Пример #1
0
 /// <summary>
 /// <para>/ Call this in response to a SteamNetworkingMessagesSessionRequest_t callback.</para>
 /// <para>/ SteamNetworkingMessagesSessionRequest_t are posted when a user tries to send you a message,</para>
 /// <para>/ and you haven't tried to talk to them first.  If you don't want to talk to them, just ignore</para>
 /// <para>/ the request.  If the user continues to send you messages, SteamNetworkingMessagesSessionRequest_t</para>
 /// <para>/ callbacks will continue to be posted periodically.</para>
 /// <para>/</para>
 /// <para>/ Returns false if there is no session with the user pending or otherwise.  If there is an</para>
 /// <para>/ existing active session, this function will return true, even if it is not pending.</para>
 /// <para>/</para>
 /// <para>/ Calling SendMessageToUser() will implicitly accepts any pending session request to that user.</para>
 /// </summary>
 public static bool AcceptSessionWithUser(ref SteamNetworkingIdentity identityRemote)
 {
     InteropHelp.TestIfAvailableClient();
     return(NativeMethods.ISteamNetworkingMessages_AcceptSessionWithUser(CSteamAPIContext.GetSteamNetworkingMessages(), ref identityRemote));
 }
Пример #2
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 /// <summary>
 /// <para>/ Reads the next message that has been sent from another user via SendMessageToUser() on the given channel.</para>
 /// <para>/ Returns number of messages returned into your list.  (0 if no message are available on that channel.)</para>
 /// <para>/</para>
 /// <para>/ When you're done with the message object(s), make sure and call SteamNetworkingMessage_t::Release()!</para>
 /// </summary>
 public static int ReceiveMessagesOnChannel(int nLocalChannel, IntPtr[] ppOutMessages, int nMaxMessages)
 {
     InteropHelp.TestIfAvailableClient();
     return(NativeMethods.ISteamNetworkingMessages_ReceiveMessagesOnChannel(CSteamAPIContext.GetSteamNetworkingMessages(), nLocalChannel, ppOutMessages, nMaxMessages));
 }
Пример #3
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 /// <summary>
 /// <para>/ Returns information about the latest state of a connection, if any, with the given peer.</para>
 /// <para>/ Primarily intended for debugging purposes, but can also be used to get more detailed</para>
 /// <para>/ failure information.  (See SendMessageToUser and k_nSteamNetworkingSend_AutoRestartBrokenSession.)</para>
 /// <para>/</para>
 /// <para>/ Returns the value of SteamNetConnectionInfo_t::m_eState, or k_ESteamNetworkingConnectionState_None</para>
 /// <para>/ if no connection exists with specified peer.  You may pass nullptr for either parameter if</para>
 /// <para>/ you do not need the corresponding details.  Note that sessions time out after a while,</para>
 /// <para>/ so if a connection fails, or SendMessageToUser returns k_EResultNoConnection, you cannot wait</para>
 /// <para>/ indefinitely to obtain the reason for failure.</para>
 /// </summary>
 public static ESteamNetworkingConnectionState GetSessionConnectionInfo(ref SteamNetworkingIdentity identityRemote, out SteamNetConnectionInfo_t pConnectionInfo, out SteamNetConnectionRealTimeStatus_t pQuickStatus)
 {
     InteropHelp.TestIfAvailableClient();
     return(NativeMethods.ISteamNetworkingMessages_GetSessionConnectionInfo(CSteamAPIContext.GetSteamNetworkingMessages(), ref identityRemote, out pConnectionInfo, out pQuickStatus));
 }
Пример #4
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 /// <summary>
 /// <para>/ Sends a message to the specified host.  If we don't already have a session with that user,</para>
 /// <para>/ a session is implicitly created.  There might be some handshaking that needs to happen</para>
 /// <para>/ before we can actually begin sending message data.  If this handshaking fails and we can't</para>
 /// <para>/ get through, an error will be posted via the callback SteamNetworkingMessagesSessionFailed_t.</para>
 /// <para>/ There is no notification when the operation succeeds.  (You should have the peer send a reply</para>
 /// <para>/ for this purpose.)</para>
 /// <para>/</para>
 /// <para>/ Sending a message to a host will also implicitly accept any incoming connection from that host.</para>
 /// <para>/</para>
 /// <para>/ nSendFlags is a bitmask of k_nSteamNetworkingSend_xxx options</para>
 /// <para>/</para>
 /// <para>/ nRemoteChannel is a routing number you can use to help route message to different systems.</para>
 /// <para>/ You'll have to call ReceiveMessagesOnChannel() with the same channel number in order to retrieve</para>
 /// <para>/ the data on the other end.</para>
 /// <para>/</para>
 /// <para>/ Using different channels to talk to the same user will still use the same underlying</para>
 /// <para>/ connection, saving on resources.  If you don't need this feature, use 0.</para>
 /// <para>/ Otherwise, small integers are the most efficient.</para>
 /// <para>/</para>
 /// <para>/ It is guaranteed that reliable messages to the same host on the same channel</para>
 /// <para>/ will be be received by the remote host (if they are received at all) exactly once,</para>
 /// <para>/ and in the same order that they were sent.</para>
 /// <para>/</para>
 /// <para>/ NO other order guarantees exist!  In particular, unreliable messages may be dropped,</para>
 /// <para>/ received out of order with respect to each other and with respect to reliable data,</para>
 /// <para>/ or may be received multiple times.  Messages on different channels are *not* guaranteed</para>
 /// <para>/ to be received in the order they were sent.</para>
 /// <para>/</para>
 /// <para>/ A note for those familiar with TCP/IP ports, or converting an existing codebase that</para>
 /// <para>/ opened multiple sockets:  You might notice that there is only one channel, and with</para>
 /// <para>/ TCP/IP each endpoint has a port number.  You can think of the channel number as the</para>
 /// <para>/ *destination* port.  If you need each message to also include a "source port" (so the</para>
 /// <para>/ recipient can route the reply), then just put that in your message.  That is essentially</para>
 /// <para>/ how UDP works!</para>
 /// <para>/</para>
 /// <para>/ Returns:</para>
 /// <para>/ - k_EREsultOK on success.</para>
 /// <para>/ - k_EResultNoConnection, if the session has failed or was closed by the peer and</para>
 /// <para>/   k_nSteamNetworkingSend_AutoRestartBrokenSession was not specified.  (You can</para>
 /// <para>/   use GetSessionConnectionInfo to get the details.)  In order to acknowledge the</para>
 /// <para>/   broken session and start a new one, you must call CloseSessionWithUser, or you may</para>
 /// <para>/   repeat the call with k_nSteamNetworkingSend_AutoRestartBrokenSession.  See</para>
 /// <para>/   k_nSteamNetworkingSend_AutoRestartBrokenSession for more details.</para>
 /// <para>/ - See ISteamNetworkingSockets::SendMessageToConnection for more possible return values</para>
 /// </summary>
 public static EResult SendMessageToUser(ref SteamNetworkingIdentity identityRemote, IntPtr pubData, uint cubData, int nSendFlags, int nRemoteChannel)
 {
     InteropHelp.TestIfAvailableClient();
     return(NativeMethods.ISteamNetworkingMessages_SendMessageToUser(CSteamAPIContext.GetSteamNetworkingMessages(), ref identityRemote, pubData, cubData, nSendFlags, nRemoteChannel));
 }
Пример #5
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 /// <summary>
 /// <para>/ Call this  when you're done talking to a user on a specific channel.  Once all</para>
 /// <para>/ open channels to a user have been closed, the open session to the user will be</para>
 /// <para>/ closed, and any new data from this user will trigger a</para>
 /// <para>/ SteamSteamNetworkingMessagesSessionRequest_t callback</para>
 /// </summary>
 public static bool CloseChannelWithUser(ref SteamNetworkingIdentity identityRemote, int nLocalChannel)
 {
     InteropHelp.TestIfAvailableClient();
     return(NativeMethods.ISteamNetworkingMessages_CloseChannelWithUser(CSteamAPIContext.GetSteamNetworkingMessages(), ref identityRemote, nLocalChannel));
 }