private void CreateRemoteResource(IntPtr resourceTypeHandle, IntPtr resourceInterfaceHandle)
{
Interop.IoTConnectivity.Client.RemoteResource.ConnectivityType connectivityType = GetConnectivityType(HostAddress);
if (connectivityType == Interop.IoTConnectivity.Client.RemoteResource.ConnectivityType.None)
{
Log.Error(IoTConnectivityErrorFactory.LogTag, "Unable to parse host address");
throw new ArgumentException("Unable to parse host address");
}
int ret = Interop.IoTConnectivity.Client.RemoteResource.Create(HostAddress, (int)connectivityType, UriPath, (int)Policy, resourceTypeHandle, resourceInterfaceHandle, out _remoteResourceHandle);
if (ret != (int)IoTConnectivityError.None)
{
Log.Error(IoTConnectivityErrorFactory.LogTag, "Failed to get remote resource");
throw IoTConnectivityErrorFactory.GetException(ret);
}
}
internal static Interop.IoTConnectivity.Client.RemoteResource.ConnectivityType GetConnectivityType(string hostAddress)
{
Interop.IoTConnectivity.Client.RemoteResource.ConnectivityType type = Interop.IoTConnectivity.Client.RemoteResource.ConnectivityType.None;
Log.Info(IoTConnectivityErrorFactory.LogTag, hostAddress);
if (hostAddress == IoTConnectivityClientManager.MulticastAddress)
{
type = Interop.IoTConnectivity.Client.RemoteResource.ConnectivityType.Ipv4;
}
else
{
IPAddress address;
string hostName = hostAddress;
if (hostAddress.Contains(":"))
{
string[] hostParts = hostAddress.Split(':');
if (hostParts.Length == 2)
{
hostName = hostParts[0];
}
}
if (hostAddress.Contains("%"))
{
string[] hostParts = hostAddress.Split('%');
if (hostParts.Length == 2)
{
hostName = hostParts[0];
}
}
if (hostName.Contains("["))
{
string[] hostParts = hostName.Split('[');
if (hostParts.Length == 2)
{
hostName = hostParts[1];
}
}
Log.Info(IoTConnectivityErrorFactory.LogTag, hostName);
if (IPAddress.TryParse(hostName, out address))
{
switch (address.AddressFamily)
{
case System.Net.Sockets.AddressFamily.InterNetwork:
type = Interop.IoTConnectivity.Client.RemoteResource.ConnectivityType.Ipv4;
break;
case System.Net.Sockets.AddressFamily.InterNetworkV6:
type = Interop.IoTConnectivity.Client.RemoteResource.ConnectivityType.Ipv6;
break;
default:
Log.Error(IoTConnectivityErrorFactory.LogTag, "Failed to parse for Ipv4 or Ipv6");
break;
}
}
else
{
Log.Error(IoTConnectivityErrorFactory.LogTag, "Failed to parse hostname " + hostName);
}
}
return(type);
}
/// <summary>
/// Starts finding resources.
/// </summary>
/// <since_tizen> 3 </since_tizen>
/// <remarks>
/// <para>Sends request to find a resource of <paramref name="hostAddress" /> server with <paramref name="query" />.
/// If succeeded, <see cref="ResourceFound"/> event handler will be triggered with information of the resource.</para>
/// <para><paramref name="hostAddress" /> could be <see cref="MulticastAddress"/> for the IPv4 multicast.</para>
/// </remarks>
/// <privilege>http://tizen.org/privilege/internet</privilege>
/// <privlevel>public</privlevel>
/// <param name="hostAddress">The address or addressable name of the server. The address includes a protocol like coaps://.</param>
/// <param name="query">The query specified as a filter for founding resources.</param>
/// <returns>RequestId - An identifier for this request.</returns>
/// <feature>http://tizen.org/feature/iot.ocf</feature>
/// <pre>Initialize() should be called to initialize.</pre>
/// <post>
/// When the resource is found, <see cref="ResourceFound"/> event handler will be invoked.
/// </post>
/// <seealso cref="ResourceFound"/>
/// <seealso cref="ResourceFoundEventArgs"/>
/// <seealso cref="TimeOut"/>
/// <exception cref="NotSupportedException">Thrown when the iotcon is not supported.</exception>
/// <exception cref="InvalidOperationException">Thrown when the operation is invalid.</exception>
/// <exception cref="UnauthorizedAccessException">Thrown when an application does not have privilege to access.</exception>
/// <exception cref="OutOfMemoryException">Thrown when there is not enough memory.</exception>
/// <example><code><![CDATA[
/// EventHandler<ResourceFoundEventArgs> handler = (sender, e) => {
/// Console.Log("Found resource at host address :" + e.Resource.HostAddress + ", uri :" + e.Resource.UriPath);
/// }
/// EventHandler<FindingErrorOccurredEventArgs> errorHandler = (sender, e) => {
/// Console.Log("Found error :" + e.Error.Message);
/// }
/// IoTConnectivityClientManager.ResourceFound += handler;
/// IoTConnectivityClientManager.FindingErrorOccurred += errorHandler;
/// ResourceQuery query = new ResourceQuery();
/// query.Type = "oic.iot.door";
/// // Do not forget to remove these event handlers when they are not required any more.
/// int id = IoTConnectivityClientManager.StartFindingResource(null, query);
/// ]]></code></example>
public static int StartFindingResource(string hostAddress, ResourceQuery query = null)
{
Interop.IoTConnectivity.Client.RemoteResource.ConnectivityType connectivityType = Interop.IoTConnectivity.Client.RemoteResource.ConnectivityType.Ip;
IntPtr id = IntPtr.Zero;
lock (s_resourceFoundCallbacksMap)
{
id = (IntPtr)s_requestId++;
}
s_resourceFoundCallbacksMap[id] = (IntPtr remoteResourceHandle, int result, IntPtr userData) =>
{
if (ResourceFound == null)
{
return(false);
}
int requestId = (int)userData;
if (result == (int)IoTConnectivityError.None)
{
if (remoteResourceHandle != IntPtr.Zero)
{
RemoteResource resource = null;
try
{
resource = new RemoteResource(remoteResourceHandle);
}
catch (Exception exp)
{
Log.Error(IoTConnectivityErrorFactory.LogTag, "Can't clone RemoteResource's handle: " + exp.Message);
return(true);
}
ResourceFoundEventArgs e = new ResourceFoundEventArgs()
{
RequestId = requestId,
EventContinue = true,
Resource = resource
};
ResourceFound?.Invoke(null, e);
Log.Info(IoTConnectivityErrorFactory.LogTag, "e.EventContinue : " + e.EventContinue);
return(e.EventContinue);
}
else
{
Log.Error(IoTConnectivityErrorFactory.LogTag, "Handle is null");
}
}
else
{
FindingErrorOccurredEventArgs e = GetFindingErrorOccurredEventArgs(requestId, result);
FindingErrorOccurred?.Invoke(null, e);
lock (s_resourceFoundCallbacksMap)
{
s_resourceFoundCallbacksMap.Remove(id);
}
}
return(true);
};
IntPtr queryHandle = (query == null) ? IntPtr.Zero : query._resourceQueryHandle;
int errorCode = Interop.IoTConnectivity.Client.ResourceFinder.AddResourceFoundCb(hostAddress, (int)connectivityType, queryHandle, s_resourceFoundCallbacksMap[id], id);
if (errorCode != (int)IoTConnectivityError.None)
{
Log.Error(IoTConnectivityErrorFactory.LogTag, "Failed to register resource found event handler");
lock (s_resourceFoundCallbacksMap)
{
s_resourceFoundCallbacksMap.Remove(id);
}
throw IoTConnectivityErrorFactory.GetException(errorCode);
}
return((int)id);
}
/// <summary>
/// Starts finding the platform information of remote server.
/// </summary>
/// <since_tizen> 3 </since_tizen>
/// <remarks>
/// <para>Requests server for platform information.
/// If succeeded, <see cref="PlatformInformationFound" /> event handler will be triggered with information of the platform.</para>
/// <para><paramref name="hostAddress" /> could be <see cref="MulticastAddress"/> for IPv4 multicast.</para>
/// </remarks>
/// <privilege>http://tizen.org/privilege/internet</privilege>
/// <privlevel>public</privlevel>
/// <param name="hostAddress">The host address of remote server.</param>
/// <param name="query">The query specified as a filter for founding resources.</param>
/// <returns>RequestId - An identifier for this request.</returns>
/// <feature>http://tizen.org/feature/iot.ocf</feature>
/// <pre>Initialize() should be called to initialize.</pre>
/// <post>
/// <see cref="PlatformInformationFound" /> event handler will be invoked.
/// </post>
/// <seealso cref="PlatformInformationFound"/>
/// <seealso cref="PlatformInformationFoundEventArgs"/>
/// <seealso cref="TimeOut"/>
/// <exception cref="NotSupportedException">Thrown when the iotcon is not supported.</exception>
/// <exception cref="InvalidOperationException">Thrown when the operation is invalid.</exception>
/// <exception cref="UnauthorizedAccessException">Thrown when an application does not have privilege to access.</exception>
/// <exception cref="OutOfMemoryException">Thrown when there is not enough memory.</exception>
/// <example><code><![CDATA[
/// EventHandler<PlatformInformationFoundEventArgs> handler = (sender, e) => {
/// Console.Log("PlatformInformationFound :" + e.RequestId);
/// }
/// EventHandler<FindingErrorOccurredEventArgs> errorHandler = (sender, e) => {
/// Console.Log("Found error :" + e.Error.Message);
/// }
/// IoTConnectivityClientManager.PlatformInformationFound += handler;
/// IoTConnectivityClientManager.FindingErrorOccurred += errorHandler;
/// // Do not forget to remove these event handlers when they are not required any more.
/// int id = IoTConnectivityClientManager.StartFindingPlatformInformation(IoTConnectivityClientManager.MulticastAddress);
/// ]]></code></example>
public static int StartFindingPlatformInformation(string hostAddress, ResourceQuery query = null)
{
Interop.IoTConnectivity.Client.RemoteResource.ConnectivityType connectivityType = Interop.IoTConnectivity.Client.RemoteResource.ConnectivityType.Ip;
IntPtr id = IntPtr.Zero;
lock (s_platformInformationCallbacksMap)
{
id = (IntPtr)s_requestId++;
}
s_platformInformationCallbacksMap[id] = (IntPtr platformInfoHandle, int result, IntPtr userData) =>
{
if (PlatformInformationFound == null)
{
return(false);
}
int requestId = (int)userData;
if (result == (int)IoTConnectivityError.None)
{
if (platformInfoHandle != IntPtr.Zero)
{
PlatformInformationFoundEventArgs e = GetPlatformInformationFoundEventArgs(requestId, platformInfoHandle);
if (e == null)
{
Log.Error(IoTConnectivityErrorFactory.LogTag, "Can't get PlatformInformationFoundEventArgs");
return(true);
}
PlatformInformationFound?.Invoke(null, e);
Log.Info(IoTConnectivityErrorFactory.LogTag, "e.EventContinue : " + e.EventContinue);
return(e.EventContinue);
}
else
{
Log.Error(IoTConnectivityErrorFactory.LogTag, "Handle is null");
}
}
else
{
FindingErrorOccurredEventArgs e = GetFindingErrorOccurredEventArgs(requestId, result);
FindingErrorOccurred?.Invoke(null, e);
lock (s_platformInformationCallbacksMap)
{
s_platformInformationCallbacksMap.Remove(id);
}
}
return(true);
};
IntPtr queryHandle = (query == null) ? IntPtr.Zero : query._resourceQueryHandle;
int errorCode = Interop.IoTConnectivity.Client.PlatformInformation.Find(hostAddress, (int)connectivityType, queryHandle, s_platformInformationCallbacksMap[id], id);
if (errorCode != (int)IoTConnectivityError.None)
{
Log.Error(IoTConnectivityErrorFactory.LogTag, "Failed to get platform information");
lock (s_platformInformationCallbacksMap)
{
s_platformInformationCallbacksMap.Remove(id);
}
throw IoTConnectivityErrorFactory.GetException(errorCode);
}
return((int)id);
}
/// <summary>
/// Starts receiving presence events.
/// </summary>
/// <since_tizen> 3 </since_tizen>
/// <remarks>
/// <para>Sends request to receive presence to an interested server's resource with resourceType.
/// If succeeded, <see cref="PresenceReceived"/> event handler will be triggered when the server sends presence.
/// A server sends presence events when adds / removes / alters a resource or start / stop presence.</para>
/// <para><paramref name="hostAddress" /> could be <see cref="MulticastAddress"/> for IPv4 multicast.
/// The length of <paramref name="resourceType" /> should be less than or equal to 61.
/// The <paramref name="resourceType" /> must start with a lowercase alphabetic character, followed by a sequence
/// of lowercase alphabetic, numeric, ".", or "-" characters, and contains no white space.</para>
/// </remarks>
/// <privilege>http://tizen.org/privilege/internet</privilege>
/// <privlevel>public</privlevel>
/// <param name="hostAddress">The address or addressable name of the server.</param>
/// <param name="resourceType">A resource type that a client is interested in.</param>
/// <returns>PresenceId - An identifier for this request.</returns>
/// <feature>http://tizen.org/feature/iot.ocf</feature>
/// <pre>Initialize() should be called to initialize.</pre>
/// <post>
/// When the resource receive presence, <see cref="PresenceReceived"/> event handler will be invoked.<br/>
/// You must destroy presence by calling StopReceivingPresence() if presence event is no longer needed.
/// </post>
/// <seealso cref="IoTConnectivityServerManager.StartSendingPresence(uint)"/>
/// <seealso cref="IoTConnectivityServerManager.StopSendingPresence()"/>
/// <seealso cref="StopReceivingPresence(int)"/>
/// <seealso cref="PresenceReceived"/>
/// <exception cref="NotSupportedException">Thrown when the iotcon is not supported.</exception>
/// <exception cref="ArgumentException">Thrown when there is an invalid parameter.</exception>
/// <exception cref="InvalidOperationException">Thrown when the operation is invalid.</exception>
/// <exception cref="UnauthorizedAccessException">Thrown when an application does not have privilege to access.</exception>
/// <exception cref="OutOfMemoryException">Thrown when there is not enough memory.</exception>
/// <example><code><![CDATA[
/// EventHandler<PresenceReceivedEventArgs> handler = (sender, e) => {
/// Console.Log("PresenceReceived, presence id :" + e.PresenceId);
/// }
/// EventHandler<FindingErrorOccurredEventArgs> errorHandler = (sender, e) => {
/// Console.Log("Found error :" + e.Error.Message);
/// }
/// IoTConnectivityClientManager.PresenceReceived += handler;
/// IoTConnectivityClientManager.FindingErrorOccurred += errorHandler;
/// // Do not forget to remove these event handlers when they are not required any more.
/// int id = IoTConnectivityClientManager.StartReceivingPresence(IoTConnectivityClientManager.MulticastAddress, "oic.iot.door");
/// ]]></code></example>
public static int StartReceivingPresence(string hostAddress, string resourceType)
{
Interop.IoTConnectivity.Client.RemoteResource.ConnectivityType connectivityType = Interop.IoTConnectivity.Client.RemoteResource.ConnectivityType.Ip;
if (resourceType != null && !ResourceTypes.IsValid(resourceType))
{
Log.Error(IoTConnectivityErrorFactory.LogTag, "Invalid type");
throw new ArgumentException("Invalid type");
}
IntPtr id = IntPtr.Zero;
lock (s_presenceCallbacksMap)
{
id = (IntPtr)s_presenceListenerId++;
}
s_presenceCallbacksMap[id] = (IntPtr presence, int result, IntPtr presenceResponseHandle, IntPtr userData) =>
{
int presenceId = (int)userData;
if (result == (int)IoTConnectivityError.None)
{
if (presenceResponseHandle != IntPtr.Zero)
{
PresenceReceivedEventArgs e = GetPresenceReceivedEventArgs(presenceId, presenceResponseHandle);
if (e == null)
{
Log.Error(IoTConnectivityErrorFactory.LogTag, "Can't get PresenceReceivedEventArgs");
return;
}
PresenceReceived?.Invoke(null, e);
}
else
{
Log.Error(IoTConnectivityErrorFactory.LogTag, "Handle is null");
return;
}
}
else
{
FindingErrorOccurredEventArgs e = GetFindingErrorOccurredEventArgs(presenceId, result);
FindingErrorOccurred?.Invoke(null, e);
}
};
IntPtr presenceHandle;
int errorCode = Interop.IoTConnectivity.Client.Presence.AddPresenceCb(hostAddress, (int)connectivityType, resourceType, s_presenceCallbacksMap[id], id, out presenceHandle);
if (errorCode != (int)IoTConnectivityError.None)
{
Log.Error(IoTConnectivityErrorFactory.LogTag, "Failed to register presence event handler");
lock (s_presenceCallbacksMap)
{
s_presenceCallbacksMap.Remove(id);
}
throw IoTConnectivityErrorFactory.GetException(errorCode);
}
lock (s_presenceHandlesMap)
{
s_presenceHandlesMap[id] = presenceHandle;
}
return((int)id);
}