// send state packet, xor packet if applicable
int network_state_send( void )
{
#ifdef __BLACKBERRY__
#else
if (!SDLNet_UDP_Send(socket, 0, packet_state_out[0]))
{
printf("SDLNet_UDP_Send: %s\n", SDL_GetError());
return -1;
}
// send xor of last network_delay packets
if (network_delay > 1 && (last_state_out_sync + 1) % network_delay == 0 && packet_state_out[network_delay - 1] != NULL)
{
packet_copy(packet_temp, packet_state_out[0]);
SDLNet_Write16(PACKET_STATE_XOR, &packet_temp->data[0]);
for (int i = 1; i < network_delay; i++)
for (int j = 4; j < packet_temp->len; j++)
packet_temp->data[j] ^= packet_state_out[i]->data[j];
if (!SDLNet_UDP_Send(socket, 0, packet_temp))
{
printf("SDLNet_UDP_Send: %s\n", SDL_GetError());
return -1;
}
}
packets_shift_down(packet_state_out, NET_PACKET_QUEUE);
last_state_out_sync++;
#endif
return 0;
}
static void sendIPXPacket(Bit8u *buffer, Bit16s bufSize) {
Bit16u srcport, destport;
Bit32u srchost, desthost;
Bit16u i;
Bits result;
UDPpacket outPacket;
outPacket.channel = -1;
outPacket.data = buffer;
outPacket.len = bufSize;
outPacket.maxlen = bufSize;
IPXHeader *tmpHeader;
tmpHeader = (IPXHeader *)buffer;
srchost = tmpHeader->src.addr.byIP.host;
desthost = tmpHeader->dest.addr.byIP.host;
srcport = tmpHeader->src.addr.byIP.port;
destport = tmpHeader->dest.addr.byIP.port;
if(desthost == 0xffffffff) {
// Broadcast
for(i=0;i<SOCKETTABLESIZE;i++) {
if(connBuffer[i].connected && ((ipconn[i].host != srchost)||(ipconn[i].port!=srcport))) {
outPacket.address = ipconn[i];
result = SDLNet_UDP_Send(ipxServerSocket,-1,&outPacket);
if(result == 0) {
LOG_MSG("IPXSERVER: %s", SDLNet_GetError());
continue;
}
//LOG_MSG("IPXSERVER: Packet of %d bytes sent from %d.%d.%d.%d to %d.%d.%d.%d (BROADCAST) (%x CRC)", bufSize, CONVIP(srchost), CONVIP(ipconn[i].host), packetCRC(&buffer[30], bufSize-30));
}
}
} else {
// Specific address
for(i=0;i<SOCKETTABLESIZE;i++) {
if((connBuffer[i].connected) && (ipconn[i].host == desthost) && (ipconn[i].port == destport)) {
outPacket.address = ipconn[i];
result = SDLNet_UDP_Send(ipxServerSocket,-1,&outPacket);
if(result == 0) {
LOG_MSG("IPXSERVER: %s", SDLNet_GetError());
continue;
}
//LOG_MSG("IPXSERVER: Packet sent from %d.%d.%d.%d to %d.%d.%d.%d", CONVIP(srchost), CONVIP(desthost));
}
}
}
}
static void sendIPXPacket(Bit8u *buffer, Bit16s bufSize) {
Bit16u srcport, destport;
Bit32u srchost, desthost;
Bit16u i;
Bits result;
UDPpacket outPacket;
outPacket.channel = -1;
outPacket.data = buffer;
outPacket.len = bufSize;
outPacket.maxlen = bufSize;
IPXHeader *tmpHeader;
tmpHeader = (IPXHeader *)buffer;
srchost = tmpHeader->src.addr.byIP.host;
desthost = tmpHeader->dest.addr.byIP.host;
srcport = tmpHeader->src.addr.byIP.port;
destport = tmpHeader->dest.addr.byIP.port;
// update activity timer for sending host
for(i=0;i<SOCKETTABLESIZE;i++) {
if(connBuffer[i].connected && (ipconn[i].host == srchost) && (ipconn[i].port==srcport)) {
connBuffer[i].lastused = time(NULL);
}
}
if(desthost == 0xffffffff) {
// Broadcast
for(i=0;i<SOCKETTABLESIZE;i++) {
if(connBuffer[i].connected && ((ipconn[i].host != srchost)||(ipconn[i].port!=srcport))) {
outPacket.address = ipconn[i];
result = SDLNet_UDP_Send(ipxServerSocket,-1,&outPacket);
if(result == 0) {
LOG_MSG("IPXSERVER: %s", SDLNet_GetError());
continue;
}
}
}
} else {
// Specific address
for(i=0;i<SOCKETTABLESIZE;i++) {
if((connBuffer[i].connected) && (ipconn[i].host == desthost) && (ipconn[i].port == destport)) {
outPacket.address = ipconn[i];
result = SDLNet_UDP_Send(ipxServerSocket,-1,&outPacket);
if(result == 0) {
LOG_MSG("IPXSERVER: %s", SDLNet_GetError());
continue;
}
}
}
}
}
// Send data.
int net_send( const char *msg )
{
// Set the data
// UDPPacket::data is an Uint8, which is similar to char*
// This means we can't set it directly.
//
// std::stringstreams let us add any data to it using << ( like std::cout )
// We can extract any data from a std::stringstream using >> ( like std::cin )
//
//str
memcpy(gPacket->data, msg, strlen(msg));
gPacket->len = strlen(msg);
printf("==========================================================================================================\n");
printf(" Sending %d char : %s \n",gPacket->len,gPacket->data);
// Send
// SDLNet_UDP_Send returns number of packets sent. 0 means error
if ( SDLNet_UDP_Send(gOurSocket, -1, gPacket) == 0 )
{
printf( "\tSDLNet_UDP_Send failed : %s\n" ,SDLNet_GetError());
return 0;
}
else
return gPacket->len;
}
//
// PacketSend
//
void PacketSend(void)
{
int c;
doomdata_t* sw;
sw = (doomdata_t*)packet->data;
sw->checksum = host_to_net32(netbuffer->checksum);
sw->player = netbuffer->player;
sw->retransmitfrom = netbuffer->retransmitfrom;
sw->starttic = netbuffer->starttic;
sw->numtics = netbuffer->numtics;
for (c = 0; c < netbuffer->numtics; ++c)
{
sw->cmds[c].forwardmove = netbuffer->cmds[c].forwardmove;
sw->cmds[c].sidemove = netbuffer->cmds[c].sidemove;
sw->cmds[c].angleturn = host_to_net16(netbuffer->cmds[c].angleturn);
sw->cmds[c].consistancy = host_to_net16(netbuffer->cmds[c].consistancy);
sw->cmds[c].chatchar = netbuffer->cmds[c].chatchar;
sw->cmds[c].buttons = netbuffer->cmds[c].buttons;
}
packet->len = doomcom->datalength;
packet->address = sendaddress[doomcom->remotenode];
if (!SDLNet_UDP_Send(udpsocket, -1, packet))
I_Error("Error sending packet: %s", SDLNet_GetError());
}
int udpsend(UDPsocket sock, int channel, UDPpacket *out, UDPpacket *in, Uint32 delay, Uint8 expect, int timeout)
{
Uint32 t,t2;
int err;
in->data[0]=0;
t=SDL_GetTicks();
do
{
t2=SDL_GetTicks();
if(t2-t>(Uint32) timeout)
{
printf("timed out\n");
return(0);
}
if(!SDLNet_UDP_Send(sock, channel, out))
{
printf("SDLNet_UDP_Send: %s\n",SDLNet_GetError());
exit(1);
}
err=SDLNet_UDP_Recv(sock, in);
if(!err)
SDL_Delay(delay);
} while(!err || (in->data[0]!=expect && in->data[0]!=ERROR));
if(in->data[0]==ERROR)
printf("received error code\n");
return(in->data[0]==ERROR?-1:1);
}
static void ackClient(IPaddress clientAddr) {
IPXHeader regHeader;
UDPpacket regPacket;
Bits result;
SDLNet_Write16(0xffff, regHeader.checkSum);
SDLNet_Write16(sizeof(regHeader), regHeader.length);
SDLNet_Write32(0, regHeader.dest.network);
PackIP(clientAddr, ®Header.dest.addr.byIP);
SDLNet_Write16(0x2, regHeader.dest.socket);
SDLNet_Write32(1, regHeader.src.network);
PackIP(ipxServerIp, ®Header.src.addr.byIP);
SDLNet_Write16(0x2, regHeader.src.socket);
regHeader.transControl = 0;
regPacket.data = (Uint8 *)®Header;
regPacket.len = sizeof(regHeader);
regPacket.maxlen = sizeof(regHeader);
regPacket.address = clientAddr;
// Send registration string to client. If client doesn't get this, client will not be registered
result = SDLNet_UDP_Send(ipxServerSocket,-1,®Packet);
}
//! \return number of targets
int UDPNetworkSocket::sendData(const uint8_t * _data, size_t _dataSize) {
if (!isOpen() || data->targets.empty() )
return 0;
int sendCounter = 0;
#ifdef UTIL_HAVE_LIB_SDL2_NET
UDPpacket * p = SDLNet_AllocPacket(_dataSize);
if (p == nullptr) {
std::cerr << "SDLNet_AllocPacket: " << SDLNet_GetError() << "\n";
return sendCounter;
}
std::copy(_data, _data + _dataSize, p->data);
p->len = _dataSize;
for(const auto & target : data->targets) {
p->address = toSDLIPv4Address(target);
sendCounter += SDLNet_UDP_Send(data->udpsock, -1, p);
}
SDLNet_FreePacket(p);
p = nullptr;
#elif defined(__linux__) || defined(__unix__) || defined(ANDROID)
for(const auto & target : data->targets) {
sockaddr_in sockAddr = toSockaddr(target);
ssize_t bytesSent = sendto(data->udpSocket, _data, _dataSize, 0, reinterpret_cast<const sockaddr *> (&sockAddr), sizeof(sockaddr_in));
if (bytesSent == -1) {
int error = errno;
WARN(std::string(strerror(error)));
} else {
++sendCounter;
}
}
#endif
return sendCounter;
}
bool UDPNetworkSocket::sendData(const uint8_t * _data, size_t _dataSize, const IPv4Address & _address) {
if (!isOpen())
return false;
#ifdef UTIL_HAVE_LIB_SDL2_NET
UDPpacket * p = SDLNet_AllocPacket(_dataSize);
std::copy(_data, _data + _dataSize, p->data);
p->len = _dataSize;
p->address = toSDLIPv4Address(_address);
int i = SDLNet_UDP_Send(data->udpsock, -1, p);
SDLNet_FreePacket(p);
p = nullptr;
return i > 0;
#elif defined(__linux__) || defined(__unix__) || defined(ANDROID)
sockaddr_in sockAddr = toSockaddr(_address);
ssize_t bytesSent = sendto(data->udpSocket, _data, _dataSize, 0, reinterpret_cast<const sockaddr *> (&sockAddr), sizeof(sockAddr));
if (bytesSent == -1) {
int error = errno;
WARN(std::string(strerror(error)));
return false;
}
return true;
#else
return false;
#endif
}
int_ net_ip_t::send_now(net_ip_write_buffer_t *data){
int_ return_value = 0;
net_ip_connection_info_t *tmp_conn = (net_ip_connection_info_t*)find_pointer(data->connection_info_id, "net_ip_connection_info_t");
if(outbound == NULL){
printf("Cannot use outbound port. Check to see if you have proper permissions to use raw sockets\n");
return_value = -1;
return return_value;
}
uint_ position = 0;
if(tmp_conn != nullptr){
std::vector<std::string> raw_packets;
std::string data_prefix = wrap(NET_PACKET_ID_START, std::to_string(data->packet_id), NET_PACKET_ID_END);
if(data->data.size() > NET_MTU-NET_MTU_OVERHEAD){
while(data->data != ""){
uint_ chunk = NET_MTU-NET_MTU_OVERHEAD;
std::string pos_prefix = wrap(NET_PACKET_POS_START, std::to_string( position), NET_PACKET_POS_END);
std::string tmp_string = data_prefix + pos_prefix + data->data.substr(0,chunk);
raw_packets.push_back(tmp_string);
if(chunk > data->data.size()){
break;
}
data->data = data->data.substr(chunk, data->data.size());
position++;
}
}else{
std::string tmp;
tmp = wrap(NET_PACKET_ID_START, std::to_string(data->packet_id), NET_PACKET_ID_END);
tmp += wrap(NET_PACKET_POS_START, "0", NET_PACKET_POS_END);
tmp += data->data;
raw_packets.push_back(tmp);
}
const uint_ raw_packets_size = raw_packets.size();
raw_packets[0] = NET_PACKET_START + raw_packets[0];
raw_packets[raw_packets_size-1] += NET_PACKET_END;
IPaddress IP;
SDLNet_ResolveHost(&IP, tmp_conn->ip.c_str(), (unsigned short int)tmp_conn->port);
outbound_packet->address.host = IP.host;
outbound_packet->address.port = IP.port;
uint_ total_byte_size = 0;
const uint_ max_total_sent_byte = 8*KILOBYTE_TO_BYTE;
for(uint_ i = 0;i < raw_packets_size;i++){
negative_to_positive_trick(&raw_packets[i]);
unsigned char* outbound_data = (unsigned char *)raw_packets[i].c_str();
outbound_packet->len = (int)(raw_packets[i].size()+1);
outbound_packet->data = outbound_data;
SDLNet_UDP_Send(outbound->socket, -1, outbound_packet);
total_byte_size += outbound_packet->len;
if(unlikely(total_byte_size > max_total_sent_byte)){
// no packet loss if the client is sending data to itself
total_byte_size = 0;
loop_receive();
}
}
raw_packets.clear();
}else{
printf_("The connection ID (" + std::to_string(data->connection_info_id) + ") does not match up with anything here\n", PRINTF_STATUS);
}
return return_value;
}
// Win32 (at least, Win 98) seems to accept 255.255.255.255 as a valid broadcast address.
// I'll live with that for now.
// Also doing that for the BeOS and Mac Classic
int
SDLNetx_UDP_Broadcast(UDPsocket inSocket, UDPpacket* inPacket) {
Uint32 theSavedHostAddress = inPacket->address.host;
inPacket->address.host = 0xffffffff;
int theResult = SDLNet_UDP_Send(inSocket, -1, inPacket);
inPacket->address.host = theSavedHostAddress;
return theResult;
}
void I_SendPacketTo(packet_header_t* packet, size_t len, UDP_CHANNEL *to)
{
printf("I_SendPacketTo Packet=%p, len=%d, Dest=%p\n", packet, len, to);
packet->checksum = ChecksumPacket(packet, len);
memcpy(udp_packet->data, packet, udp_packet->len = len);
SDLNet_UDP_Send(udp_socket, *to, udp_packet);
}
bool UdpConnection::send() {
// returns number of packets sent - 0 is error.
if (SDLNet_UDP_Send(socket, -1, packet) == 0 ) {
std::cout << "Failed to send packet: " << SDLNet_GetError() << "\n";
return false;
}
return true;
}
int network_udp_send(UDPsocket udp, int channel, UDPpacket* packet) {
int sent = 0;
sent = SDLNet_UDP_Send(udp, channel, packet);
if (sent == 0) {
std::cerr << "Failed to send packet over UDP: " << SDLNet_GetError() << "\n";
}
return sent;
}
void Server::SendData(Uint8* data_, int length)
{
output->address.host = input->address.host;
output->address.port = input->address.port;
output->channel = input->channel;
output->data = data_;
output->len = length;
numsend = SDLNet_UDP_Send(sock, output->channel, output);
}
int NET::UDPSend(UDPpacket * p, int channel)
{
datacounter_tx += p->len;
if (!SDLNet_UDP_Send(remote_socket, channel, p))
return UDP_FAILURE;
else
return UDP_SUCCESS;
}
static void send_packet (char *msg, int data_size)
{
send_p->address.host = srvaddr.host;
send_p->address.port = srvaddr.port;
memcpy (send_p->data, msg, data_size);
send_p->len = data_size;
SDLNet_UDP_Send (socket, -1, send_p);
}
int main(void) {
struct UDPsopa sopa = {
.sop = NULL,
.pap = NULL,
.port = 0, // 0 = pick unused port
.packet_size = 512,
.packet_num = 0,
.host_port = 4444
};
strcpy(sopa.host_name, "127.0.0.1");
if (udp_setup(&sopa) != 0) {
udp_cleanup(&sopa);
exit(EXIT_FAILURE);
}
// additional client setup
if (SDLNet_ResolveHost(&(sopa.pap->address), sopa.host_name, sopa.host_port) != 0) {
printf("SDLNet_ResolveHost(&(sopa.pap->address), sopa.host_name, sopa.host_port) != 0\n");
printf("SDLNet_GetError() = '%s'\n", SDLNet_GetError());
udp_cleanup(&sopa);
exit(EXIT_FAILURE);
}
srand(123);
for (;;) {
sleep(1); // 1 second
sprintf((char*)sopa.pap->data, "rand_num = %d", rand());
sopa.pap->len = strlen((char*)sopa.pap->data) + 1;
const int channel = -1; // -1 = use packet's address as destination
if (SDLNet_UDP_Send(sopa.sop, channel, sopa.pap) == 0) {
printf("SDLNet_UDP_Send(sopa.sop, channel, sopa.pap) == 0\n");
printf("SDLNet_GetError() = '%s'\n", SDLNet_GetError());
udp_cleanup(&sopa);
exit(EXIT_FAILURE);
}
switch (SDLNet_UDP_Recv(sopa.sop, sopa.pap)) {
case -1:
printf("SDLNet_UDP_Recv(sopa.sop, sopa.pap) == -1\n");
printf("SDLNet_GetError() = '%s'\n", SDLNet_GetError());
udp_cleanup(&sopa);
exit(EXIT_FAILURE);
case 0:
printf("SDLNet_UDP_Recv(sopa.sop, sopa.pap) == 0 // no packets received\n");
break;
case 1:
sopa.packet_num++;
udp_print(&sopa);
break;
}
} // for(;;)
udp_cleanup(&sopa);
exit(EXIT_SUCCESS);
}
static void NET_Send(void)
{
if (!doomcom->remotenode)
return;
mypacket.len = doomcom->datalength;
if (SDLNet_UDP_Send(mysocket,doomcom->remotenode-1,&mypacket) == 0)
{
CONS_Printf("SDL_Net: %s",SDLNet_GetError());
}
}
void
ctx_send(cearth_ctx *ctx)
{
UDPpacket pack;
pack.channel = -1;
pack.data = ctx->b_in.data;
pack.len = ctx->b_in.wpos;
SDLNet_UDP_Send(ctx->sk, pack.channel, &pack);
}
static __inline__ int snUDPSend(UDPsocket s, int c, UDPpacket *p)
{
int val = 0;
lockSDLNet();
val = SDLNet_UDP_Send(s, c, p);
unlockSDLNet();
return val;
}
void sock_send( sock_t* s, pack_t* pck )
{
int res_us;
assert( s && pck );
res_us = SDLNet_UDP_Send( s->sock, -1, pck->p );
if( res_us == 0 ) printf("[E] Error sending UDP packet\n");
s->bytes_sent += ( pck->p->status > 0 ? pck->p->status : 0 );
pack_destroy(pck);
}
OSErr NetDDPSendFrame(DDPFramePtr frame, NetAddrBlock *address, short protocolType, short port)
{
//fdprintf("NetDDPSendFrame\n");
assert(frame->data_size <= ddpMaxData);
sUDPPacketBuffer->channel = -1;
memcpy(sUDPPacketBuffer->data, frame->data, frame->data_size);
sUDPPacketBuffer->len = frame->data_size;
sUDPPacketBuffer->address = *address;
return SDLNet_UDP_Send(sSocket, -1, sUDPPacketBuffer) ? 0 : -1;
}
/*
* network_udp_send() - Send packet data via UDP over the given channel
* @udp: the socket to send the data through
* @channel: the channel to use
* @packet: the data to send
*/
int network_udp_send(UDPsocket udp, int channel, UDPpacket* packet) {
int sent = 0; // Define the amount of destinations the data was sent to
sent = SDLNet_UDP_Send(udp, channel, packet); // Attempt to send the data
if (sent == 0) { // If the data could not be sent to anyone
std::cerr << "Failed to send packet over UDP: " << SDLNet_GetError() << "\n"; // Output the error message
return -1; // Return -1 on failure
}
return sent; // Return the amount of destinations that data was sent to on success
}
void I_SendPacket(packet_header_t* packet, size_t len)
{
printf("I_SendPacket Packet=%p, len=%d\n", packet, len);
packet->checksum = ChecksumPacket(packet, len);
DumpPacketHeader (packet);
memcpy(udp_packet->data, packet, udp_packet->len = len);
SDLNet_UDP_Send(udp_socket, 0, udp_packet);
}
void createAndSendUDPPackets() {
SDL_Rect viewport;
viewport.w = SCREEN_WIDTH;
viewport.h = SCREEN_HEIGHT;
int i, player, secondary, counter,UDPpacketLength;
Uint32 tmp;
packetId++;
for (i=0; i<4; i++) {
gameData[i] = packetId >> i*8;
}
for (player=0; player<MAX_CLIENTS; player++) {
tmp=0;
tmp = (int)ships[player].xPos | (int)ships[player].yPos << 12 | (int)(ships[player].angle/6) << 24;
tmp = tmp | ships[player].alive <<30 | clients[player].active << 31;
printf("tmp:%u\n",tmp);
for (i=0; i<4; i++) {
gameData[4+player*4+i] = tmp >> i*8;
}
}
printf("__________________________\n");
for (player=0; player<MAX_CLIENTS; player++) {
if (!clients[player].active) continue;
if (ships[player].xPos < SCREEN_WIDTH/2)
viewport.x=0;
else if (ships[player].xPos > STAGE_WIDTH-SCREEN_WIDTH/2)
viewport.x=STAGE_WIDTH-SCREEN_WIDTH;
else viewport.x=ships[player].xPos-SCREEN_WIDTH/2;
if (ships[player].yPos < SCREEN_HEIGHT/2)
viewport.y=0;
else if (ships[player].yPos > STAGE_HEIGHT-SCREEN_HEIGHT/2)
viewport.y=STAGE_HEIGHT-SCREEN_HEIGHT;
else viewport.y=ships[player].yPos-SCREEN_HEIGHT/2;
for (secondary=0, counter=0; secondary<MAX_BULLETS; secondary++) {
if (bullets[secondary].active && isInside((int)bullets[secondary].xPos, (int)bullets[secondary].yPos, &viewport)) {
tmp=0;
tmp = (int)(bullets[secondary].xPos-viewport.x) | (int)(bullets[secondary].yPos-viewport.y) << 11 | (int)(bullets[secondary].type) << 21;
for (i=0; i<3; i++) {
gameData[36+counter*3+i] = tmp >> i*8;
}
counter++;
}
}
UDPpacketLength = 36+counter*3;
gameData[UDPpacketLength++]=0xFF;
packetOut->data = gameData;
packetOut->len = UDPpacketLength;
packetOut->address.host=clients[player].ip;
packetOut->address.port=clients[player].recvPort;
SDLNet_UDP_Send(udpSendSock,-1,packetOut);
}
// send packet but don't expect acknoledgment of delivery
bool network_send_no_ack( int len )
{
packet_out_temp->len = len;
if (!SDLNet_UDP_Send(socket, 0, packet_out_temp))
{
printf("SDLNet_UDP_Send: %s\n", SDL_GetError());
return false;
}
return true;
}
int UdpSocket::Send(const std::string& pMessage, const Address& pAddress)
{
mPacket->data = (Uint8*)pMessage.c_str();
mPacket->len = (int)pMessage.size();
mPacket->address.host = pAddress.GetHost();
mPacket->address.port = pAddress.GetPort();
int code = SDLNet_UDP_Send(mSocket, -1, mPacket);
if(code == 0)
SDL_Log("[UdpSocket::Send] Failed to send packets: %s", SDLNet_GetError());
return code;
}
/* 1 byte to server */
int FCEUD_SendDataToServer(uint8 v,uint8 cmd)
{
UDPpacket upack;
upack.channel=0;
upack.data=MakeUDP(data,1);
upack.len=upack.maxlen=UDPHEADSIZE+1;
upack.status=0;
SDLNet_UDP_Send(UDPSocket,0,&upack);
outcounter++;
return(1);
}
void Server::ResendToAllClients(Uint32 senderHost)
{
for(int i = 0; i < numberOfClients; i++)
{
if(clientsArray[i].host_ != senderHost)
{
ret->address.host = clientsArray[i].host_;
ret->address.port = clientsArray[i].port_;
ret->channel = clientsArray[i].channel_;
ret->data = input->data;
ret->len = input->len;
numsend = SDLNet_UDP_Send(sock, ret->channel, ret);
}
}
}
