[tests] removed useless code in debug-tests.ino
This commit is contained in:
hsaturn
@@ -7,423 +7,9 @@
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#include <sstream>
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#include <string>
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/**
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* TinyMqtt network unit tests.
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*
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* No wifi connection unit tests.
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* Checks with a local broker. Clients must connect to the local broker
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**/
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// if ascii_pos = 0, no ascii dump, else ascii dump starts after column ascii_pos
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std::string bufferToHexa(const uint8_t* buffer, size_t length, char sep = 0, size_t ascii_pos = 0)
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{
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std::stringstream out;
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std::string ascii;
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std::string h("0123456789ABCDEF");
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for(size_t i=0; i<length; i++)
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{
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uint8_t c = buffer[i];
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out << h[ c >> 4] << h[ c & 0x0F ];
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if (sep) out << sep;
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if (ascii_pos)
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{
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if (c>=32)
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ascii += c;
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else
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ascii +='.';
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}
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}
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std::string ret(out.str());
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if (ascii_pos)
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{
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while(ret.length() < ascii_pos)
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ret += ' ';
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ret +='[' + ascii + ']';
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}
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return ret;
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}
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void dumpMqttMessage(const uint8_t* buffer, size_t length)
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{
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std::map<int, std::string> pkt =
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{ { MqttMessage::Unknown , "Unknown " },
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{ MqttMessage::Connect , "Connect " },
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{ MqttMessage::ConnAck , "ConnAck " },
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{ MqttMessage::Publish , "Publish " },
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{ MqttMessage::PubAck , "PubAck " },
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{ MqttMessage::Subscribe , "Subscribe " },
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{ MqttMessage::SubAck , "SubAck " },
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{ MqttMessage::UnSubscribe , "Unsubscribe " },
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{ MqttMessage::UnSuback , "UnSubAck " },
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{ MqttMessage::PingReq , "PingReq " },
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{ MqttMessage::PingResp , "PingResp " },
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{ MqttMessage::Disconnect , "Disconnect " } };
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std::cout << " | data sent " << std::setw(3) << length << " : ";
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auto it = pkt.find(buffer[0] & 0xF0);
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if (it == pkt.end())
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std::cout << pkt[MqttMessage::Unknown];
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else
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std::cout << it->second;
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std::cout << bufferToHexa(buffer, length, ' ', 60) << std::endl;
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}
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String toString(const IPAddress& ip)
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{
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return String(ip[0])+'.'+String(ip[1])+'.'+String(ip[2])+'.'+String(ip[3]);
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}
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MqttBroker broker(1883);
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std::map<std::string, std::map<Topic, int>> published; // map[client_id] => map[topic] = count
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char* lastPayload = nullptr;
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size_t lastLength;
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void start_servers(int n, bool early_accept = true)
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{
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ESP8266WiFiClass::resetInstances();
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ESP8266WiFiClass::earlyAccept = early_accept;
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while(n)
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{
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ESP8266WiFiClass::selectInstance(n--);
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WiFi.mode(WIFI_STA);
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WiFi.begin("fake_ssid", "fake_pwd");
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}
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}
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void onPublish(const MqttClient* srce, const Topic& topic, const char* payload, size_t length)
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{
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if (srce)
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published[srce->id()][topic]++;
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if (lastPayload) free(lastPayload);
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lastPayload = strdup(payload);
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lastLength = length;
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}
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test(network_single_broker_begin)
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{
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assertEqual(WiFi.status(), WL_CONNECTED);
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MqttBroker broker(1883);
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broker.begin();
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// TODO Nothing is tested here !
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}
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test(suback)
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{
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start_servers(2, true);
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assertEqual(WiFi.status(), WL_CONNECTED);
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MqttBroker broker(1883);
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broker.begin();
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IPAddress broker_ip = WiFi.localIP();
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ESP8266WiFiClass::selectInstance(2);
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MqttClient client;
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client.connect(broker_ip.toString().c_str(), 1883);
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broker.loop();
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assertTrue(broker.clientsCount() == 1);
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assertTrue(client.connected());
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MqttClient::counters[MqttMessage::Type::SubAck] = 0;
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client.subscribe("a/b");
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// TODO how to avoid these loops ???
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broker.loop();
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client.loop();
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assertEqual(MqttClient::counters[MqttMessage::Type::SubAck], 1);
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}
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test(network_client_to_broker_connexion)
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{
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start_servers(2, true);
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assertEqual(WiFi.status(), WL_CONNECTED);
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MqttBroker broker(1883);
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broker.begin();
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IPAddress broker_ip = WiFi.localIP();
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ESP8266WiFiClass::selectInstance(2);
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MqttClient client;
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client.connect(broker_ip.toString().c_str(), 1883);
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broker.loop();
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assertTrue(broker.clientsCount() == 1);
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assertTrue(client.connected());
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}
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test(network_one_client_one_broker_publish_and_subscribe_through_network)
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{
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start_servers(2, true);
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published.clear();
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assertEqual(WiFi.status(), WL_CONNECTED);
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MqttBroker broker(1883);
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broker.begin();
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IPAddress ip_broker = WiFi.localIP();
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// We have a 2nd ESP in order to test through wifi (opposed to local)
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ESP8266WiFiClass::selectInstance(2);
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MqttClient client;
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client.connect(ip_broker.toString().c_str(), 1883);
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broker.loop();
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assertTrue(client.connected());
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client.setCallback(onPublish);
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client.subscribe("a/b");
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client.publish("a/b", "ab");
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for (int i =0; i<2; i++)
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{
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client.loop();
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broker.loop();
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}
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assertEqual(published.size(), (size_t)1);
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assertEqual((int)lastLength, (int)2); // sizeof(ab)
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}
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test(network_one_client_one_broker_hudge_publish_and_subscribe_through_network)
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{
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start_servers(2, true);
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published.clear();
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assertEqual(WiFi.status(), WL_CONNECTED);
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MqttBroker broker(1883);
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broker.begin();
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IPAddress ip_broker = WiFi.localIP();
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// We have a 2nd ESP in order to test through wifi (opposed to local)
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ESP8266WiFiClass::selectInstance(2);
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MqttClient client;
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client.connect(ip_broker.toString().c_str(), 1883);
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broker.loop();
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assertTrue(client.connected());
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std::string sent;
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for(int i=0; i<200; i++)
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sent += char('0'+i%10);
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client.setCallback(onPublish);
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client.subscribe("a/b");
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client.publish("a/b", sent.c_str());
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for (int i =0; i<2; i++)
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{
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client.loop();
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broker.loop();
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}
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assertEqual(published.size(), (size_t)1);
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assertEqual((unsigned int)lastLength, (unsigned int)sent.size());
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}
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test(network_client_should_unregister_when_destroyed)
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{
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assertEqual(broker.clientsCount(), (size_t)0);
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{
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MqttClient client(&broker);
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assertEqual(broker.clientsCount(), (size_t)1);
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}
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assertEqual(broker.clientsCount(), (size_t)0);
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}
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// THESE TESTS ARE IN LOCAL MODE
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// WE HAVE TO CONVERT THEM TO WIFI MODE (pass through virtual TCP link)
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test(network_connect)
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{
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assertEqual(broker.clientsCount(), (size_t)0);
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MqttClient client(&broker);
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assertTrue(client.connected());
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assertEqual(broker.clientsCount(), (size_t)1);
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}
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test(network_publish_should_be_dispatched)
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{
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published.clear();
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assertEqual(broker.clientsCount(), (size_t)0);
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MqttClient subscriber(&broker);
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subscriber.subscribe("a/b");
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subscriber.subscribe("a/c");
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subscriber.setCallback(onPublish);
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MqttClient publisher(&broker);
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publisher.publish("a/b");
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publisher.publish("a/c");
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publisher.publish("a/c");
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assertEqual(published.size(), (size_t)1); // 1 client has received something
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assertEqual(published[""]["a/b"], 1);
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assertEqual(published[""]["a/c"], 2);
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}
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test(network_publish_should_be_dispatched_to_clients)
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{
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published.clear();
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assertEqual(broker.clientsCount(), (size_t)0);
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MqttClient subscriber_a(&broker, "A");
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subscriber_a.setCallback(onPublish);
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subscriber_a.subscribe("a/b");
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subscriber_a.subscribe("a/c");
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MqttClient subscriber_b(&broker, "B");
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subscriber_b.setCallback(onPublish);
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subscriber_b.subscribe("a/b");
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MqttClient publisher(&broker);
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publisher.publish("a/b"); // A and B should receive this
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publisher.publish("a/c"); // A should receive this
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assertEqual(published.size(), (size_t)2); // 2 clients have received something
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assertEqual(published["A"]["a/b"], 1);
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assertEqual(published["A"]["a/c"], 1);
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assertEqual(published["B"]["a/b"], 1);
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assertEqual(published["B"]["a/c"], 0);
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}
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test(network_unsubscribe)
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{
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published.clear();
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assertEqual(broker.clientsCount(), (size_t)0);
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MqttClient subscriber(&broker);
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subscriber.setCallback(onPublish);
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subscriber.subscribe("a/b");
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MqttClient publisher(&broker);
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publisher.publish("a/b"); // This publish is received
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subscriber.unsubscribe("a/b");
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publisher.publish("a/b"); // Those one, no (unsubscribed)
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publisher.publish("a/b");
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assertEqual(published[""]["a/b"], 1); // Only one publish has been received
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}
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test(network_nocallback_when_destroyed)
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{
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published.clear();
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assertEqual(broker.clientsCount(), (size_t)0);
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MqttClient publisher(&broker);
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{
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MqttClient subscriber(&broker);
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subscriber.setCallback(onPublish);
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subscriber.subscribe("a/b");
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publisher.publish("a/b");
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}
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publisher.publish("a/b");
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assertEqual(published.size(), (size_t)1); // Only one publish has been received
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}
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test(network_small_payload)
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{
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published.clear();
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const char* payload="abcd";
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MqttClient subscriber(&broker);
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subscriber.setCallback(onPublish);
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subscriber.subscribe("a/b");
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MqttClient publisher(&broker);
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publisher.publish("a/b", payload, strlen(payload)); // This publish is received
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// coming from MqttClient::publish(...)
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assertEqual(payload, lastPayload);
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assertEqual(lastLength, (size_t)4);
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}
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test(network_hudge_payload)
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{
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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 !";
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MqttClient subscriber(&broker);
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subscriber.setCallback(onPublish);
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subscriber.subscribe("a/b"); // Note -> this does not send any byte .... (nowhere to send) TODO
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MqttClient publisher(&broker);
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publisher.publish("a/b", payload); // This publish is received
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// onPublish should have filled lastPayload and lastLength
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assertEqual(payload, lastPayload);
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assertEqual(lastLength, strlen(payload));
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assertEqual(strcmp(payload, lastPayload), 0);
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}
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test(connack)
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{
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const bool view = true;
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NetworkObserver check(
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[this](const WiFiClient*, const uint8_t* buffer, size_t length)
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{
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if (view) dumpMqttMessage(buffer, length);
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if (buffer[0] == MqttMessage::ConnAck)
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{
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std::string hex = bufferToHexa(buffer, length);
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assertStringCaseEqual(hex.c_str(), "20020000");
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}
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}
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);
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start_servers(2, true);
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assertEqual(WiFi.status(), WL_CONNECTED);
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MqttBroker broker(1883);
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broker.begin();
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IPAddress broker_ip = WiFi.localIP();
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ESP8266WiFiClass::selectInstance(2);
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MqttClient client;
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client.connect(broker_ip.toString().c_str(), 1883);
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broker.loop();
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assertTrue(broker.clientsCount() == 1);
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assertTrue(client.connected());
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MqttClient::counters[MqttMessage::Type::SubAck] = 0;
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client.subscribe("a/b");
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// TODO how to avoid these loops ???
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broker.loop();
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client.loop();
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assertEqual(MqttClient::counters[MqttMessage::Type::SubAck], 1);
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}
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//----------------------------------------------------------------------------
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// setup() and loop()
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void setup() {
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/* delay(1000);
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Serial.begin(115200);
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while(!Serial);
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*/
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Serial.println("=============[ FAKE NETWORK TinyMqtt TESTS ]========================");
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WiFi.mode(WIFI_STA);
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WiFi.begin("network", "password");
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}
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// Only compilation check, so do nothing
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void setup() {}
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void loop() {
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aunit::TestRunner::run();
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if (Serial.available()) ESP.reset();
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}
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