unit uFLIPC;
interface
uses SDLh, uFLTypes;
procedure initIPC;
procedure freeIPC;
procedure ipcToEngine(s: shortstring);
procedure ipcToEngineRaw(p: pointer; len: Longword);
procedure ipcCleanEngineQueue();
//function ipcReadFromEngine: shortstring;
//function ipcCheckFromEngine: boolean;
procedure ipcToNet(s: shortstring);
procedure ipcToNetRaw(p: pointer; len: Longword);
procedure ipcToFrontend(s: shortstring);
procedure ipcToFrontendRaw(p: pointer; len: Longword);
function ipcReadFromFrontend: shortstring;
function ipcCheckFromFrontend: boolean;
procedure registerIPCCallback(p: pointer; f: TIPCCallback);
procedure registerNetCallback(p: pointer; f: TIPCCallback);
implementation
var callbackPointerF: pointer;
callbackFunctionF: TIPCCallback;
callbackListenerThreadF: PSDL_Thread;
callbackPointerN: pointer;
callbackFunctionN: TIPCCallback;
callbackListenerThreadN: PSDL_Thread;
queueFrontend, queueEngine, queueNet: PIPCQueue;
procedure ipcSend(var s: TIPCMessage; queue: PIPCQueue);
var pmsg: PIPCMessage;
begin
SDL_LockMutex(queue^.mut);
s.next:= nil;
if (queue^.msg.next = nil) and (queue^.msg.str[0] = #0) and (queue^.msg.buf = nil) then
begin
queue^.msg:= s;
end else
begin
new(pmsg);
pmsg^:= s;
queue^.last^.next:= pmsg;
queue^.last:= pmsg;
end;
SDL_CondSignal(queue^.cond);
SDL_UnlockMutex(queue^.mut);
end;
function ipcRead(queue: PIPCQueue): TIPCMessage;
var pmsg: PIPCMessage;
begin
SDL_LockMutex(queue^.mut);
while (queue^.msg.str[0] = #0) and (queue^.msg.buf = nil) and (queue^.msg.next = nil) do
SDL_CondWait(queue^.cond, queue^.mut);
if (queue^.msg.str[0] <> #0) or (queue^.msg.buf <> nil) then
begin
ipcRead:= queue^.msg;
queue^.msg.str[0]:= #0;
queue^.msg.buf:= nil;
end else
begin
pmsg:= queue^.msg.next;
ipcRead:= pmsg^;
queue^.msg.next:= pmsg^.next;
if queue^.msg.next = nil then queue^.last:= @queue^.msg;
dispose(pmsg)
end;
SDL_UnlockMutex(queue^.mut)
end;
function ipcCheck(queue: PIPCQueue): boolean;
begin
SDL_LockMutex(queue^.mut);
ipcCheck:= (queue^.msg.str[0] > #0) or (queue^.msg.buf <> nil) or (queue^.msg.next <> nil);
SDL_UnlockMutex(queue^.mut)
end;
procedure ipcToEngine(s: shortstring);
var msg: TIPCMessage;
begin
msg.str:= s;
msg.buf:= nil;
ipcSend(msg, queueEngine)
end;
procedure ipcToFrontend(s: shortstring);
var msg: TIPCMessage;
begin
msg.str:= s;
msg.buf:= nil;
ipcSend(msg, queueFrontend)
end;
procedure ipcCleanEngineQueue();
var pmsg, t: PIPCMessage;
q: PIPCQueue;
begin
q:= queueEngine;
SDL_LockMutex(q^.mut);
pmsg:= @q^.msg;
q^.last:= pmsg;
while pmsg <> nil do
begin
t:= pmsg^.next;
if pmsg^.buf <> nil then
FreeMem(pmsg^.buf, pmsg^.len);
if pmsg <> @q^.msg then
dispose(pmsg);
pmsg:= t
end;
q^.msg.next:= nil;
q^.msg.str[0]:= #0;
q^.msg.buf:= nil;
SDL_UnlockMutex(q^.mut);
end;
procedure ipcToNet(s: shortstring);
var msg: TIPCMessage;
begin
msg.str:= s;
msg.buf:= nil;
ipcSend(msg, queueNet)
end;
procedure ipcToEngineRaw(p: pointer; len: Longword);
var msg: TIPCMessage;
begin
msg.str[0]:= #0;
msg.len:= len;
msg.buf:= GetMem(len);
Move(p^, msg.buf^, len);
ipcSend(msg, queueEngine)
end;
procedure ipcToFrontendRaw(p: pointer; len: Longword);
var msg: TIPCMessage;
begin
msg.str[0]:= #0;
msg.len:= len;
msg.buf:= GetMem(len);
Move(p^, msg.buf^, len);
ipcSend(msg, queueFrontend)
end;
procedure ipcToNetRaw(p: pointer; len: Longword);
var msg: TIPCMessage;
begin
msg.str[0]:= #0;
msg.len:= len;
msg.buf:= GetMem(len);
Move(p^, msg.buf^, len);
ipcSend(msg, queueNet)
end;
function ipcReadFromEngine: TIPCMessage;
begin
ipcReadFromEngine:= ipcRead(queueFrontend)
end;
function ipcReadFromFrontend: shortstring;
begin
ipcReadFromFrontend:= ipcRead(queueEngine).str
end;
function ipcReadToNet: TIPCMessage;
begin
ipcReadToNet:= ipcRead(queueNet)
end;
function ipcCheckFromEngine: boolean;
begin
ipcCheckFromEngine:= ipcCheck(queueFrontend)
end;
function ipcCheckFromFrontend: boolean;
begin
ipcCheckFromFrontend:= ipcCheck(queueEngine)
end;
function engineListener(p: pointer): Longint; cdecl; export;
var msg: TIPCMessage;
begin
engineListener:= 0;
repeat
msg:= ipcReadFromEngine();
if msg.buf = nil then
callbackFunctionF(callbackPointerF, @msg.str[1], byte(msg.str[0]))
else
begin
callbackFunctionF(callbackPointerF, msg.buf, msg.len);
FreeMem(msg.buf, msg.len)
end
until false
end;
function netListener(p: pointer): Longint; cdecl; export;
var msg: TIPCMessage;
begin
netListener:= 0;
repeat
msg:= ipcReadToNet();
if msg.buf = nil then
callbackFunctionN(callbackPointerN, @msg.str[1], byte(msg.str[0]))
else
begin
callbackFunctionN(callbackPointerN, msg.buf, msg.len);
FreeMem(msg.buf, msg.len)
end
until false
end;
procedure registerIPCCallback(p: pointer; f: TIPCCallback);
begin
callbackPointerF:= p;
callbackFunctionF:= f;
callbackListenerThreadF:= SDL_CreateThread(@engineListener, 'engineListener', nil);
end;
procedure registerNetCallback(p: pointer; f: TIPCCallback);
begin
callbackPointerN:= p;
callbackFunctionN:= f;
callbackListenerThreadN:= SDL_CreateThread(@netListener, 'netListener', nil);
end;
function createQueue: PIPCQueue;
var q: PIPCQueue;
begin
new(q);
q^.msg.str:= '';
q^.msg.buf:= nil;
q^.mut:= SDL_CreateMutex;
q^.cond:= SDL_CreateCond;
q^.msg.next:= nil;
q^.last:= @q^.msg;
createQueue:= q
end;
procedure destroyQueue(queue: PIPCQueue);
begin
SDL_DestroyCond(queue^.cond);
SDL_DestroyMutex(queue^.mut);
dispose(queue);
end;
procedure initIPC;
begin
queueFrontend:= createQueue;
queueEngine:= createQueue;
queueNet:= createQueue;
callbackPointerF:= nil;
callbackListenerThreadF:= nil;
end;
procedure freeIPC;
begin
//FIXME SDL_KillThread(callbackListenerThreadF);
//FIXME SDL_KillThread(callbackListenerThreadN);
destroyQueue(queueFrontend);
destroyQueue(queueEngine);
destroyQueue(queueNet);
end;
end.