebaseJson json;

//Add name with value Living Room to JSON object
json.add("name", "Living Room");

//Add temp1 with value 120 and temp1 with 40 to JSON object
//Note: temp2 is not the child of temp1 as in previous version.
json.add("temp1", 120).add("temp2", 40);

//Add nested child contents directly
json.set("unit/temp1", "Farenheit");
json.set("unit/temp2", "Celcius");

//To print out as prettify string
String jsonStr;
json.toString(jsonStr, true);
Serial.println(jsonStr);

/*
This is the result of the above code

{
    "name": "Living Room",
    "temp1": 120,
    "temp2": 40,
    "unit": {
        "temp1": "Farenheit",
        "temp2": "Celcius"
    }
}
*/

//To set array to the above JSON using FirebaseJson directly
//Set (add) array indexes 0,1,2,5,7 under temp1, the original value will be replaced with new one.
json.set("temp1/[0]", 47);
json.set("temp1/[1]", 28);
json.set("temp1/[2]", 34);
json.set("temp1/[5]", 23); //null will be created at array index 3,4 due to it's not yet assigned
json.set("temp1/[7]", 25); //null will be created at array index 6

//Print out as prettify string
json.toString(jsonStr, true);
Serial.println(jsonStr);

/*
The result of the above code

{
    "name": "Living Room",
    "temp1": [
        47,
        28,
        34,
        null,
        null,
         23,
        null,
        25
     ],
    "temp2": 40,
    "unit": {
        "temp1": "Farenheit",
        "temp2": "Celcius"
    }
 }
*/

//Try to remove temp1 array at index 1
json.remove("temp1/[1]");

//Try to remove temp2
json.remove("temp2");

//Print out as prettify string
json.toString(jsonStr, true);
Serial.println(jsonStr);

/*
The result of the above code

{
    "name": "Living Room",
    "temp1": [
         47,
         34,
         null,
         null,
         23,
         null,
         25
    ],
    "unit": {
        "temp1": "Farenheit",
        "temp2": "Celcius"
    }
}
*/

//Now parse/read the contents from specific node unit/temp2
//FirebaseJsonData is required to keep the parse results which can be accessed later
FirebaseJsonData jsonData;

json.get(jsonData, "unit/temp2");

if (jsonData.success)
{
  //Print type of parsed data e.g string, int, double, bool, object, array, null and undefined
  Serial.println(jsonData.type);
  //Print its content e.g.string, int, double, bool whereas object, array and null also can access as string
  Serial.println(jsonData.stringValue);
  //Serial.println(jsonData.intValue);
  //Serial.println(jsonData.boolValue);
  //Serial.println(jsonData.floatValue);
  //Serial.println(jsonData.doubleValue);
}

//The above code will show
/*
string
Celcius
*/

//To get the array temp from FirebaseJson

json.get(jsonData, "temp1");

//Prepare FirebaseJsonArray to take the array from FirebaseJson
FirebaseJsonArray myArr;

//Get array data
jsonData.getArray(myArr);

//Call get with FirebaseJsonData to parse the array at defined index i
for (size_t i = 0; i < myArr.size(); i++)
{
  //jsonData now used as temporary object to get the parse results
  myArr.get(jsonData, i);

  //Print its value
  Serial.print("Array index: ");
  Serial.print(i);
  Serial.print(", type: ");
  Serial.print(jsonData.type);
  Serial.print(", value: ");
  Serial.println(jsonData.stringValue);
}

/*
The result of above code
Array index: 0, type: int, value: 47
Array index: 1, type: int, value: 34
Array index: 2, type: null, value: null
Array index: 3, type: null, value: null
Array index: 4, type: int, value: 23
Array index: 5, type: null, value: null
Array index: 6, type: int, value: 25
*/
 

The following example shows how to use FirebaseJsonArray.

//Declare FirebaseJsonArray object (global or local)
FirebaseJsonArray arr;

//Add some data
arr.add("banana");
arr.add("mango");
arr.add("coconut");


//Change the array contents
arr.set("[1]/food", "salad");
arr.set("[1]/sweet", "cake");
arr.set("[1]/appetizer", "snack");
arr.set("[2]", "apple"); // or arr.set(2, "apple");
arr.set("[4]/[0]/[1]/amount", 20);

//Print out array as prettify string
String arrStr;
arr.toString(arrStr, true);
Serial.println(arrStr);

/*
This is the result of the above code

[
    "banana",
    {
        "food": "salad",
        "sweet": "cake",
        "appetizer": "snack"
    },
    "apple",
    null,
    [
        [
            null,
            {
                "amount": 20
            }
        ]
    ]
]
*/

//Remove array content at /4/0/1/amount
arr.remove("[4]/[0]/[1]/amount");

//Print out as prettify string
arr.toString(arrStr, true);
Serial.println(arrStr);

/*
The result of the above code

[
    "banana",
    {
        "food": "salad",
        "sweet": "cake",
        "appetizer": "snack"
    },
    "apple",
    null,
    [
        [
            null
        ]
    ]
]

*/

//Now parse/read the array contents at some index

FirebaseJsonData jsonData;

arr.get(jsonData, "[1]/food");

if(jsonData.success)
{
  //Type of parsed data
  Serial.println(jsonData.type);
  //Its value
  Serial.println(jsonData.stringValue);
  //Serial.println(jsonData.intValue);
  //Serial.println(jsonData.boolValue);
  //Serial.println(jsonData.floatValue);
  //Serial.println(jsonData.doubleValue);

}

//The above code will show
/*
string
salad
*/


//To get the JSON object at array index 1 from FirebaseJsonArray
arr.get(jsonData, "[1]");// or arr.get(jsonData, 1);

//Prepare FirebaseJson to take the JSON object from FirebaseJsonArray
FirebaseJson myJson;

//Get FirebaseJson data
jsonData.getJSON(myJson);

//Parse the JSON object as list
//Get the number of items
size_t len = myJson.iteratorBegin();
String key, value = "";
int type = 0;
for (size_t i = 0; i < len; i++)
{
  //Get the item at index i, whereas key and value are the returned data
  myJson.iteratorGet(i, type, key, value);
  //Print the data
  Serial.print(i);
  Serial.print(", ");
  Serial.print("Type: ");
  Serial.print(type == FirebaseJson::JSON_OBJECT ? "object" : "array");
  if (type == FirebaseJson::JSON_OBJECT)
  {
    Serial.print(", Key: ");
    Serial.print(key);
  }
  Serial.print(", Value: ");
  Serial.println(value);
}
//Clear all list to free memory
myJson.iteratorEnd();


/*
The result of the above code

0, Type: object, Key: food, Value: salad
1, Type: object, Key: sweet, Value: cake
2, Type: object, Key: appetizer, Value: snack

*/

License

The MIT License (MIT)

Copyright (c) 2019, 2020, 2021 K. Suwatchai (Mobizt)

Permission is hereby granted, free of charge, to any person returning a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions:

The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software.

THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.