[lib] Remove library.json

was pr#22 : added reply to message subscribe and unsubscribe

.github/workflows/aunit.yml

@@ -0,0 +1,34 @@
+# See https://docs.github.com/en/actions/guides for documentation about GitHub
+# Actions.
+
+name: AUnit Tests
+
+# Run on all branches.
+on: [push]
+
+jobs:
+  build:
+
+    runs-on: ubuntu-18.04
+
+    steps:
+    - uses: actions/checkout@v2
+
+    - name: Setup
+      run: |
+        cd ..
+        git clone https://github.com/bxparks/EpoxyDuino
+        git clone https://github.com/bxparks/AceRoutine
+        git clone https://github.com/bxparks/AUnit
+        git clone https://github.com/bxparks/AceCommon
+        git clone https://github.com/hsaturn/EspMock
+    - name: Verify tests
+      run: |
+        # Run tests for ESP8266
+        make -C tests ESP_LIBS="ESP8266WiFi ESPAsyncTCP" tests
+        make -C tests runtests
+        make -C tests clean
+        # Run tests for ESP32
+        #make -C tests ESP_LIBS="ESP8266WiFi ESPAsyncTCP" tests
+        #make -C tests runtests
+        #make -C tests clean

.github/workflows/ci.yml

@@ -0,0 +1,18 @@
+name: "CI"
+on:
+  
+jobs:
+  ci:
+    runs-on: ubuntu-20.04
+    steps:
+    - name: Checkout this repository
+      uses: actions/checkout@v2.3.4
+    - name: Cache for arduino-ci
+      uses: actions/cache@v2.1.3
+      with:
+        path: |
+          ~/.arduino15
+        key: ${{ runner.os }}-arduino
+    - name: Install nix
+      uses: cachix/install-nix-action@v12
+    - run: nix-shell -I nixpkgs=channel:nixpkgs-unstable -p arduino-ci --run "arduino-ci"

.github/workflows/superlinter.yml

@@ -0,0 +1,52 @@
+---
+#################################
+#################################
+## Super Linter GitHub Actions ##
+#################################
+#################################
+name: Lint Code Base
+
+#
+# Documentation:
+# https://docs.github.com/en/actions/learn-github-actions/workflow-syntax-for-github-actions
+#
+
+#############################
+# Start the job on all push #
+#############################
+on: push
+
+###############
+# Set the Job #
+###############
+jobs:
+  build:
+    # Name the Job
+    name: Lint Code Base
+    # Set the agent to run on
+    runs-on: ubuntu-latest
+
+    ##################
+    # Load all steps #
+    ##################
+    steps:
+      ##########################
+      # Checkout the code base #
+      ##########################
+      - name: Checkout Code
+        uses: actions/checkout@v3
+        with:
+          # Full git history is needed to get a proper
+          # list of changed files within `super-linter`
+          fetch-depth: 0
+
+      ################################
+      # Run Linter against code base #
+      ################################
+      - name: Lint Code Base
+        uses: github/super-linter/slim@v4
+        env:
+          VALIDATE_ALL_CODEBASE: false
+          # Change to 'master' if your main branch differs
+          DEFAULT_BRANCH: main
+          GITHUB_TOKEN: ${{ secrets.GITHUB_TOKEN }}

.gitignore

@@ -1,2 +0,0 @@
-*~
-src/my_credentials.h

README.md

@@ -1,15 +1,20 @@
 # TinyMqtt
 
-![](https://img.shields.io/github/v/release/hsaturn/TinyMqtt)
-![](https://img.shields.io/github/issues/hsaturn/TinyMqtt)
-![](https://img.shields.io/badge/paltform-ESP8266-green)
-![](https://img.shields.io/github/license/hsaturn/TinyMqtt)
-![](https://img.shields.io/badge/Mqtt-%203.1.1-yellow)
+[![Release](https://img.shields.io/github/v/release/hsaturn/TinyMqtt)](https://github.com/hsaturn/TinyMqtt/releases)
+[![AUnit Tests](https://github.com/hsaturn/TinyMqtt/actions/workflows/aunit.yml/badge.svg)](https://github.com/hsaturn/TinyMqtt/actions/workflows/aunit.yml)
+[![Issues](https://img.shields.io/github/issues/hsaturn/TinyMqtt)](https://github.com/hsaturn/TinyMqtt/issues)
+[![Esp8266](https://img.shields.io/badge/platform-ESP8266-green)](https://www.espressif.com/en/products/socs/esp8266)
+[![Esp32](https://img.shields.io/badge/platform-ESP32-green)](https://www.espressif.com/en/products/socs/esp32)
+[![Gpl 3.0](https://img.shields.io/github/license/hsaturn/TinyMqtt)](https://www.gnu.org/licenses/gpl-3.0.fr.html)
+[![Mqtt 3.1.1](https://img.shields.io/badge/Mqtt-%203.1.1-yellow)](https://docs.oasis-open.org/mqtt/mqtt/v3.1.1/errata01/os/mqtt-v3.1.1-errata01-os-complete.html#_Toc442180822)
 
-ESP 8266 is a small and very capable Mqtt Broker and Client
+TinyMqtt is a small, fast and capable Mqtt Broker and Client for Esp8266 / Esp32 / Esp WROOM
 
 ## Features
 
+- Very fast broker I saw it re-sent 1000 topics per second for two
+  clients that had subscribed (payload ~15 bytes ESP8266). No topic lost.
+  The max I've seen was 2k msg/s (1 client 1 subscription)
 - Act as as a mqtt broker and/or a mqtt client
 - Mqtt 3.1.1 / Qos 0 supported
 - Standalone (can work without WiFi) (degraded/local mode)
@@ -18,29 +23,16 @@ ESP 8266 is a small and very capable Mqtt Broker and Client
 - zeroconf, this is a strange but very powerful mode where
   all brokers tries to connect together on the same local network.
 
-## TODO List
-* Use [Async library](https://github.com/me-no-dev/ESPAsyncTCP)
-* Implement zeroconf mode (needs async)
-* Add a max_clients in MqttBroker. Used with zeroconf, there will be
-no need for having tons of clients (also RAM is the problem with many clients)
-* Test what is the real max number of clients for broker. As far as I saw, 1k is needed per client which would make more than 30 clients critical.
-* ~~MqttMessage uses a buffer 256 bytes which is usually far than needed.~~
-* ~~MqttClient does not support more than one subscription at time~~
-* MqttClient auto re-subscribe
-* MqttClient auto reconnection
-* MqttClient does not callback payload...
-* MqttClient user/password
-
 ## Quickstart
 
 * install [TinyMqtt library](https://github.com/hsaturn/TinyMqtt)
+  (you can use the Arduino library manager and search for TinyMqtt)
 * modify <libraries/TinyMqtt/src/my_credentials.h> (wifi setup)
 
 ## Examples
 
-
 | Example             | Description                                |
-| ---------------------------- | --------------------------------- |
+| ------------------- | ------------------------------------------ |
 | client-without-wifi | standalone example                         |
 | simple-client       | Connect the ESP to an external Mqtt broker |
 | simple-broker       | Simple Mqtt broker with your ESP           |
@@ -51,11 +43,25 @@ no need for having tons of clients (also RAM is the problem with many clients)
 
 ## Standalone mode (zeroconf)
 -> The zeroconf mode is not yet implemented
-zerofonf clients to connect to broker on local network.
+zeroconf clients to connect to broker on local network.
 
 In Zeroconf mode, each ESP is a a broker and scans the local network.
 After a while one ESP naturally becomes a 'master' and all ESP are connected together.
 No problem if the master dies, a new master will be choosen soon.
 
+## TODO List
+* ~~Use [Async library](https://github.com/me-no-dev/ESPAsyncTCP)~~
+* Implement zeroconf mode (needs async)
+* Add a max_clients in MqttBroker. Used with zeroconf, there will be
+no need for having tons of clients (also RAM is the problem with many clients)
+* Why not a 'global' TinyMqtt::loop() instead of having to call loop for all broker/clients instances
+* Test what is the real max number of clients for broker. As far as I saw, 1k is needed per client which would make more than 30 clients critical.
+* ~~MqttClient auto re-subscribe (::resubscribe works bad on broker.emqx.io)~~
+* MqttClient auto reconnection
+* MqttClient user/password
+* Wildcards (I may implement only # as I'm not interrested by a clever and cpu consuming matching)
+* I suspect that MqttClient::parent could be removed and replaced with a simple boolean
+  (this'll need to rewrite a few functions)
+
 ## License
 Gnu GPL 3.0, see [LICENSE](https://github.com/hsaturn/TinyMqtt/blob/main/LICENSE).

examples/client-with-wifi/client-with-wifi.ino

@@ -3,23 +3,36 @@
 /** 
   * Local broker that accept connections and two local clients
   *
+  * 
+  *  +-----------------------------+
+  *  | ESP                         |
+  *  |                 +--------+  | 1883 <--- External client/s
+  *  |       +-------->| broker |  | 1883 <--- External client/s
+  *  |       |         +--------+  |
+  *  |       |             ^       |
+  *  |       |             |       |
+  *  |       |             |       |     -----
+  *  |       v             v       |      ---  
+  *  | +----------+  +----------+  |       -  
+  *  | | internal |  | internal |  +-------*  Wifi
+  *  | | client   |  | client   |  |          
+  *  | +----------+  +----------+  |          
+  *  |                             |
+  *  +-----------------------------+
+  * 
   * pros - Reduces internal latency (when publish is received by the same ESP)
   *      - Reduces wifi traffic
   *      - No need to have an external broker
-	*      - can still report to a 'main' broker (TODO see documentation that have to be written)
-	*      - accepts external clients
+  *      - can still report to a 'main' broker (TODO see documentation that have to be written)
+  *      - accepts external clients
   *
   * cons - Takes more memory
-	*      - a bit hard to understand
-	*
-  * This sounds crazy: a mqtt mqtt that do not need a broker !
-  *  The use case arise when one ESP wants to publish topics and subscribe to them at the same time.
-  *  Without broker, the ESP won't react to its own topics.
-  *  
-  *  TinyMqtt mqtt allows this use case to work.
+  *      - a bit hard to understand
+  *
   */
 
-#include <my_credentials.h>
+const char *ssid     = "";
+const char *password = "";
 
 std::string topic="sensor/temperature";
 
@@ -28,17 +41,20 @@ MqttBroker broker(1883);
 MqttClient mqtt_a(&broker);
 MqttClient mqtt_b(&broker);
 
-void onPublishA(const MqttClient* source, const Topic& topic, const char* payload, size_t length)
-{ Serial << endl << "---------> A Received " << topic.c_str() << endl; }
+void onPublishA(const MqttClient* /* source */, const Topic& topic, const char* payload, size_t /* length */)
+{ Serial << "--> client A received " << topic.c_str() << ", " << payload << endl; }
 
-void onPublishB(const MqttClient* source, const Topic& topic, const char* payload, size_t length)
-{ Serial << endl << "---------> B Received " << topic.c_str() << endl; }
+void onPublishB(const MqttClient* /* source */, const Topic& topic, const char* payload, size_t /* length */)
+{ Serial << "--> client B Received " << topic.c_str() << ", " << payload << endl; }
 
 void setup()
 {
   Serial.begin(115200);
-	delay(500);
-	Serial << "Clients with wifi " << endl;
+  delay(500);
+  Serial << "Clients with wifi " << endl;
+
+	if (strlen(ssid)==0)
+		Serial << "****** PLEASE EDIT THE EXAMPLE AND MODIFY ssid/password *************" << endl;
 
   WiFi.mode(WIFI_STA);
   WiFi.begin(ssid, password);
@@ -47,8 +63,8 @@ void setup()
 
   Serial << "Connected to " << ssid << "IP address: " << WiFi.localIP() << endl;
 
-	broker.begin();
- 
+  broker.begin();
+
   mqtt_a.setCallback(onPublishA);
   mqtt_a.subscribe(topic);
 
@@ -58,30 +74,31 @@ void setup()
 
 void loop()
 {
-	broker.loop();
+  broker.loop();  // Don't forget to add loop for every broker and clients
 
   mqtt_a.loop();
   mqtt_b.loop();
 
   // ============= client A publish ================
-	static const int intervalA = 5000;  // publishes every 5s
-	static uint32_t timerA = millis() + intervalA;
-	
-	if (millis() > timerA)
-	{
-		Serial << "A is publishing " << topic.c_str() << endl;
-		timerA += intervalA;
-		mqtt_a.publish(topic);
-	}
+  static const int intervalA = 5000;  // publishes every 5s (please avoid usage of delay())
+  static uint32_t timerA = millis() + intervalA;
+
+  if (millis() > timerA)
+  {
+    Serial << "A is publishing " << topic.c_str() << endl;
+    timerA += intervalA;
+    mqtt_a.publish(topic, " sent by A");
+  }
 
   // ============= client B publish ================
-	static const int intervalB = 7000;	// will send topic each 7s
-	static uint32_t timerB = millis() + intervalB;
-	
-	if (millis() > timerB)
-	{
-		Serial << "B is publishing " << topic.c_str() << endl;
-		timerB += intervalB;
-		mqtt_b.publish(topic, std::string(String(15+millis()%10).c_str()));
-	}
+  static const int intervalB = 7000;	// will send topic each 7s
+  static uint32_t timerB = millis() + intervalB;
+
+  if (millis() > timerB)
+  {
+		static int temperature;
+    Serial << "B is publishing " << topic.c_str() << endl;
+    timerB += intervalB;
+    mqtt_b.publish(topic, " sent by B: "+std::string(String(16+temperature++%6).c_str()));
+  }
 }

examples/client-without-wifi/client-without-wifi.ino

@@ -1,12 +1,30 @@
 #include <TinyMqtt.h>   // https://github.com/hsaturn/TinyMqtt
 
 /** TinyMQTT allows a disconnected mode:
- * 
- *  In this example, local clients A and B are talking together, no need to be connected.
- *  A single ESP can use this to be able to comunicate with itself with the power
- *  of MQTT, and once connected still continue to work with others.
- *  
- */
+  * 
+  *  +-----------------------------+
+  *  | ESP                         |
+  *  |                 +--------+  |
+  *  |       +-------->| broker |  |
+  *  |       |         +--------+  |
+  *  |       |             ^       |
+  *  |       |             |       |
+  *  |       v             v       |
+  *  | +----------+  +----------+  |
+  *  | | internal |  | internal |  |
+  *  | | client   |  | client   |  |          
+  *  | +----------+  +----------+  |          
+  *  |                             |
+  *  +-----------------------------+
+  *
+  *  In this example, local clients A and B are talking together, no need to be connected.
+  *
+  *  A single ESP can use this to be able to comunicate with itself with the power
+  *  of MQTT, and once connected still continue to work with others.
+  *
+  *  The broker may still be conected if wifi is on.
+  *
+  */
 
 std::string topic="sensor/temperature";
 
@@ -14,11 +32,11 @@ MqttBroker broker(1883);
 MqttClient mqtt_a(&broker);
 MqttClient mqtt_b(&broker);
 
-void onPublishA(const MqttClient* srce, const Topic& topic, const char* payload, size_t length)
-{ Serial << "--> A Received " << topic.c_str() << endl; }
+void onPublishA(const MqttClient* /* srce */, const Topic& topic, const char* payload, size_t /* length */)
+{ Serial << "--> Client A received msg on topic " << topic.c_str() << ", " << payload << endl; }
 
-void onPublishB(const MqttClient* srce, const Topic& topic, const char* payload, size_t length)
-{ Serial << "--> B Received " << topic.c_str() << endl; }
+void onPublishB(const MqttClient* /* srce */, const Topic& topic, const char* payload, size_t /* length */)
+{ Serial << "--> Client B received msg on topic " << topic.c_str() << ", " << payload << endl; }
 
 void setup()
 {
@@ -35,7 +53,7 @@ void setup()
 
 void loop()
 {
-	broker.loop();
+	broker.loop();	// Don't forget to call loop() for all brokers and clients
   mqtt_a.loop();
   mqtt_b.loop();
 
@@ -47,7 +65,7 @@ void loop()
 	{
 		Serial << "A is publishing " << topic.c_str() << endl;
 		timerA += intervalA;
-		mqtt_a.publish(topic);
+		mqtt_a.publish(topic, "sent by A");
 	}
 
   // ============= client B publish ================
@@ -58,6 +76,6 @@ void loop()
 	{
 		Serial << "B is publishing " << topic.c_str() << endl;
 		timerB += intervalB;
-		mqtt_b.publish(topic);
+		mqtt_b.publish(topic, "sent by B");
 	}
 }

examples/simple-broker/simple-broker.ino

@@ -1,14 +1,33 @@
 #include "TinyMqtt.h"   // https://github.com/hsaturn/TinyMqtt
 
-#include <my_credentials.h>
-
 #define PORT 1883
 MqttBroker broker(PORT);
 
+/** Basic Mqtt Broker
+  *
+  *  +-----------------------------+
+  *  | ESP                         |
+  *  |       +--------+            | 
+  *  |       | broker |            | 1883 <--- External client/s
+  *  |       +--------+            |
+  *  |                             |
+  *  +-----------------------------+
+  *
+  *  Your ESP will become a MqttBroker.
+	*  You can test it with any client such as mqtt-spy for example
+	*  
+  */
+
+const char* ssid = "";
+const char* password = "";
+
 void setup() 
 {
   Serial.begin(115200);
 
+	if (strlen(ssid)==0)
+		Serial << "****** PLEASE MODIFY ssid/password *************" << endl;
+
   WiFi.mode(WIFI_STA);
   WiFi.begin(ssid, password);
  

examples/simple-client/simple-client.ino

@@ -1,9 +1,25 @@
-#include <ESP8266WiFi.h>
 #include "TinyMqtt.h"   // https://github.com/hsaturn/TinyMqtt
 
-/** Simple Client
+/** Simple Client (The simplest configuration)
   *
-	* This is the simplest Mqtt client configuration
+  *                             
+  *                   +--------+       
+  *           +------>| broker |<--- <  Other client
+  *           |       +--------+       
+  *           |                               
+  *   +-----------------+
+  *   | ESP   |         |           
+  *   | +----------+    |          
+  *   | | internal |    |              
+  *   | | client   |    |          
+  *   | +----------+    |          
+  *   |                 |
+  *   +-----------------+
+  * 
+	* 1 - change the ssid/password
+	* 2 - change BROKER values (or keep emqx.io test broker)
+	* 3 - you can use mqtt-spy to connect to the same broker and
+	*     see the sensor/temperature updated by the client.
 	*
 	* pro  - small memory footprint (both ram and flash)
 	*      - very simple to setup and use
@@ -13,7 +29,11 @@
 	*      - local publishes takes more time (because they go outside)
 	*/
 
-#include <my_credentials.h>
+const char* BROKER = "broker.emqx.io";
+const uint16_t BROKER_PORT = 1883;
+
+const char* ssid = "";
+const char* password = "";
 
 static float temp=19;
 static MqttClient client;
@@ -22,7 +42,10 @@ void setup()
 {
   Serial.begin(115200);
 	delay(500);
+
 	Serial << "Simple clients with wifi " << endl;
+	if (strlen(ssid)==0)
+		Serial << "****** PLEASE MODIFY ssid/password *************" << endl;
 
   WiFi.mode(WIFI_STA);
   WiFi.begin(ssid, password);
@@ -32,21 +55,33 @@ void setup()
 
   Serial << "Connected to " << ssid << "IP address: " << WiFi.localIP() << endl;  
 
-	client.connect("192.168.1.40", 1883);	// Put here your broker ip / port
-
+	client.connect(BROKER, BROKER_PORT);	// Put here your broker ip / port
 }
 
 void loop()
 {
-	client.loop();
+	client.loop();	// Don't forget to call loop() for each broker and client
 
-	delay(1000);
+	// delay(1000);		please avoid usage of delay (see below how this done using next_send and millis())
+	static auto next_send = millis();
+	
+	if (millis() > next_send)
+	{
+		next_send += 1000;
 
-	auto rnd=random(100);
+		if (not client.connected())
+		{
+			Serial << millis() << ": Not connected to broker" << endl;
+			return;
+		}
 
-	if (rnd > 66) temp += 0.1;
-	else if (rnd < 33) temp -= 0.1;
+		auto rnd=random(100);
 
-	client.publish("sensor/temperature", String(temp));
+		if (rnd > 66) temp += 0.1;
+		else if (rnd < 33) temp -= 0.1;
 
+		Serial << "--> Publishing a new sensor/temperature value: " << temp << endl;
+
+		client.publish("sensor/temperature", String(temp));
+	}
 }

examples/tinymqtt-test/commands.txt

@@ -1,9 +1,9 @@
-// vim: ts=30
+// vim: ts=40
 Exemple of commands that can be sent via the serial monitor to tinymqtt-test
 ----------------------------------------------------------------------------
-
 Commands can usually be abbreviated to their first letters.
 ex: cl for client, a / a.con / a.sub / a.p for publish.
+--------
 
 set name value	set variable name to value (later replaced)
 set name	if no value, then var is erased
@@ -17,9 +17,12 @@ a.publish topic [payload]	send a topic with a payload
 a.subscribe topic	subscribes to a topic
 delete a	destroy the client
 
-----------------------------------------------------
+* note, if 'server' is a number, then it replaces the end of the local ip.
+i.e. if local ip is 192.168.1.10, connect 2.35 becomes 192.168.2.35
 
+--------
 example:
+--------
 
 client c
 c.connect broker.emqx.io
@@ -30,5 +33,7 @@ c.publish topic 15
 c.publish topic 20
 
 macro exansion example
+----------------------
+
 set temp publish sensor/temperature
 c.temp 20	-> c.publish sensor/temperature 20

keywords.txt

@@ -9,13 +9,19 @@
 TinyMqtt    KEYWORD1
 
 MqttBroker  KEYWORD1
+connect		  KEYWORD2
+clientsCount KEYWORD2
 begin				KEYWORD2
 loop				KEYWORD2
+port				KEYWORD2
 
 MqttClient  KEYWORD1
+connect		  KEYWORD2
+connected	  KEYWORD2
 publish     KEYWORD2
 setCallback	KEYWORD2
 subscribe	  KEYWORD2
+unsubscribe	KEYWORD2
 
 Topic				KEYWORD1
 matches			KEYWORD2

library.json

@@ -1,18 +0,0 @@
-{
-    "name": "TinyMqtt",
-    "keywords": "ethernet, mqtt, m2m, iot",
-    "description": "MQTT is a lightweight messaging protocol ideal for small devices. This library allows you to send and receive MQTT messages. It does support MQTT 3.1.1 without any QOS.",
-    "repository": {
-        "type": "git",
-        "url": "https://github.com/hsaturn/TinyMqtt.git"
-    },
-    "version": "0.5.1",
-    "exclude": "",
-    "examples": "examples/*/*.ino",
-    "frameworks": "arduino",
-    "platforms": [
-        "atmelavr",
-        "espressif8266",
-        "espressif32"
-    ]
-}

library.properties

@@ -1,10 +1,11 @@
 name=TinyMqtt
-version=0.5.1
+version=0.8.0
 author=Francois BIOT, HSaturn, <hsaturn@gmail.com>
 maintainer=Francois BIOT, HSaturn, <hsaturn@gmail.com>
 sentence=A tiny broker and client library for MQTT messaging.
-paragraph=MQTT is a lightweight messaging protocol ideal for small devices. This library allows you to send and receive MQTT messages and to jhost a broker in your ESP. It does support MQTT 3.1.1 without any QOS.
+paragraph=MQTT is a lightweight messaging protocol ideal for small devices. This library allows to send and receive MQTT messages and to host a broker in your ESP 8266 and 32 WROOM. It does support MQTT 3.1.1 with QoS=0.
 category=Communication
 url=https://github.com/hsaturn/TinyMqtt
 architectures=*
 includes=TinyMqtt.h
+depends=AsyncTCP

src/MqttStreaming.h

@@ -38,11 +38,12 @@
   4.  Simple _FMT mechanism ala printf, but without the typeunsafetyness 
       and no internal buffers for replaceable stream printing
 */
+#pragma once
 
 #ifndef ARDUINO_STREAMING
 #define ARDUINO_STREAMING
 
-#if defined(ARDUINO) && ARDUINO >= 100
+#if (defined(ARDUINO) && ARDUINO >= 100) || defined(EPOXY_DUINO)
 #include "Arduino.h"
 #else
 #ifndef STREAMING_CONSOLE
@@ -154,7 +155,7 @@ template<typename T>
 inline Print &operator <<(Print &obj, const _BASED<T> &arg)
 { obj.print(arg.val, arg.base); return obj; }
 
-#if ARDUINO >= 18
+#if ARDUINO >= 18 || defined(EPOXY_DUINO)
 // Specialization for class _FLOAT
 // Thanks to Michael Margolis for suggesting a way
 // to accommodate Arduino 0018's floating point precision

src/StringIndexer.h

@@ -2,7 +2,6 @@
 #include <map>
 #include <string>
 #include <string.h>
-#include <ESP8266WiFi.h>
 
 /***
  * Allows to store up to 255 different strings with one byte class
@@ -10,102 +9,121 @@
  */
 class StringIndexer
 {
-	class StringCounter
-	{
-		std::string str;
-		uint8_t used=0;
-		friend class StringIndexer;
-	};
-	public:
-		using index_t=uint8_t;
+  class StringCounter
+  {
+    std::string str;
+    uint8_t used=0;
+    friend class StringIndexer;
 
-		static const index_t strToIndex(const char* str, uint8_t len)
-		{
-			for(auto it=strings.begin(); it!=strings.end(); it++)
-			{
-				if (strncmp(it->second.str.c_str(), str, len)==0)
-				{
-					it->second.used++;
-					return it->first;
-				}
-			}
-			for(index_t index=0; index<255; index++)
-			{
-				if (strings.find(index)==strings.end())
-				{
-					strings[index].str = std::string(str, len);
-					strings[index].used++;
-					// Serial << "Creating index " << index << " for (" << strings[index].str.c_str() << ") len=" << len << endl;
-					return index;
-				}
-			}
-			return 0;	// TODO out of indexes
-		}
+    #if EPOXY_DUINO
+    public:
+    // Workaround to avoid coredump in Indexer::release
+    // when destroying a Topic after the deletion of
+    // StringIndexer::strings map (which can occurs only with AUnit,
+    // never in the ESP itself, because ESP never ends)
+    // (I hate static vars)
+    ~StringCounter() { used=255; }
+    #endif
+  };
+  public:
+    using index_t=uint8_t;
 
-		static const std::string& str(const index_t& index)
-		{
-			static std::string dummy;
-			const auto& it=strings.find(index);
-			if (it == strings.end()) return dummy;
-			return it->second.str;
-		}
+    static index_t strToIndex(const char* str, uint8_t len)
+    {
+      for(auto it=strings.begin(); it!=strings.end(); it++)
+      {
+        if (strncmp(it->second.str.c_str(), str, len)==0)
+        {
+          it->second.used++;
+          return it->first;
+        }
+      }
+      for(index_t index=1; index; index++)
+      {
+        if (strings.find(index)==strings.end())
+        {
+          strings[index].str = std::string(str, len);
+          strings[index].used++;
+          // Serial << "Creating index " << index << " for (" << strings[index].str.c_str() << ") len=" << len << endl;
+          return index;
+        }
+      }
+      return 0;  // TODO out of indexes
+    }
 
-		static void use(const index_t& index)
-		{
-			auto it=strings.find(index);
-			if (it != strings.end()) it->second.used++;
-		}
+    static const std::string& str(const index_t& index)
+    {
+      static std::string dummy;
+      const auto& it=strings.find(index);
+      if (it == strings.end()) return dummy;
+      return it->second.str;
+    }
 
-		static void release(const index_t& index)
-		{
-			auto it=strings.find(index);
-			if (it != strings.end())
-			{
-				it->second.used--;
-				if (it->second.used == 0)
-				{
-					strings.erase(it);
-					// Serial << "Removing string(" << it->second.str.c_str() << ") size=" << strings.size() << endl;
-				}
-			}
-		}
+    static void use(const index_t& index)
+    {
+      auto it=strings.find(index);
+      if (it != strings.end()) it->second.used++;
+    }
 
-	private:
-		static std::map<index_t, StringCounter> strings;
+    static void release(const index_t& index)
+    {
+      auto it=strings.find(index);
+      if (it != strings.end())
+      {
+        it->second.used--;
+        if (it->second.used == 0)
+        {
+          strings.erase(it);
+          // Serial << "Removing string(" << it->second.str.c_str() << ") size=" << strings.size() << endl;
+        }
+      }
+    }
+
+    static uint16_t count() { return strings.size(); }
+
+  private:
+    static std::map<index_t, StringCounter> strings;
 };
 
 class IndexedString
 {
-	public:
-		IndexedString(const IndexedString& source)
-		{
-			StringIndexer::use(source.index);
-			index = source.index;
-		}
+  public:
+    IndexedString(const IndexedString& source)
+    {
+      StringIndexer::use(source.index);
+      index = source.index;
+    }
 
-		IndexedString(const char* str, uint8_t len)
-		{
-			index=StringIndexer::strToIndex(str, len);
-		}
+    IndexedString(const char* str, uint8_t len)
+    {
+      index=StringIndexer::strToIndex(str, len);
+    }
 
-		~IndexedString() { StringIndexer::release(index); }
+    IndexedString(const std::string& str) : IndexedString(str.c_str(), str.length()) {};
 
-		IndexedString& operator=(const IndexedString& source)
-		{
-			StringIndexer::use(source.index);
-			index = source.index;
-			return *this;
-		}
+    ~IndexedString() { StringIndexer::release(index); }
 
-		friend bool operator<(const IndexedString& i1, const IndexedString& i2)
-		{
-			return i1.index < i2.index;
-		}
+    IndexedString& operator=(const IndexedString& source)
+    {
+      StringIndexer::use(source.index);
+      index = source.index;
+      return *this;
+    }
 
-		const std::string& str() const { return StringIndexer::str(index); }
+    friend bool operator<(const IndexedString& i1, const IndexedString& i2)
+    {
+      return i1.index < i2.index;
+    }
 
-		const StringIndexer::index_t getIndex() const { return index; }
+    friend bool operator==(const IndexedString& i1, const IndexedString& i2)
+    {
+      return i1.index == i2.index;
+    }
 
-	private:
-		StringIndexer::index_t index;
+    const std::string& str() const { return StringIndexer::str(index); }
+
+    const StringIndexer::index_t& getIndex() const { return index; }
+
+  private:
+    StringIndexer::index_t index;
 };

src/TinyMqtt.h

@@ -1,261 +1,322 @@
-#include <ESP8266WiFi.h>
+#pragma once
+
+// TODO Should add a AUnit with both TCP_ASYNC and not TCP_ASYNC
+// #define TCP_ASYNC  // Uncomment this to use ESPAsyncTCP instead of normal cnx
+
+#if defined(ESP8266) || defined(EPOXY_DUINO)
+  #ifdef TCP_ASYNC
+    #include <ESPAsyncTCP.h>
+  #else
+    #include <ESP8266WiFi.h>
+  #endif
+#elif defined(ESP32)
+  #include <WiFi.h>
+  #ifdef TCP_ASYNC
+    #include <AsyncTCP.h> // https://github.com/me-no-dev/AsyncTCP
+  #endif
+#endif
+#ifdef EPOXY_DUINO
+  #define dbg_ptr uint64_t
+#else
+  #define dbg_ptr uint32_t
+#endif
 #include <vector>
 #include <set>
 #include <string>
 #include "StringIndexer.h"
 #include <MqttStreaming.h>
 
-#define TINY_MQTT_DEBUG
+// #define TINY_MQTT_DEBUG
 
 #ifdef TINY_MQTT_DEBUG
-  #define debug(what) { Serial << __LINE__ << ' ' << what << endl; delay(100); }
+  #define debug(what) { Serial << (int)__LINE__ << ' ' << what << endl; delay(100); }
 #else
   #define debug(what) {}
 #endif
 
-enum MqttError
+#ifdef TCP_ASYNC
+  using TcpClient = AsyncClient;
+  using TcpServer = AsyncServer;
+#else
+  using TcpClient = WiFiClient;
+  using TcpServer = WiFiServer;
+#endif
+
+enum __attribute__((packed)) MqttError
 {
-	MqttOk = 0,
-	MqttNowhereToSend=1,
-	MqttInvalidMessage=2,
+  MqttOk = 0,
+  MqttNowhereToSend=1,
+  MqttInvalidMessage=2,
 };
 
 class Topic : public IndexedString
 {
-	public:
-		Topic(const char* s, uint8_t len) : IndexedString(s,len){}
-		Topic(const char* s) : Topic(s, strlen(s)) {}
-		Topic(const std::string s) : Topic(s.c_str(), s.length()){};
+  public:
+    Topic(const char* s, uint8_t len) : IndexedString(s,len){}
+    Topic(const char* s) : Topic(s, strlen(s)) {}
+    Topic(const std::string s) : Topic(s.c_str(), s.length()){};
 
-		const char* c_str() const { return str().c_str(); }
+    const char* c_str() const { return str().c_str(); }
 
-		bool matches(const Topic&) const;
+    bool matches(const Topic&) const;
 };
 
 class MqttClient;
 class MqttMessage
 {
-	const uint16_t MaxBufferLength = 255;
-	public:
-		enum Type
-		{
-			Unknown   =    0,
-			Connect   = 0x10,
-			ConnAck   = 0x20,
-			Publish   = 0x30,
-			PubAck    = 0x40,
-			Subscribe = 0x80,
-			SubAck    = 0x90,
-			PingReq   = 0xC0,
-			PingResp  = 0xD0,
-		};
-		enum State
-		{
-			FixedHeader=0,
-			Length=1,
-			VariableHeader=2,
-			PayLoad=3,
-			Complete=4,
-			Error=5,
-			Create=6
-		};
+  const uint16_t MaxBufferLength = 4096;  //hard limit: 16k due to size decoding
+  public:
+    enum __attribute__((packed)) Type
+    {
+      Unknown     =    0,
+      Connect     = 0x10,
+      ConnAck     = 0x20,
+      Publish     = 0x30,
+      PubAck      = 0x40,
+      Subscribe   = 0x80,
+      SubAck      = 0x90,
+      UnSubscribe = 0xA0,
+      UnSuback    = 0xB0,
+      PingReq     = 0xC0,
+      PingResp    = 0xD0,
+      Disconnect  = 0xE0
+    };
+    enum __attribute__((packed)) State
+    {
+      FixedHeader=0,
+      Length=1,
+      VariableHeader=2,
+      PayLoad=3,
+      Complete=4,
+      Error=5,
+      Create=6
+    };
 
-		MqttMessage() { reset(); }
-		MqttMessage(Type t, uint8_t bits_d3_d0=0) { create(t); buffer[0] |= bits_d3_d0; }
-		void incoming(char byte);
-		void add(char byte) { incoming(byte); }
-		void add(const char* p, size_t len, bool addLength=true );
-		void add(const std::string& s) { add(s.c_str(), s.length()); }
-		void add(const Topic& t) { add(t.str()); }
-		const char* end() const { return &buffer[0]+buffer.size(); }
-		const char* getVHeader() const { return &buffer[vheader]; }
-		uint16_t length() const { return buffer.size(); }
+    MqttMessage() { reset(); }
+    MqttMessage(Type t, uint8_t bits_d3_d0=0) { create(t); buffer[0] |= bits_d3_d0; }
+    void incoming(char byte);
+    void add(char byte) { incoming(byte); }
+    void add(const char* p, size_t len, bool addLength=true );
+    void add(const std::string& s) { add(s.c_str(), s.length()); }
+    void add(const Topic& t) { add(t.str()); }
+    const char* end() const { return &buffer[0]+buffer.size(); }
+    const char* getVHeader() const { return &buffer[vheader]; }
+    void complete() { encodeLength(); }
 
-		void reset();
+    void reset();
 
-		// buff is MSB/LSB/STRING
-		// output buff+=2, len=length(str)
-		static void getString(const char* &buff, uint16_t& len);
+    // buff is MSB/LSB/STRING
+    // output buff+=2, len=length(str)
+    static void getString(const char* &buff, uint16_t& len);
 
+    Type type() const
+    {
+      return state == Complete ? static_cast<Type>(buffer[0] & 0xF0) : Unknown;
+    }
 
-		Type type() const
-		{
-			return state == Complete ? static_cast<Type>(buffer[0]) : Unknown;
-		}
+    uint8_t flags() const { return static_cast<uint8_t>(buffer[0] & 0x0F); }
 
-		void create(Type type)
-		{
-			buffer=(char)type;
-			buffer+='\0';
-			vheader=2;
-			size=0;
-			state=Create;
-		}
-		MqttError sendTo(MqttClient*);
-		void hexdump(const char* prefix=nullptr) const;
+    void create(Type type)
+    {
+      buffer=(decltype(buffer)::value_type)type;
+      buffer+='\0';    // reserved for msg length byte 1/2
+      buffer+='\0';    // reserved for msg length byte 2/2 (fixed)
+      vheader=3;      // Should never change
+      size=0;
+      state=Create;
+    }
+    MqttError sendTo(MqttClient*);
+    void hexdump(const char* prefix=nullptr) const;
 
-	private:
-		void encodeLength(char* msb, int length);
+  private:
+    void encodeLength();
 
-		std::string buffer;
-		uint8_t vheader;
-		uint16_t size;	// bytes left to receive
-		State state;
+    std::string buffer;
+    uint8_t vheader;
+    uint16_t size;  // bytes left to receive
+    State state;
 };
 
 class MqttBroker;
 class MqttClient
 {
-	using CallBack = void (*)(const MqttClient* source, const Topic& topic, const char* payload, size_t payload_length);
-	enum Flags
-	{
-		FlagUserName = 128,
-		FlagPassword = 64,
-		FlagWillRetain = 32,	// unsupported
-		FlagWillQos = 16 | 8, // unsupported
-		FlagWill = 4,			    // unsupported
-		FlagCleanSession = 2,	// unsupported
-		FlagReserved = 1
-	};
-	public:
-		MqttClient(MqttBroker*);
-		MqttClient() : MqttClient(nullptr) {};
+  using CallBack = void (*)(const MqttClient* source, const Topic& topic, const char* payload, size_t payload_length);
+  enum __attribute__((packed)) Flags
+  {
+    FlagUserName = 128,
+    FlagPassword = 64,
+    FlagWillRetain = 32,  // unsupported
+    FlagWillQos = 16 | 8, // unsupported
+    FlagWill = 4,          // unsupported
+    FlagCleanSession = 2,  // unsupported
+    FlagReserved = 1
+  };
+  public:
+    /** Constructor. If broker is not null, this is the adress of a local broker.
+        If you want to connect elsewhere, leave broker null and use connect() **/
+    MqttClient(MqttBroker* broker = nullptr, const std::string& id="");
+    MqttClient(const std::string& id) : MqttClient(nullptr, id){}
 
-		~MqttClient();
+    ~MqttClient();
 
-		void connect(MqttBroker* parent);
-		void connect(std::string broker, uint16_t port, uint16_t ka=10);
+    void connect(MqttBroker* parent);
+    void connect(std::string broker, uint16_t port, uint16_t keep_alive = 10);
 
-		bool connected() { return
-			(parent!=nullptr and client==nullptr) or
-			(client and client->connected()); }
-		void write(const char* buf, size_t length)
-		{ if (client) client->write(buf, length); }
+    // TODO it seems that connected returns true in tcp mode even if
+    // no negociation occured (only if tcp link is established)
+    bool connected() { return
+      (parent!=nullptr and client==nullptr) or
+      (client and client->connected()); }
+    void write(const char* buf, size_t length)
+    { if (client) client->write(buf, length); }
 
-		const std::string& id() const { return clientId; }
-		void id(std::string& new_id) { clientId = new_id; }
+    const std::string& id() const { return clientId; }
+    void id(std::string& new_id) { clientId = new_id; }
 
-		void loop();
-		void close();
-		void setCallback(CallBack fun) {callback=fun; };
+    /** Should be called in main loop() */
+    void loop();
+    void close(bool bSendDisconnect=true);
+    void setCallback(CallBack fun)
+    {
+      callback=fun;
+      #ifdef TINY_MQTT_DEBUG
+        Serial << "Callback set to " << (long)fun << endl;
+        if (callback) callback(this, "test/topic", "value", 5);
+      #endif
+    };
 
-		// Publish from client to the world
-		MqttError publish(const Topic&, const char* payload, size_t pay_length);
-		MqttError publish(const Topic& t, const String& s) { return publish(t, s.c_str(), s.length()); }
-		MqttError publish(const Topic& t, const std::string& s) { return publish(t,s.c_str(),s.length());}
-		MqttError publish(const Topic& t) { return publish(t, nullptr, 0);};
+    // Publish from client to the world
+    MqttError publish(const Topic&, const char* payload, size_t pay_length);
+    MqttError publish(const Topic& t, const char* payload) { return publish(t, payload, strlen(payload)); }
+    MqttError publish(const Topic& t, const String& s) { return publish(t, s.c_str(), s.length()); }
+    MqttError publish(const Topic& t, const std::string& s) { return publish(t,s.c_str(),s.length());}
+    MqttError publish(const Topic& t) { return publish(t, nullptr, 0);};
 
-		MqttError subscribe(Topic topic, uint8_t qos=0);
-		MqttError unsubscribe(Topic& topic);
+    MqttError subscribe(Topic topic, uint8_t qos=0);
+    MqttError unsubscribe(Topic topic);
+    bool isSubscribedTo(const Topic& topic) const;
 
-		// connected to local broker
-		// TODO seems to be useless
-		bool isLocal() const { return client == nullptr; }
+    // connected to local broker
+    // TODO seems to be useless
+    bool isLocal() const { return client == nullptr; }
 
-#ifdef TINY_MQTT_DEBUG
-		void dump()
-		{
-			uint32_t ms=millis();
-			Serial << "MqttClient (" << clientId.c_str() << ") p=" << (int32_t) parent
-				<< " c=" << (int32_t)client << (connected() ? " ON " : " OFF"); 
-			Serial << ", alive=" << (uint32_t)alive << '/' << ms << ", ka=" << keep_alive;
-			Serial << " cnx " << (client && client->connected());
-			Serial << " [";
-		  message.hexdump("entrant msg");
-			bool c=false;
-			for(auto s: subscriptions)
-			{
-				Serial << (c?", ": "")<< s.str().c_str();
-				c=true;
-			}
+    void dump(std::string indent="")
+    {
+      (void)indent;
+      #ifdef TINY_MQTT_DEBUG
+        uint32_t ms=millis();
+        Serial << indent << "+-- " << '\'' << clientId.c_str() << "' " << (connected() ? " ON " : " OFF");
+        Serial << ", alive=" << alive << '/' << ms << ", ka=" << keep_alive << ' ';
+        Serial << (client && client->connected() ? "" : "dis") << "connected";
+        if (subscriptions.size())
+        {
+          bool c = false;
+          Serial << " [";
+          for(auto s: subscriptions)
+            (void)indent;
+          {
+            if (c) Serial << ", ";
+            Serial << s.str().c_str();
+            c=true;
+          }
+          Serial << ']';
+        }
+        Serial << endl;
+      #endif
+    }
 
-			
-			Serial << "]" << endl;
-		}
+#ifdef EPOXY_DUINO
+    static std::map<MqttMessage::Type, int> counters;  // Number of processed messages
 #endif
 
-	private:
-		friend class MqttBroker;
-		MqttClient(MqttBroker* parent, WiFiClient& client);
-		// republish a received publish if topic matches any in subscriptions
-		MqttError publish(const Topic& topic, MqttMessage& msg);
+  private:
 
-		void clientAlive(uint32_t more_seconds);
-		void processMessage();
+    // event when tcp/ip link established (real or fake)
+    static void onConnect(void * client_ptr, TcpClient*);
+#ifdef TCP_ASYNC
+    static void onData(void* client_ptr, TcpClient*, void* data, size_t len);
+#endif
+    MqttError sendTopic(const Topic& topic, MqttMessage::Type type, uint8_t qos);
+    void resubscribe();
 
-		bool mqtt_connected = false;
-		char mqtt_flags;
-		uint32_t keep_alive;
-		uint32_t alive;
-		MqttMessage message;
+    friend class MqttBroker;
+    MqttClient(MqttBroker* parent, TcpClient* client);
+    // republish a received publish if topic matches any in subscriptions
+    MqttError publishIfSubscribed(const Topic& topic, MqttMessage& msg);
 
-		// TODO	having a pointer on MqttBroker may produce larger binaries
-		// due to unecessary function linked if ever parent is not used
-		// (this is the case when MqttBroker isn't used except here)
-		MqttBroker* parent=nullptr;		// connection to local broker
+    void clientAlive(uint32_t more_seconds);
+    void processMessage(MqttMessage* message);
 
-		WiFiClient* client=nullptr;		// connection to mqtt client or to remote broker
-		std::set<Topic>	subscriptions;
-		std::string clientId;
-		CallBack callback = nullptr;
+    bool mqtt_connected = false;
+    char mqtt_flags;
+    uint32_t keep_alive = 60;
+    uint32_t alive;
+    MqttMessage message;
+
+    // TODO  having a pointer on MqttBroker may produce larger binaries
+    // due to unecessary function linked if ever parent is not used
+    // (this is the case when MqttBroker isn't used except here)
+    MqttBroker* parent=nullptr;    // connection to local broker
+
+    TcpClient* client=nullptr;    // connection to remote broker
+    std::set<Topic>  subscriptions;
+    std::string clientId;
+    CallBack callback = nullptr;
 };
 
 class MqttBroker
 {
-	enum State
-	{
-		Disconnected,	// Also the initial state
-		Connecting,		// connect and sends a fake publish to avoid circular cnx
-		Connected,		// this->broker is connected and circular cnx avoided
-	};
-	public:
-	  // TODO limit max number of clients
-		MqttBroker(uint16_t port);
-		~MqttBroker();
+  enum __attribute__((packed)) State
+  {
+    Disconnected,  // Also the initial state
+    Connecting,    // connect and sends a fake publish to avoid circular cnx
+    Connected,    // this->broker is connected and circular cnx avoided
+  };
+  public:
+    // TODO limit max number of clients
+    MqttBroker(uint16_t port);
+    ~MqttBroker();
 
-		void begin() { server.begin(); }
-		void loop();
+    void begin() { server->begin(); }
+    void loop();
 
-		uint8_t port() const { return server.port(); }
+    void connect(const std::string& host, uint16_t port=1883);
+    bool connected() const { return state == Connected; }
 
-		void connect(std::string host, uint32_t port=1883);
-		bool connected() const { return state == Connected; }
+    size_t clientsCount() const { return clients.size(); }
 
-#ifdef TINY_MQTT_DEBUG
-		void dump()
-		{
-			Serial << clients.size() << " client/s" << endl;
-			for(auto client: clients)
-			{
-				Serial << "  ";
-				client->dump();
-			}
-		}
-#endif
+    void dump(std::string indent="")
+    {
+      for(auto client: clients)
+        client->dump(indent);
+    }
 
-	private:
-		friend class MqttClient;
+  private:
+    friend class MqttClient;
 
-		bool checkUser(const char* user, uint8_t len) const
-		{ return compareString(auth_user, user, len); }
+    static void onClient(void*, TcpClient*);
+    bool checkUser(const char* user, uint8_t len) const
+    { return compareString(auth_user, user, len); }
 
-		bool checkPassword(const char* password, uint8_t len) const
-		{ return compareString(auth_password, password, len); }
+    bool checkPassword(const char* password, uint8_t len) const
+    { return compareString(auth_password, password, len); }
 
 
-		MqttError publish(const MqttClient* source, const Topic& topic, MqttMessage& msg);
+    MqttError publish(const MqttClient* source, const Topic& topic, MqttMessage& msg) const;
 
-		// For clients that are added not by the broker itself
-		void addClient(MqttClient* client);
-		void removeClient(MqttClient* client);
+    MqttError subscribe(const Topic& topic, uint8_t qos);
 
-		bool compareString(const char* good, const char* str, uint8_t str_len) const;
-		std::vector<MqttClient*>	clients;
-		WiFiServer server;
+    // For clients that are added not by the broker itself
+    void addClient(MqttClient* client);
+    void removeClient(MqttClient* client);
 
-		const char* auth_user = "guest";
-		const char* auth_password = "guest";
-		State state = Disconnected;
+    bool compareString(const char* good, const char* str, uint8_t str_len) const;
+    std::vector<MqttClient*>  clients;
+    TcpServer* server;
 
-		MqttClient* broker = nullptr;
+    const char* auth_user = "guest";
+    const char* auth_password = "guest";
+    State state = Disconnected;
+
+    MqttClient* broker = nullptr;
 };

tests/Makefile

@@ -0,0 +1,20 @@
+tests:
+	set -e; \
+	for i in *-tests/Makefile; do \
+		echo '==== Making:' $$(dirname $$i); \
+		$(MAKE) -C $$(dirname $$i) -j; \
+	done
+
+runtests: tests
+	set -e; \
+	for i in *-tests/Makefile; do \
+		echo '==== Running:' $$(dirname $$i); \
+		$$(dirname $$i)/$$(dirname $$i).out; \
+	done
+
+clean:
+	set -e; \
+	for i in *-tests/Makefile; do \
+		echo '==== Cleaning:' $$(dirname $$i); \
+		$(MAKE) -C $$(dirname $$i) clean; \
+	done

tests/howto

@@ -0,0 +1,7 @@
+cd TinyMqtt/tests/../..
+git clone https://github.com/hsaturn/EspMock.git
+git clone https://github.com/bxparks/AUnit.git
+git clone https://github.com/bxparks/EpoxyDuino.git
+cd TinyMqtt/tests
+make
+make runtests

tests/length-tests.todo/Makefile

@@ -0,0 +1,8 @@
+# See https://github.com/bxparks/EpoxyDuino for documentation about this
+# Makefile to compile and run Arduino programs natively on Linux or MacOS.
+
+APP_NAME := length-tests
+ARDUINO_LIBS := AUnit AceCommon AceTime TinyMqtt EspMock ESP8266WiFi  ESPAsyncTCP
+ARDUINO_LIB_DIRS := ../../../EspMock/libraries
+EPOXY_CORE := EPOXY_CORE_ESP8266
+include ../../../EpoxyDuino/EpoxyDuino.mk

tests/length-tests.todo/length-tests.ino

@@ -0,0 +1,53 @@
+#include <AUnit.h>
+#include <TinyMqtt.h>
+#include <map>
+
+/**
+	* TinyMqtt local unit tests.
+	*
+	* Clients are connected to pseudo remote broker
+	* The remote should be 127.0.0.1:1883 <--- But this does not work due to Esp network limitations
+	* We are using 127.0.0.1 because this is simpler to test with a single ESP
+	* Also, this will allow to mock and thus run Action on github
+	**/
+
+using namespace std;
+
+MqttBroker broker(1883);
+
+std::map<std::string, std::map<Topic, int>>	published;		// map[client_id] => map[topic] = count
+
+const char* lastPayload;
+size_t lastLength;
+
+void onPublish(const MqttClient* srce, const Topic& topic, const char* payload, size_t length)
+{
+	if (srce)
+		published[srce->id()][topic]++;
+  lastPayload = payload;
+	lastLength = length;
+}
+
+test(length_decode_greater_than_127)
+{
+  // TODO WRITE THIS TEST
+  // The test should verify than a mqtt message with more than 127 bytes is correctly decoded
+	assertEqual(1,2);
+}
+
+
+//----------------------------------------------------------------------------
+// setup() and loop()
+void setup() {
+	delay(1000);
+	Serial.begin(115200);
+	while(!Serial);
+
+	Serial.println("=============[ NO WIFI CONNECTION TinyMqtt TESTS ]========================");
+}
+
+void loop() {
+	aunit::TestRunner::run();
+
+	if (Serial.available()) ESP.reset();
+}

tests/local-tests/Makefile

@@ -0,0 +1,13 @@
+# See https://github.com/bxparks/EpoxyDuino for documentation about this
+# Makefile to compile and run Arduino programs natively on Linux or MacOS.
+
+EXTRA_CXXFLAGS=-g3 -O0
+
+# Remove flto flag from EpoxyDuino (too many <optimized out>)
+CXXFLAGS = -Wextra -Wall -std=gnu++11 -fno-exceptions -fno-threadsafe-statics
+
+APP_NAME := local-tests
+ARDUINO_LIBS := AUnit AceCommon AceTime TinyMqtt EspMock ESP8266WiFi  ESPAsyncTCP
+ARDUINO_LIB_DIRS := ../../../EspMock/libraries
+EPOXY_CORE := EPOXY_CORE_ESP8266
+include ../../../EpoxyDuino/EpoxyDuino.mk

tests/local-tests/local-tests.ino

@@ -0,0 +1,151 @@
+#include <Arduino.h>
+#include <AUnit.h>
+#include <TinyMqtt.h>
+#include <map>
+
+/**
+	* TinyMqtt local unit tests.
+	*
+	* Clients are connected to pseudo remote broker
+	* The remote should be 127.0.0.1:1883 <--- But this does not work due to Esp network limitations
+	* We are using 127.0.0.1 because this is simpler to test with a single ESP
+	* Also, this will allow to mock and thus run Action on github
+	**/
+
+using namespace std;
+
+MqttBroker broker(1883);
+
+std::map<std::string, std::map<Topic, int>>	published;		// map[client_id] => map[topic] = count
+
+const char* lastPayload;
+size_t lastLength;
+
+void onPublish(const MqttClient* srce, const Topic& topic, const char* payload, size_t length)
+{
+	if (srce)
+		published[srce->id()][topic]++;
+  lastPayload = payload;
+	lastLength = length;
+}
+
+test(local_client_should_unregister_when_destroyed)
+{
+	assertEqual(broker.clientsCount(), (size_t)0);
+	{
+		assertEqual(broker.clientsCount(), (size_t)0);	// Ensure client is not yet connected
+		MqttClient client(&broker);
+		assertEqual(broker.clientsCount(), (size_t)1);	// Ensure client is now connected
+	}
+	assertEqual(broker.clientsCount(), (size_t)0);
+}
+
+#if 0
+test(local_connect)
+{
+	assertEqual(broker.clientsCount(), (size_t)0);
+
+	MqttClient client;
+	assertTrue(client.connected());
+	assertEqual(broker.clientsCount(), (size_t)1);
+}
+
+test(local_publish_should_be_dispatched)
+{
+	published.clear();
+	assertEqual(broker.clientsCount(), (size_t)0);
+
+	MqttClient subscriber;
+	subscriber.subscribe("a/b");
+	subscriber.subscribe("a/c");
+	subscriber.setCallback(onPublish);
+
+	MqttClient publisher;
+	publisher.publish("a/b");
+	publisher.publish("a/c");
+	publisher.publish("a/c");
+
+	assertEqual(published.size(), (size_t)1);	// 1 client has received something
+	assertEqual(published[""]["a/b"], 1);
+	assertEqual(published[""]["a/c"], 2);
+}
+
+test(local_publish_should_be_dispatched_to_local_clients)
+{
+	published.clear();
+	assertEqual(broker.clientsCount(), (size_t)0);
+
+	MqttClient subscriber_a("A");
+	subscriber_a.setCallback(onPublish);
+	subscriber_a.subscribe("a/b");
+	subscriber_a.subscribe("a/c");
+
+	MqttClient subscriber_b("B");
+	subscriber_b.setCallback(onPublish);
+	subscriber_b.subscribe("a/b");
+
+	MqttClient publisher;
+	publisher.publish("a/b");
+	publisher.publish("a/c");
+
+	assertEqual(published.size(), (size_t)2);	// 2 clients have received something
+	assertEqual(published["A"]["a/b"], 1);
+	assertEqual(published["A"]["a/c"], 1);
+	assertEqual(published["B"]["a/b"], 1);
+	assertEqual(published["B"]["a/c"], 0);
+}
+
+test(local_unsubscribe)
+{
+	published.clear();
+	assertEqual(broker.clientsCount(), (size_t)0);
+
+	MqttClient subscriber;
+	subscriber.setCallback(onPublish);
+	subscriber.subscribe("a/b");
+
+	MqttClient publisher;
+	publisher.publish("a/b");
+
+	subscriber.unsubscribe("a/b");
+
+	publisher.publish("a/b");
+	publisher.publish("a/b");
+
+	assertEqual(published[""]["a/b"], 1);	// Only one publish has been received
+}
+
+test(local_nocallback_when_destroyed)
+{
+	published.clear();
+	assertEqual(broker.clientsCount(), (size_t)0);
+
+	MqttClient publisher;
+	{
+		MqttClient subscriber;
+		subscriber.setCallback(onPublish);
+		subscriber.subscribe("a/b");
+		publisher.publish("a/b");
+	}
+
+	publisher.publish("a/b");
+
+	assertEqual(published.size(), (size_t)1);	// Only one publish has been received
+}
+#endif
+
+//----------------------------------------------------------------------------
+// setup() and loop()
+void setup() {
+	delay(1000);
+	Serial.begin(115200);
+	while(!Serial);
+
+	Serial.println("=============[ LOCAL TinyMqtt TESTS              ]========================");
+}
+
+void loop() {
+	aunit::TestRunner::run();
+
+	if (Serial.available()) ESP.reset();
+}

tests/network-tests/Makefile

@@ -0,0 +1,13 @@
+# See https://github.com/bxparks/EpoxyDuino for documentation about this
+# Makefile to compile and run Arduino programs natively on Linux or MacOS.
+
+EXTRA_CXXFLAGS=-g3 -O0
+
+# Remove flto flag from EpoxyDuino (too many <optimized out>)
+CXXFLAGS = -Wextra -Wall -std=gnu++11 -fno-exceptions -fno-threadsafe-statics
+
+APP_NAME := network-tests
+ARDUINO_LIBS := AUnit AceCommon AceTime TinyMqtt EspMock ESP8266WiFi  ESPAsyncTCP
+ARDUINO_LIB_DIRS := ../../../EspMock/libraries
+EPOXY_CORE := EPOXY_CORE_ESP8266
+include ../../../EpoxyDuino/EpoxyDuino.mk

tests/network-tests/network-tests.ino

@@ -0,0 +1,429 @@
+#include <Arduino.h>
+#include <AUnit.h>
+#include <TinyMqtt.h>
+#include <map>
+#include <iostream>
+#include <iomanip>
+#include <sstream>
+#include <string>
+
+/**
+  * TinyMqtt network unit tests.
+	*
+	* No wifi connection unit tests.
+  * Checks with a local broker. Clients must connect to the local broker
+	**/
+
+// if ascii_pos = 0, no ascii dump, else ascii dump starts after column ascii_pos
+std::string bufferToHexa(const uint8_t* buffer, size_t length, char sep = 0, size_t ascii_pos = 0)
+{
+  std::stringstream out;
+  std::string ascii;
+  std::string h("0123456789ABCDEF");
+  for(size_t i=0; i<length; i++)
+  {
+    uint8_t c = buffer[i];
+    out << h[ c >> 4] << h[ c & 0x0F ];
+    if (sep) out << sep;
+    if (ascii_pos)
+    {
+      if (c>=32)
+        ascii += c;
+      else
+        ascii +='.';
+    }
+  }
+  std::string ret(out.str());
+  if (ascii_pos)
+  {
+    while(ret.length() < ascii_pos)
+      ret += ' ';
+    ret +='[' + ascii + ']';
+  }
+  return ret;
+}
+
+void dumpMqttMessage(const uint8_t* buffer, size_t length)
+{
+  std::map<int, std::string> pkt =
+  { { MqttMessage::Unknown     , "Unknown     " },
+    { MqttMessage::Connect     , "Connect     " },
+    { MqttMessage::ConnAck     , "ConnAck     " },
+    { MqttMessage::Publish     , "Publish     " },
+    { MqttMessage::PubAck      , "PubAck      " },
+    { MqttMessage::Subscribe   , "Subscribe   " },
+    { MqttMessage::SubAck      , "SubAck      " },
+    { MqttMessage::UnSubscribe , "Unsubscribe " },
+    { MqttMessage::UnSuback    , "UnSubAck    " },
+    { MqttMessage::PingReq     , "PingReq     " },
+    { MqttMessage::PingResp    , "PingResp    " },
+    { MqttMessage::Disconnect  , "Disconnect  " } };
+
+  std::cout << "       |   data sent " << std::setw(3) << length << " : ";
+  auto it = pkt.find(buffer[0] & 0xF0);
+  if (it == pkt.end())
+    std::cout << pkt[MqttMessage::Unknown];
+  else
+    std::cout << it->second;
+
+  std::cout << bufferToHexa(buffer, length, ' ', 60) << std::endl;
+}
+
+String toString(const IPAddress& ip)
+{
+  return String(ip[0])+'.'+String(ip[1])+'.'+String(ip[2])+'.'+String(ip[3]);
+}
+
+MqttBroker broker(1883);
+
+std::map<std::string, std::map<Topic, int>>	published;		// map[client_id] => map[topic] = count
+
+char* lastPayload = nullptr;
+size_t lastLength;
+
+void start_servers(int n, bool early_accept = true)
+{
+    ESP8266WiFiClass::resetInstances();
+    ESP8266WiFiClass::earlyAccept = early_accept;
+    while(n)
+    {
+      ESP8266WiFiClass::selectInstance(n--);
+      WiFi.mode(WIFI_STA);
+      WiFi.begin("fake_ssid", "fake_pwd");
+    }
+}
+
+void onPublish(const MqttClient* srce, const Topic& topic, const char* payload, size_t length)
+{
+	if (srce)
+		published[srce->id()][topic]++;
+	
+	if (lastPayload) free(lastPayload);
+  lastPayload = strdup(payload);
+	lastLength = length;
+}
+
+test(network_single_broker_begin)
+{
+  assertEqual(WiFi.status(), WL_CONNECTED);
+
+  MqttBroker broker(1883);
+  broker.begin();
+
+  // TODO Nothing is tested here !
+}
+
+test(suback)
+{
+  start_servers(2, true);
+  assertEqual(WiFi.status(), WL_CONNECTED);
+
+  MqttBroker broker(1883);
+  broker.begin();
+  IPAddress broker_ip = WiFi.localIP();
+
+  ESP8266WiFiClass::selectInstance(2);
+  MqttClient client;
+  client.connect(broker_ip.toString().c_str(), 1883);
+  broker.loop();
+
+  assertTrue(broker.clientsCount() == 1);
+  assertTrue(client.connected());
+
+  MqttClient::counters[MqttMessage::Type::SubAck] = 0;
+  client.subscribe("a/b");
+
+  // TODO how to avoid these loops ???
+  broker.loop();
+  client.loop();
+
+  assertEqual(MqttClient::counters[MqttMessage::Type::SubAck], 1);
+}
+
+test(network_client_to_broker_connexion)
+{
+  start_servers(2, true);
+  assertEqual(WiFi.status(), WL_CONNECTED);
+
+  MqttBroker broker(1883);
+  broker.begin();
+  IPAddress broker_ip = WiFi.localIP();
+
+  ESP8266WiFiClass::selectInstance(2);
+  MqttClient client;
+  client.connect(broker_ip.toString().c_str(), 1883);
+  broker.loop();
+
+  assertTrue(broker.clientsCount() == 1);
+  assertTrue(client.connected());
+}
+
+test(network_one_client_one_broker_publish_and_subscribe_through_network)
+{
+  start_servers(2, true);
+  published.clear();
+  assertEqual(WiFi.status(), WL_CONNECTED);
+
+  MqttBroker broker(1883);
+  broker.begin();
+  IPAddress ip_broker = WiFi.localIP();
+
+  // We have a 2nd ESP in order to test through wifi (opposed to local)
+  ESP8266WiFiClass::selectInstance(2);
+  MqttClient client;
+  client.connect(ip_broker.toString().c_str(), 1883);
+  broker.loop();
+  assertTrue(client.connected());
+
+  client.setCallback(onPublish);
+  client.subscribe("a/b");
+  client.publish("a/b", "ab");
+
+  for (int i =0; i<2; i++)
+  {
+    client.loop();
+    broker.loop();
+  }
+  
+  assertEqual(published.size(), (size_t)1);
+  assertEqual((int)lastLength, (int)2); // sizeof(ab)
+}
+
+test(network_one_client_one_broker_hudge_publish_and_subscribe_through_network)
+{
+  start_servers(2, true);
+  published.clear();
+  assertEqual(WiFi.status(), WL_CONNECTED);
+
+  MqttBroker broker(1883);
+  broker.begin();
+  IPAddress ip_broker = WiFi.localIP();
+
+  // We have a 2nd ESP in order to test through wifi (opposed to local)
+  ESP8266WiFiClass::selectInstance(2);
+  MqttClient client;
+  client.connect(ip_broker.toString().c_str(), 1883);
+  broker.loop();
+  assertTrue(client.connected());
+
+  std::string sent;
+
+  for(int i=0; i<200; i++)
+    sent += char('0'+i%10);
+
+  client.setCallback(onPublish);
+  client.subscribe("a/b");
+  client.publish("a/b", sent.c_str());
+
+  for (int i =0; i<2; i++)
+  {
+    client.loop();
+    broker.loop();
+  }
+
+  assertEqual(published.size(), (size_t)1);
+  assertEqual((unsigned int)lastLength, (unsigned int)sent.size());
+}
+
+test(network_client_should_unregister_when_destroyed)
+{
+	assertEqual(broker.clientsCount(), (size_t)0);
+	{
+		MqttClient client(&broker);
+		assertEqual(broker.clientsCount(), (size_t)1);
+	}
+	assertEqual(broker.clientsCount(), (size_t)0);
+}
+
+
+// THESE TESTS ARE IN LOCAL MODE
+// WE HAVE TO CONVERT THEM TO WIFI MODE (pass through virtual TCP link)
+
+test(network_connect)
+{
+	assertEqual(broker.clientsCount(), (size_t)0);
+
+	MqttClient client(&broker);
+	assertTrue(client.connected());
+	assertEqual(broker.clientsCount(), (size_t)1);
+}
+
+test(network_publish_should_be_dispatched)
+{
+	published.clear();
+	assertEqual(broker.clientsCount(), (size_t)0);
+
+	MqttClient subscriber(&broker);
+	subscriber.subscribe("a/b");
+	subscriber.subscribe("a/c");
+	subscriber.setCallback(onPublish);
+
+	MqttClient publisher(&broker);
+	publisher.publish("a/b");
+	publisher.publish("a/c");
+	publisher.publish("a/c");
+
+	assertEqual(published.size(), (size_t)1);	// 1 client has received something
+	assertEqual(published[""]["a/b"], 1);
+	assertEqual(published[""]["a/c"], 2);
+}
+
+test(network_publish_should_be_dispatched_to_clients)
+{
+	published.clear();
+	assertEqual(broker.clientsCount(), (size_t)0);
+
+	MqttClient subscriber_a(&broker, "A");
+	subscriber_a.setCallback(onPublish);
+	subscriber_a.subscribe("a/b");
+	subscriber_a.subscribe("a/c");
+
+	MqttClient subscriber_b(&broker, "B");
+	subscriber_b.setCallback(onPublish);
+	subscriber_b.subscribe("a/b");
+
+	MqttClient publisher(&broker);
+	publisher.publish("a/b");		// A and B should receive this
+	publisher.publish("a/c");		// A should receive this 
+
+	assertEqual(published.size(), (size_t)2);	// 2 clients have received something
+	assertEqual(published["A"]["a/b"], 1);
+	assertEqual(published["A"]["a/c"], 1);
+	assertEqual(published["B"]["a/b"], 1);
+	assertEqual(published["B"]["a/c"], 0);
+}
+
+test(network_unsubscribe)
+{
+	published.clear();
+	assertEqual(broker.clientsCount(), (size_t)0);
+
+	MqttClient subscriber(&broker);
+	subscriber.setCallback(onPublish);
+	subscriber.subscribe("a/b");
+
+	MqttClient publisher(&broker);
+	publisher.publish("a/b");		// This publish is received
+
+	subscriber.unsubscribe("a/b");
+
+	publisher.publish("a/b");		// Those one, no (unsubscribed)
+	publisher.publish("a/b");
+
+	assertEqual(published[""]["a/b"], 1);	// Only one publish has been received
+}
+
+test(network_nocallback_when_destroyed)
+{
+	published.clear();
+	assertEqual(broker.clientsCount(), (size_t)0);
+
+	MqttClient publisher(&broker);
+
+	{
+		MqttClient subscriber(&broker);
+		subscriber.setCallback(onPublish);
+		subscriber.subscribe("a/b");
+		publisher.publish("a/b");
+	}
+
+	publisher.publish("a/b");
+
+	assertEqual(published.size(), (size_t)1);	// Only one publish has been received
+}
+
+test(network_small_payload)
+{
+	published.clear();
+
+	const char* payload="abcd";
+
+	MqttClient subscriber(&broker);
+	subscriber.setCallback(onPublish);
+	subscriber.subscribe("a/b");
+
+	MqttClient publisher(&broker);
+	publisher.publish("a/b", payload, strlen(payload));		// This publish is received
+
+  // coming from MqttClient::publish(...)
+  assertEqual(payload, lastPayload);
+	assertEqual(lastLength, (size_t)4);
+}
+
+test(network_hudge_payload)
+{
+  const char* payload="This payload is hudge, just because its length exceeds 127. Thus when encoding length, we have to encode it on two bytes at min. This should not prevent the message from being encoded and decoded successfully !";
+
+  MqttClient subscriber(&broker);
+  subscriber.setCallback(onPublish);
+  subscriber.subscribe("a/b");          // Note -> this does not send any byte .... (nowhere to send)
+
+	MqttClient publisher(&broker);
+	publisher.publish("a/b", payload);		// This publish is received
+
+  // onPublish should have filled lastPayload and lastLength
+  assertEqual(payload, lastPayload);
+	assertEqual(lastLength, strlen(payload));
+	assertEqual(strcmp(payload, lastPayload), 0);
+}
+
+test(connack)
+{
+  const bool view = false;
+
+  NetworkObserver check(
+    [this](const WiFiClient*, const uint8_t* buffer, size_t length)
+    {
+      if (view) dumpMqttMessage(buffer, length);
+      if (buffer[0] == MqttMessage::ConnAck)
+      {
+        std::string hex = bufferToHexa(buffer, length);
+        assertStringCaseEqual(hex.c_str(), "20020000");
+      }
+    }
+  );
+
+  start_servers(2, true);
+  assertEqual(WiFi.status(), WL_CONNECTED);
+
+  MqttBroker broker(1883);
+  broker.begin();
+  IPAddress broker_ip = WiFi.localIP();
+
+  ESP8266WiFiClass::selectInstance(2);
+  MqttClient client;
+  client.connect(broker_ip.toString().c_str(), 1883);
+  broker.loop();
+
+  assertTrue(broker.clientsCount() == 1);
+  assertTrue(client.connected());
+
+  MqttClient::counters[MqttMessage::Type::SubAck] = 0;
+  client.subscribe("a/b");
+
+  // TODO how to avoid these loops ???
+  broker.loop();
+  client.loop();
+
+  assertEqual(MqttClient::counters[MqttMessage::Type::SubAck], 1);
+}
+
+//----------------------------------------------------------------------------
+// setup() and loop()
+void setup() {
+	/* delay(1000);
+	Serial.begin(115200);
+	while(!Serial);
+	*/
+
+	Serial.println("=============[ FAKE NETWORK TinyMqtt TESTS       ]========================");
+
+	WiFi.mode(WIFI_STA);
+	WiFi.begin("network", "password");
+}
+
+void loop() {
+	aunit::TestRunner::run();
+
+	if (Serial.available()) ESP.reset();
+}

tests/nowifi-tests/Makefile

@@ -0,0 +1,13 @@
+# See https://github.com/bxparks/EpoxyDuino for documentation about this
+# Makefile to compile and run Arduino programs natively on Linux or MacOS.
+
+EXTRA_CXXFLAGS=-g3 -O0
+
+# Remove flto flag from EpoxyDuino (too many <optimized out>)
+CXXFLAGS = -Wextra -Wall -std=gnu++11 -fno-exceptions -fno-threadsafe-statics
+
+APP_NAME := nowifi-tests
+ARDUINO_LIBS := AUnit AceCommon AceTime TinyMqtt EspMock ESP8266WiFi  ESPAsyncTCP
+ARDUINO_LIB_DIRS := ../../../EspMock/libraries
+EPOXY_CORE := EPOXY_CORE_ESP8266
+include ../../../EpoxyDuino/EpoxyDuino.mk

tests/nowifi-tests/nowifi-tests.ino

@@ -0,0 +1,183 @@
+#include <Arduino.h>
+#include <AUnit.h>
+#include <TinyMqtt.h>
+#include <map>
+
+/**
+  * TinyMqtt nowifi unit tests.
+	*
+	* No wifi connection unit tests.
+  * Checks with a local broker. Clients must connect to the local broker
+	**/
+
+using namespace std;
+
+MqttBroker broker(1883);
+
+std::map<std::string, std::map<Topic, int>>	published;		// map[client_id] => map[topic] = count
+
+char* lastPayload = nullptr;
+size_t lastLength;
+
+void onPublish(const MqttClient* srce, const Topic& topic, const char* payload, size_t length)
+{
+	if (srce)
+		published[srce->id()][topic]++;
+	
+	if (lastPayload) free(lastPayload);
+  lastPayload = strdup(payload);
+	lastLength = length;
+}
+
+test(nowifi_client_should_unregister_when_destroyed)
+{
+	assertEqual(broker.clientsCount(), (size_t)0);
+	{
+		MqttClient client(&broker);
+		assertEqual(broker.clientsCount(), (size_t)1);
+	}
+	assertEqual(broker.clientsCount(), (size_t)0);
+}
+
+test(nowifi_connect)
+{
+	assertEqual(broker.clientsCount(), (size_t)0);
+
+	MqttClient client(&broker);
+	assertTrue(client.connected());
+	assertEqual(broker.clientsCount(), (size_t)1);
+}
+
+test(nowifi_publish_should_be_dispatched)
+{
+	published.clear();
+	assertEqual(broker.clientsCount(), (size_t)0);
+
+	MqttClient subscriber(&broker);
+	subscriber.subscribe("a/b");
+	subscriber.subscribe("a/c");
+	subscriber.setCallback(onPublish);
+
+	MqttClient publisher(&broker);
+	publisher.publish("a/b");
+	publisher.publish("a/c");
+	publisher.publish("a/c");
+
+	assertEqual(published.size(), (size_t)1);	// 1 client has received something
+	assertEqual(published[""]["a/b"], 1);
+	assertEqual(published[""]["a/c"], 2);
+}
+
+test(nowifi_publish_should_be_dispatched_to_clients)
+{
+	published.clear();
+	assertEqual(broker.clientsCount(), (size_t)0);
+
+	MqttClient subscriber_a(&broker, "A");
+	subscriber_a.setCallback(onPublish);
+	subscriber_a.subscribe("a/b");
+	subscriber_a.subscribe("a/c");
+
+	MqttClient subscriber_b(&broker, "B");
+	subscriber_b.setCallback(onPublish);
+	subscriber_b.subscribe("a/b");
+
+	MqttClient publisher(&broker);
+	publisher.publish("a/b");		// A and B should receive this
+	publisher.publish("a/c");		// A should receive this 
+
+	assertEqual(published.size(), (size_t)2);	// 2 clients have received something
+	assertEqual(published["A"]["a/b"], 1);
+	assertEqual(published["A"]["a/c"], 1);
+	assertEqual(published["B"]["a/b"], 1);
+	assertEqual(published["B"]["a/c"], 0);
+}
+
+test(nowifi_unsubscribe)
+{
+	published.clear();
+	assertEqual(broker.clientsCount(), (size_t)0);
+
+	MqttClient subscriber(&broker);
+	subscriber.setCallback(onPublish);
+	subscriber.subscribe("a/b");
+
+	MqttClient publisher(&broker);
+	publisher.publish("a/b");		// This publish is received
+
+	subscriber.unsubscribe("a/b");
+
+	publisher.publish("a/b");		// Those one, no (unsubscribed)
+	publisher.publish("a/b");
+
+	assertEqual(published[""]["a/b"], 1);	// Only one publish has been received
+}
+
+test(nowifi_nocallback_when_destroyed)
+{
+	published.clear();
+	assertEqual(broker.clientsCount(), (size_t)0);
+
+	MqttClient publisher(&broker);
+
+	{
+		MqttClient subscriber(&broker);
+		subscriber.setCallback(onPublish);
+		subscriber.subscribe("a/b");
+		publisher.publish("a/b");
+	}
+
+	publisher.publish("a/b");
+
+	assertEqual(published.size(), (size_t)1);	// Only one publish has been received
+}
+
+test(nowifi_small_payload)
+{
+	published.clear();
+
+	const char* payload="abcd";
+
+	MqttClient subscriber(&broker);
+	subscriber.setCallback(onPublish);
+	subscriber.subscribe("a/b");
+
+	MqttClient publisher(&broker);
+	publisher.publish("a/b", payload, strlen(payload));		// This publish is received
+
+  // coming from MqttClient::publish(...)
+  assertEqual(payload, lastPayload);
+	assertEqual(lastLength, (size_t)4);
+}
+
+test(nowifi_hudge_payload)
+{
+  const char* payload="This payload is hudge, just because its length exceeds 127. Thus when encoding length, we have to encode it on two bytes at min. This should not prevent the message from being encoded and decoded successfully !";
+
+  MqttClient subscriber(&broker);
+  subscriber.setCallback(onPublish);
+  subscriber.subscribe("a/b");
+
+	MqttClient publisher(&broker);
+	publisher.publish("a/b", payload);		// This publish is received
+
+  // onPublish should have filled lastPayload and lastLength
+  assertEqual(payload, lastPayload);
+	assertEqual(lastLength, strlen(payload));
+}
+
+//----------------------------------------------------------------------------
+// setup() and loop()
+void setup() {
+	delay(1000);
+	Serial.begin(115200);
+	while(!Serial);
+
+	Serial.println("=============[ NO WIFI CONNECTION TinyMqtt TESTS ]========================");
+}
+
+void loop() {
+	aunit::TestRunner::run();
+
+	if (Serial.available()) ESP.reset();
+}

tests/result.json

@@ -0,0 +1,6 @@
+{
+    "schemaVersion" : 1,
+    "label" : "tests",
+    "message" : "Message content",
+    "color": "red"
+}

tests/result.yaml

@@ -0,0 +1,2 @@
+result: 1
+insert: "passed"

tests/string-indexer-tests/Makefile

@@ -0,0 +1,8 @@
+# See https://github.com/bxparks/EpoxyDuino for documentation about this
+# Makefile to compile and run Arduino programs natively on Linux or MacOS.
+
+APP_NAME := string-indexer-tests
+ARDUINO_LIBS := AUnit AceCommon AceTime TinyMqtt EspMock ESP8266WiFi  ESPAsync
+ARDUINO_LIB_DIRS := ../../../EspMock/libraries
+EPOXY_CORE := EPOXY_CORE_ESP8266
+include ../../../EpoxyDuino/EpoxyDuino.mk

tests/string-indexer-tests/string-indexer-tests.ino

@@ -0,0 +1,110 @@
+#include <Arduino.h>
+#include <AUnit.h>
+#include <StringIndexer.h>
+#include <map>
+
+/**
+	* TinyMqtt / StringIndexer unit tests.
+	*
+	**/
+
+using namespace std;
+
+test(indexer_empty)
+{
+  assertEqual(StringIndexer::count(), 0);
+}
+
+test(indexer_strings_deleted_should_empty_indexer)
+{
+  assertTrue(StringIndexer::count()==0);
+	{
+		IndexedString one("one");
+    assertEqual(StringIndexer::count(), 1);
+		IndexedString two("two");
+    assertEqual(StringIndexer::count(), 2);
+		IndexedString three("three");
+    assertEqual(StringIndexer::count(), 3);
+		IndexedString four("four");
+    assertEqual(StringIndexer::count(), 4);
+	}
+  assertEqual(StringIndexer::count(), 0);
+}
+
+test(indexer_same_strings_count_as_one)
+{
+	IndexedString one  ("one");
+	IndexedString two  ("one");
+	IndexedString three("one");
+	IndexedString fourt("one");
+
+	assertEqual(StringIndexer::count(), 1);
+}
+
+test(indexer_size_of_indexed_string)
+{
+	assertEqual(sizeof(IndexedString), (size_t)1);
+}
+
+test(indexer_different_strings_are_different)
+{
+	IndexedString one("one");
+	IndexedString two("two");
+
+	assertFalse(one == two);
+}
+
+test(indexer_same_strings_should_equal)
+{
+	IndexedString one("one");
+	IndexedString two("one");
+
+	assertTrue(one == two);
+}
+
+test(indexer_indexed_operator_eq)
+{
+	IndexedString one("one");
+	{
+		IndexedString same = one;
+		assertTrue(one == same);
+		assertEqual(StringIndexer::count(), 1);
+  }
+	assertEqual(StringIndexer::count(), 1);
+}
+
+test(indexer_get_string)
+{
+	std::string sone("one");
+	IndexedString one(sone);
+
+  assertTrue(sone==one.str());
+}
+
+test(indexer_get_index)
+{
+	IndexedString one1("one");
+	IndexedString one2("one");
+	IndexedString two1("two");
+	IndexedString two2("two");
+
+  assertTrue(one1.getIndex() == one2.getIndex());
+	assertTrue(two1.getIndex() == two2.getIndex());
+	assertTrue(one1.getIndex() != two1.getIndex());
+}
+
+//----------------------------------------------------------------------------
+// setup() and loop()
+void setup() {
+	delay(1000);
+	Serial.begin(115200);
+	while(!Serial);
+
+	Serial.println("=============[ TinyMqtt StringIndexer TESTS ]========================");
+}
+
+void loop() {
+	aunit::TestRunner::run();
+
+	// if (Serial.available()) ESP.reset();
+}