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20 changed files with 136 additions and 328 deletions

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@ -7,7 +7,6 @@
</PropertyGroup> </PropertyGroup>
<ItemGroup> <ItemGroup>
<PackageReference Include="Confluent.Kafka" Version="2.6.1" />
<PackageReference Include="FluentValidation.AspNetCore" Version="11.3.0" /> <PackageReference Include="FluentValidation.AspNetCore" Version="11.3.0" />
<PackageReference Include="Microsoft.AspNetCore.Authentication.JwtBearer" Version="6.0.4" /> <PackageReference Include="Microsoft.AspNetCore.Authentication.JwtBearer" Version="6.0.4" />
<PackageReference Include="Microsoft.EntityFrameworkCore.SqlServer" Version="6.0.14" /> <PackageReference Include="Microsoft.EntityFrameworkCore.SqlServer" Version="6.0.14" />

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@ -1,42 +0,0 @@
using Cloud.Requests;
using Cloud.Services;
using Microsoft.AspNetCore.Authorization;
using Microsoft.AspNetCore.Mvc;
using System.ComponentModel.DataAnnotations;
using System.Text.Json;
namespace Cloud.Controllers
{
[Authorize]
[ApiController]
[Route("api")]
public class ValveController : ControllerBase
{
//Контроллер вентиля
private readonly ProducerService _producerService;
public ValveController(ProducerService producerService)
{
_producerService = producerService;
}
[HttpPost("farm/{farmId}/greenhouse/{ghId}/watering")]
public async Task<IActionResult> interactValve([FromBody] ValveRequest request, int farmId, int ghId)
{
var kafkaRequest = new
{
FarmId = farmId,
GreenHouseId = ghId,
SomeAction = request.Action,
};
var message = JsonSerializer.Serialize(kafkaRequest);
return Ok(kafkaRequest);
/*await _producerService.ProduceMessageAsync("ValvesHeatersRequest", message);
return Ok($"Valve status is {request.Action}");*/
}
}
}

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@ -1,9 +0,0 @@
namespace Cloud.Enums
{
public enum ValveEnum
{
Open,
Close,
Auto
}
}

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@ -9,7 +9,6 @@ using Cloud.Validation;
using StackExchange.Redis; using StackExchange.Redis;
using Cloud.Services.Broker.Implement.Kafka; using Cloud.Services.Broker.Implement.Kafka;
using Cloud.Services.Broker; using Cloud.Services.Broker;
using Cloud.Services;
var builder = WebApplication.CreateBuilder(args); var builder = WebApplication.CreateBuilder(args);
@ -22,15 +21,6 @@ builder.Services.AddSingleton<IConnectionMultiplexer>(sp =>
return ConnectionMultiplexer.Connect(configuration); return ConnectionMultiplexer.Connect(configuration);
}); });
//Kafka producer service
builder.Services.AddSingleton<ProducerService, ProducerService>();
//Kafka consumer service
builder.Services.AddSingleton<ConsumerService, ConsumerService>();
//Add the BackgroundWorkerService
builder.Services.AddHostedService<BackgroundWorkerService>();
//Jwt configuration //Jwt configuration
var jwtIssuer = builder.Configuration.GetSection("Jwt:Issuer").Get<string>(); var jwtIssuer = builder.Configuration.GetSection("Jwt:Issuer").Get<string>();
var jwtKey = builder.Configuration.GetSection("Jwt:Key").Get<string>(); var jwtKey = builder.Configuration.GetSection("Jwt:Key").Get<string>();
@ -70,7 +60,6 @@ builder.Services.AddFluentValidationClientsideAdapters();
builder.Services.AddValidatorsFromAssemblyContaining<LoginValidator>(); builder.Services.AddValidatorsFromAssemblyContaining<LoginValidator>();
builder.Services.AddValidatorsFromAssemblyContaining<RegisterValidator>(); builder.Services.AddValidatorsFromAssemblyContaining<RegisterValidator>();
builder.Services.AddValidatorsFromAssemblyContaining<FarmValidator>(); builder.Services.AddValidatorsFromAssemblyContaining<FarmValidator>();
builder.Services.AddValidatorsFromAssemblyContaining<ValveValidator>();
// Learn more about configuring Swagger/OpenAPI at https://aka.ms/aspnetcore/swashbuckle // Learn more about configuring Swagger/OpenAPI at https://aka.ms/aspnetcore/swashbuckle
builder.Services.AddEndpointsApiExplorer(); builder.Services.AddEndpointsApiExplorer();

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@ -1,7 +0,0 @@
namespace Cloud.Requests
{
public class ValveRequest
{
public string Action { get; set; }
}
}

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@ -1,9 +1,7 @@
using Cloud.Services.Broker.Support;
namespace Cloud.Services.Broker namespace Cloud.Services.Broker
{ {
public interface IBrokerConsumer public interface IBrokerConsumer
{ {
T? WaitMessage<T>(string topic) where T : IBrokerResponse; // TODO: добавить методы для получения данных
} }
} }

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@ -2,7 +2,7 @@ using Cloud.Services.Broker.Support;
namespace Cloud.Services.Broker namespace Cloud.Services.Broker
{ {
public interface IBrokerProducer public interface IBrokerProdurcer
{ {
Task ProduceAsync(string topic, Command command); Task ProduceAsync(string topic, Command command);
} }

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@ -4,7 +4,7 @@ namespace Cloud.Services.Broker
{ {
public interface IBrokerService public interface IBrokerService
{ {
Task Produce(Command command); Task<CommandResult> Produce(Command command);
T? Consume<T>(string topic) where T : IBrokerResponse; Task<T> Consume<T>(string topic);
} }
} }

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@ -1,51 +0,0 @@
using Cloud.Services.Broker.Support;
using Confluent.Kafka;
using System.Text.Json;
namespace Cloud.Services.Broker.Implement.Kafka
{
public class KafkaConsumer : IBrokerConsumer
{
private readonly IConsumer<string, string> _consumer;
public KafkaConsumer(IConfiguration config)
{
var consumerConfig = new ConsumerConfig()
{
BootstrapServers = config["Kafka:BootstrapServers"],
GroupId = config["Kafka:GroupId"],
AutoOffsetReset = AutoOffsetReset.Earliest,
};
_consumer = new ConsumerBuilder<string, string>(consumerConfig).Build();
}
public T? WaitMessage<T>(string topic)
where T : IBrokerResponse
{
try
{
_consumer.Subscribe(topic);
var consumeResult = _consumer.Consume(TimeSpan.FromMilliseconds(1000));
if (consumeResult == null)
{
// No message received from Kafka within the specified timeout.
return default;
}
return JsonSerializer.Deserialize<T>(consumeResult.Message.Value);
}
catch (Exception ex)
{
throw;
}
finally
{
_consumer.Close();
}
}
}
}

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@ -1,28 +0,0 @@
using Cloud.Services.Broker.Support;
using Confluent.Kafka;
namespace Cloud.Services.Broker.Implement.Kafka
{
public class KafkaProducer : IBrokerProducer
{
private readonly IProducer<Guid, Command> _producer;
public KafkaProducer(IConfiguration configuration)
{
var producerConfig = new ProducerConfig
{
BootstrapServers = configuration["Kafka:BootstrapServers"]
};
//Build the Producer
_producer = new ProducerBuilder<Guid, Command>(producerConfig).Build();
}
public async Task ProduceAsync(string topic, Command command)
{
var message = new Message<Guid, Command> { Key = Guid.NewGuid(), Value = command };
//Produce the Message
await _producer.ProduceAsync(topic, message);
}
}
}

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@ -4,19 +4,14 @@ namespace Cloud.Services.Broker.Implement.Kafka
{ {
public class KafkaService : IBrokerService public class KafkaService : IBrokerService
{ {
private readonly KafkaProducer _producer; public Task<T> Consume<T>(string topic)
private readonly KafkaConsumer _consumer;
public KafkaService(IConfiguration configuration)
{ {
_producer = new KafkaProducer(configuration); throw new NotImplementedException();
_consumer = new KafkaConsumer(configuration);
} }
public T? Consume<T>(string topic) public Task<CommandResult> Produce(Command command)
where T : IBrokerResponse => _consumer.WaitMessage<T>(topic); {
throw new NotImplementedException();
public async Task Produce(Command command) }
=> await _producer.ProduceAsync("commands", command);
} }
} }

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@ -1,10 +1,9 @@
using System.Text.Json;
namespace Cloud.Services.Broker.Support namespace Cloud.Services.Broker.Support
{ {
public class Command public class Command
{ {
public Guid GreenhouseId { get; set; } public int Id { get; set; }
public int GreenhouseId { get; set; }
public string CommandName { get; set; } = null!; public string CommandName { get; set; } = null!;
} }
} }

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@ -1,6 +1,6 @@
namespace Cloud.Services.Broker.Support namespace Cloud.Services.Broker.Support
{ {
public class CommandResult : IBrokerResponse public class CommandResult
{ {
public int CommandId { get; set; } public int CommandId { get; set; }
public int GreenhouseId { get; set; } public int GreenhouseId { get; set; }

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@ -1,6 +1,6 @@
namespace Cloud.Services.Broker.Support namespace Cloud.Services.Broker.Support
{ {
public class GreenhouseInfo : IBrokerResponse public class GreenhouseInfo
{ {
public int Id { get; set; } public int Id { get; set; }
public int PercentWater { get; set; } public int PercentWater { get; set; }

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@ -1,6 +0,0 @@
namespace Cloud.Services.Broker.Support
{
public interface IBrokerResponse
{
}
}

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@ -1,16 +0,0 @@
using Cloud.Enums;
using Cloud.Requests;
using FluentValidation;
namespace Cloud.Validation
{
public class ValveValidator : AbstractValidator<ValveRequest>
{
public ValveValidator() {
RuleFor(request => request.Action)
.NotEmpty().WithMessage("Action can't be empty").
IsEnumName(typeof (ValveEnum)).WithMessage("Action is not correct");
}
}
}

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@ -5,10 +5,6 @@
"Microsoft.AspNetCore": "Warning" "Microsoft.AspNetCore": "Warning"
} }
}, },
"Kafka": {
"BootstrapServers": "localhost:9092",
"GroupId": "ValvesHeaters"
},
"AllowedHosts": "*", "AllowedHosts": "*",
"Jwt": { "Jwt": {
"Key": "m7TyhE20s0dVtUDAr9EnFdPZnAG8maxgBTaiW5j6kO6RQhWDAGxYmXyu0suDnE0o", "Key": "m7TyhE20s0dVtUDAr9EnFdPZnAG8maxgBTaiW5j6kO6RQhWDAGxYmXyu0suDnE0o",

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@ -1,12 +1,13 @@
from random import random
from turtledemo.penrose import start
from kafka import KafkaProducer, KafkaConsumer
import kafka
import socket
from json import dumps, loads
import time import time
import random as rnd import random as rnd
from flask import Flask
import requests
import threading
app = Flask(__name__)
class Detector: class Detector:
def __init__(self, id, moistureThresholdUpper, moistureThresholdLower, tempThresholdUpper, tempThresholdLower): def __init__(self, id, moistureThresholdUpper, moistureThresholdLower, tempThresholdUpper, tempThresholdLower):
self.id = id self.id = id
@ -17,21 +18,29 @@ class Detector:
self.moisture = 0 self.moisture = 0
self.temp = 0 self.temp = 0
self.producer = KafkaProducer(
bootstrap_servers=['localhost:9092'],
client_id=f'detector{self.id}',
value_serializer=lambda v: dumps(v).encode('utf-8')
)
def sendData(self):
message = {'id' : self.id,
'moisture': self.moisture,
'temperature' : self.temp }
self.producer.send('dataDetectors', message)
def cycle(self): def cycle(self):
self.moisture += rnd.random() / 100 self.moisture += rnd.random() / 100
self.temp += (rnd.random() - 0.5) / 100 self.temp += (rnd.random() - 0.5) / 100
def sendData(self):
data = {"moisture": self.moisture,
"temp": self.temp}
requests.post(f"http://127.0.0.1:20002/webhook?id={self.id}", json=data)
detector1 = Detector(1, 0.6, 0.2, 40, 20) detector1 = Detector(1, 0.6, 0.2, 40, 20)
detector2 = Detector(2, 0.7, 0.3, 40, 20)
detector3 = Detector(3, 0.9, 0.6, 40, 20)
detectors = [detector1] detectors = [detector1, detector2, detector3]
if __name__ =="__main__": while True:
while True:
for detector in detectors: for detector in detectors:
detector.cycle() detector.cycle()
detector.sendData() detector.sendData()

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@ -2,20 +2,20 @@ from kafka import KafkaProducer, KafkaConsumer
import kafka import kafka
import socket import socket
from json import dumps, loads from json import dumps, loads
from flask import Flask, request
import time import time
from enum import Enum from enum import Enum
import threading from GreenhouseDetector.detector import Detector
app = Flask(__name__) class Status(Enum):
UNKNOWN = -1
OFF = 0
ON = 1
def start_manager():
return
class Manager: class Manager:
def __init__(self, _id: int, moisture: float = 0, temp: float = 20, isAutoOn: bool = False, valve_state: str = "closed", def __init__(self, id: int, moisture: float = 0, temp: float = 20, isAutoOn: bool = False, valve_state: str = "closed",
heater_state: str = "off"): heater_state: str = "off"):
self._id = _id self.id = id
self.moisture = moisture self.moisture = moisture
self.temp = temp self.temp = temp
self.isAutoOn = isAutoOn self.isAutoOn = isAutoOn
@ -24,29 +24,49 @@ class Manager:
self.dataPublisher = KafkaProducer( self.dataPublisher = KafkaProducer(
bootstrap_servers=['localhost:9092'], bootstrap_servers=['localhost:9092'],
client_id=f'manager{self._id}_producer', client_id=f'manager{id}_producer',
value_serializer=lambda v: dumps(v).encode('utf-8') value_serializer=lambda v: dumps(v).encode('utf-8')
) )
# self.detectorConsumer = KafkaConsumer(
# 'dataDetectors',
# bootstrap_servers=['localhost:9092'],
# auto_offset_reset='earliest',
# enable_auto_commit=True,
# consumer_timeout_ms=1000,
#group_id=f'manager{id}',
# value_deserializer=lambda x: loads(x.decode('utf-8'))
#)
self.controllerConsumer = KafkaConsumer( self.controllerConsumer = KafkaConsumer(
'commands', 'commands',
bootstrap_servers=['localhost:9092'], bootstrap_servers=['localhost:9092'],
auto_offset_reset='earliest', auto_offset_reset='earliest',
enable_auto_commit=True, enable_auto_commit=True,
consumer_timeout_ms=2000, consumer_timeout_ms=2000,
group_id=f'manager{self._id}', group_id=f'manager{id}',
value_deserializer=lambda x: loads(x.decode('utf-8')) value_deserializer=lambda x: loads(x.decode('utf-8'))
) )
self.controllerConsumerResponse = KafkaProducer( self.controllerConsumerResponse = KafkaProducer(
bootstrap_servers=['localhost:9092'], bootstrap_servers=['localhost:9092'],
client_id=f'manager{self._id}_producer', client_id=f'manager{id}_producer',
value_serializer=lambda v: dumps(v).encode('utf-8') value_serializer=lambda v: dumps(v).encode('utf-8')
) )
def update(self):
for message in self.detectorConsumer:
print(f"Manager {self.id} received message: ")
print(message.value)
self.moisture = message.value['moisture']
self.temp = message.value['temperature']
print("Updating info...\n")
self.sendData()
def sendData(self): def sendData(self):
print("sending data...") print("sending data...")
message = { message = {
'id': self._id, 'id': self.id,
'moisture': self.moisture, 'moisture': self.moisture,
'temp': self.temp, 'temp': self.temp,
'valveStatus': str(self.valve_state), 'valveStatus': str(self.valve_state),
@ -56,8 +76,6 @@ class Manager:
print(message) print(message)
self.dataPublisher.send('data', message) self.dataPublisher.send('data', message)
self.dataPublisher.flush()
def toggle_device(self, device, request_id, greenhouse_id): def toggle_device(self, device, request_id, greenhouse_id):
@ -104,33 +122,23 @@ class Manager:
for tp, msgs in messages.items(): for tp, msgs in messages.items():
for message in msgs: for message in msgs:
print(f"Manager {self._id} received message: ") print(f"Manager {self.id} received message: ")
print(message.value) print(message.value)
self.request_id = message.value['request_id'] self.request_id = message.value['request_id']
self.greenhouse_id = message.value['greenhouse_id'] self.greenhouse_id = message.value['greenhouse_id']
self.command = message.value['command'] self.command = message.value['command']
self.toggle_device(self.command, self.request_id, self.greenhouse_id) self.toggle_device(self.command, self.request_id, self.greenhouse_id)
@app.route(f'/webhook', methods=['POST'])
def webhook():
print("received webhook", request.args.get('id'))
for manager in managers:
print()
if int(request.args.get('id')) == manager._id and request.method == 'POST':
print("Data received from Webhook is", request.json)
body = request.json
for key, value in body.items():
setattr(manager, key, value)
manager.sendData() manager1 = Manager(id=1)
return f"Webhook received for manager {manager._id}"
return "Webhook ignored"
t1 = threading.Thread(target=start_manager)
manager1 = Manager(_id=1)
managers = [manager1] managers = [manager1]
if __name__ == "__main__":
threading.Thread(target=lambda: app.run(host="0.0.0.0", port=20002, debug=True, use_reloader=False)).start() while True:
time.sleep(5)
manager1.sendData()
for manager in managers:
manager.getCommand()

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@ -1,12 +1,3 @@
networks:
vpn:
name: kafkaVPN
driver: bridge
ipam:
config:
- subnet: "192.168.2.0/24"
gateway: "192.168.2.1"
services: services:
cloud: cloud:
build: ./Cloud/ build: ./Cloud/
@ -39,19 +30,7 @@ services:
- ping - ping
retries: 3 retries: 3
timeout: 5s timeout: 5s
zookeeper:
networks:
- vpn
image: confluentinc/cp-zookeeper:7.4.0
environment:
ZOOKEEPER_CLIENT_PORT: 2181
ZOOKEEPER_TICK_TIME: 2000
ports:
- 2181:2181
kafka: kafka:
networks:
vpn:
ipv4_address: 192.168.2.10
image: confluentinc/cp-kafka:7.4.0 image: confluentinc/cp-kafka:7.4.0
ports: ports:
- 9092:9092 - 9092:9092
@ -61,10 +40,8 @@ services:
environment: environment:
KAFKA_BROKER_ID: 1 KAFKA_BROKER_ID: 1
KAFKA_ZOOKEEPER_CONNECT: zookeeper:2181 KAFKA_ZOOKEEPER_CONNECT: zookeeper:2181
KAFKA_LISTENERS: HOST://0.0.0.0:9092,DOCKER://0.0.0.0:29092 KAFKA_LISTENER_SECURITY_PROTOCOL_MAP: PLAINTEXT:PLAINTEXT,PLAINTEXT_HOST:PLAINTEXT
KAFKA_ADVERTISED_LISTENERS: HOST://192.168.1.5:9092,DOCKER://kafka:29092 KAFKA_ADVERTISED_LISTENERS: PLAINTEXT://kafka:29092,PLAINTEXT_HOST://localhost:9092
KAFKA_LISTENER_SECURITY_PROTOCOL_MAP: DOCKER:PLAINTEXT,HOST:PLAINTEXT
KAFKA_INTER_BROKER_LISTENER_NAME: DOCKER
KAFKA_OFFSETS_TOPIC_REPLICATION_FACTOR: 1 KAFKA_OFFSETS_TOPIC_REPLICATION_FACTOR: 1
KAFKA_TRANSACTION_STATE_LOG_MIN_ISR: 1 KAFKA_TRANSACTION_STATE_LOG_MIN_ISR: 1
KAFKA_LOG_FLUSH_INTERVAL_MESSAGES: 10000 KAFKA_LOG_FLUSH_INTERVAL_MESSAGES: 10000
@ -72,8 +49,6 @@ services:
depends_on: depends_on:
- zookeeper - zookeeper
init-kafka: init-kafka:
networks:
- vpn
image: confluentinc/cp-kafka:7.4.0 image: confluentinc/cp-kafka:7.4.0
depends_on: depends_on:
- kafka - kafka
@ -86,14 +61,13 @@ services:
echo -e 'Creating kafka topics' echo -e 'Creating kafka topics'
kafka-topics --bootstrap-server kafka:29092 --create --if-not-exists --topic commands --replication-factor 1 --partitions 1 kafka-topics --bootstrap-server kafka:29092 --create --if-not-exists --topic commands --replication-factor 1 --partitions 1
kafka-topics --bootstrap-server kafka:29092 --create --if-not-exists --topic data --replication-factor 1 --partitions 1 kafka-topics --bootstrap-server kafka:29092 --create --if-not-exists --topic data --replication-factor 1 --partitions 1
kafka-topics --bootstrap-server kafka:29092 --create --if-not-exists --topic dataDetectors --replication-factor 1 --partitions 1
kafka-topics --bootstrap-server kafka:29092 --create --if-not-exists --topic response --replication-factor 1 --partitions 1 kafka-topics --bootstrap-server kafka:29092 --create --if-not-exists --topic response --replication-factor 1 --partitions 1
echo -e 'Successfully created the following topics:' echo -e 'Successfully created the following topics:'
kafka-topics --bootstrap-server kafka:29092 --list kafka-topics --bootstrap-server kafka:29092 --list
" "
kafka-ui: kafka-ui:
networks:
- vpn
container_name: kafka-ui container_name: kafka-ui
image: provectuslabs/kafka-ui:latest image: provectuslabs/kafka-ui:latest
ports: ports: