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[/] [plasma/] [trunk/] [kernel/] [rtos_ex.c] - Rev 413
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/*-------------------------------------------------------------------- * TITLE: Plasma Real Time Operating System Extensions * AUTHOR: Steve Rhoads (rhoadss@yahoo.com) * DATE CREATED: 12/17/05 * FILENAME: rtos_ex.c * PROJECT: Plasma CPU core * COPYRIGHT: Software placed into the public domain by the author. * Software 'as is' without warranty. Author liable for nothing. * DESCRIPTION: * Support simulation under Windows. * Support simulating multiple CPUs using symmetric multiprocessing. *--------------------------------------------------------------------*/ #include "plasma.h" #include "rtos.h" /************** WIN32 Simulation Support *************/ #ifdef WIN32 #include <conio.h> #define kbhit _kbhit #define getch _getch #define putch _putch extern void __stdcall Sleep(unsigned long value); #if OS_CPU_COUNT > 1 unsigned int __stdcall GetCurrentThreadId(void); typedef void (*LPTHREAD_START_ROUTINE)(void *lpThreadParameter); void * __stdcall CreateThread(void *lpsa, unsigned int dwStackSize, LPTHREAD_START_ROUTINE pfnThreadProc, void *pvParam, unsigned int dwCreationFlags, unsigned int *pdwThreadId); static unsigned int ThreadId[OS_CPU_COUNT]; //PC simulation of multiple CPUs void OS_InitSimulation(void) { int i; ThreadId[0] = GetCurrentThreadId(); for(i = 1; i < OS_CPU_COUNT; ++i) CreateThread(NULL, 0, (LPTHREAD_START_ROUTINE)OS_Start, NULL, 0, &ThreadId[i]); } #endif //OS_CPU_COUNT > 1 static uint32 Memory[8]; //Simulates device register memory reads uint32 MemoryRead(uint32 address) { Memory[2] |= IRQ_UART_WRITE_AVAILABLE; //IRQ_STATUS switch(address) { case UART_READ: if(kbhit()) Memory[0] = getch(); //UART_READ Memory[2] &= ~IRQ_UART_READ_AVAILABLE; //clear bit return Memory[0]; case IRQ_MASK: return Memory[1]; //IRQ_MASK case IRQ_MASK + 4: Sleep(10); return 0; case IRQ_STATUS: if(kbhit()) Memory[2] |= IRQ_UART_READ_AVAILABLE; return Memory[2]; } return 0; } //Simulates device register memory writes void MemoryWrite(uint32 address, uint32 value) { switch(address) { case UART_WRITE: putch(value); break; case IRQ_MASK: Memory[1] = value; break; case IRQ_STATUS: Memory[2] = value; break; } } uint32 OS_AsmInterruptEnable(uint32 enableInterrupt) { return enableInterrupt; } void OS_AsmInterruptInit(void) { } #endif //WIN32 #if OS_CPU_COUNT > 1 static volatile uint8 SpinLockArray[OS_CPU_COUNT]; /******************************************/ uint32 OS_CpuIndex(void) { #ifdef WIN32 int i; unsigned int threadId=GetCurrentThreadId(); for(i = 0; i < OS_CPU_COUNT; ++i) { if(threadId == ThreadId[i]) return i; } #endif //return MemoryRead(GPIO_CPU_INDEX); return 0; //0 to OS_CPU_COUNT-1 } /******************************************/ //Symmetric Multiprocessing Spin Lock Mutex uint32 OS_SpinLock(void) { uint32 state, cpuIndex, i, ok, delay; volatile uint32 keepVar; cpuIndex = OS_CpuIndex(); state = OS_AsmInterruptEnable(0); //disable interrupts if(SpinLockArray[cpuIndex]) return (uint32)-1; //already locked delay = (4 + cpuIndex) << 2; //Spin until only this CPU has the spin lock for(;;) { ok = 1; SpinLockArray[cpuIndex] = 1; for(i = 0; i < OS_CPU_COUNT; ++i) { if(i != cpuIndex && SpinLockArray[i]) ok = 0; //Another CPU has the spin lock } if(ok) return state; SpinLockArray[cpuIndex] = 0; OS_AsmInterruptEnable(state); //re-enable interrupts for(i = 0; i < delay; ++i) //wait a bit ++ok; keepVar = ok; //don't optimize away the delay loop if(delay < 128) delay <<= 1; state = OS_AsmInterruptEnable(0); //disable interrupts } } /******************************************/ void OS_SpinUnlock(uint32 state) { uint32 cpuIndex; if(state == (uint32)-1) return; //nested lock call cpuIndex = OS_CpuIndex(); SpinLockArray[cpuIndex] = 0; } #endif //OS_CPU_COUNT > 1
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