com.microsoft.azure.sdk.iot.device.ModuleClient Maven / Gradle / Ivy
Go to download
Show more of this group Show more artifacts with this name
Show all versions of iot-device-client Show documentation
Show all versions of iot-device-client Show documentation
The Microsoft Azure IoT Device SDK for Java
/*
* Copyright (c) Microsoft. All rights reserved.
* Licensed under the MIT license. See LICENSE file in the project root for full license information.
*/
package com.microsoft.azure.sdk.iot.device;
import com.microsoft.azure.sdk.iot.device.auth.IotHubSSLContext;
import com.microsoft.azure.sdk.iot.device.auth.IotHubAuthenticationProvider;
import com.microsoft.azure.sdk.iot.device.auth.SignatureProvider;
import com.microsoft.azure.sdk.iot.device.edge.HttpsHsmTrustBundleProvider;
import com.microsoft.azure.sdk.iot.device.edge.DirectMethodRequest;
import com.microsoft.azure.sdk.iot.device.edge.DirectMethodResponse;
import com.microsoft.azure.sdk.iot.device.edge.TrustBundleProvider;
import com.microsoft.azure.sdk.iot.device.exceptions.IotHubClientException;
import com.microsoft.azure.sdk.iot.device.transport.IotHubServiceException;
import com.microsoft.azure.sdk.iot.device.transport.TransportException;
import com.microsoft.azure.sdk.iot.device.hsm.HttpHsmSignatureProvider;
import com.microsoft.azure.sdk.iot.device.hsm.IotHubSasTokenHsmAuthenticationProvider;
import com.microsoft.azure.sdk.iot.device.hsm.UnixDomainSocketChannel;
import com.microsoft.azure.sdk.iot.device.transport.TransportUtils;
import com.microsoft.azure.sdk.iot.device.transport.https.HttpsTransportManager;
import lombok.extern.slf4j.Slf4j;
import javax.net.ssl.SSLContext;
import java.io.IOException;
import java.net.URISyntaxException;
import java.security.KeyManagementException;
import java.security.KeyStoreException;
import java.security.NoSuchAlgorithmException;
import java.security.cert.CertificateException;
import java.util.Map;
/**
* Public API for communicating from Edge Modules. A ModuleClient can be used to send messages from an Edge module to an EdgeHub or an IotHub.
* It can also send twin updates and listen for method calls from an EdgeHub or IotHub as well
*/
@Slf4j
public class ModuleClient extends InternalClient
{
private static final String DEFAULT_API_VERSION = "2018-06-28";
private static final int DEFAULT_SAS_TOKEN_TIME_TO_LIVE_SECONDS = 60 * 60; //1 hour
private static final int DEFAULT_SAS_TOKEN_BUFFER_PERCENTAGE = 85; //Token will go 85% of its life before renewing
private static final String IotEdgedUriVariableName = "IOTEDGE_WORKLOADURI";
private static final String IotHubHostnameVariableName = "IOTEDGE_IOTHUBHOSTNAME";
private static final String GatewayHostnameVariableName = "IOTEDGE_GATEWAYHOSTNAME";
private static final String DeviceIdVariableName = "IOTEDGE_DEVICEID";
private static final String ModuleIdVariableName = "IOTEDGE_MODULEID";
private static final String ModuleGenerationIdVariableName = "IOTEDGE_MODULEGENERATIONID";
private static final String AuthSchemeVariableName = "IOTEDGE_AUTHSCHEME";
private static final String SasTokenAuthScheme = "sasToken";
private static final String EdgehubConnectionstringVariableName = "EdgeHubConnectionString";
private static final String IothubConnectionstringVariableName = "IotHubConnectionString";
private static final String EdgeCaCertificateFileVariableName = "EdgeModuleCACertificateFile";
/**
* Constructor for a ModuleClient instance.
* @param connectionString The connection string for the edge module to connect to. Must be in format
* HostName=xxxx;deviceId=xxxx;SharedAccessKey=
* xxxx;moduleId=xxxx;
*
* or
*
* HostName=xxxx;DeviceId=xxxx;SharedAccessKey=
* xxxx;moduleId=xxxx;HostNameGateway=xxxx
* @param protocol The protocol to use when communicating with the module
* @throws UnsupportedOperationException if using any protocol besides MQTT, if the connection string is missing
* the "moduleId" field, or if the connection string uses x509
* @throws IllegalArgumentException if the provided connection string is null or empty, or if the provided protocol is null
*/
public ModuleClient(String connectionString, IotHubClientProtocol protocol) throws IllegalArgumentException, UnsupportedOperationException
{
super(new IotHubConnectionString(connectionString), protocol, null);
commonConstructorVerifications(protocol, this.config);
commonConstructorSetup();
}
/**
* Constructor for a ModuleClient instance.
* @param connectionString The connection string for the edge module to connect to. Must be in format
* HostName=xxxx;deviceId=xxxx;SharedAccessKey=
* xxxx;moduleId=xxxx;
*
* or
*
* HostName=xxxx;DeviceId=xxxx;SharedAccessKey=
* xxxx;moduleId=xxxx;HostNameGateway=xxxx
* @param protocol The protocol to use when communicating with the module
* @param clientOptions The options that allow configuration of the module client instance during initialization
* @throws UnsupportedOperationException if using any protocol besides MQTT, if the connection string is missing
* the "moduleId" field, or if the connection string uses x509
* @throws IllegalArgumentException if the provided connection string is null or empty, or if the provided protocol is null
*/
public ModuleClient(String connectionString, IotHubClientProtocol protocol, ClientOptions clientOptions) throws IllegalArgumentException, UnsupportedOperationException
{
super(new IotHubConnectionString(connectionString), protocol, clientOptions);
commonConstructorVerifications(protocol, this.config);
commonConstructorSetup();
}
/**
* Constructor that allows for the client's SAS token generation to be controlled by the user. Note that options in
* this client such as setting the SAS token expiry time will throw {@link UnsupportedOperationException} since
* the SDK no longer controls that when this constructor is used.
*
* @param hostName The host name of the IoT hub that this client will connect to.
* @param deviceId The Id of the device containing the module that the connection will identify as.
* @param moduleId The Id of the module that the connection will identify as.
* @param sasTokenProvider The provider of all SAS tokens that are used during authentication.
* @param protocol The protocol that the client will connect over.
*/
public ModuleClient(String hostName, String deviceId, String moduleId, SasTokenProvider sasTokenProvider, IotHubClientProtocol protocol)
{
this(hostName, deviceId, moduleId, sasTokenProvider, protocol, null);
}
/**
* Constructor that allows for the client's SAS token generation to be controlled by the user. Note that options in
* this client such as setting the SAS token expiry time will throw {@link UnsupportedOperationException} since
* the SDK no longer controls that when this constructor is used.
*
* @param hostName The host name of the IoT hub that this client will connect to.
* @param deviceId The Id of the device containing the module that the connection will identify as.
* @param moduleId The Id of the module that the connection will identify as.
* @param sasTokenProvider The provider of all SAS tokens that are used during authentication.
* @param protocol The protocol that the client will connect over.
* @param clientOptions The options that allow configuration of the module client instance during initialization.
*/
public ModuleClient(String hostName, String deviceId, String moduleId, SasTokenProvider sasTokenProvider, IotHubClientProtocol protocol, ClientOptions clientOptions)
{
super(hostName, deviceId, moduleId, sasTokenProvider, protocol, clientOptions);
commonConstructorVerifications(protocol, this.getConfig());
commonConstructorSetup();
}
/**
* Create a module client instance from your environment variables
* @param unixDomainSocketChannel the implementation of the {@link UnixDomainSocketChannel} interface that will be used if any
* unix domain socket communication is required. May be null if no unix domain socket communication is required. If
* this argument is null and unix domain socket communication is required, this method will through an {@link IllegalArgumentException}.
* To check if unix domain socket communication is required for your Edge runtime, check its "IOTEDGE_WORKLOADURI"
* environment variable. If it is not present, or its value is prefixed with "HTTP" or "HTTPS", then no unix domain
* socket communication is required, and this argument can be set to null. If its value is present and is prefixed
* with "unix", then unix domain socket communication will be required, and this argument must not be null.
* @return the created module client instance
* @throws IotHubClientException if the module client cannot be created
*/
public static ModuleClient createFromEnvironment(UnixDomainSocketChannel unixDomainSocketChannel) throws IotHubClientException
{
return createFromEnvironment(unixDomainSocketChannel, IotHubClientProtocol.AMQPS);
}
/**
* Create a module client instance from your environment variables
* @param unixDomainSocketChannel the implementation of the {@link UnixDomainSocketChannel} interface that will be used if any
* unix domain socket communication is required. May be null if no unix domain socket communication is required. If
* this argument is null and unix domain socket communication is required, this method will through an {@link IllegalArgumentException}.
* To check if unix domain socket communication is required for your Edge runtime, check its "IOTEDGE_WORKLOADURI"
* environment variable. If it is not present, or its value is prefixed with "HTTP" or "HTTPS", then no unix domain
* socket communication is required, and this argument can be set to null. If its value is present and is prefixed
* with "unix", then unix domain socket communication will be required, and this argument must not be null.
* @param protocol the protocol the module client instance will use
* @return the created module client instance
* @throws IotHubClientException if the module client cannot be created
*/
public static ModuleClient createFromEnvironment(UnixDomainSocketChannel unixDomainSocketChannel, IotHubClientProtocol protocol) throws IotHubClientException
{
return createFromEnvironment(unixDomainSocketChannel, protocol, null);
}
/**
* Create a module client instance from your environment variables
* @param unixDomainSocketChannel the implementation of the {@link UnixDomainSocketChannel} interface that will be used if any
* unix domain socket communication is required. May be null if no unix domain socket communication is required. If
* this argument is null and unix domain socket communication is required, this method will through an {@link IllegalArgumentException}.
* To check if unix domain socket communication is required for your Edge runtime, check its "IOTEDGE_WORKLOADURI"
* environment variable. If it is not present, or its value is prefixed with "HTTP" or "HTTPS", then no unix domain
* socket communication is required, and this argument can be set to null. If its value is present and is prefixed
* with "unix", then unix domain socket communication will be required, and this argument must not be null.
* @param protocol the protocol the module client instance will use
* @param clientOptions The options that allow configuration of the module client instance during initialization
* @return the created module client instance
* @throws IotHubClientException if the module client cannot be created
*/
public static ModuleClient createFromEnvironment(UnixDomainSocketChannel unixDomainSocketChannel, IotHubClientProtocol protocol, ClientOptions clientOptions) throws IotHubClientException
{
log.info("Creating module client from environment with protocol {}...", protocol);
Map envVariables = System.getenv();
log.debug("Checking for an edgehub connection string...");
String connectionString = envVariables.get(EdgehubConnectionstringVariableName);
if (connectionString == null)
{
log.debug("No edgehub connection string was configured, checking for an IoT hub connection string...");
connectionString = envVariables.get(IothubConnectionstringVariableName);
}
// First try to create from connection string and if env variable for connection string is not found try to create from edgedUri
if (connectionString != null)
{
log.debug("Creating module client with the provided connection string");
//Check for a different default cert to be used
String alternativeDefaultTrustedCert = envVariables.get(EdgeCaCertificateFileVariableName);
SSLContext sslContext;
if (alternativeDefaultTrustedCert != null && !alternativeDefaultTrustedCert.isEmpty())
{
log.debug("Configuring module client to use the configured alternative trusted certificate");
try
{
sslContext = IotHubSSLContext.getSSLContextFromFile(alternativeDefaultTrustedCert);
}
catch (CertificateException | IOException | KeyStoreException | NoSuchAlgorithmException | KeyManagementException e)
{
throw new IotHubClientException(IotHubStatusCode.ERROR, "Failed to create an SSLContext instance from the provided trusted cert file path", e);
}
}
else
{
sslContext = new IotHubSSLContext().getSSLContext();
}
if (clientOptions == null || clientOptions.getSslContext() == null)
{
// only override the SSLContext if the user didn't set it
clientOptions = ClientOptions.builder().sslContext(sslContext).build();
}
else
{
log.debug("Ignoring trusted certs saved in {} environment variable because custom SSLContext was provided in client options.", EdgeCaCertificateFileVariableName);
}
return new ModuleClient(connectionString, protocol, clientOptions);
}
else
{
log.info("No connection string was configured for this module, so it will get its credentials from the edgelet");
String edgedUri = envVariables.get(IotEdgedUriVariableName);
String deviceId = envVariables.get(DeviceIdVariableName);
String moduleId = envVariables.get(ModuleIdVariableName);
String hostname = envVariables.get(IotHubHostnameVariableName);
String authScheme = envVariables.get(AuthSchemeVariableName);
String gatewayHostname = envVariables.get(GatewayHostnameVariableName);
String generationId = envVariables.get(ModuleGenerationIdVariableName);
if (edgedUri == null)
{
throw new IllegalStateException("Environment variable " + IotEdgedUriVariableName + " is required.");
}
if (deviceId == null)
{
throw new IllegalStateException("Environment variable " + DeviceIdVariableName + " is required.");
}
if (moduleId == null)
{
throw new IllegalStateException("Environment variable " + ModuleIdVariableName + " is required.");
}
if (hostname == null)
{
throw new IllegalStateException("Environment variable " + IotHubHostnameVariableName + " is required.");
}
if (authScheme == null)
{
throw new IllegalStateException("Environment variable " + AuthSchemeVariableName + " is required.");
}
if (generationId == null)
{
throw new IllegalStateException("Environment variable " + ModuleGenerationIdVariableName + " is required");
}
if (!authScheme.equalsIgnoreCase(SasTokenAuthScheme))
{
throw new IllegalStateException("Unsupported authentication scheme. Supported scheme is " + SasTokenAuthScheme + ".");
}
SignatureProvider signatureProvider;
try
{
signatureProvider = new HttpHsmSignatureProvider(edgedUri, DEFAULT_API_VERSION, unixDomainSocketChannel);
}
catch (NoSuchAlgorithmException | URISyntaxException e)
{
throw new IotHubClientException(IotHubStatusCode.ERROR, "Could not use Hsm Signature Provider", e);
}
try
{
SSLContext sslContext;
if (gatewayHostname != null && !gatewayHostname.isEmpty())
{
TrustBundleProvider trustBundleProvider = new HttpsHsmTrustBundleProvider();
String trustCertificates = trustBundleProvider.getTrustBundleCerts(edgedUri, DEFAULT_API_VERSION, unixDomainSocketChannel);
sslContext = IotHubSSLContext.getSSLContextFromString(trustCertificates);
}
else
{
sslContext = new IotHubSSLContext().getSSLContext();
}
IotHubAuthenticationProvider iotHubAuthenticationProvider =
IotHubSasTokenHsmAuthenticationProvider
.create(
signatureProvider,
deviceId,
moduleId,
hostname,
gatewayHostname,
generationId,
DEFAULT_SAS_TOKEN_TIME_TO_LIVE_SECONDS,
DEFAULT_SAS_TOKEN_BUFFER_PERCENTAGE,
sslContext);
return new ModuleClient(iotHubAuthenticationProvider, protocol);
}
catch (URISyntaxException | CertificateException | NoSuchAlgorithmException | KeyStoreException | KeyManagementException e)
{
throw new IotHubClientException(IotHubStatusCode.ERROR, "Failed to handle the provided certificates", e);
}
catch (TransportException e)
{
throw e.toIotHubClientException();
}
catch (IOException e)
{
throw new IotHubClientException(IotHubStatusCode.IO_ERROR, e);
}
}
}
private ModuleClient(IotHubAuthenticationProvider iotHubAuthenticationProvider, IotHubClientProtocol protocol)
{
super(iotHubAuthenticationProvider, protocol);
commonConstructorSetup();
}
/**
* Synchronously sends a message to to a particular outputName.
*
* @param message the message to be sent.
* @param outputName the outputName to route the message to
*
* @throws InterruptedException if the operation is interrupted while waiting on the telemetry to be acknowledged by the service.
* @throws IllegalStateException if the client has not been opened yet or is already closed.
* @throws IotHubClientException if the request is rejected by the service for any reason of if the synchronous operation times out.
*/
public void sendEvent(Message message, String outputName)
throws IllegalStateException, InterruptedException, IotHubClientException
{
this.sendEvent(message, outputName, DEFAULT_TIMEOUT_MILLISECONDS);
}
/**
* Synchronously sends a message to to a particular outputName.
*
* @param message the message to be sent.
* @param outputName the outputName to route the message to
* @param timeoutMilliseconds The maximum number of milliseconds to wait for the service to acknowledge this message.
* If 0, then it will wait indefinitely.
*
* @throws InterruptedException if the operation is interrupted while waiting on the telemetry to be acknowledged by the service.
* @throws IllegalStateException if the client has not been opened yet or is already closed.
* @throws IotHubClientException if the request is rejected by the service for any reason of if the synchronous operation times out.
*/
public void sendEvent(Message message, String outputName, int timeoutMilliseconds)
throws IllegalStateException, InterruptedException, IotHubClientException
{
if (outputName == null || outputName.isEmpty())
{
throw new IllegalArgumentException("outputName cannot be null or empty");
}
message.setOutputName(outputName);
this.sendEvent(message, timeoutMilliseconds);
}
@Override
public void sendEvent(Message message)
throws IllegalArgumentException, InterruptedException, IotHubClientException
{
message.setConnectionModuleId(this.config.getModuleId());
super.sendEvent(message);
}
/**
* Sends a message to a particular outputName asynchronously
*
* @param outputName the outputName to route the message to
* @param message the message to send
* @param callback the callback to be fired when the message is acknowledged by the service
* @param callbackContext the context to be included in the callback when fired
* @throws IllegalStateException if the client has not been opened yet or is already closed.
*/
public void sendEventAsync(Message message, MessageSentCallback callback, Object callbackContext, String outputName) throws IllegalStateException
{
if (outputName == null || outputName.isEmpty())
{
throw new IllegalArgumentException("outputName cannot be null or empty");
}
message.setOutputName(outputName);
this.sendEventAsync(message, callback, callbackContext);
}
@Override
public void sendEventAsync(Message message, MessageSentCallback callback, Object callbackContext) throws IllegalArgumentException
{
message.setConnectionModuleId(this.config.getModuleId());
super.sendEventAsync(message, callback, callbackContext);
}
/**
* Invoke a method on a device
* @param deviceId the device to invoke a method on
* @param directMethodRequest the request containing the method to invoke on the device
* @return the result of the method call
* @throws IotHubClientException if the method cannot be invoked
* @throws IllegalArgumentException if deviceId is null or empty
*/
public DirectMethodResponse invokeMethod(String deviceId, DirectMethodRequest directMethodRequest) throws IotHubClientException
{
if (deviceId == null || deviceId.isEmpty())
{
throw new IllegalArgumentException("DeviceId cannot be null or empty");
}
try
{
HttpsTransportManager httpsTransportManager = new HttpsTransportManager(this.config);
return httpsTransportManager.invokeMethod(directMethodRequest, deviceId, "");
}
catch (IotHubServiceException e)
{
throw new IotHubClientException(e.getStatusCode(), "Could not invoke method", e);
}
catch (TransportException e)
{
throw new IotHubClientException(IotHubStatusCode.IO_ERROR, "Could not invoke method", e);
}
catch (IOException e)
{
throw new IotHubClientException(IotHubStatusCode.IO_ERROR, e);
}
}
/**
* Invoke a method on a module
* @param deviceId the device the module belongs to
* @param moduleId the module to invoke the method on
* @param directMethodRequest the request containing the method to invoke on the device
* @return the result of the method call
* @throws IotHubClientException if the method cannot be invoked
* @throws IllegalArgumentException if deviceId is null or empty, or if moduleId is null or empty
*/
public DirectMethodResponse invokeMethod(String deviceId, String moduleId, DirectMethodRequest directMethodRequest) throws IotHubClientException
{
if (deviceId == null || deviceId.isEmpty())
{
throw new IllegalArgumentException("DeviceId cannot be null or empty");
}
if (moduleId == null || moduleId.isEmpty())
{
throw new IllegalArgumentException("DeviceId cannot be null or empty");
}
try
{
HttpsTransportManager httpsTransportManager = new HttpsTransportManager(this.config);
return httpsTransportManager.invokeMethod(directMethodRequest, deviceId, moduleId);
}
catch (IotHubServiceException e)
{
throw new IotHubClientException(e.getStatusCode(), "Could not invoke method", e);
}
catch (TransportException e)
{
throw new IotHubClientException(IotHubStatusCode.IO_ERROR, "Could not invoke method", e);
}
catch (IOException e)
{
throw new IotHubClientException(IotHubStatusCode.IO_ERROR, e);
}
}
/**
* Sets the message callback.
*
* This should be set before opening the client. If it is set after opening the client, any messages sent by the
* service may be missed.
*
*
* This callback is preserved between reconnection attempts and preserved after re-opening a previously closed client.
*
* @param callback the message callback. Can be {@code null}.
* @param context the context to be passed to the callback. Can be {@code null}.
*
* @return itself, for fluent setting.
*
* @throws IllegalArgumentException if the callback is {@code null} but a context is
* passed in.
*/
public ModuleClient setMessageCallback(MessageCallback callback, Object context)
{
this.setMessageCallbackInternal(callback, context);
return this;
}
/**
* Sets the message callback to be fired when a telemetry message arrives on the specified input channel. All other
* messages will trigger the default message callback in setMessageCallback(MessageCallback callback, Object context).
* Any message that triggers this callback will not also trigger the default callback.
*
* @param inputName the input name channel to listen for.
* @param callback the message callback. Can be {@code null}.
* @param context the context to be passed to the callback. Can be {@code null}.
*
* @return this object, for fluent setting
*/
public ModuleClient setMessageCallback(String inputName, MessageCallback callback, Object context)
{
if (inputName == null || inputName.isEmpty())
{
throw new IllegalArgumentException("InputName must not be null or empty");
}
if (callback == null && context != null)
{
throw new IllegalArgumentException("Cannot give non-null context for a null callback.");
}
this.config.setMessageCallback(inputName, callback, context);
return this;
}
private static void commonConstructorVerifications(IotHubClientProtocol protocol, ClientConfiguration config)
{
if (protocol == IotHubClientProtocol.HTTPS)
{
throw new UnsupportedOperationException("Only MQTT, MQTT_WS, AMQPS and AMQPS_WS are supported for ModuleClient.");
}
if (config.getModuleId() == null || config.getModuleId().isEmpty())
{
throw new IllegalArgumentException("Connection string must contain field for ModuleId");
}
}
private static void commonConstructorSetup()
{
log.debug("Initialized a ModuleClient instance using SDK version {}", TransportUtils.CLIENT_VERSION);
}
}
© 2015 - 2024 Weber Informatics LLC | Privacy Policy