URL
https://opencores.org/ocsvn/openrisc/openrisc/trunk
Subversion Repositories openrisc
[/] [openrisc/] [trunk/] [rtos/] [ucos-ii/] [2.91/] [ucos-port/] [os_cpu_c.c] - Rev 571
Go to most recent revision | Compare with Previous | Blame | View Log
/* ---------------------------------------------------------------------- CHiPES Embedded RTR Systems Copyright (c) Tim Oliver 2002-2004 ---------------------------------------------------------------------- File : os_cpu_c.c Author : Tim Oliver Email : timtimoliver@yahoo.co.uk ---------------------------[Description]------------------------------ uC/OS-II The Real-Time Kernel (c) Copyright 1992-2002, Jean J. Labrosse, Weston, FL All Rights Reserved OpenCores OpenRISC Inline NOP ORP simulator functions : void exit (int i) - simulator exit point void report(unsigned long value) - simulator report messaging Internal Routines : void mtspr(unsigned long spr, unsigned long vakye) - Move To SPR unsigned long mfspr(unsigned long spr) - Move From SPR OS_CPU_SR OSDisableInterrupts (void) void OSEnableInterrupts(OS_CPU_SR cpu_sr) void OSInitTick(void) void putc (char c) - standard output patch to UART int getc () - standard input patch to UART int testc () - check for character received by UART int ctrlc () - check for control-C received by UART For OS Routines see descriptions below */ /* This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */ #define OS_CPU_GLOBALS #include "includes.h" /* return value by making a syscall */ void exit (int i) { asm("l.add r3,r0,%0": : "r" (i)); asm("l.nop %0": :"K" (NOP_EXIT)); while (1); } /* print long */ void report(unsigned long value) { asm("l.addi\tr3,%0,0": :"r" (value)); asm("l.nop %0": :"K" (NOP_REPORT)); } /* For writing into SPR. */ void mtspr(unsigned long spr, unsigned long value) { asm("l.mtspr\t\t%0,%1,0": : "r" (spr), "r" (value)); } /* For reading SPR. */ unsigned long mfspr(unsigned long spr) { unsigned long value; asm("l.mfspr\t\t%0,%1,0" : "=r" (value) : "r" (spr)); return value; } #if OS_CRITICAL_METHOD == 3 OS_CPU_SR OSDisableInterrupts (void) { OS_CPU_SR cpu_sr; cpu_sr = mfspr(SPR_SR); mtspr(SPR_SR, cpu_sr & ~(SPR_SR_IEE | SPR_SR_TEE)); return cpu_sr; } void OSEnableInterrupts(OS_CPU_SR cpu_sr) { mtspr(SPR_SR, cpu_sr); /* | (SPR_SR_IEE | SPR_SR_TEE)*/ } #endif void OSInitTick(void) { /* Enable tick interrupts in supervisor register */ mtspr(SPR_SR, SPR_SR_TEE | mfspr(SPR_SR)); /* Set tick timer to restart on match, and set interrupt enable, and set period depending on clock frequency and desired tick rate */ mtspr(SPR_TTMR, SPR_TTMR_IE | SPR_TTMR_RT | ((IN_CLK/TICKS_PER_SEC) & SPR_TTMR_PERIOD)); } /* stdio patches */ void putc (char c) { OS_CPU_SR cpu_sr; OS_ENTER_CRITICAL() uart_putc (c); OS_EXIT_CRITICAL() } int getc () { return uart_getc (); } int testc () { return uart_testc (); } int ctrlc () { if (testc ()) { switch (getc ()) { case 0x03: /* ^C - Control C */ return 1; default: break; } } return 0; } /* ********************************************************************************************************* * OS INITIALIZATION HOOK * (BEGINNING) * * Description: This function is called by OSInit() at the beginning of OSInit(). * * Arguments : none * * Note(s) : 1) Interrupts should be disabled during this call. ********************************************************************************************************* */ #if OS_CPU_HOOKS_EN > 0 && OS_VERSION > 203 void OSInitHookBegin (void) { uart_init(); #ifdef __TFP_PRINTF__ init_printf(NULL,putc); #endif return; } #endif /* ********************************************************************************************************* * OS INITIALIZATION HOOK * (END) * * Description: This function is called by OSInit() at the end of OSInit(). * * Arguments : none * * Note(s) : 1) Interrupts should be disabled during this call. ********************************************************************************************************* */ #if OS_CPU_HOOKS_EN > 0 && OS_VERSION > 203 void OSInitHookEnd (void) { } #endif /*$PAGE*/ /* ********************************************************************************************************* * TASK CREATION HOOK * * Description: This function is called when a task is created. * * Arguments : ptcb is a pointer to the task control block of the task being created. * * Note(s) : 1) Interrupts are disabled during this call. ********************************************************************************************************* */ #if OS_CPU_HOOKS_EN > 0 void OSTaskCreateHook (OS_TCB *ptcb) { ptcb = ptcb; /* Prevent compiler warning */ } #endif /* ********************************************************************************************************* * TASK DELETION HOOK * * Description: This function is called when a task is deleted. * * Arguments : ptcb is a pointer to the task control block of the task being deleted. * * Note(s) : 1) Interrupts are disabled during this call. ********************************************************************************************************* */ #if OS_CPU_HOOKS_EN > 0 void OSTaskDelHook (OS_TCB *ptcb) { ptcb = ptcb; /* Prevent compiler warning */ } #endif /* ********************************************************************************************************* * IDLE TASK HOOK * * Description: This function is called by the idle task. This hook has been added to allow you to do * such things as STOP the CPU to conserve power. * * Arguments : none * * Note(s) : 1) Interrupts are enabled during this call. ********************************************************************************************************* */ #if OS_CPU_HOOKS_EN > 0 && OS_VERSION >= 251 void OSTaskIdleHook (void) { /* printf("\nEntering idle task"); */ } #endif /* ********************************************************************************************************* * STATISTIC TASK HOOK * * Description: This function is called every second by uC/OS-II's statistics task. This allows your * application to add functionality to the statistics task. * * Arguments : none ********************************************************************************************************* */ #if OS_CPU_HOOKS_EN > 0 void OSTaskStatHook (void) { } #endif /*$PAGE*/ /* ********************************************************************************************************* * INITIALIZE A TASK'S STACK * * Description: This function is called by either OSTaskCreate() or OSTaskCreateExt() to initialize the * stack frame of the task being created. This function is highly processor specific. * * Arguments : task is a pointer to the task code * * pdata is a pointer to a user supplied data area that will be passed to the task * when the task first executes. * * ptos is a pointer to the top of stack. It is assumed that 'ptos' points to * a 'free' entry on the task stack. If OS_STK_GROWTH is set to 1 then * 'ptos' will contain the HIGHEST valid address of the stack. Similarly, if * OS_STK_GROWTH is set to 0, the 'ptos' will contains the LOWEST valid address * of the stack. * * opt specifies options that can be used to alter the behavior of OSTaskStkInit(). * (see uCOS_II.H for OS_TASK_OPT_???). * * Returns : Always returns the location of the new top-of-stack' once the processor registers have * been placed on the stack in the proper order. * ********************************************************************************************************* */ OS_STK *OSTaskStkInit (void (*task)(void *pd), void *pdata, OS_STK *ptos, INT16U opt) { OS_STK *stk; OS_STK *fp; INT32U sr; #ifdef DEBUG printf("\nCreating Stack at %x for task %x", ptos, task); #endif sr = mfspr(SPR_SR); opt = opt; /* 'opt' is not used, prevent warning */ stk = ptos; /* Load stack pointer */ stk -=32; /* Skip over red zone, 32 words */ stk--; *stk-- = (OS_STK)(pdata); /* fp+0 -> parameter 0 */ fp = stk; *stk-- = (OS_STK)fp; /* sp+4 -> previous fp */ *stk-- = (INT32U)0; /* sp+0 -> return address */ *stk-- = (INT32U)31; /* r31 = 0 */ *stk-- = (INT32U)30; /* r30 = 0 */ *stk-- = (INT32U)29; /* r29 = 0 */ *stk-- = (INT32U)28; /* r28 = 0 */ *stk-- = (INT32U)27; /* r27 = 0 */ *stk-- = (INT32U)26; /* r26 = 0 */ *stk-- = (INT32U)25; /* r25 = 0 */ *stk-- = (INT32U)24; /* r24 = 0 */ *stk-- = (INT32U)23; /* r23 = 0 */ *stk-- = (INT32U)22; /* r22 = 0 */ *stk-- = (INT32U)21; /* r21 = 0 */ *stk-- = (INT32U)20; /* r20 = 0 */ *stk-- = (INT32U)19; /* r19 = 0 */ *stk-- = (INT32U)18; /* r18 = 0 */ *stk-- = (INT32U)17; /* r17 = 0 */ *stk-- = (INT32U)16; /* r16 = 0 */ *stk-- = (INT32U)15; /* r15 = 0 */ *stk-- = (INT32U)14; /* r14 = 0 */ *stk-- = (INT32U)13; /* r13 = 0 */ *stk-- = (INT32U)12; /* r12 = 0 */ *stk-- = (INT32U)11; /* r11 = 0 return value */ *stk-- = (INT32U)10; /* r10 = 0 */ *stk-- = (INT32U)9; /* r09 = 0 link register */ *stk-- = (INT32U)8; /* r08 = 0 function paramters*/ *stk-- = (INT32U)7; /* r07 = 0 */ *stk-- = (INT32U)6; /* r06 = 0 */ *stk-- = (INT32U)5; /* r05 = 0 */ *stk-- = (INT32U)4; /* r04 = 0 */ *stk-- = (OS_STK)(pdata); /* r03 = arg0 */ *stk-- = (OS_STK)fp; /* r02 = frame pointer */ /* supervision register */ *stk-- = (INT32U)(SPR_SR_IEE | SPR_SR_TEE | SPR_SR_SM | (sr & (SPR_SR_ICE | SPR_SR_DCE))); *stk = (OS_STK)(task); /* program counter */ return ((OS_STK *)stk); /* sp gets saved in TCB */ } /*$PAGE*/ /* ********************************************************************************************************* * TASK SWITCH HOOK * * Description: This function is called when a task switch is performed. This allows you to perform other * operations during a context switch. * * Arguments : none * * Note(s) : 1) Interrupts are disabled during this call. * 2) It is assumed that the global pointer 'OSTCBHighRdy' points to the TCB of the task that * will be 'switched in' (i.e. the highest priority task) and, 'OSTCBCur' points to the * task being switched out (i.e. the preempted task). ********************************************************************************************************* */ #if OS_CPU_HOOKS_EN > 0 void OSTaskSwHook (void) { /* printf("\nTask Switching\n"); */ } #endif /* ********************************************************************************************************* * OSTCBInit() HOOK * * Description: This function is called by OS_TCBInit() after setting up most of the TCB. * * Arguments : ptcb is a pointer to the TCB of the task being created. * * Note(s) : 1) Interrupts may or may not be ENABLED during this call. ********************************************************************************************************* */ #if OS_CPU_HOOKS_EN > 0 && OS_VERSION > 203 void OSTCBInitHook (OS_TCB *ptcb) { ptcb = ptcb; /* Prevent Compiler warning */ } #endif /* ********************************************************************************************************* * TICK HOOK * * Description: This function is called every tick. * * Arguments : none * * Note(s) : 1) Interrupts may or may not be ENABLED during this call. ********************************************************************************************************* */ #if OS_CPU_HOOKS_EN > 0 void OSTimeTickHook (void) { } #endif void OSTaskReturnHook (OS_TCB *ptcb) { /* do nothing for now */ return; }
Go to most recent revision | Compare with Previous | Blame | View Log