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Merge branch 'main' into timeout

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hsaturn
2023-03-23 13:46:02 +01:00
parent e41452edf0 088071d17f
commit 5d07294fde
9 changed files with 174 additions and 33 deletions
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8
README.md
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@@ -24,6 +24,7 @@ TinyMqtt is a small, fast and capable Mqtt Broker and Client for Esp8266 / Esp32
## Features
- Supports retained messages (not activated by default)
- Async Wifi compatible (me-no-dev/ESPAsyncTCP@^1.2.2)
- 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.
@@ -64,6 +65,13 @@ TinyMqtt is a small, fast and capable Mqtt Broker and Client for Esp8266 / Esp32
- tinymqtt-test : This is a complex sketch with a terminal console
that allows to add clients publish, connect etc with interpreted commands.
## Retained messages
Qos 1 is not supported, but retained messages are. So a new subscription is able to send old messages.
This feature is disabled by default.
The default retain parameter of MqttBroker::MqttBroker takes an optional (0 by default) number of retained messages.
MqttBroker::retain(n) will also make the broker store n messages at max.
## Standalone mode (zeroconf)
-> The zeroconf mode is not yet implemented
zeroconf clients to connect to broker on local network.

6
bump_version.sh
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@@ -8,7 +8,7 @@ else
fi
if [ "$1" == "" ]; then
echo
echo "Syntax: $0 [-d] {new_version}"
echo "Syntax: $0 [-d] {new_version} [commit message]"
echo
echo " -d : dry run, generate json and update properties but do not run git commands"
echo ""
@@ -34,7 +34,6 @@ else
depends=$(echo "$value" | sed "s/,/ /g")
echo " Depends=$depends"
fi
echo " " sed -i "s@#$name@$value@g" library.json
sed -i "s@#$name@$value@g" library.json
done < library.properties
deps=""
@@ -47,10 +46,11 @@ else
sed -i "s@#dependencies@$deps@g" library.json
sed -i "s/'/\"/g" library.json
if [ "$do" == "1" ]; then
echo "Pushing all"
git tag $1
git add library.properties
git add library.json
git commit -m "Release $1"
git commit -m "Release $1 $2"
git push
git push --tags
fi

8
examples/simple-broker/simple-broker.ino
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@@ -1,7 +1,9 @@
#include "TinyMqtt.h" // https://github.com/hsaturn/TinyMqtt
#define PORT 1883
MqttBroker broker(PORT);
const uint16_t PORT 1883;
const uint8_t RETAIN = 10; // Max retained messages
MqttBroker broker(PORT, RETAIN);
/** Basic Mqtt Broker
*
@@ -16,6 +18,8 @@ MqttBroker broker(PORT);
* Your ESP will become a MqttBroker.
* You can test it with any client such as mqtt-spy for example
*
* Messages are retained *only* if retain > 0
*
*/
const char* ssid = "";

2
examples/simple-client/simple-client.ino
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@@ -1,7 +1,7 @@
#include "TinyMqtt.h" // https://github.com/hsaturn/TinyMqtt
#include "TinyStreaming.h" // https://github.com/hsaturn/TinyConsole
/** Simple Client (The simplest configuration)
/** Simple Client (The simplest configuration, client only sends topics)
*
*
* +--------+

2
src/TinyMqtt.cpp
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@@ -640,7 +640,7 @@ void MqttClient::processMessage(MqttMessage* mesg)
#endif
if (callback and isSubscribedTo(published))
{
callback(this, published, payload, len); // TODO send the real payload
callback(this, published, payload, len);
}
}
else if (local_broker) // from outside to inside

2
src/TinyMqtt.h
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@@ -210,6 +210,8 @@ class MqttClient
void connect(MqttBroker* local_broker);
void connect(string broker, uint16_t port, uint16_t keep_alive = 10);
void connect(const IPAddress& ip, uint16_t port, uint16_t keep_alive = 10)
{ connect(ip.toString().c_str(), port, keep_alive); }
// TODO it seems that connected returns true in tcp mode even if
// no negociation occurred

2
tests/Makefile.opts
View File

@@ -1,7 +1,7 @@
# GCC
# CXXFLAGS = -Wextra -Wall -std=gnu++11 -fno-exceptions -fno-threadsafe-statics
EXTRA_CXXFLAGS=-g3 -O0
EXTRA_CXXFLAGS=-g3 -O0 -std=c++17
CXXFLAGS=-D_GNU_SOURCE -Werror=return-type -std=gnu++17 -Wall -g3 -O0

24
tests/local-tests/local-tests.ino
View File

@@ -18,14 +18,14 @@ MqttBroker broker(1883);
std::map<string, std::map<Topic, int>> published; // map[client_id] => map[topic] = count
const char* lastPayload;
std::string 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;
lastPayload = std::string(payload, length);
lastLength = length;
}
@@ -51,6 +51,7 @@ test(local_client_should_unregister_when_destroyed)
test(local_client_do_not_disconnect_after_publishing_and_long_inactivity)
{
published.clear();
EpoxyTest::set_millis(0);
MqttBroker broker(1883);
MqttClient client(&broker, "client");
@@ -121,6 +122,25 @@ test(local_publish_should_be_dispatched)
assertEqual(published[""]["a/c"], 2);
}
test(hudge_payload)
{
published.clear();
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);
assertEqual(broker.clientsCount(), (size_t)1);
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.c_str());
assertEqual(lastLength, strlen(payload));
assertEqual(strncmp(payload, lastPayload.c_str(), lastLength), 0);
}
test(local_publish_should_be_dispatched_to_local_clients)
{
published.clear();

153
tests/network-tests/network-tests.ino
View File

@@ -85,7 +85,7 @@ std::map<string, std::map<Topic, int>> published; // map[client_id] => map[t
char* lastPayload = nullptr;
size_t lastLength;
void start_servers(int n, bool early_accept = true)
void start_many_wifi_esp(int n, bool early_accept = true)
{
ESP8266WiFiClass::resetInstances();
ESP8266WiFiClass::earlyAccept = early_accept;
@@ -107,7 +107,7 @@ void onPublish(const MqttClient* srce, const Topic& topic, const char* payload,
lastLength = length;
}
test(network_single_broker_begin)
test(single_broker_begin)
{
assertEqual(WiFi.status(), WL_CONNECTED);
@@ -119,7 +119,7 @@ test(network_single_broker_begin)
test(suback)
{
start_servers(2, true);
start_many_wifi_esp(2, true);
assertEqual(WiFi.status(), WL_CONNECTED);
MqttBroker broker(1883);
@@ -144,10 +144,10 @@ test(suback)
assertEqual(MqttClient::counters[MqttMessage::Type::SubAck], 1);
}
test(network_client_keep_alive_high)
test(client_keep_alive_high)
{
const uint32_t keep_alive=1000;
start_servers(2, true);
start_many_wifi_esp(2, true);
assertEqual(WiFi.status(), WL_CONNECTED);
MqttBroker broker(1883);
@@ -179,9 +179,116 @@ test(network_client_keep_alive_high)
}
test(network_client_to_broker_connexion)
test(retained_message)
{
start_servers(2, true);
published.clear();
start_many_wifi_esp(2, true);
assertEqual(WiFi.status(), WL_CONNECTED);
MqttBroker broker(1883);
broker.begin();
broker.retain(10);
IPAddress broker_ip = WiFi.localIP();
MqttClient local_client(&broker);
// Send a retained message
// No remote client connected
local_client.publish("topic", "retained", true);
for(int i=0; i<2; i++)
{
broker.loop();
local_client.loop();
};
// No connect a client from 2nd Esp
ESP8266WiFiClass::selectInstance(2);
MqttClient remote_client;
remote_client.connect(broker_ip, 1883);
remote_client.setCallback(onPublish);
assertTrue(remote_client.connected());
for(int i=0; i<4; i++) { broker.loop(); local_client.loop(); remote_client.loop(); };
assertEqual(broker.clientsCount(), (size_t) 2);
// Should not have received anything yet
assertEqual(published.size(), (size_t)0);
// Now, remote client subscribes to topic
remote_client.subscribe("topic");
for(int i=0; i<4; i++) { broker.loop(); local_client.loop(); remote_client.loop(); };
// Check that the retained message is published
assertEqual(published.size(), (size_t)1);
// FIXME we should check that
// 1 - Retained message has the retain flag set
// 2 - Published retained messages that are send normally have their retain flag off
// The next part of this test does not pass yet (due to remote_client.close()
// that does not work well.
return;
// Now remove the retained message
remote_client.close();
for(int i=0; i<4; i++) { broker.loop(); local_client.loop(); remote_client.loop(); };
assertFalse(remote_client.connected());
assertEqual(broker.clientsCount(), (size_t) 1);
// Disconnect / reconnect the remote clien that should receive again the message
remote_client.connect(broker_ip, 1883);
remote_client.subscribe("topic");
assertTrue(remote_client.connected());
for(int i=0; i<4; i++) { broker.loop(); local_client.loop(); remote_client.loop(); };
assertEqual(broker.clientsCount(), (size_t) 2);
assertEqual(published.size(), (size_t)2);
// Remove the retained message now
local_client.publish("topic", "", true);
assertEqual(published.size(), (size_t)1);
// And reconnect the remote client
remote_client.connect(broker_ip, 1883);
for(int i=0; i<4; i++) { broker.loop(); local_client.loop(); remote_client.loop(); };
assertEqual(broker.clientsCount(), (size_t) 2);
// check that the message was received
assertEqual(published.size(), (size_t)2);
}
test(remote_client_disconnect_reconnect)
{
published.clear();
start_many_wifi_esp(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, 1883);
for(int i=0; i<4; i++) { broker.loop(); client.loop(); };
assertEqual(broker.clientsCount(), (size_t) 1);
// Disconnect the client
client.close();
for(int i=0; i<4; i++) { broker.loop(); client.loop(); };
assertEqual(broker.clientsCount(), (size_t) 0);
// Reconnect the client
client.connect(broker_ip, 1883);
for(int i=0; i<4; i++) { broker.loop(); client.loop(); };
assertEqual(broker.clientsCount(), (size_t) 1);
}
test(client_to_broker_connexion)
{
start_many_wifi_esp(2, true);
assertEqual(WiFi.status(), WL_CONNECTED);
MqttBroker broker(1883);
@@ -197,9 +304,9 @@ test(network_client_to_broker_connexion)
assertTrue(client.connected());
}
test(network_one_client_one_broker_publish_and_subscribe_through_network)
test(one_client_one_broker_publish_and_subscribe)
{
start_servers(2, true);
start_many_wifi_esp(2, true);
published.clear();
assertEqual(WiFi.status(), WL_CONNECTED);
@@ -228,9 +335,9 @@ test(network_one_client_one_broker_publish_and_subscribe_through_network)
assertEqual((int)lastLength, (int)2); // sizeof(ab)
}
test(network_one_client_one_broker_hudge_publish_and_subscribe_through_network)
test(one_client_one_broker_hudge_payload)
{
start_servers(2, true);
start_many_wifi_esp(2, true);
published.clear();
assertEqual(WiFi.status(), WL_CONNECTED);
@@ -247,8 +354,8 @@ test(network_one_client_one_broker_hudge_publish_and_subscribe_through_network)
std::string sent;
for(int i=0; i<200; i++)
sent += char('0'+i%10);
for(int i=0; i<400; i++)
sent += char('a'+i%26);
client.setCallback(onPublish);
client.subscribe("a/b");
@@ -264,7 +371,7 @@ test(network_one_client_one_broker_hudge_publish_and_subscribe_through_network)
assertEqual((unsigned int)lastLength, (unsigned int)sent.size());
}
test(network_client_should_unregister_when_destroyed)
test(client_should_unregister_when_destroyed)
{
assertEqual(broker.clientsCount(), (size_t)0);
{
@@ -278,7 +385,7 @@ test(network_client_should_unregister_when_destroyed)
// THESE TESTS ARE IN LOCAL MODE
// WE HAVE TO CONVERT THEM TO WIFI MODE (pass through virtual TCP link)
test(network_connect)
test(connect)
{
assertEqual(broker.clientsCount(), (size_t)0);
@@ -287,7 +394,7 @@ test(network_connect)
assertEqual(broker.clientsCount(), (size_t)1);
}
test(network_publish_should_be_dispatched)
test(publish_should_be_dispatched)
{
published.clear();
assertEqual(broker.clientsCount(), (size_t)0);
@@ -307,7 +414,7 @@ test(network_publish_should_be_dispatched)
assertEqual(published[TINY_MQTT_DEFAULT_CLIENT_ID]["a/c"], 2);
}
test(network_publish_should_be_dispatched_to_clients)
test(publish_should_be_dispatched_to_clients)
{
published.clear();
assertEqual(broker.clientsCount(), (size_t)0);
@@ -332,7 +439,7 @@ test(network_publish_should_be_dispatched_to_clients)
assertEqual(published["B"]["a/c"], 0);
}
test(network_unsubscribe)
test(unsubscribe)
{
published.clear();
assertEqual(broker.clientsCount(), (size_t)0);
@@ -352,7 +459,7 @@ test(network_unsubscribe)
assertEqual(published[TINY_MQTT_DEFAULT_CLIENT_ID]["a/b"], 1); // Only one publish has been received
}
test(network_nocallback_when_destroyed)
test(nocallback_when_destroyed)
{
published.clear();
assertEqual(broker.clientsCount(), (size_t)0);
@@ -371,7 +478,7 @@ test(network_nocallback_when_destroyed)
assertEqual(published.size(), (size_t)1); // Only one publish has been received
}
test(network_small_payload)
test(small_payload)
{
published.clear();
@@ -389,7 +496,7 @@ test(network_small_payload)
assertEqual(lastLength, (size_t)4);
}
test(network_hudge_payload)
test(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 !";
@@ -436,7 +543,7 @@ test(connack)
}
);
start_servers(2, true);
start_many_wifi_esp(2, true);
assertEqual(WiFi.status(), WL_CONNECTED);
MqttBroker broker(1883);
@@ -469,7 +576,7 @@ void setup() {
while(!Serial);
*/
Serial.println("=============[ FAKE NETWORK TinyMqtt TESTS ]========================");
Serial.println("=============[ NETWORK TinyMqtt TESTS ]========================");
WiFi.mode(WIFI_STA);
WiFi.begin("network", "password");