fosi_internal.cpp
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00001 /***************************************************************************
00002   tag:
00003 
00004                         fosi_internal.hpp -  description
00005                            -------------------
00006     begin                : Jan 21 2006
00007     copyright            : (C) 2006 Klaas Gadeyne
00008     email                : firstname lastname at fmtc be
00009 
00010  ***************************************************************************
00011  *   This library is free software; you can redistribute it and/or         *
00012  *   modify it under the terms of the GNU Lesser General Public            *
00013  *   License as published by the Free Software Foundation; either          *
00014  *   version 2.1 of the License, or (at your option) any later version.    *
00015  *                                                                         *
00016  *   This library is distributed in the hope that it will be useful,       *
00017  *   but WITHOUT ANY WARRANTY; without even the implied warranty of        *
00018  *   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU     *
00019  *   Lesser General Public License for more details.                       *
00020  *                                                                         *
00021  *   You should have received a copy of the GNU Lesser General Public      *
00022  *   License along with this library; if not, write to the Free Software   *
00023  *   Foundation, Inc., 59 Temple Place,                                    *
00024  *   Suite 330, Boston, MA  02111-1307  USA                                *
00025  *                                                                         *
00026  ***************************************************************************/
00027 
00028 
00029 #include <pkgconf/kernel.h>
00030 #include <pkgconf/os_ecos.h>
00031 #include "ThreadInterface.hpp"
00032 #include "fosi.h"
00033 #include "../fosi_internal_interface.hpp"
00034 #include <cyg/kernel/kapi.h>
00035 #include <iostream>
00036 #include <string>
00037 
00038 #define INTERNAL_QUAL
00039 
00040 namespace RTT
00041 {
00042   namespace os {
00043         INTERNAL_QUAL int rtos_task_create_main(RTOS_TASK* main_task)
00044         {
00045         const char* name = "main";
00046             main_task->name = strcpy( (char*)malloc( (strlen(name) + 1) * sizeof(char)), name);
00047             return 0;
00048         }
00049 
00050         INTERNAL_QUAL int rtos_task_delete_main(RTOS_TASK* main_task)
00051         {
00052         free(main_task->name);
00053             return 0;
00054         }
00055 
00056 
00057     INTERNAL_QUAL int rtos_task_create(RTOS_TASK * task,
00058                                        int priority,
00059                                        unsigned cpu_affinity,
00060                                        const char * name,
00061                                        int sched_type,
00062                                        size_t stack_size,
00063                                        void * (*start_routine)(void *),
00064                                        ThreadInterface* obj) {
00065       /* sched_type is unused in eCos */
00066       // Allocate room for threads name
00067       if ( strlen(name) == 0 )
00068           name = "Thread";
00069       task->name = strcpy( (char*)malloc( (strlen(name) + 1) * sizeof(char)), name);
00070 
00071       // Allocate necessary stack...
00072       task->stack = (char *)malloc(stack_size?stack_size:OROSEM_OS_ECOS_STACK_SIZE);
00073 
00074       // Create the thread
00075       cyg_thread_create((cyg_addrword_t) priority, // priority
00076                         (cyg_thread_entry_t *) start_routine, // Entry point
00077                         (cyg_addrword_t) obj, // Entry point data
00078                         task->name, // Name
00079                         task->stack, // the stack
00080                         OROSEM_OS_ECOS_STACK_SIZE, // stacksize
00081                         &(task->handle),
00082                         &(task->thread));
00083       // Start in fake Soft Real-Time mode
00084       task->hrt = false;
00085       // initialize the rest to zero
00086       task->periodMark = 0;
00087       task->period = 0;
00088       task->counter_hdl = 0;
00089       task->alarm_hdl = 0;
00090       // Resume (start) thread
00091       cyg_thread_resume(task->handle);
00092       return 0;
00093     }
00094 
00095     INTERNAL_QUAL void rtos_task_yield(RTOS_TASK*) {
00096       cyg_thread_yield();
00097     }
00098 
00099     INTERNAL_QUAL void wakeup_handler(cyg_handle_t alarm_handle,cyg_addrword_t data)
00100     {
00101       cyg_sem_t * wakeup_sem = (cyg_sem_t *) data;
00102       cyg_semaphore_post(wakeup_sem);
00103     }
00104 
00105     INTERNAL_QUAL void rtos_task_make_periodic(RTOS_TASK* mytask, NANO_TIME nanosecs )
00106     {
00107       if (nanosecs != 0)
00108         { // Init stuff (fixme, better check if only called once?)
00109           // diag_printf("fosi_internal.hpp rtos_task_make_periodic() ticks = %d...\n",nano2ticks(nanosecs));
00110           // Get handle to system clock
00111           mytask->sys_clk_hdl = cyg_real_time_clock();
00112           // Convert clock to counter handle
00113           cyg_clock_to_counter(mytask->sys_clk_hdl,&(mytask->counter_hdl));
00114           // Initialise semaphore
00115           cyg_semaphore_init(&(mytask->wakeup_sem),0);
00116           cyg_alarm_create(mytask->counter_hdl,
00117                            wakeup_handler,
00118                            (cyg_addrword_t) (&(mytask->wakeup_sem)),
00119                            &(mytask->alarm_hdl),
00120                            &(mytask->alarm_obj));
00121           // set next wake-up time.
00122           cyg_alarm_initialize(mytask->alarm_hdl,
00123                                rtos_get_time_ticks() + nano2ticks(nanosecs),
00124                                nano2ticks(nanosecs));
00125         } else /* period is zero */ {
00126         // Check if alarm already created...
00127         if (mytask->alarm_hdl != 0) {
00128             // diag_printf("fosi_internal.hpp rtos_task_set_period() WARNING: Disabling alarm...\n");
00129             cyg_alarm_disable(mytask->alarm_hdl);
00130         }
00131 
00132       // set period
00133       mytask->period = nanosecs;
00134     }
00135 
00136     INTERNAL_QUAL void rtos_task_set_period( RTOS_TASK* mytask, NANO_TIME nanosecs )
00137     {
00138       mytask->period = nanosecs;
00139       // FIXME:: Can one reinitialize an alarm??
00140       // diag_printf("fosi_internal.hpp WARNING: Can one reinitialize an alarm??\n");
00141       if (nanosecs != 0){
00142         // Check if alarm already created...
00143         if (mytask->alarm_hdl == 0){
00144           // diag_printf("fosi_internal.hpp rtos_task_set_period() WARNING: Alarm not yet initialized, doing this now...\n");
00145           rtos_task_make_periodic(mytask,nanosecs);
00146         }
00147         else {
00148           cyg_alarm_initialize(mytask->alarm_hdl,
00149                                rtos_get_time_ticks() + nano2ticks(nanosecs),
00150                                nano2ticks(nanosecs));
00151           // diag_printf("fosi_internal.hpp rtos_task_set_period() Setting period to %d ticks...\n",nano2ticks(nanosecs));
00152         // FIXME need call to cyg_alarm_enable here, or is this
00153         // "included" in initialize??
00154         }
00155       }
00156       else /* period is zero */ {
00157         // Check if alarm already created...
00158         if (mytask->alarm_hdl != 0) {
00159           // diag_printf("fosi_internal.hpp rtos_task_set_period() WARNING: Disabling alarm...\n");
00160           cyg_alarm_disable(mytask->alarm_hdl);
00161         }
00162       }
00163     }
00164 
00165     INTERNAL_QUAL void rtos_task_set_wait_period_policy( RTOS_TASK* task, int policy )
00166     {
00167       // Do nothing
00168     }
00169 
00170     INTERNAL_QUAL int rtos_task_wait_period( RTOS_TASK* task )
00171     {
00172       cyg_semaphore_wait(&(task->wakeup_sem));
00173       // should be used to detect overruns
00174       return 0;
00175     }
00176 
00177     INTERNAL_QUAL void rtos_task_delete(RTOS_TASK* mytask) {
00178       // Free name
00179       free(mytask->name);
00180       // KG: Peter does not check return values, it appears...
00181       bool succeed = cyg_thread_delete(mytask->handle);
00182       if (succeed == false)
00183           diag_printf("cyg_thread_delete: Error deleting task\n");
00184       // Free stack space
00185       free(mytask->stack);
00186     }
00187 
00188     // for both SingleTread and PeriodicThread
00189     INTERNAL_QUAL const char * rtos_task_get_name(const RTOS_TASK* t)
00190     {
00191       cyg_thread_info info;
00192       bool succeed = cyg_thread_get_info(t->handle,cyg_thread_get_id(t->handle),&info);
00193       if (succeed == false)
00194           diag_printf("fosi_internal.hpp rtos_task_get_name() WARNING: cyg_thread_get_info returned false...\n");
00195       return info.name;
00196     }
00197 
00198     INTERNAL_QUAL int rtos_task_set_priority(RTOS_TASK *t, int priority)
00199     {
00200       cyg_thread_set_priority(t->handle,(cyg_priority_t) priority);
00201       return int(cyg_thread_get_priority(t->handle)) == priority ? 0 : 1;
00202     }
00203 
00204     INTERNAL_QUAL int rtos_task_get_priority(const RTOS_TASK *t)
00205     {
00206       return (int) cyg_thread_get_priority(t->handle);
00207     }
00208 
00209     INTERNAL_QUAL int rtos_task_set_cpu_affinity(RTOS_TASK * task, unsigned cpu_affinity)
00210     {
00211     return -1;
00212     }
00213 
00214     INTERNAL_QUAL unsigned rtos_task_get_cpu_affinity(const RTOS_TASK *task)
00215     {
00216     return ~0;
00217     }
00218 
00219         INTERNAL_QUAL unsigned int rtos_task_get_pid(const RTOS_TASK* task)
00220         {
00221                 return 0;
00222         }
00223 
00224       INTERNAL_QUAL int rtos_task_set_scheduler(RTOS_TASK* t, int sched_type) {
00225           if (sched_type == SCHED_ECOS_FIFO )
00226               return 0;
00227           return -1;
00228       }
00229 
00230       INTERNAL_QUAL int rtos_task_get_scheduler(const RTOS_TASK* mytask) {
00231           return SCHED_ECOS_FIFO;
00232       }
00233 
00234     INTERNAL_QUAL int rtos_task_check_scheduler(int* scheduler)
00235     {
00236         if (*scheduler != SCHED_ECOS_FIFO )
00237             log(Error) << "Unknown scheduler type." <<endlog();
00238             *scheduler = SCHED_ECOS_FIFO;
00239             return -1;
00240         }
00241         return 0;
00242     }
00243 
00244       INTERNAL_QUAL int rtos_task_check_priority(int* scheduler, int* priority)
00245       {
00246           int ret = 0;
00247           ret = rtos_task_check_scheduler(&scheduler);
00248 
00249           // FIXME: what are the valid priority ranges ???
00250 
00251           return ret;
00252       }
00253 
00254 
00255 
00256 
00257 
00258 
00259   }
00260 }
00261 #undef INTERNAL_QUAL
00262 


rtt
Author(s): RTT Developers
autogenerated on Sat Jun 8 2019 18:46:11