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/*-------------------------------------------------------------------- * TITLE: Plasma Real Time Operating System * AUTHOR: Steve Rhoads (rhoadss@yahoo.com) * DATE CREATED: 12/17/05 * FILENAME: rtos.h * PROJECT: Plasma CPU core * COPYRIGHT: Software placed into the public domain by the author. * Software 'as is' without warranty. Author liable for nothing. * DESCRIPTION: * Plasma Real Time Operating System * Fully pre-emptive RTOS with support for: * Heaps, Threads, Semaphores, Mutexes, Message Queues, and Timers. *--------------------------------------------------------------------*/ #ifndef __RTOS_H__ #define __RTOS_H__ // Symmetric Multi-Processing #define OS_CPU_COUNT 1 // Typedefs typedef unsigned int uint32; typedef unsigned short uint16; typedef unsigned char uint8; // Memory Access #ifdef __TINYC__ #define WIN32 #endif #ifdef WIN32 #define _CRT_SECURE_NO_WARNINGS 1 #include <stdio.h> #include <assert.h> #define _LIBC uint32 MemoryRead(uint32 Address); void MemoryWrite(uint32 Address, uint32 Value); #else #define MemoryRead(A) (*(volatile uint32*)(A)) #define MemoryWrite(A,V) *(volatile uint32*)(A)=(V) #endif /***************** LibC ******************/ #undef isprint #undef isspace #undef isdigit #undef islower #undef isupper #undef isalpha #undef isalnum #undef min #define isprint(c) (' '<=(c)&&(c)<='~') #define isspace(c) ((c)==' '||(c)=='\t'||(c)=='\n'||(c)=='\r') #define isdigit(c) ('0'<=(c)&&(c)<='9') #define islower(c) ('a'<=(c)&&(c)<='z') #define isupper(c) ('A'<=(c)&&(c)<='Z') #define isalpha(c) (islower(c)||isupper(c)) #define isalnum(c) (isalpha(c)||isdigit(c)) #define min(a,b) ((a)<(b)?(a):(b)) #define strcpy strcpy2 //don't use intrinsic functions #define strncpy strncpy2 #define strcat strcat2 #define strncat strncat2 #define strcmp strcmp2 #define strncmp strncmp2 #define strstr strstr2 #define strlen strlen2 #define memcpy memcpy2 #define memmove memmove2 #define memcmp memcmp2 #define memset memset2 #define abs abs2 #define atoi atoi2 #define rand rand2 #define srand srand2 #define strtol strtol2 #define itoa itoa2 #define sprintf sprintf2 #define sscanf sscanf2 #define malloc(S) OS_HeapMalloc(NULL, S) #define free(S) OS_HeapFree(S) char *strcpy(char *dst, const char *src); char *strncpy(char *dst, const char *src, int count); char *strcat(char *dst, const char *src); char *strncat(char *dst, const char *src, int count); int strcmp(const char *string1, const char *string2); int strncmp(const char *string1, const char *string2, int count); char *strstr(const char *string, const char *find); int strlen(const char *string); void *memcpy(void *dst, const void *src, unsigned long bytes); void *memmove(void *dst, const void *src, unsigned long bytes); int memcmp(const void *cs, const void *ct, unsigned long bytes); void *memset(void *dst, int c, unsigned long bytes); int abs(int n); int atoi(const char *s); unsigned int rand(void); void srand(unsigned int seed); long strtol(const char *s, char **end, int base); char *itoa(int num, char *dst, int base); #ifndef NO_ELLIPSIS int sprintf(char *s, const char *format, ...); int sscanf(const char *s, const char *format, ...); #endif #define printf UartPrintf #ifndef _LIBC #define assert(A) if((A)==0){OS_Assert();UartPrintfCritical("\r\nAssert %s:%d\r\n", __FILE__, __LINE__);} #define scanf UartScanf #define NULL (void*)0 #else #define UartPrintfCritical UartPrintf #endif //_LIBC #ifdef INCLUDE_DUMP void dump(const unsigned char *data, int length); #endif #ifdef INCLUDE_QSORT void qsort(void *base, long n, long size, int (*cmp)(const void *,const void *)); void *bsearch(const void *key, const void *base, long n, long size, int (*cmp)(const void *,const void *)); #endif #ifdef INCLUDE_TIMELIB #define difftime(time2,time1) (time2-time1) typedef unsigned long time_t; //start at 1/1/80 struct tm { int tm_sec; //(0,59) int tm_min; //(0,59) int tm_hour; //(0,23) int tm_mday; //(1,31) int tm_mon; //(0,11) int tm_year; //(0,n) from 1900 int tm_wday; //(0,6) calculated int tm_yday; //(0,365) calculated int tm_isdst; // calculated }; time_t mktime(struct tm *tp); void gmtime_r(const time_t *tp, struct tm *out); void gmtimeDst(time_t dstTimeIn, time_t dstTimeOut); void gmtimeDstSet(time_t *tp, time_t *dstTimeIn, time_t *dstTimeOut); #endif /***************** Assembly **************/ typedef uint32 jmp_buf[20]; extern uint32 OS_AsmInterruptEnable(uint32 state); extern void OS_AsmInterruptInit(void); extern int setjmp(jmp_buf env); extern void longjmp(jmp_buf env, int val); extern uint32 OS_AsmMult(uint32 a, uint32 b, unsigned long *hi); extern void *OS_Syscall(uint32 value); /***************** Heap ******************/ typedef struct OS_Heap_s OS_Heap_t; #define HEAP_USER (OS_Heap_t*)0 #define HEAP_SYSTEM (OS_Heap_t*)1 #define HEAP_SMALL (OS_Heap_t*)2 #define HEAP_UI (OS_Heap_t*)3 OS_Heap_t *OS_HeapCreate(const char *name, void *memory, uint32 size); void OS_HeapDestroy(OS_Heap_t *heap); void *OS_HeapMalloc(OS_Heap_t *heap, int bytes); void OS_HeapFree(void *block); void OS_HeapAlternate(OS_Heap_t *heap, OS_Heap_t *alternate); void OS_HeapRegister(void *index, OS_Heap_t *heap); /***************** Critical Sections *****************/ #if OS_CPU_COUNT <= 1 // Single CPU #define OS_CpuIndex() 0 #define OS_CriticalBegin() OS_AsmInterruptEnable(0) #define OS_CriticalEnd(S) OS_AsmInterruptEnable(S) #define OS_SpinLock() 0 #define OS_SpinUnlock(S) #else // Symmetric multiprocessing uint32 OS_CpuIndex(void); #define OS_CriticalBegin() OS_SpinLock() #define OS_CriticalEnd(S) OS_SpinUnlock(S) uint32 OS_SpinLock(void); void OS_SpinUnlock(uint32 state); #endif /***************** Thread *****************/ #ifdef WIN32 #define STACK_SIZE_MINIMUM (1024*8) #else #define STACK_SIZE_MINIMUM (1024*1) #endif #define STACK_SIZE_DEFAULT 1024*2 #undef THREAD_PRIORITY_IDLE #define THREAD_PRIORITY_IDLE 0 #define THREAD_PRIORITY_MAX 255 typedef void (*OS_FuncPtr_t)(void *arg); typedef struct OS_Thread_s OS_Thread_t; OS_Thread_t *OS_ThreadCreate(const char *name, OS_FuncPtr_t funcPtr, void *arg, uint32 priority, uint32 stackSize); void OS_ThreadExit(void); OS_Thread_t *OS_ThreadSelf(void); void OS_ThreadSleep(int ticks); uint32 OS_ThreadTime(void); void OS_ThreadInfoSet(OS_Thread_t *thread, uint32 index, void *info); void *OS_ThreadInfoGet(OS_Thread_t *thread, uint32 index); uint32 OS_ThreadPriorityGet(OS_Thread_t *thread); void OS_ThreadPrioritySet(OS_Thread_t *thread, uint32 priority); void OS_ThreadProcessId(OS_Thread_t *thread, uint32 processId, OS_Heap_t *heap); void OS_ThreadCpuLock(OS_Thread_t *thread, int cpuIndex); /***************** Semaphore **************/ #define OS_SUCCESS 0 #define OS_ERROR -1 #define OS_WAIT_FOREVER -1 #define OS_NO_WAIT 0 typedef struct OS_Semaphore_s OS_Semaphore_t; OS_Semaphore_t *OS_SemaphoreCreate(const char *name, uint32 count); void OS_SemaphoreDelete(OS_Semaphore_t *semaphore); int OS_SemaphorePend(OS_Semaphore_t *semaphore, int ticks); //tick ~= 10ms void OS_SemaphorePost(OS_Semaphore_t *semaphore); /***************** Mutex ******************/ typedef struct OS_Mutex_s OS_Mutex_t; OS_Mutex_t *OS_MutexCreate(const char *name); void OS_MutexDelete(OS_Mutex_t *semaphore); void OS_MutexPend(OS_Mutex_t *semaphore); void OS_MutexPost(OS_Mutex_t *semaphore); /***************** MQueue *****************/ enum { MESSAGE_TYPE_USER = 0, MESSAGE_TYPE_TIMER = 5 }; typedef struct OS_MQueue_s OS_MQueue_t; OS_MQueue_t *OS_MQueueCreate(const char *name, int messageCount, int messageBytes); void OS_MQueueDelete(OS_MQueue_t *mQueue); int OS_MQueueSend(OS_MQueue_t *mQueue, void *message); int OS_MQueueGet(OS_MQueue_t *mQueue, void *message, int ticks); /***************** Job ********************/ typedef void (*JobFunc_t)(void *a0, void *a1, void *a2); void OS_Job(JobFunc_t funcPtr, void *arg0, void *arg1, void *arg2); /***************** Timer ******************/ typedef struct OS_Timer_s OS_Timer_t; typedef void (*OS_TimerFuncPtr_t)(OS_Timer_t *timer, uint32 info); OS_Timer_t *OS_TimerCreate(const char *name, OS_MQueue_t *mQueue, uint32 info); void OS_TimerDelete(OS_Timer_t *timer); void OS_TimerCallback(OS_Timer_t *timer, OS_TimerFuncPtr_t callback); void OS_TimerStart(OS_Timer_t *timer, uint32 ticks, uint32 ticksRestart); void OS_TimerStop(OS_Timer_t *timer); /***************** ISR ********************/ #define STACK_EPC 88/4 void OS_InterruptServiceRoutine(uint32 status, uint32 *stack); void OS_InterruptRegister(uint32 mask, OS_FuncPtr_t funcPtr); uint32 OS_InterruptStatus(void); uint32 OS_InterruptMaskSet(uint32 mask); uint32 OS_InterruptMaskClear(uint32 mask); /***************** Init ******************/ void OS_Init(uint32 *heapStorage, uint32 bytes); void OS_InitSimulation(void); void OS_Start(void); void OS_Assert(void); void MainThread(void *Arg); /***************** UART ******************/ typedef uint8* (*PacketGetFunc_t)(void); void UartInit(void); void UartWrite(int ch); uint8 UartRead(void); void UartWriteData(uint8 *data, int length); void UartReadData(uint8 *data, int length); #ifndef NO_ELLIPSIS2 void UartPrintf(const char *format, ...); void UartPrintfPoll(const char *format, ...); void UartPrintfCritical(const char *format, ...); void UartPrintfNull(const char *format, ...); void UartScanf(const char *format, ...); #endif void UartPacketConfig(PacketGetFunc_t packetGetFunc, int packetSize, OS_MQueue_t *mQueue); void UartPacketSend(uint8 *data, int bytes); int OS_puts(const char *string); int OS_getch(void); int OS_kbhit(void); void LogWrite(int a); void LogDump(void); void Led(int mask, int value); /***************** Keyboard **************/ #define KEYBOARD_RAW 0x100 #define KEYBOARD_E0 0x200 #define KEYBOARD_RELEASE 0x400 void KeyboardInit(void); int KeyboardGetch(void); /***************** Math ******************/ //IEEE single precision floating point math #ifndef WIN32 #define FP_Neg __negsf2 #define FP_Add __addsf3 #define FP_Sub __subsf3 #define FP_Mult __mulsf3 #define FP_Div __divsf3 #define FP_ToLong __fixsfsi #define FP_ToFloat __floatsisf #define sqrt FP_Sqrt #define cos FP_Cos #define sin FP_Sin #define atan FP_Atan #define log FP_Log #define exp FP_Exp #endif float FP_Neg(float a_fp); float FP_Add(float a_fp, float b_fp); float FP_Sub(float a_fp, float b_fp); float FP_Mult(float a_fp, float b_fp); float FP_Div(float a_fp, float b_fp); long FP_ToLong(float a_fp); float FP_ToFloat(long af); int FP_Cmp(float a_fp, float b_fp); float FP_Sqrt(float a); float FP_Cos(float rad); float FP_Sin(float rad); float FP_Atan(float x); float FP_Atan2(float y, float x); float FP_Exp(float x); float FP_Log(float x); float FP_Pow(float x, float y); /***************** Filesys ******************/ #ifndef EXCLUDE_FILESYS #define FILE OS_FILE #define fopen OS_fopen #define fclose OS_fclose #define fread OS_fread #define fwrite OS_fwrite #define fseek OS_fseek #endif #define _FILESYS_ typedef struct OS_FILE_s OS_FILE; OS_FILE *OS_fopen(char *name, char *mode); void OS_fclose(OS_FILE *file); int OS_fread(void *buffer, int size, int count, OS_FILE *file); int OS_fwrite(void *buffer, int size, int count, OS_FILE *file); int OS_fseek(OS_FILE *file, int offset, int mode); int OS_fmkdir(char *name); int OS_fdir(OS_FILE *dir, char name[64]); void OS_fdelete(char *name); int OS_flength(char *entry); /***************** Flash ******************/ void FlashLock(void); void FlashUnlock(void); void FlashRead(uint16 *dst, uint32 byteOffset, int bytes); void FlashWrite(uint16 *src, uint32 byteOffset, int bytes); void FlashErase(uint32 byteOffset); #endif //__RTOS_H__
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