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test_p2p.cpp
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test_p2p.cpp
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#include "test_common.h"
#include <stdio.h>
#include <stdlib.h>
#include <stdarg.h>
#include <string.h>
#include <string>
#include <random>
#include <chrono>
#include <thread>
#include <steam/steamnetworkingsockets.h>
#include <steam/isteamnetworkingutils.h>
#include "../examples/trivial_signaling_client.h"
HSteamListenSocket g_hListenSock;
HSteamNetConnection g_hConnection;
enum ETestRole
{
k_ETestRole_Undefined,
k_ETestRole_Server,
k_ETestRole_Client,
k_ETestRole_Symmetric,
};
ETestRole g_eTestRole = k_ETestRole_Undefined;
int g_nVirtualPortLocal = 0; // Used when listening, and when connecting
int g_nVirtualPortRemote = 0; // Only used when connecting
void Quit( int rc )
{
if ( rc == 0 )
{
// OK, we cannot just exit the process, because we need to give
// the connection time to actually send the last message and clean up.
// If this were a TCP connection, we could just bail, because the OS
// would handle it. But this is an application protocol over UDP.
// So give a little bit of time for good cleanup. (Also note that
// we really ought to continue pumping the signaling service, but
// in this exampple we'll assume that no more signals need to be
// exchanged, since we've gotten this far.) If we just terminated
// the program here, our peer could very likely timeout. (Although
// it's possible that the cleanup packets have already been placed
// on the wire, and if they don't drop, things will get cleaned up
// properly.)
TEST_Printf( "Waiting for any last cleanup packets.\n" );
std::this_thread::sleep_for( std::chrono::milliseconds( 1000 ) );
}
TEST_Kill();
exit(rc);
}
// Send a simple string message to out peer, using reliable transport.
void SendMessageToPeer( const char *pszMsg )
{
TEST_Printf( "Sending msg '%s'\n", pszMsg );
EResult r = SteamNetworkingSockets()->SendMessageToConnection(
g_hConnection, pszMsg, (int)strlen(pszMsg)+1, k_nSteamNetworkingSend_Reliable, nullptr );
assert( r == k_EResultOK );
}
// Called when a connection undergoes a state transition.
void OnSteamNetConnectionStatusChanged( SteamNetConnectionStatusChangedCallback_t *pInfo )
{
// What's the state of the connection?
switch ( pInfo->m_info.m_eState )
{
case k_ESteamNetworkingConnectionState_ClosedByPeer:
case k_ESteamNetworkingConnectionState_ProblemDetectedLocally:
TEST_Printf( "[%s] %s, reason %d: %s\n",
pInfo->m_info.m_szConnectionDescription,
( pInfo->m_info.m_eState == k_ESteamNetworkingConnectionState_ClosedByPeer ? "closed by peer" : "problem detected locally" ),
pInfo->m_info.m_eEndReason,
pInfo->m_info.m_szEndDebug
);
// Close our end
SteamNetworkingSockets()->CloseConnection( pInfo->m_hConn, 0, nullptr, false );
if ( g_hConnection == pInfo->m_hConn )
{
g_hConnection = k_HSteamNetConnection_Invalid;
// In this example, we will bail the test whenever this happens.
// Was this a normal termination?
int rc = 0;
if ( rc == k_ESteamNetworkingConnectionState_ProblemDetectedLocally || pInfo->m_info.m_eEndReason != k_ESteamNetConnectionEnd_App_Generic )
rc = 1; // failure
Quit( rc );
}
else
{
// Why are we hearing about any another connection?
assert( false );
}
break;
case k_ESteamNetworkingConnectionState_None:
// Notification that a connection was destroyed. (By us, presumably.)
// We don't need this, so ignore it.
break;
case k_ESteamNetworkingConnectionState_Connecting:
// Is this a connection we initiated, or one that we are receiving?
if ( g_hListenSock != k_HSteamListenSocket_Invalid && pInfo->m_info.m_hListenSocket == g_hListenSock )
{
// Somebody's knocking
// Note that we assume we will only ever receive a single connection
assert( g_hConnection == k_HSteamNetConnection_Invalid ); // not really a bug in this code, but a bug in the test
TEST_Printf( "[%s] Accepting\n", pInfo->m_info.m_szConnectionDescription );
g_hConnection = pInfo->m_hConn;
SteamNetworkingSockets()->AcceptConnection( pInfo->m_hConn );
}
else
{
// Note that we will get notification when our own connection that
// we initiate enters this state.
assert( g_hConnection == pInfo->m_hConn );
TEST_Printf( "[%s] Entered connecting state\n", pInfo->m_info.m_szConnectionDescription );
}
break;
case k_ESteamNetworkingConnectionState_FindingRoute:
// P2P connections will spend a brief time here where they swap addresses
// and try to find a route.
TEST_Printf( "[%s] finding route\n", pInfo->m_info.m_szConnectionDescription );
break;
case k_ESteamNetworkingConnectionState_Connected:
// We got fully connected
assert( pInfo->m_hConn == g_hConnection ); // We don't initiate or accept any other connections, so this should be out own connection
TEST_Printf( "[%s] connected\n", pInfo->m_info.m_szConnectionDescription );
break;
default:
assert( false );
break;
}
}
#ifdef _MSC_VER
#pragma warning( disable: 4702 ) /* unreachable code */
#endif
int main( int argc, const char **argv )
{
SteamNetworkingIdentity identityLocal; identityLocal.Clear();
SteamNetworkingIdentity identityRemote; identityRemote.Clear();
const char *pszTrivialSignalingService = "localhost:10000";
// Parse the command line
for ( int idxArg = 1 ; idxArg < argc ; ++idxArg )
{
const char *pszSwitch = argv[idxArg];
auto GetArg = [&]() -> const char * {
if ( idxArg + 1 >= argc )
TEST_Fatal( "Expected argument after %s", pszSwitch );
return argv[++idxArg];
};
auto ParseIdentity = [&]( SteamNetworkingIdentity &x ) {
const char *pszArg = GetArg();
if ( !x.ParseString( pszArg ) )
TEST_Fatal( "'%s' is not a valid identity string", pszArg );
};
if ( !strcmp( pszSwitch, "--identity-local" ) )
ParseIdentity( identityLocal );
else if ( !strcmp( pszSwitch, "--identity-remote" ) )
ParseIdentity( identityRemote );
else if ( !strcmp( pszSwitch, "--signaling-server" ) )
pszTrivialSignalingService = GetArg();
else if ( !strcmp( pszSwitch, "--client" ) )
g_eTestRole = k_ETestRole_Client;
else if ( !strcmp( pszSwitch, "--server" ) )
g_eTestRole = k_ETestRole_Server;
else if ( !strcmp( pszSwitch, "--symmetric" ) )
g_eTestRole = k_ETestRole_Symmetric;
else if ( !strcmp( pszSwitch, "--log" ) )
{
const char *pszArg = GetArg();
TEST_InitLog( pszArg );
}
else
TEST_Fatal( "Unexpected command line argument '%s'", pszSwitch );
}
if ( g_eTestRole == k_ETestRole_Undefined )
TEST_Fatal( "Must specify test role (--server, --client, or --symmetric" );
if ( identityLocal.IsInvalid() )
TEST_Fatal( "Must specify local identity using --identity-local" );
if ( identityRemote.IsInvalid() && g_eTestRole != k_ETestRole_Server )
TEST_Fatal( "Must specify remote identity using --identity-remote" );
// Initialize library, with the desired local identity
TEST_Init( &identityLocal );
// Hardcode STUN servers
SteamNetworkingUtils()->SetGlobalConfigValueString( k_ESteamNetworkingConfig_P2P_STUN_ServerList, "stun.l.google.com:19302" );
// Hardcode TURN servers
// comma seperated setting lists
//const char* turnList = "turn:123.45.45:3478";
//const char* userList = "username";
//const char* passList = "pass";
//SteamNetworkingUtils()->SetGlobalConfigValueString(k_ESteamNetworkingConfig_P2P_TURN_ServerList, turnList);
//SteamNetworkingUtils()->SetGlobalConfigValueString(k_ESteamNetworkingConfig_P2P_TURN_UserList, userList);
//SteamNetworkingUtils()->SetGlobalConfigValueString(k_ESteamNetworkingConfig_P2P_TURN_PassList, passList);
// Allow sharing of any kind of ICE address.
// We don't have any method of relaying (TURN) in this example, so we are essentially
// forced to disclose our public address if we want to pierce NAT. But if we
// had relay fallback, or if we only wanted to connect on the LAN, we could restrict
// to only sharing private addresses.
SteamNetworkingUtils()->SetGlobalConfigValueInt32(k_ESteamNetworkingConfig_P2P_Transport_ICE_Enable, k_nSteamNetworkingConfig_P2P_Transport_ICE_Enable_All );
// Create the signaling service
SteamNetworkingErrMsg errMsg;
ITrivialSignalingClient *pSignaling = CreateTrivialSignalingClient( pszTrivialSignalingService, SteamNetworkingSockets(), errMsg );
if ( pSignaling == nullptr )
TEST_Fatal( "Failed to initializing signaling client. %s", errMsg );
SteamNetworkingUtils()->SetGlobalCallback_SteamNetConnectionStatusChanged( OnSteamNetConnectionStatusChanged );
// Comment this line in for more detailed spew about signals, route finding, ICE, etc
SteamNetworkingUtils()->SetGlobalConfigValueInt32( k_ESteamNetworkingConfig_LogLevel_P2PRendezvous, k_ESteamNetworkingSocketsDebugOutputType_Verbose );
// Create listen socket to receive connections on, unless we are the client
if ( g_eTestRole == k_ETestRole_Server )
{
TEST_Printf( "Creating listen socket, local virtual port %d\n", g_nVirtualPortLocal );
g_hListenSock = SteamNetworkingSockets()->CreateListenSocketP2P( g_nVirtualPortLocal, 0, nullptr );
assert( g_hListenSock != k_HSteamListenSocket_Invalid );
}
else if ( g_eTestRole == k_ETestRole_Symmetric )
{
// Currently you must create a listen socket to use symmetric mode,
// even if you know that you will always create connections "both ways".
// In the future we might try to remove this requirement. It is a bit
// less efficient, since it always triggered the race condition case
// where both sides create their own connections, and then one side
// decides to their theirs away. If we have a listen socket, then
// it can be the case that one peer will receive the incoming connection
// from the other peer, and since he has a listen socket, can save
// the connection, and then implicitly accept it when he initiates his
// own connection. Without the listen socket, if an incoming connection
// request arrives before we have started connecting out, then we are forced
// to ignore it, as the app has given no indication that it desires to
// receive inbound connections at all.
TEST_Printf( "Creating listen socket in symmetric mode, local virtual port %d\n", g_nVirtualPortLocal );
SteamNetworkingConfigValue_t opt;
opt.SetInt32( k_ESteamNetworkingConfig_SymmetricConnect, 1 ); // << Note we set symmetric mode on the listen socket
g_hListenSock = SteamNetworkingSockets()->CreateListenSocketP2P( g_nVirtualPortLocal, 1, &opt );
assert( g_hListenSock != k_HSteamListenSocket_Invalid );
}
// Begin connecting to peer, unless we are the server
if ( g_eTestRole != k_ETestRole_Server )
{
std::vector< SteamNetworkingConfigValue_t > vecOpts;
// If we want the local and virtual port to differ, we must set
// an option. This is a pretty rare use case, and usually not needed.
// The local virtual port is only usually relevant for symmetric
// connections, and then, it almost always matches. Here we are
// just showing in this example code how you could handle this if you
// needed them to differ.
if ( g_nVirtualPortRemote != g_nVirtualPortLocal )
{
SteamNetworkingConfigValue_t opt;
opt.SetInt32( k_ESteamNetworkingConfig_LocalVirtualPort, g_nVirtualPortLocal );
vecOpts.push_back( opt );
}
// Symmetric mode? Noce that since we created a listen socket on this local
// virtual port and tagged it for symmetric connect mode, any connections
// we create that use the same local virtual port will automatically inherit
// this setting. However, this is really not recommended. It is best to be
// explicit.
if ( g_eTestRole == k_ETestRole_Symmetric )
{
SteamNetworkingConfigValue_t opt;
opt.SetInt32( k_ESteamNetworkingConfig_SymmetricConnect, 1 );
vecOpts.push_back( opt );
TEST_Printf( "Connecting to '%s' in symmetric mode, virtual port %d, from local virtual port %d.\n",
SteamNetworkingIdentityRender( identityRemote ).c_str(), g_nVirtualPortRemote,
g_nVirtualPortLocal );
}
else
{
TEST_Printf( "Connecting to '%s', virtual port %d, from local virtual port %d.\n",
SteamNetworkingIdentityRender( identityRemote ).c_str(), g_nVirtualPortRemote,
g_nVirtualPortLocal );
}
// Connect using the "custom signaling" path. Note that when
// you are using this path, the identity is actually optional,
// since we don't need it. (Your signaling object already
// knows how to talk to the peer) and then the peer identity
// will be confirmed via rendezvous.
ISteamNetworkingConnectionSignaling *pConnSignaling = pSignaling->CreateSignalingForConnection(
identityRemote,
errMsg
);
assert( pConnSignaling );
g_hConnection = SteamNetworkingSockets()->ConnectP2PCustomSignaling( pConnSignaling, &identityRemote, g_nVirtualPortRemote, (int)vecOpts.size(), vecOpts.data() );
assert( g_hConnection != k_HSteamNetConnection_Invalid );
// Go ahead and send a message now. The message will be queued until route finding
// completes.
SendMessageToPeer( "Greetings!" );
}
// Main test loop
for (;;)
{
// Check for incoming signals, and dispatch them
pSignaling->Poll();
// Check callbacks
TEST_PumpCallbacks();
// If we have a connection, then poll it for messages
if ( g_hConnection != k_HSteamNetConnection_Invalid )
{
SteamNetworkingMessage_t *pMessage;
int r = SteamNetworkingSockets()->ReceiveMessagesOnConnection( g_hConnection, &pMessage, 1 );
assert( r == 0 || r == 1 ); // <0 indicates an error
if ( r == 1 )
{
// In this example code we will assume all messages are '\0'-terminated strings.
// Obviously, this is not secure.
TEST_Printf( "Received message '%s'\n", pMessage->GetData() );
// Free message struct and buffer.
pMessage->Release();
// If we're the client, go ahead and shut down. In this example we just
// wanted to establish a connection and exchange a message, and we've done that.
// Note that we use "linger" functionality. This flushes out any remaining
// messages that we have queued. Essentially to us, the connection is closed,
// but on thew wire, we will not actually close it until all reliable messages
// have been confirmed as received by the client. (Or the connection is closed
// by the peer or drops.) If we are the "client" role, then we know that no such
// messages are in the pipeline in this test. But in symmetric mode, it is
// possible that we need to flush out our message that we sent.
if ( g_eTestRole != k_ETestRole_Server )
{
TEST_Printf( "Closing connection and shutting down.\n" );
SteamNetworkingSockets()->CloseConnection( g_hConnection, 0, "Test completed OK", true );
break;
}
// We're the server. Send a reply.
SendMessageToPeer( "I got your message" );
}
}
}
Quit(0);
return 0;
}