FreeCalypso > hg > tcs211-l1-reconst
diff chipsetsw/riviera/rvf/rvf_task.c @ 0:509db1a7b7b8
initial import: leo2moko-r1
author | Space Falcon <falcon@ivan.Harhan.ORG> |
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date | Mon, 01 Jun 2015 03:24:05 +0000 |
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--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/chipsetsw/riviera/rvf/rvf_task.c Mon Jun 01 03:24:05 2015 +0000 @@ -0,0 +1,1174 @@ +/****************************************************************************/ +/* */ +/* Name rvf_task.c */ +/* */ +/* Function this file contains \rvf task related functions */ +/* */ +/* Version 0.1 */ +/* */ +/* Date Modification */ +/* ------------------------------------ */ +/* 3/12/99 Create */ +/* 10/27/99 remove all non-nucleus sections (#ifdef) */ +/* change tasks priority and time_slicing */ +/* 11/17/1999 change RVF_create_task and RVF_get_taskid functions */ +/* 30/11/99 compliant to RV coding guidelines */ +/* 28/08/2000 add mutex related functions. */ +/* */ +/* Author David Lamy-Charrier (dlamy@tif.ti.com) */ +/* */ +/* (C) Copyright 1999 by Texas Instruments Incorporated, All Rights Reserved*/ +/****************************************************************************/ + +#ifndef _WINDOWS + #include "config/rv.cfg" +#endif + +#include "nucleus.h" + +#include "rv/rv_general.h" +#include "rvf/rvf_api.h" +#include "rvf/rvf_i.h" +#include "rvm/rvm_i.h" /* ONLY for Task Codes */ +#include "rvm/rvm_use_id_list.h" +#include <stdio.h> +#include <string.h> + +/* include the rvtool_trace.h file only in the RivieraTool */ +#ifdef _WINDOWS +#ifndef _CONSOLE +// #include "rvtool_trace.h" + #endif + #include <windows.h> +#endif + +#define RVF_STATIC_ALLOC_NB 1 + +/********************************************************************** +** Nucleus specific definitions +*/ + +typedef void (*NU_TASK_ENTRY)(UNSIGNED, VOID *); // + +/* array of tasks */ +/********************************************************************** +* Note: if dynamic mem alloc of "pOSTCB" creates too much fragentation +* The origianl way me be utilised and pointed to by a addr_id table +* structure, which is proposed for type 2 support. +***********************************************************************/ + +#define _RALLOC_TASK_CNTRL_BLK(tb) rvf_get_buf(rvm_sys_mem_bank, sizeof(NU_TASK), tb) +#define _RALLOC_TASK_EVT_GRP(tb) rvf_get_buf(rvm_sys_mem_bank, sizeof(NU_EVENT_GROUP), tb) +#define _RALLOC_TASK_RT_ADDR_DATA(tb) rvf_get_buf(rvm_sys_mem_bank, sizeof(T_RVF_RT_ADDR_ID_DATA), tb) +//#define _RALLOC_TASK_RT_TM(tb) rvf_get_buf(rvm_sys_mem_bank, sizeof(T_RVF_TIMER_LIST_Q), tb) + +/*static NU_TASK bOSTCB[RVF_STATIC_ALLOC_NB]; +static NU_EVENT_GROUP bOSEvtGrp[RVF_STATIC_ALLOC_NB]; +static UINT8 *bOSStack; +static UINT16 bOSStackSize; +static char bOSTName[RVF_STATIC_ALLOC_NB][RVF_STATIC_ALLOC_NB]; +*/ + +static UINT8 task_counter = 0; +static INT16 OSDisableNesting = 0; +static BOOL OSInterruptAlreadyMasked = FALSE; +static INT32 OSLastIntLevel; +static T_RVF_G_ADDR_ID _RDV=RVF_INVALID_ADDR_ID; + +T_RVF_RET _initSysRtData(void); + + +/******************************************************************************* +** +** Function rvf_AllocTaskXyz() +** +** Description +** +** +** Returns T_RVF_MB_STATUS +** +*******************************************************************************/ +T_RVF_RET _initSysRtData(void) { /*A-M-E-N-D-E-D!*/ + int i=0; + + for (i=0; i < MAX_RVF_G_ADDR_ID; i++) pRtAddrIdTable[i]=NULL; + + // pOSTCB[0]=&OSTCB[0]; + return RVF_OK; +} + +/******************************************************************************* +** +** Function rvf_init +** +** Description This function is called once at startup to initialize +** all the rvf (timer, buffer...). +** +** Returns void +** +*******************************************************************************/ +void rvf_init(void) { + /* UINT8 i; */ + + /* Initialize RVF variables */ + /*for (i = 0; i < MAX_RVF_TASKS; i++) { + OSStack[i] = 0; + OSStackSize[i] = 0; + OSTName[i][0] = 0; + memset( &OSTCB[i], 0, sizeof(NU_TASK) ); + memset( &OSEvtGrp[i], 0, sizeof(NU_EVENT_GROUP) ); + } + // for (i = 0; i < 1; i++) memset( &OSTCB[i], 0, sizeof(NU_TASK) ); + */ + _initSysRtData(); + _rvf_buffer_init(); + _rvf_timers_init(); +} + +/******************************************************************************* +** +** Function _rvf_name_cpy +** +** Description Internal function which copy a string in a buffer. +** The string may be null-terminated or length bytes long. +** +** Returns void +** +*******************************************************************************/ +void _rvf_name_cpy(char * dest, char * source, UINT8 length) { + UINT8 cpt; + for( cpt = 0; cpt < length ; cpt++) { + dest[cpt] = source[cpt]; + if (source[cpt] == 0) { return;} + } +} + +T_RVF_G_ADDR_ID rvf_get_context() { + T_RVF_G_ADDR_ID gid=rvf_get_taskid(); + if(pRtAddrIdTable[gid]->type_code==ET2_HOST_TASK) { + return pRtAddrIdTable[gid]->virtualContext; + } else { + return pRtAddrIdTable[gid]->host_addr_id; + } +} + +void rvf_setRDV(T_RVF_G_ADDR_ID tid,T_RVF_G_ADDR_ID vid) { + if(pRtAddrIdTable[tid]) pRtAddrIdTable[tid]->virtualContext=vid; +} + + +/************************************************************** +* Function _rvf_name_cpy +* +***************************************************************/ +T_RVF_G_ADDR_ID rvf_allocate_task_id(UINT8 isRealTask) { + T_RVF_G_ADDR_ID i=0; + UINT8 isTask=1; + + /* Note: differentiation is made between REAL and VIRTUAL IDs + * to provide for backwards compatabible LEGACY timer implementations + * The Real task ids should be in sync with: + * "static rvf_Timer[MAX_RVF_TASKS][RVF_NUM_TASK_TIMERS]", + * defined in "rvf_time.c". In the future, one NU_Timer blk will + * be pointed to in the rt global addr table. Hence, eliminating + * the large resource of "rvf_Timer[][]" + */ + if(!pRtAddrIdTable[i]) return RVF_INVALID_ADDR_ID; + + if(isRealTask) { + /* REAL TASK */ + for(i=0; pRtAddrIdTable[i]!=NULL && i<MAX_RVF_TASKS; i++); + + if (i < MAX_RVF_TASKS) { /* alloc. and init. */ + if(_RALLOC_TASK_RT_ADDR_DATA((T_RVF_BUFFER**)&pRtAddrIdTable[i])) return RVF_INVALID_TASK; + memset( pRtAddrIdTable[i], 0, sizeof(T_RVF_RT_ADDR_ID_DATA) ); + rvf_mbox_buffer_init(pRtAddrIdTable[i]); + + } else return RVF_INVALID_ADDR_ID; + } else { + /* VIRTUAL TASK */ + for(i=MAX_RVF_TASKS; pRtAddrIdTable[i]!=NULL && i<MAX_RVF_G_ADDR_ID; i++); + + if (i < MAX_RVF_G_ADDR_ID) { /* alloc. and init. */ + if(_RALLOC_TASK_RT_ADDR_DATA((T_RVF_BUFFER**)&pRtAddrIdTable[i])) return RVF_INVALID_TASK; + memset( pRtAddrIdTable[i], 0, sizeof(T_RVF_RT_ADDR_ID_DATA) ); + rvf_mbox_buffer_init(pRtAddrIdTable[i]); + + } else return RVF_INVALID_ADDR_ID; + } + + return i; +} + +/* MUST RESOLVE ERROR CODES '1' is just for P of C */ +T_RVF_RET rvf_setRtAddrSweIndex(T_RVF_G_ADDR_ID id, UINT8 sweIndex) { + if(id>=MAX_RVF_G_ADDR_ID) return 1; + pRtAddrIdTable[id]->swe_db_index=sweIndex; +// pRtAddrIdTable[id]->type_code=tcode; /* allows type to be set if not in swe */ + return RVF_OK; +} + +T_RVF_RET rvf_setHostTaskStackPtr(T_RVF_G_ADDR_ID id, UINT8* pStack) { /* deprecated ! */ + if(id>=MAX_RVF_TASKS) return 1; + pRtAddrIdTable[id]->p_os_stack=pStack; + + return RVF_OK; +} + +T_RVF_RET rvf_isHostingTaskIdle(T_RVF_G_ADDR_ID id, UINT8* status) { /* deprecated ! */ + if(id>=MAX_RVF_TASKS) return RVF_INVALID_PARAMETER; + if(!pRtAddrIdTable[id]) return RVF_INVALID_PARAMETER; + if(pRtAddrIdTable[id]->type_code!=ET2_HOST_TASK) return RVF_INVALID_PARAMETER; + + if(pRtAddrIdTable[id]->hosting_count==0) *status=1; + return RVF_OK; +} + +/* convenience/helper fnc. */ +T_RVF_G_ADDR_ID resolveHostAddrId(T_RVF_G_ADDR_ID id) { + if(!pRtAddrIdTable[id]) return RVF_INVALID_ADDR_ID; + return pRtAddrIdTable[id]->host_addr_id; +} + +/* HostingCounter enables one to deduce if task can be terminated */ +/* ERROR return val must be revised */ +T_RVF_RET rvf_registerToHost(T_RVF_G_ADDR_ID host_id, T_RVF_G_ADDR_ID eid) { + UINT8 i; + + if (host_id >= MAX_RVF_TASKS || eid >= MAX_RVF_G_ADDR_ID ) return RV_INVALID_PARAMETER;; + + for(i=0;pRtAddrIdTable[host_id]->parasites[i]!=0 && i < MAX_PARASITES; i++); + + pRtAddrIdTable[host_id]->parasites[i]=eid; + pRtAddrIdTable[host_id]->hosting_count++; + + return RVF_OK; +} + +T_RVF_RET rvf_unregisterFromHost(T_RVF_G_ADDR_ID host_id, T_RVF_G_ADDR_ID pid) { + UINT8 i=0; + if (pRtAddrIdTable[host_id]->hosting_count !=0) { + for(i=0; i<MAX_PARASITES || pRtAddrIdTable[host_id]->parasites[i]==pid; i++); + pRtAddrIdTable[host_id]->parasites[i]=0; + + pRtAddrIdTable[host_id]->hosting_count--; + } else return RV_INVALID_PARAMETER; + + return RVF_OK; +} + +T_RVF_RET rvf_associateGrpToHost(T_RVF_G_ADDR_ID host_id, T_RVF_GD_ID gd_id) { + + if (host_id >= MAX_RVF_TASKS ) return RV_INVALID_PARAMETER; + + pRtAddrIdTable[host_id]->gdHost=gd_id; + + return RVF_OK; +} + +/*T_RVF_RET rvf_unregisterGrpFromHost(T_RVF_G_ADDR_ID host_id, T_RVF_G_ADDR_ID pid) { + if (pRtAddrIdTable[host_id]->hosting_count !=0) { + pRtAddrIdTable[host_id]->parasites[pid]=0; + pRtAddrIdTable[host_id]->hosting_count--; + } else return RV_INVALID_PARAMETER; + + return RVF_OK; +}*/ + +T_RVF_G_ADDR_ID rvf_resolveHostingAddrId(T_RVM_GROUP_DIRECTIVE gd) { + int i=0; + + for(i=1; i<MAX_RVF_TASKS; i++) { // i=1 by-pass RVM task + if(pRtAddrIdTable[i]!=NULL) { + if( pRtAddrIdTable[i]->type_code==ET2_HOST_TASK && +// pRtAddrIdTable[i]->priority==priority && // to do ... +// pRtAddrIdTable[i]->os_stack_size>=stack_size + pRtAddrIdTable[i]->gdHost==gd.group_directive && + pRtAddrIdTable[i]->hosting_count<MAX_PARASITES ) return i; // def. 10 A+ . + } + } + + return RVF_INVALID_ADDR_ID; /* nothing found ret. param must be invalid*/ +} + +/********************************************************************* + * start() and stop() should be added to params, due to defered calling + * Allow for parasites to be added at RT and their start to be called. + *********************************************************************/ +T_RVF_RET rvf_create_virtual_task (T_RV_RET (* handle_message)(T_RV_HDR * msg), + T_RV_RET (* handle_timer)(T_RV_HDR * msg), + T_RVF_G_ADDR_ID task_id, T_RVF_G_ADDR_ID host_task_id, char *taskname, + UINT8 priority, UINT8 tcode) { + + if(!pRtAddrIdTable[task_id]) { /* allow for static init. or previous dyn init, eg. idle*/ + if(_RALLOC_TASK_RT_ADDR_DATA((T_RVF_BUFFER**)&pRtAddrIdTable[task_id])) return RVF_INTERNAL_ERR; + memset( pRtAddrIdTable[task_id], 0, sizeof(T_RVF_RT_ADDR_ID_DATA) ); + + rvf_mbox_buffer_init(pRtAddrIdTable[task_id]); + } /*else printf("RVF: task rt addr %d already alloc'ed\n", task_id); */ + + pRtAddrIdTable[task_id]->host_addr_id=host_task_id; + pRtAddrIdTable[task_id]->symbolic_name=taskname; + pRtAddrIdTable[task_id]->handle_message=handle_message; + pRtAddrIdTable[task_id]->handle_timer=handle_timer; + pRtAddrIdTable[task_id]->type_code=tcode; + + pRtAddrIdTable[task_id]->pOSTCB=NULL; /* init to NULL for res.'free' */ + pRtAddrIdTable[task_id]->pOSEvtGrp=NULL; + pRtAddrIdTable[task_id]->p_os_stack=NULL; +// pRtAddrIdTable[task_id]->p_tm_q=NULL; + +// rvf_registerToHost(host_task_id, task_id); + + return RVF_OK; +} + +T_RVF_RET rvf_register_t3_handlers (T_RVF_G_ADDR_ID task_id, + T_RV_RET (* handle_message)(T_RV_HDR * msg), + T_RV_RET (* handle_timer)(T_RV_HDR * msg) ) { + + pRtAddrIdTable[task_id]->handle_message=handle_message; + pRtAddrIdTable[task_id]->handle_timer=handle_timer; + + return RVF_OK; +} + +/* RVM must create a stack with its MB and pass as params to task create */ +/*T_RVF_RET rvf_create_host_task (T_RV_RET (* proxy)(void), T_RVF_G_ADDR_ID task_id, + char *taskname, UINT8 *stack, UINT16 stacksize, + UINT8 priority, UINT8 tcode, UINT8 time_slicing, T_RVF_TASK_STATE suspend) { + + return rvf_create_task( (TASKPTR)proxy, task_id, taskname, stack, stacksize,\ + priority, tcode, time_slicing, suspend ) ; + +}*/ + +/******************************************************************************* +** +** Function rvf_create_task +** +** Description This function is called to create a new rvf task. +** time_slice represents the number of Nucleus ticks before a task is interrupted. +** 0 for no time-slicing. +** +** Returns RVF_OK if successful, else an error code +** +*******************************************************************************/ +T_RVF_RET rvf_create_legacy_task (TASKPTR task_entry, UINT8 task_id, char *taskname, UINT8 *stack, UINT16 stacksize, UINT8 priority, UINT8 time_slicing, T_RVF_TASK_STATE is_suspend) { + + return rvf_create_task(task_entry,task_id,taskname,stack,stacksize,priority,ET4_TASK,time_slicing,is_suspend); +} + +T_RVF_RET rvf_create_task (TASKPTR task_entry, T_RVF_G_ADDR_ID task_id, char *taskname, UINT8 *stack, UINT16 stacksize, + UINT8 priority, UINT8 tcode, UINT8 time_slicing, T_RVF_TASK_STATE suspend) { + + /*if (task_id >= MAX_RVF_TASKS) { return 1; } */ + if (task_counter >= MAX_RVF_TASKS) { return 1; } + + /* fill the task stack with a 0xFE pattern to allow use with stack monitoring tool */ + memset( stack, 0xFE, stacksize ); + + /* allow for immediate task creation, eg. no alloc taskId(), but #defined task No. Dangerous!*/ + if(!pRtAddrIdTable[task_id]) { + if(_RALLOC_TASK_RT_ADDR_DATA((T_RVF_BUFFER**)&pRtAddrIdTable[task_id])) return RVF_INTERNAL_ERR; + memset( pRtAddrIdTable[task_id], 0, sizeof(T_RVF_RT_ADDR_ID_DATA) ); + + rvf_mbox_buffer_init(pRtAddrIdTable[task_id]); + } /*else printf("RVF: task rt addr %d already alloc'ed\n", task_id); */ + + /*if(_RALLOC_TASK_RT_TM((T_RVF_BUFFER**)&pRtAddrIdTable[task_id]->p_tm_q)) { + rvf_free_buf(pRtAddrIdTable[task_id]); + pRtAddrIdTable[task_id]=NULL; + return RVF_INTERNAL_ERR; + } else pRtAddrIdTable[task_id]->p_tm_q->timerCnt=0;*/ + + pRtAddrIdTable[task_id]->hosting_count=0; + pRtAddrIdTable[task_id]->host_addr_id=task_id; + pRtAddrIdTable[task_id]->symbolic_name=taskname; + pRtAddrIdTable[task_id]->priority=priority; + pRtAddrIdTable[task_id]->type_code=tcode; + + memset(&pRtAddrIdTable[task_id]->parasites, 0, (sizeof(T_RVF_G_ADDR_ID)*MAX_PARASITES)); + + if (stack) { + pRtAddrIdTable[task_id]->p_os_stack = (UINT8 *)stack;// - stacksize; + pRtAddrIdTable[task_id]->os_stack_size = stacksize; + } else { +// rvf_free_buf(pRtAddrIdTable[task_id]->p_tm_q); + rvf_free_buf(pRtAddrIdTable[task_id]); + pRtAddrIdTable[task_id]=NULL; + return RVF_INTERNAL_ERR; + } + + if(_RALLOC_TASK_CNTRL_BLK((T_RVF_BUFFER**)&pRtAddrIdTable[task_id]->pOSTCB)) { + rvf_free_buf(stack); +// rvf_free_buf(pRtAddrIdTable[task_id]->p_tm_q); + rvf_free_buf(pRtAddrIdTable[task_id]); + pRtAddrIdTable[task_id]=NULL; + return RVF_INTERNAL_ERR; + } + memset( pRtAddrIdTable[task_id]->pOSTCB, 0, sizeof(NU_TASK) ); + + if(_RALLOC_TASK_EVT_GRP((T_RVF_BUFFER**)&pRtAddrIdTable[task_id]->pOSEvtGrp)) { + rvf_free_buf(pRtAddrIdTable[task_id]->pOSTCB); + rvf_free_buf(stack); +// rvf_free_buf(pRtAddrIdTable[task_id]->p_tm_q); + rvf_free_buf(pRtAddrIdTable[task_id]); + pRtAddrIdTable[task_id]=NULL; + return RVF_INTERNAL_ERR; + } + memset( pRtAddrIdTable[task_id]->pOSEvtGrp, 0, sizeof(NU_EVENT_GROUP) ); + + /* Create one Event Group for this task */ + if( NU_SUCCESS != \ + NU_Create_Event_Group (pRtAddrIdTable[task_id]->pOSEvtGrp,\ + taskname) ) { + return RVF_INTERNAL_ERR; + } + + //} + /* Create Task */ + if ( NU_SUCCESS != + NU_Create_Task (pRtAddrIdTable[task_id]->pOSTCB, /* Task Control Block */ + taskname, /*taskname,*/ /* Task Name */ + (NU_TASK_ENTRY )task_entry, /* Task Entry Function */ + 0, /* why prev. task_id ??? */ /* ARGC A-M-E-N-D-E-D! */ + NULL, /* ARGV */ + pRtAddrIdTable[task_id]->p_os_stack, /* Begining of Stack */ + pRtAddrIdTable[task_id]->os_stack_size, /* Stack size */ + priority, /* Priority */ + time_slicing, /* Time Slicing Period*/ + NU_PREEMPT, /* Preemption allowed */ + (OPTION)(suspend == RUNNING ? NU_START : NU_NO_START) )/* Start the task or suspend it */ + ) { + return RVF_INTERNAL_ERR; + } + task_counter++; /* MUST 'DEC' ON TASK TERMINATION */ + + return RVF_OK; +} + +/* to be called from func. 'create_tasks()' of module "create_RVtasks.c" + * utilises static alloated system variables */ +/*T_RVF_RET rvf_create_boot_task (TASKPTR task_entry, UINT8 task_id, char *taskname, UINT8 *stack, UINT16 stacksize, UINT8 priority, UINT8 time_slicing, T_RVF_TASK_STATE suspend) { + if (task_id >= MAX_RVF_TASKS) { return 1;} + + if (stack) { + bOSStack = (UINT8 *)stack;// - stacksize; + bOSStackSize = stacksize; + } + // copy the task name into an internal buffer + _rvf_name_cpy( &(bOSTName[0][0]), taskname, RVF_MAX_TASK_LEN); + + // fill the task stack with a 0xFE pattern to allow use with stack monitoring tool + memset( stack, 0xFE, stacksize ); + + // Create one Event Group for this task + if( NU_SUCCESS != NU_Create_Event_Group (&bOSEvtGrp[0], taskname) ){ + return RVF_INTERNAL_ERR; + } + + // Create Task + if ( NU_SUCCESS != + NU_Create_Task (&bOSTCB[0], // (reserved)Task Control Block + taskname, // Task Name + (NU_TASK_ENTRY )task_entry, // Task Entry Function + task_id, // ARGC + NULL, // ARGV + bOSStack, // Begining of Stack + stacksize, // Stack size + priority, // Priority + time_slicing, // Time Slicing Period + NU_PREEMPT, // Preemption allowed + (OPTION)(suspend == RUNNING ? NU_START : NU_NO_START) )// Start the task or suspend it + ) + { return RVF_INTERNAL_ERR; + } + task_counter++; + return RVF_OK; +}*/ + +/* Later timer blk must be added, once made dynamic */ +T_RVF_RET rvf_free_sys_resources(T_RVF_G_ADDR_ID gid, UINT8 rm) { + + if(!pRtAddrIdTable[gid]) return RVF_INTERNAL_ERR; + + if(rm==1 || rm==2) { + if(pRtAddrIdTable[gid]->pOSTCB)rvf_free_buf(pRtAddrIdTable[gid]->pOSTCB); + if(pRtAddrIdTable[gid]->pOSEvtGrp)rvf_free_buf(pRtAddrIdTable[gid]->pOSEvtGrp); + if(pRtAddrIdTable[gid]->p_os_stack)rvf_free_buf(pRtAddrIdTable[gid]->p_os_stack); + + task_counter--; + } + if(rm==0 || rm==2) { + if(pRtAddrIdTable[gid])rvf_free_buf(pRtAddrIdTable[gid]); + pRtAddrIdTable[gid]=NULL; + } + + return RVF_OK; +} + +/******************************************************************************* +** +** Function rvf_exit_task +** +** Description This function is called to stop a rvf task. +** A task can kill another task or itself. +** +** Returns void +** +*******************************************************************************/ +void rvf_exit_task (T_RVF_G_ADDR_ID task_id) +{ + if(!pRtAddrIdTable[task_id]) return; + /* + ** Empty task's mail box + */ + _rvf_empty_mailboxes(task_id); + + /* + ** Terminate task + */ + NU_Terminate_Task(pRtAddrIdTable[task_id]->pOSTCB); /*&OSTCB[task_id]);*/ + NU_Delete_Task(pRtAddrIdTable[task_id]->pOSTCB); + + /* + ** Delete related event group + */ + NU_Delete_Event_Group (pRtAddrIdTable[task_id]->pOSEvtGrp); + + pRtAddrIdTable[task_id]->p_os_stack=0; + //OSStack[task_id] = 0; +} + + +/******************************************************************************* +** +** Function rvf_suspend_task +** +** Description This function is called to suspend a rvf task. +** A task can suspend another task or itself. +** +** Returns void +** +*******************************************************************************/ +T_RVF_RET rvf_suspend_task (T_RVF_G_ADDR_ID task_id) +{ + if(!pRtAddrIdTable[task_id]) return RVF_INVALID_PARAMETER; + NU_Suspend_Task(pRtAddrIdTable[task_id]->pOSTCB); // A-M-E-N-D-E-D! + + return RVF_OK; +} + + +/******************************************************************************* +** +** Function rvf_wait +** +** Description This function is called by tasks to wait for a specific +** event or set of events. The task may specify the duration +** that it wants to wait for, or 0 if infinite. +** +** Returns the event mask of received events or zero if timeout +** +*******************************************************************************/ +UINT16 rvf_wait (UINT16 flag, UINT32 timeout) { + T_RVF_G_ADDR_ID rtask = rvf_get_taskid(); + + if (!timeout) timeout = 0xFFFFFFFFL; + + return rvf_evt_wait(rtask, flag, timeout); +} + +UINT16 rvf_evt_wait(T_RVF_G_ADDR_ID rtask, UINT16 flag, UINT32 timeout) { + +#define RVF_RET_TIME_OUT 0 + + UINT16 mbxEvt = 0; + UNSIGNED evt = 0; + UNSIGNED clear = 0; + STATUS status_ret; + + /* Check if anything in any of the mailboxes. Possible race condition. */ + + if (rtask>=MAX_RVF_TASKS || !pRtAddrIdTable[rtask]) { + RVM_TRACE_WARNING_PARAM("RVF: Illegal MBOX or MBOX not ready!", rtask); + return (UINT16) RVF_RET_TIME_OUT; + } + + if (pRtAddrIdTable[rtask] && pRtAddrIdTable[rtask]->OSTaskQFirst[0]) + mbxEvt |= RVF_TASK_MBOX_0_EVT_MASK; + if (pRtAddrIdTable[rtask] && pRtAddrIdTable[rtask]->OSTaskQFirst[1]) + mbxEvt |= RVF_TASK_MBOX_1_EVT_MASK; + if (pRtAddrIdTable[rtask] && pRtAddrIdTable[rtask]->OSTaskQFirst[2]) + mbxEvt |= RVF_TASK_MBOX_2_EVT_MASK; + if (pRtAddrIdTable[rtask] && pRtAddrIdTable[rtask]->OSTaskQFirst[3]) + mbxEvt |= RVF_TASK_MBOX_3_EVT_MASK; + + /* If any valid event if pending, return immediately */ + if (mbxEvt & flag) + { + /* Return only those bits which user wants... */ + evt = (UINT16) (mbxEvt & flag); + + /* clear the nucleus event(s) for mailboxes */ + if ( mbxEvt & 0x000F ) /* a mailbox event is signaled*/ + { NU_Retrieve_Events (pRtAddrIdTable[rtask]->pOSEvtGrp, (UNSIGNED) mbxEvt & 0x000F, NU_AND_CONSUME, + (UNSIGNED *)&clear, NU_NO_SUSPEND); + } + + + return ((UINT16) evt); + } + + + if(pRtAddrIdTable[rtask]) { + status_ret = NU_Retrieve_Events (pRtAddrIdTable[rtask]->pOSEvtGrp, + (UNSIGNED) flag, NU_OR_CONSUME, + (UNSIGNED *)&evt, timeout ); + if ( status_ret == NU_SUCCESS) { + return (UINT16) evt; + } else { /* timeout or error case */ + return (UINT16) RVF_RET_TIME_OUT; + } + } return (UINT16) RVF_RET_TIME_OUT; +} + +/******************************************************************************* +** +** Function rvf_wait_for_specific_msg +** +** Description This function is called by tasks to wait for a specific +** message in the specified mailbox. The task may specify the duration +** that it wants to wait for, or 0 if infinite. +** +** Returns A pointer to the message, NULL in case of time-out. +** +*******************************************************************************/ +T_RVF_BUFFER * rvf_wait_for_specific_msg(UINT16 msg_code, UINT8 mbox, UINT32 timeout) +{ + T_RVF_G_ADDR_ID task_id = rvf_get_taskid(); + T_RVF_BUFFER * p_buf = NULL; + T_RVF_INTERNAL_BUF * p_hdr; + UNSIGNED clear = 0; + STATUS status_ret; + UINT32 wait_time; + UINT32 init_time = rvf_get_tick_count(); + + + /* check input parameter */ + if ( mbox >= RVF_NUM_TASK_MBOX) /* NOTE: must be def to 2 max */ + { rvf_send_trace( "RVF: rvf_wait_for_specific_msg(): invalid mailbox id", 52, NULL_PARAM, RV_TRACE_LEVEL_ERROR, RVM_USE_ID); + return p_buf; + } + + if(!timeout) + timeout = 0xFFFFFFFFL; + wait_time = timeout; + + while( (rvf_get_tick_count() - init_time) < timeout ) + { + /* test all messages in the mailbox */ + if( pRtAddrIdTable[task_id]->OSTaskQFirst[mbox] ) + { + rvf_disable(9); + p_hdr = pRtAddrIdTable[task_id]->OSTaskQFirst[mbox]; + p_buf = MEM2USER(p_hdr); + /* test the first one */ + if ( ((T_RV_HDR *)p_buf)->msg_id == msg_code ) + { /* message found, return it */ + pRtAddrIdTable[task_id]->OSTaskQFirst[mbox] = p_hdr->p_next; + p_hdr->p_next = NULL; + +#if RVF_ENABLE_BUF_LINKAGE_CHECK + RVF_SET_BUF_UNLINKED(p_hdr); +#endif + /* clear the Nucleus Event for this mailbox */ + NU_Retrieve_Events( pRtAddrIdTable[task_id]->pOSEvtGrp, EVENT_MASK(mbox), NU_AND_CONSUME, + (UNSIGNED *)&clear, NU_NO_SUSPEND); + rvf_enable(); + return p_buf; + } + + while(p_hdr->p_next != NULL) + { + p_buf = MEM2USER(p_hdr->p_next); + if ( ((T_RV_HDR *)p_buf)->msg_id == msg_code ) + { /* remove it from the list */ + p_hdr->p_next = ( (T_RVF_INTERNAL_BUF *) USER2MEM(p_buf))->p_next; + /* check if it the last one */ + if ( pRtAddrIdTable[task_id]->OSTaskQLast[mbox] == USER2MEM(p_buf) ) + { pRtAddrIdTable[task_id]->OSTaskQLast[mbox] = p_hdr; + } + ((T_RVF_INTERNAL_BUF *) USER2MEM(p_buf))->p_next = NULL; + + #if RVF_ENABLE_BUF_LINKAGE_CHECK + RVF_SET_BUF_UNLINKED(USER2MEM(p_buf)); + #endif + rvf_enable(); + return p_buf; + } + p_hdr = p_hdr->p_next; + } + + rvf_enable(); + } + + /* here, the message has not been found, so wait for a new message */ + + if ((wait_time != 0xFFFFFFFFL) && + (timeout > rvf_get_tick_count() - init_time)) + { + /* NU_Retrieve_Events bug: cannot call function with a parameter with F in MSB */ + wait_time = (timeout - (rvf_get_tick_count() - init_time)) & 0x0FFFFFFFL; + } + + status_ret = NU_Retrieve_Events( pRtAddrIdTable[task_id]->pOSEvtGrp, EVENT_MASK(mbox), NU_OR_CONSUME, + (UNSIGNED *)&clear, wait_time); + + if( status_ret != NU_SUCCESS) /* time out */ + { return NULL; + } + + } + return NULL; +} + + +/******************************************************************************* +** +** Function rvf_delay +** +** Description This function is called by tasks to sleep unconditionally +** for a specified amount of time. +** +** Returns void +** +*******************************************************************************/ +void rvf_delay (UINT32 timeout) +{ + if (timeout == 0) + { timeout = 1; + } + + NU_Sleep(timeout); + +} + + +/******************************************************************************* +** +** Function rvf_send_event +** +** Description This function is called by tasks to send events to other +** tasks. Tasks can also send events to themselves. +** +** Returns 0 if all OK, else 1 +** +*******************************************************************************/ +UINT8 rvf_send_event (T_RVF_G_ADDR_ID task_id, UINT16 event) { + + if (task_id >= MAX_RVF_TASKS || !pRtAddrIdTable[task_id] ) return 1; + + NU_Set_Events (pRtAddrIdTable[task_id]->pOSEvtGrp, (UNSIGNED)event, NU_OR); + + return 0; +} + +/******************************************************************************* +** +** Function rvf_get_taskid +** +** Description This function gets the currently running task ID. +** +** Returns task ID +** +*******************************************************************************/ +T_RVF_G_ADDR_ID rvf_get_taskid(void) { /* Retrieve the taskid using index of the task pointer in the OSTCB array */ + NU_TASK * currTask=0; + T_RVF_G_ADDR_ID taskId=RVF_INVALID_ADDR_ID; + + currTask = NU_Current_Task_Pointer(); + + if( currTask != NU_NULL) { + /* find the task pointer in the OSTCB array */ + for ( taskId = 0; taskId < MAX_RVF_TASKS; taskId++) { + if( (pRtAddrIdTable[taskId]!= NULL) && + ((pRtAddrIdTable[taskId]->pOSTCB)) == currTask) return taskId; + } + return RVF_INVALID_ADDR_ID; + } else { + return RVF_INVALID_ADDR_ID; /* error case, must return an error code */ + } +} + + +/******************************************************************************* +** +** Function rvf_get_taskname +** +** Description This function gets the currently running task name. +** +** Returns pointer to task name or NULL if error +** +*******************************************************************************/ +char* rvf_get_taskname(void) +{ T_RVF_G_ADDR_ID id = rvf_get_taskid(); + + if (id == 0xFF) return NULL; /* return NULL if rvf_get_taskid returns 0xFF */ + + return pRtAddrIdTable[id]->symbolic_name; /*(OSTName[ id ]);*/ +} + +/******************************************************************************* +** +** Function rvf_enable +** +** Description This function enables interrupts. +** +** Returns void +** +*******************************************************************************/ +void rvf_enable(void) +{ + + if( --OSDisableNesting == 0) /* Control nesting interrupt */ + { + if( OSInterruptAlreadyMasked == TRUE) /* check if interrupts have been disabled outside RVF, + in that case, do not enable interrupts */ + { OSInterruptAlreadyMasked = FALSE; + } + else + { NU_Control_Interrupts(OSLastIntLevel); + } + } + +} + +#ifdef _WINDOWS + +/******************************************************************************* +** +** Function INT_Check_IRQ_Mask() +** +** Description This function checks if the IRQ are disabled (outside RVF). +** +** Returns IRQ mask +** +*******************************************************************************/ +UINT32 INT_Check_IRQ_Mask(void) +{ + return 0; +} +#else + +/*-------------------------------------------------------*/ +/* INT_Check_IRQ_Mask() */ +/*-------------------------------------------------------*/ +/* */ +/* Description: check in the CPSR register if the IRQ */ +/* are masked out or not. */ +/* ------------ */ +/* */ +/*-------------------------------------------------------*/ +/* Declaration of ASM INT_Check_IRQ_Mask function */ +UINT32 INT_Check_IRQ_Mask(void); + +asm(" .def $INT_Check_IRQ_Mask"); +asm("$INT_Check_IRQ_Mask "); +asm(" .ref _INT_32_Check_IRQ_Mask"); +asm(".state16"); +asm(" ADR r0,_INT_32_Check_IRQ_Mask "); +asm(" BX r0 "); + +asm(" .align"); +asm(" .state32"); +asm(" .def _INT_32_Check_IRQ_Mask"); +asm("_INT_32_Check_IRQ_Mask "); + +asm(" MRS r0,CPSR "); // pick up CPSR +asm(" BX lr "); // return to caller + +#endif + + +/******************************************************************************* +** +** Function rvf_disable +** +** Description This function disables interrupts. +** +** Returns void +** +*******************************************************************************/ + +#define RVF_IRQ_DISABLED_MASK 0x00000080 + +void rvf_disable(UINT8 who) +{ + + /* Control interrupt nesting ourselves */ + if (OSDisableNesting == 0) + { + if ( INT_Check_IRQ_Mask() & RVF_IRQ_DISABLED_MASK) /* if IRQ are disabled (outside RVF) */ + { OSInterruptAlreadyMasked = TRUE; + } + else + { OSLastIntLevel = NU_Control_Interrupts(NU_DISABLE_INTERRUPTS); + } + } + OSDisableNesting++; + +} + + +/******************************************************************************* +** +** Function rvf_used_stack +** +** Description This function tries to calculate the amount of +** stack used by looking for a zero. +** +** Returns the number of non-zero bytes on the stack +** +*******************************************************************************/ +UINT16 rvf_used_stack(T_RVF_G_ADDR_ID task) +{ + UINT16 j, stacksize; + UINT8 *p; + + if(!pRtAddrIdTable[task]) return 0; + + stacksize = pRtAddrIdTable[task]->os_stack_size; /*OSStackSize[task];*/ + p = pRtAddrIdTable[task]->p_os_stack; /*OSStack[task];*/ + for(j = 0; (j < stacksize) && (*p++ == 0xFE); j++); + + return ((UINT16)(stacksize - j)); +} + + +/******************************************************************************* +** +** Function rvf_dump_tasks +** +** Description This function dump all the rvf tasks. +** +** Returns void +** +*******************************************************************************/ +void rvf_dump_tasks() +{ UINT8 num_task; + char task_info[100]; + + rvf_send_trace("*** START DUMPING TASKS ***", 27, NULL_PARAM, RV_TRACE_LEVEL_DEBUG_HIGH, RVM_USE_ID); + + /* for each task, display its name, its id, its stack size*/ + rvf_send_trace("*TASK_NAME Id Stack_size Used_stack", 35, NULL_PARAM, RV_TRACE_LEVEL_DEBUG_HIGH, RVM_USE_ID); + + for ( num_task = 0; num_task < MAX_RVF_G_ADDR_ID; num_task++ ) + { + /* trace the task if it has been created*/ + if (pRtAddrIdTable[num_task] != 0 ) { + sprintf( task_info, "%10.10s %2d %5d %5d", + pRtAddrIdTable[num_task]->symbolic_name /*OSTName[num_task]*/, + num_task, + pRtAddrIdTable[num_task]->os_stack_size, + rvf_used_stack( num_task) ); + rvf_send_trace( task_info, 35, NULL_PARAM, RV_TRACE_LEVEL_DEBUG_HIGH, RVM_USE_ID); + } + } + /* find a way to track task stack usage and display it */ + /* using NU_Check_Stack, NU_Task_Information or finding the first non-zero value in the stack */ +} + + +/****************************************************************************/ +/* For Big Endian Processors swap the bytes */ +#if defined(__BIG_ENDIAN) +UINT16 ntohs(UINT16 n) +{ + register UINT8 tmp; + register UINT8 *p=(UINT8 *)&n; + + tmp = p[0]; + p[0] = p[1]; + p[1] = tmp; + + return n; +} + +UINT32 ntohl(UINT32 n) +{ + register UINT8 tmp; + register UINT8 *p=(UINT8 *)&n; + + tmp = p[0]; + p[0] = p[3]; + p[3] = tmp; + + tmp = p[1]; + p[1] = p[2]; + p[2] = tmp; + + return n; +} + +#endif /* __BIG_ENDIAN*/ + + + + +/****************************************************************************** +** +** Function rvf_send_trace +** +** Description This function displays a message essentially for debug purposes. +** It displays the msg_length characters of the string pointed by msg +** and the value of val. +** +** Returns void +** +******************************************************************************/ +#ifdef _WINDOWS +#ifndef _CONSOLE +void rvf_send_trace1( INT8 * msg, UINT8 msg_length, UINT32 val, UINT8 TRACE_LEVEL, UINT32 swe_use_id) +{ +/* Function to display trace message for Tool */ + + UINT32 trace_type = swe_use_id; + + Trace( msg, msg_length, val, TRACE_LEVEL, trace_type); +} +#endif +#endif + +#ifdef _CONSOLE /* CONSOLE */ +void rvf_send_trace1( INT8 * msg, UINT8 msg_length, UINT32 val, UINT8 TRACE_LEVEL, UINT32 swe_use_id) { + const int MAX = 1000; + static int l = 0; + char buf[100]; + HANDLE out = 0; + int nb; + + if(!out)out=GetStdHandle(STD_OUTPUT_HANDLE); + + rvf_disable(25); + + sprintf(buf,"%s %d\n", msg, val); + WriteConsole(out, buf, strlen(buf), &nb, NULL); + + if(l>=MAX) { + system("cls"); + l=0; + } else l++; + + rvf_enable(); +} +#endif /* CONSOLE */ + +/******************************************************************************* +** +** Function rvf_resume_task +** +** Description This function is called to resume a rvf task which is in a suspend state. +** +** Returns RVF_OK if successful, else an error code +** +*******************************************************************************/ +T_RVF_RET rvf_resume_task( T_RVF_G_ADDR_ID taskid) +{ + if(!pRtAddrIdTable[taskid]) return RVF_INVALID_PARAMETER; + if(!pRtAddrIdTable[taskid]->pOSTCB) return RVF_INVALID_PARAMETER; + /* resume the task */ + if ( NU_INVALID_TASK == NU_Resume_Task( pRtAddrIdTable[taskid]->pOSTCB) ) {// A-M-E-N-D-E-D! + return RVF_INTERNAL_ERR; //RVF_INVALID_PARAMETER; + } + return RVF_OK; +} + +/******************************************************************************* +** +** Function rvf_initialize_mutex +** +** Description This function initialize a mutex structure, which will be used +** to protect shared variables against simultaneous access. +** +** Returns RVF_OK if successful, else an error code +** +*******************************************************************************/ +T_RVF_RET rvf_initialize_mutex( T_RVF_MUTEX * mutex) +{ + + /* initializes the mutex structure */ + + if( NU_Create_Semaphore( (NU_SEMAPHORE *)mutex, "RVF", 1, NU_PRIORITY ) != NU_SUCCESS) + { return RVF_INTERNAL_ERR; + } + + return RVF_OK; +} + +/******************************************************************************* +** +** Function rvf_lock_mutex +** +** Description This function locks a mutex to avoid simultaneous access. +** If the mutex is already locked, the task is suspended +** until the mutex is unlocked. +** +** Returns RVF_OK if successful, else an error code +** +*******************************************************************************/ +T_RVF_RET rvf_lock_mutex( T_RVF_MUTEX * mutex) +{ + if( NU_Obtain_Semaphore( (NU_SEMAPHORE *)mutex, NU_SUSPEND ) != NU_SUCCESS) + { return RVF_INTERNAL_ERR; + } + + return RVF_OK; +} + +/******************************************************************************* +** +** Function rvf_unlock_mutex +** +** Description This function unlocks a mutex to avoid simultaneous access. +** +** Returns RVF_OK if successful, else an error code +** +*******************************************************************************/ +T_RVF_RET rvf_unlock_mutex( T_RVF_MUTEX * mutex) +{ + if( NU_Release_Semaphore( (NU_SEMAPHORE *)mutex ) != NU_SUCCESS) + { return RVF_INTERNAL_ERR; + } + + return RVF_OK; +} + +/******************************************************************************* +** +** Function rvf_delete_mutex +** +** Description This function deletes a previously created mutex. +** +** Returns RVF_OK if successful, else an error code +** +*******************************************************************************/ +T_RVF_RET rvf_delete_mutex( T_RVF_MUTEX * mutex) +{ + if( NU_Delete_Semaphore( (NU_SEMAPHORE *)mutex ) != NU_SUCCESS) + { return RVF_INTERNAL_ERR; + } + + return RVF_OK; +} + +void rvf_yield() { NU_Relinquish(); } + +/* convenience function */ +UINT8 rvf_isType2() { + if(pRtAddrIdTable[rvf_get_taskid()]->type_code==ET2_HOST_TASK) return 1; + else return 0; +} +