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Luma3DS-3GX/sysmodules/pxi/source/main.c

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2017-11-02 15:11:55 +01:00
/*
main.c
(De)initialization stuff. It's also here where sessions are being accepted.
(c) TuxSH, 2016-2017
This is part of 3ds_pxi, which is licensed under the MIT license (see LICENSE for details).
*/
#include "PXI.h"
#include "common.h"
#include "MyThread.h"
#include "receiver.h"
#include "sender.h"
#include "memory.h"
Handle PXISyncInterrupt = 0, PXITransferMutex = 0;
Handle terminationRequestedEvent = 0;
bool shouldTerminate = false;
SessionManager sessionManager = {0};
const char *serviceNames[10] =
{
"pxi:mc",
"PxiFS0",
"PxiFS1",
"PxiFSB",
"PxiFSR",
"PxiPM",
"pxi:dev", //in the official PXI module maxSessions(pxi:dev) == 2. It doesn't matter anyways, since srvSysRegisterService is always called with 1
"pxi:am9",
"pxi:ps9",
"pxi:srv11",
};
const u32 nbStaticBuffersByService[10] = {0, 2, 2, 2, 2, 1, 4, 4, 4, 0};
u32 ALIGN(0x1000) staticBuffers[NB_STATIC_BUFFERS][0x400] = {{0}};
static inline void initPXI(void)
{
Result res;
Handle handles[2] = {0};
PXIReset();
if(PXISyncInterrupt != 0) svcBreak(USERBREAK_PANIC); //0xE0A0183B
assertSuccess(svcCreateEvent(&PXISyncInterrupt, RESET_ONESHOT));
if(PXITransferMutex != 0) svcBreak(USERBREAK_PANIC); //0xE0A0183B
assertSuccess(svcCreateMutex(&PXITransferMutex, false));
assertSuccess(svcCreateEvent(&handles[0], RESET_ONESHOT)); //receive FIFO not empty
assertSuccess(svcCreateEvent(&handles[1], RESET_ONESHOT)); //send FIFO empty
assertSuccess(bindPXIInterrupts(&PXISyncInterrupt, &handles[0], &handles[1]));
s32 handleIndex;
do
{
while(!PXIIsSendFIFOFull()) PXISendWord(0);
res = assertSuccess(svcWaitSynchronization(handles[0], 0LL));
if(R_DESCRIPTION(res) == RD_TIMEOUT)
assertSuccess(svcWaitSynchronizationN(&handleIndex, handles, 2, false, -1LL));
else
handleIndex = 0;
} while(handleIndex != 0);
unbindPXIInterrupts(NULL, &handles[0], &handles[1]);
PXISendByte(1);
while(PXIReceiveByte() < 1);
while (!PXIIsReceiveFIFOEmpty())
PXIReceiveWord();
PXISendByte(2);
while(PXIReceiveByte() < 2);
svcCloseHandle(handles[0]);
svcCloseHandle(handles[1]);
}
static inline void exitPXI(void)
{
unbindPXIInterrupts(&PXISyncInterrupt, NULL, NULL);
svcCloseHandle(PXITransferMutex);
svcCloseHandle(PXISyncInterrupt);
PXIReset();
}
static u8 ALIGN(8) receiverStack[THREAD_STACK_SIZE];
static u8 ALIGN(8) senderStack[THREAD_STACK_SIZE];
static u8 ALIGN(8) PXISRV11HandlerStack[THREAD_STACK_SIZE];
// this is called before main
void __appInit()
{
assertSuccess(svcCreateEvent(&terminationRequestedEvent, RESET_STICKY));
assertSuccess(svcCreateEvent(&sessionManager.sendAllBuffersToArm9Event, RESET_ONESHOT));
assertSuccess(svcCreateSemaphore(&sessionManager.replySemaphore, 0, 9));
assertSuccess(svcCreateEvent(&sessionManager.PXISRV11CommandReceivedEvent, RESET_ONESHOT));
assertSuccess(svcCreateEvent(&sessionManager.PXISRV11ReplySentEvent, RESET_ONESHOT));
initPXI();
for(Result res = 0xD88007FA; res == (Result)0xD88007FA; svcSleepThread(500 * 1000LL))
{
res = srvInit();
if(R_FAILED(res) && res != (Result)0xD88007FA)
svcBreak(USERBREAK_PANIC);
}
}
// this is called after main exits
void __appExit()
{
srvExit();
exitPXI();
svcCloseHandle(terminationRequestedEvent);
svcCloseHandle(sessionManager.sendAllBuffersToArm9Event);
svcCloseHandle(sessionManager.replySemaphore);
svcCloseHandle(sessionManager.PXISRV11CommandReceivedEvent);
svcCloseHandle(sessionManager.PXISRV11ReplySentEvent);
}
// stubs for non-needed pre-main functions
void __system_initSyscalls(){}
Result __sync_init(void);
Result __sync_fini(void);
void __ctru_exit()
{
void __libc_fini_array(void);
__libc_fini_array();
__appExit();
__sync_fini();
svcExitProcess();
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}
void initSystem()
{
void __libc_init_array(void);
__sync_init();
__system_initSyscalls();
__appInit();
__libc_init_array();
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}
int main(void)
{
Handle handles[10] = {0}; //notification handle + service handles
MyThread receiverThread = {0}, senderThread = {0}, PXISRV11HandlerThread = {0};
for(u32 i = 0; i < 9; i++)
assertSuccess(srvRegisterService(handles + 1 + i, serviceNames[i], 1));
assertSuccess(MyThread_Create(&receiverThread, receiver, receiverStack, THREAD_STACK_SIZE, 0x2D, -2));
assertSuccess(MyThread_Create(&senderThread, sender, senderStack, THREAD_STACK_SIZE, 0x2D, -2));
assertSuccess(MyThread_Create(&PXISRV11HandlerThread, PXISRV11Handler, PXISRV11HandlerStack, THREAD_STACK_SIZE, 0x2D, -2));
assertSuccess(srvEnableNotification(&handles[0]));
while(!shouldTerminate)
{
s32 index = 0;
assertSuccess(svcWaitSynchronizationN(&index, handles, 10, false, -1LL));
if(index == 0)
{
u32 notificationId;
assertSuccess(srvReceiveNotification(&notificationId));
if(notificationId == 0x100) shouldTerminate = true;
}
else
{
Handle session = 0;
SessionData *data = &sessionManager.sessionData[index - 1];
assertSuccess(svcAcceptSession(&session, handles[index]));
RecursiveLock_Lock(&sessionManager.senderLock);
if(data->handle != 0)
svcBreak(USERBREAK_PANIC);
data->handle = session;
assertSuccess(svcSignalEvent(sessionManager.sendAllBuffersToArm9Event));
RecursiveLock_Unlock(&sessionManager.senderLock);
}
}
u32 PXIMC_OnPXITerminate = 0x10000; //TODO: see if this is correct
sessionManager.sessionData[0].state = STATE_SENT_TO_ARM9;
sendPXICmdbuf(NULL, 0, &PXIMC_OnPXITerminate);
assertSuccess(MyThread_Join(&receiverThread, -1LL));
assertSuccess(MyThread_Join(&senderThread, -1LL));
assertSuccess(MyThread_Join(&PXISRV11HandlerThread, -1LL));
for(u32 i = 0; i < 10; i++)
svcCloseHandle(handles[i]);
return 0;
}