#include "dvlnet/base.h" #include #include namespace dvl { namespace net { void base::setup_gameinfo(buffer_t info) { game_init_info = std::move(info); } void base::setup_password(std::string pw) { pktfty.reset(new packet_factory(pw)); } void base::run_event_handler(_SNETEVENT &ev) { auto f = registered_handlers[static_cast(ev.eventid)]; if (f) { f(&ev); } } void base::handle_accept(packet &pkt) { if (plr_self != PLR_BROADCAST) { return; // already have player id } if (pkt.cookie() == cookie_self) { plr_self = pkt.newplr(); connected_table[plr_self] = true; } if (game_init_info != pkt.info()) { // we joined and did not create _SNETEVENT ev; ev.eventid = EVENT_TYPE_PLAYER_CREATE_GAME; ev.playerid = plr_self; ev.data = const_cast(pkt.info().data()); ev.databytes = pkt.info().size(); run_event_handler(ev); } } void base::clear_msg(plr_t plr) { message_queue.erase(std::remove_if(message_queue.begin(), message_queue.end(), [&](message_t &msg) { return msg.sender == plr; }), message_queue.end()); } void base::recv_local(packet &pkt) { if (pkt.src() < MAX_PLRS) { connected_table[pkt.src()] = true; } switch (pkt.type()) { case PT_MESSAGE: message_queue.push_back(message_t(pkt.src(), pkt.message())); break; case PT_TURN: turn_queue[pkt.src()].push_back(pkt.turn()); break; case PT_JOIN_ACCEPT: handle_accept(pkt); break; case PT_CONNECT: connected_table[pkt.newplr()] = true; // this can probably be removed break; case PT_DISCONNECT: if (pkt.newplr() != plr_self) { if (connected_table[pkt.newplr()]) { auto leaveinfo = pkt.leaveinfo(); _SNETEVENT ev; ev.eventid = EVENT_TYPE_PLAYER_LEAVE_GAME; ev.playerid = pkt.newplr(); ev.data = reinterpret_cast(&leaveinfo); ev.databytes = sizeof(leaveinfo_t); run_event_handler(ev); connected_table[pkt.newplr()] = false; clear_msg(pkt.newplr()); turn_queue[pkt.newplr()].clear(); } } else { ABORT(); // we were dropped by the owner?!? } break; default: break; // otherwise drop } } bool base::SNetReceiveMessage(int *sender, char **data, int *size) { poll(); if (message_queue.empty()) return false; message_last = message_queue.front(); message_queue.pop_front(); *sender = message_last.sender; *size = message_last.payload.size(); *data = reinterpret_cast(message_last.payload.data()); return true; } bool base::SNetSendMessage(int playerID, void *data, unsigned int size) { if (playerID != SNPLAYER_ALL && playerID != SNPLAYER_OTHERS && (playerID < 0 || playerID >= MAX_PLRS)) abort(); auto raw_message = reinterpret_cast(data); buffer_t message(raw_message, raw_message + size); if (playerID == plr_self || playerID == SNPLAYER_ALL) message_queue.push_back(message_t(plr_self, message)); plr_t dest; if (playerID == SNPLAYER_ALL || playerID == SNPLAYER_OTHERS) dest = PLR_BROADCAST; else dest = playerID; if (dest != plr_self) { auto pkt = pktfty->make_packet(plr_self, dest, message); send(*pkt); } return true; } bool base::SNetReceiveTurns(char **data, unsigned int *size, DWORD *status) { poll(); bool all_turns_arrived = true; for (auto i = 0; i < MAX_PLRS; ++i) { status[i] = 0; if (connected_table[i]) { status[i] |= PS_CONNECTED; if (turn_queue[i].empty()) all_turns_arrived = false; } } if (all_turns_arrived) { for (auto i = 0; i < MAX_PLRS; ++i) { if (connected_table[i]) { size[i] = sizeof(turn_t); status[i] |= PS_ACTIVE; status[i] |= PS_TURN_ARRIVED; turn_last[i] = turn_queue[i].front(); turn_queue[i].pop_front(); data[i] = reinterpret_cast(&turn_last[i]); } } return true; } else { for (auto i = 0; i < MAX_PLRS; ++i) { if (connected_table[i]) { if (!turn_queue[i].empty()) { status[i] |= PS_ACTIVE; } } } return false; } } bool base::SNetSendTurn(char *data, unsigned int size) { if (size != sizeof(turn_t)) ABORT(); turn_t turn; std::memcpy(&turn, data, sizeof(turn)); auto pkt = pktfty->make_packet(plr_self, PLR_BROADCAST, turn); send(*pkt); turn_queue[plr_self].push_back(pkt->turn()); return true; } int base::SNetGetProviderCaps(struct _SNETCAPS *caps) { caps->size = 0; // engine writes only ?!? caps->flags = 0; // unused caps->maxmessagesize = 512; // capped to 512; underflow if < 24 caps->maxqueuesize = 0; // unused caps->maxplayers = MAX_PLRS; // capped to 4 caps->bytessec = 1000000; // ? caps->latencyms = 0; // unused caps->defaultturnssec = 10; // ? caps->defaultturnsintransit = 1; // maximum acceptable number // of turns in queue? return 1; } bool base::SNetUnregisterEventHandler(event_type evtype, SEVTHANDLER func) { registered_handlers.erase(evtype); return true; } bool base::SNetRegisterEventHandler(event_type evtype, SEVTHANDLER func) { /* engine registers handler for: EVENT_TYPE_PLAYER_LEAVE_GAME EVENT_TYPE_PLAYER_CREATE_GAME (should be raised during SNetCreateGame for non-creating player) EVENT_TYPE_PLAYER_MESSAGE (for bnet? not implemented) (engine uses same function for all three) */ registered_handlers[evtype] = func; return true; } bool base::SNetLeaveGame(int type) { auto pkt = pktfty->make_packet(plr_self, PLR_BROADCAST, plr_self, type); send(*pkt); return true; } bool base::SNetDropPlayer(int playerid, DWORD flags) { auto pkt = pktfty->make_packet(plr_self, PLR_BROADCAST, (plr_t)playerid, (leaveinfo_t)flags); send(*pkt); recv_local(*pkt); return true; } plr_t base::get_owner() { for (auto i = 0; i < MAX_PLRS; ++i) { if (connected_table[i]) { return i; } } return PLR_BROADCAST; // should be unreachable } bool base::SNetGetOwnerTurnsWaiting(DWORD *turns) { *turns = turn_queue[get_owner()].size(); return true; } bool base::SNetGetTurnsInTransit(int *turns) { *turns = turn_queue[plr_self].size(); return true; } } // namespace net } // namespace dvl