/** * @file irqmgr.c * * This file implements a manager for forwarding three key system interrupt events to * registered clients. * Together with sched.c, these systems implement the libultra video and task scheduling * model from the libultra "sched" module, with improved functionality in the handling of * Pre-NMI related events. * * The interrupts the IRQ manager deals with are: * - Vertical Retrace * This event is sent to the IRQ manager by the OS VI manager which only supports * the forwarding of VI events to a single message queue. The IRQ manager will * forward these events to every registered client. Vertical retrace events are * received when the Video Interface has reached the start of the vertical blanking * interval, happening at approximately 60Hz on NTSC and 50Hz on PAL. Many threads * sit idle until a vertical retrace event wakes them up, at which point they will * perform their task and then return to idle to await the next retrace. * * - Pre-NMI * This event is sent to the IRQ manager by the OS Interrupt Handler when the reset * button on the N64 control deck is pressed. This event is forwarded to clients to * inform them that a reset will occur in at least 0.5s / 500ms so they may begin any * shutdown procedures. * * - NMI * This event is sent at 450ms into the Pre-NMI phase, informing clients that the * mandatory 0.5s of Pre-NMI is almost over and a reset may be imminent. This event * is not to be confused with the hardware NMI interrupt signalled when the CPU is * to fully reset, as by the time that interrupt is received there is no time left * to do anything. * * @see sched.c */ #include "global.h" #include "vt.h" vu32 gIrqMgrResetStatus = IRQ_RESET_STATUS_IDLE; volatile OSTime sIrqMgrResetTime = 0; volatile OSTime gIrqMgrRetraceTime = 0; u32 sIrqMgrRetraceCount = 0; // Internal messages #define IRQ_RETRACE_MSG 666 #define IRQ_PRENMI_MSG 669 #define IRQ_PRENMI450_MSG 671 #define IRQ_PRENMI480_MSG 672 #define IRQ_PRENMI500_MSG 673 /** * Registers a client and an associated message queue with the IRQ manager. When an * interrupt event is received by the IRQ manager, these clients will be notified of * the event. * * @param irqMgr the IrqMgr instance to register with. * @param client client to register. * @param msgQueue message queue to send notifications of interrupts to, associated with the client. */ void IrqMgr_AddClient(IrqMgr* irqMgr, IrqMgrClient* client, OSMesgQueue* msgQueue) { OSIntMask prevInt; LogUtils_CheckNullPointer("this", irqMgr, "../irqmgr.c", 96); LogUtils_CheckNullPointer("c", client, "../irqmgr.c", 97); LogUtils_CheckNullPointer("msgQ", msgQueue, "../irqmgr.c", 98); prevInt = osSetIntMask(OS_IM_NONE); client->queue = msgQueue; client->prev = irqMgr->clients; irqMgr->clients = client; osSetIntMask(prevInt); if (irqMgr->resetStatus >= IRQ_RESET_STATUS_PRENMI) { osSendMesg(client->queue, (OSMesg)&irqMgr->prenmiMsg, OS_MESG_NOBLOCK); } if (irqMgr->resetStatus >= IRQ_RESET_STATUS_NMI) { osSendMesg(client->queue, (OSMesg)&irqMgr->nmiMsg, OS_MESG_NOBLOCK); } } void IrqMgr_RemoveClient(IrqMgr* irqMgr, IrqMgrClient* client) { IrqMgrClient* iterClient = irqMgr->clients; IrqMgrClient* lastClient = NULL; OSIntMask prevInt; LogUtils_CheckNullPointer("this", irqMgr, "../irqmgr.c", 129); LogUtils_CheckNullPointer("c", client, "../irqmgr.c", 130); // Disable interrupts to prevent a thread context switch while the linked list is modified prevInt = osSetIntMask(OS_IM_NONE); // Remove the client while (iterClient != NULL) { if (iterClient == client) { if (lastClient != NULL) { lastClient->prev = client->prev; } else { irqMgr->clients = client->prev; } break; } lastClient = iterClient; iterClient = iterClient->prev; } osSetIntMask(prevInt); } /** * Send `msg` to every registered client if the message queue is not full. The message is * appended to the back of the queue. */ void IrqMgr_SendMesgToClients(IrqMgr* irqMgr, OSMesg msg) { IrqMgrClient* client; for (client = irqMgr->clients; client != NULL; client = client->prev) { if (MQ_IS_FULL(client->queue)) { // "irqmgr_SendMesgForClient: Message queue is overflowing mq=%08x cnt=%d" osSyncPrintf( VT_COL(RED, WHITE) "irqmgr_SendMesgForClient:メッセージキューがあふれています mq=%08x cnt=%d\n" VT_RST, client->queue, MQ_GET_COUNT(client->queue)); } else { osSendMesg(client->queue, msg, OS_MESG_NOBLOCK); } } } /** * Send `msg` to every registered client if the message queue is not full. This appears to be for * high-priority messages that should be jammed to the front of the queue, however a bug prevents * this from working in this way and the message is appended to the back of the queue as in * `IrqMgr_SendMesgToClients`. * * @see IrqMgr_SendMesgToClients */ void IrqMgr_JamMesgToClients(IrqMgr* irqMgr, OSMesg msg) { IrqMgrClient* client; for (client = irqMgr->clients; client != NULL; client = client->prev) { if (MQ_IS_FULL(client->queue)) { // "irqmgr_JamMesgForClient: Message queue is overflowing mq=%08x cnt=%d" osSyncPrintf( VT_COL(RED, WHITE) "irqmgr_JamMesgForClient:メッセージキューがあふれています mq=%08x cnt=%d\n" VT_RST, client->queue, MQ_GET_COUNT(client->queue)); } else { //! @bug The function's name suggests this would use osJamMesg rather than osSendMesg, using the //! latter makes this function no different than IrqMgr_SendMesgToClients. osSendMesg(client->queue, msg, OS_MESG_NOBLOCK); } } } /** * Runs when the Pre-NMI OS Event is received. This indicates that the console will reset in at least * 0.5s / 500ms. Updates the reset status and time before forwarding the Pre-NMI message to registered * clients so they may begin shutting down in advance of the reset. */ void IrqMgr_HandlePreNMI(IrqMgr* irqMgr) { u64 preNmi = IRQ_RESET_STATUS_PRENMI; // required to match gIrqMgrResetStatus = preNmi; irqMgr->resetStatus = IRQ_RESET_STATUS_PRENMI; sIrqMgrResetTime = irqMgr->resetTime = osGetTime(); // Schedule a PRENMI450 message to be handled in 450ms osSetTimer(&irqMgr->timer, OS_MSEC_TO_CYCLES(450), 0, &irqMgr->queue, (OSMesg)IRQ_PRENMI450_MSG); IrqMgr_JamMesgToClients(irqMgr, (OSMesg)&irqMgr->prenmiMsg); } void IrqMgr_CheckStacks(void) { // "0.5 seconds after PRENMI" osSyncPrintf("irqmgr.c: PRENMIから0.5秒経過\n"); if (StackCheck_Check(NULL) == STACK_STATUS_OK) { // "The stack looks ok" osSyncPrintf("スタックは大丈夫みたいです\n"); } else { osSyncPrintf("%c", BEL); osSyncPrintf(VT_FGCOL(RED)); // "Stack overflow or dangerous" osSyncPrintf("スタックがオーバーフローしたか危険な状態です\n"); // "Increase stack size early or don't consume stack" osSyncPrintf("早々にスタックサイズを増やすか、スタックを消費しないようにしてください\n"); osSyncPrintf(VT_RST); } } void IrqMgr_HandlePreNMI450(IrqMgr* irqMgr) { u64 nmi = IRQ_RESET_STATUS_NMI; // required to match gIrqMgrResetStatus = nmi; irqMgr->resetStatus = IRQ_RESET_STATUS_NMI; // Schedule a PRENMI480 message to be handled in 30ms osSetTimer(&irqMgr->timer, OS_MSEC_TO_CYCLES(30), 0, &irqMgr->queue, (OSMesg)IRQ_PRENMI480_MSG); // Send the NMI event to clients IrqMgr_SendMesgToClients(irqMgr, (OSMesg)&irqMgr->nmiMsg); } void IrqMgr_HandlePreNMI480(IrqMgr* irqMgr) { u32 result; // Schedule a PRENMI500 message to be handled in 20ms osSetTimer(&irqMgr->timer, OS_MSEC_TO_CYCLES(20), 0, &irqMgr->queue, (OSMesg)IRQ_PRENMI500_MSG); result = osAfterPreNMI(); if (result != 0) { // "osAfterPreNMI returned %d !?" osSyncPrintf("osAfterPreNMIが %d を返しました!?\n", result); // osAfterPreNMI failed, try again in 1ms //! @bug setting the same timer for a second time without letting the first one complete breaks //! the timer linked list osSetTimer(&irqMgr->timer, OS_MSEC_TO_CYCLES(1), 0, &irqMgr->queue, (OSMesg)IRQ_PRENMI480_MSG); } } void IrqMgr_HandlePreNMI500(IrqMgr* irqMgr) { IrqMgr_CheckStacks(); } /** * Runs on each vertical retrace * * Measures the time elapsed between the first and second vertical retrace and * dispatches vertical retrace messages to each registered Irq Client */ void IrqMgr_HandleRetrace(IrqMgr* irqMgr) { if (gIrqMgrRetraceTime == 0) { if (irqMgr->retraceTime == 0) { irqMgr->retraceTime = osGetTime(); } else { gIrqMgrRetraceTime = osGetTime() - irqMgr->retraceTime; } } sIrqMgrRetraceCount++; IrqMgr_SendMesgToClients(irqMgr, (OSMesg)&irqMgr->retraceMsg); } void IrqMgr_ThreadEntry(void* arg) { u32 msg = 0; IrqMgr* irqMgr = (IrqMgr*)arg; u8 exit; // "Start IRQ manager thread execution" osSyncPrintf("IRQマネージャスレッド実行開始\n"); exit = false; while (!exit) { osRecvMesg(&irqMgr->queue, (OSMesg*)&msg, OS_MESG_BLOCK); switch (msg) { case IRQ_RETRACE_MSG: IrqMgr_HandleRetrace(irqMgr); break; case IRQ_PRENMI_MSG: osSyncPrintf("PRE_NMI_MSG\n"); // "Scheduler: Receives PRE_NMI message" osSyncPrintf("スケジューラ:PRE_NMIメッセージを受信\n"); IrqMgr_HandlePreNMI(irqMgr); break; case IRQ_PRENMI450_MSG: osSyncPrintf("PRENMI450_MSG\n"); // "Scheduler: Receives PRENMI450 message" osSyncPrintf("スケジューラ:PRENMI450メッセージを受信\n"); IrqMgr_HandlePreNMI450(irqMgr); break; case IRQ_PRENMI480_MSG: osSyncPrintf("PRENMI480_MSG\n"); // "Scheduler: Receives PRENMI480 message" osSyncPrintf("スケジューラ:PRENMI480メッセージを受信\n"); IrqMgr_HandlePreNMI480(irqMgr); break; case IRQ_PRENMI500_MSG: osSyncPrintf("PRENMI500_MSG\n"); // "Scheduler: Receives PRENMI500 message" osSyncPrintf("スケジューラ:PRENMI500メッセージを受信\n"); exit = true; IrqMgr_HandlePreNMI500(irqMgr); break; default: // "Unexpected message received" osSyncPrintf("irqmgr.c:予期しないメッセージを受け取りました(%08x)\n", msg); break; } } // "End of IRQ manager thread execution" osSyncPrintf("IRQマネージャスレッド実行終了\n"); } void IrqMgr_Init(IrqMgr* irqMgr, void* stack, OSPri pri, u8 retraceCount) { LogUtils_CheckNullPointer("this", irqMgr, "../irqmgr.c", 346); LogUtils_CheckNullPointer("stack", stack, "../irqmgr.c", 347); irqMgr->clients = NULL; // Messages to send to each client message queue on each interrupt event irqMgr->retraceMsg.type = OS_SC_RETRACE_MSG; irqMgr->prenmiMsg.type = OS_SC_PRE_NMI_MSG; irqMgr->nmiMsg.type = OS_SC_NMI_MSG; irqMgr->resetStatus = IRQ_RESET_STATUS_IDLE; irqMgr->resetTime = 0; osCreateMesgQueue(&irqMgr->queue, irqMgr->msgBuf, ARRAY_COUNT(irqMgr->msgBuf)); osSetEventMesg(OS_EVENT_PRENMI, &irqMgr->queue, (OSMesg)IRQ_PRENMI_MSG); osViSetEvent(&irqMgr->queue, (OSMesg)IRQ_RETRACE_MSG, retraceCount); osCreateThread(&irqMgr->thread, THREAD_ID_IRQMGR, IrqMgr_ThreadEntry, irqMgr, stack, pri); osStartThread(&irqMgr->thread); }