libpok-refman-current-html/html/semaphore_8c_source.html

00001 /*
00002  *                               POK header
00003  *
00004  * The following file is a part of the POK project. Any modification should
00005  * made according to the POK licence. You CANNOT use this file or a part of
00006  * this file is this part of a file for your own project
00007  *
00008  * For more information on the POK licence, please see our LICENCE FILE
00009  *
00010  * Please follow the coding guidelines described in doc/CODING_GUIDELINES
00011  *
00012  *                                      Copyright (c) 2007-2009 POK team
00013  *
00014  * Created by julien on Thu Jan 15 23:34:13 2009
00015  */
00016
00022 #ifdef POK_NEEDS_ARINC653_SEMAPHORE
00023
00024 #include <types.h>
00025 #include <libc/string.h>
00026 #include <arinc653/types.h>
00027 #include <arinc653/semaphore.h>
00028 #include <core/semaphore.h>
00029
00030 #define CHECK_SEM_INIT if (pok_arinc653_semaphores_initialized == 0) \
00031                        { \
00032                           uint16_t bla; \
00033                           for (bla = 0 ; bla < POK_CONFIG_ARINC653_NB_SEMAPHORES ; bla++) \
00034                           {\
00035                              pok_arinc653_semaphores_layers[bla].ready = 0;\
00036                           }\
00037                        }\
00038                        pok_arinc653_semaphores_initialized = 1;
00039
00040 pok_bool_t           pok_arinc653_semaphores_initialized = 0;
00041
00042 typedef struct
00043 {
00044    pok_bool_t        ready;
00045    pok_sem_id_t      core_id;
00046 }pok_arinc653_semaphore_layer_t;
00047
00048 extern char*                           pok_arinc653_semaphores_names[POK_CONFIG_ARINC653_NB_SEMAPHORES];
00049 pok_arinc653_semaphore_layer_t         pok_arinc653_semaphores_layers[POK_CONFIG_ARINC653_NB_SEMAPHORES];
00050
00051 void CREATE_SEMAPHORE (SEMAPHORE_NAME_TYPE SEMAPHORE_NAME,
00052                        SEMAPHORE_VALUE_TYPE CURRENT_VALUE,
00053                        SEMAPHORE_VALUE_TYPE MAXIMUM_VALUE,
00054                        QUEUING_DISCIPLINE_TYPE QUEUING_DISCIPLINE,
00055                        SEMAPHORE_ID_TYPE *SEMAPHORE_ID,
00056                        RETURN_CODE_TYPE *RETURN_CODE )
00057 {
00058
00059    RETURN_CODE_TYPE  return_code_name;
00060    pok_sem_id_t      sem_id;
00061    pok_ret_t         core_ret;
00062
00063    CHECK_SEM_INIT;
00064
00065    *RETURN_CODE = INVALID_CONFIG;
00066
00067    GET_SEMAPHORE_ID (SEMAPHORE_NAME, SEMAPHORE_ID, &return_code_name);
00068
00069    if (return_code_name == INVALID_CONFIG)
00070    {
00071       *RETURN_CODE = INVALID_CONFIG;
00072       return;
00073    }
00074
00075
00076    if (*SEMAPHORE_ID > POK_CONFIG_ARINC653_NB_SEMAPHORES)
00077    {
00078       *RETURN_CODE = INVALID_CONFIG;
00079       return;
00080    }
00081
00082    if (pok_arinc653_semaphores_layers[*SEMAPHORE_ID].ready)
00083    {
00084       *RETURN_CODE = NO_ACTION;
00085       return;
00086    }
00087
00088    core_ret = pok_sem_create (&sem_id, CURRENT_VALUE, MAXIMUM_VALUE, QUEUING_DISCIPLINE);
00089
00090    if (core_ret != POK_ERRNO_OK)
00091    {
00092       *RETURN_CODE = INVALID_PARAM;
00093       return;
00094    }
00095
00096    pok_arinc653_semaphores_layers[*SEMAPHORE_ID].ready     = 1;
00097    pok_arinc653_semaphores_layers[*SEMAPHORE_ID].core_id   = sem_id;
00098
00099    *RETURN_CODE = NO_ERROR;
00100 }
00101
00102 void WAIT_SEMAPHORE (SEMAPHORE_ID_TYPE SEMAPHORE_ID,
00103                      SYSTEM_TIME_TYPE TIME_OUT,
00104                      RETURN_CODE_TYPE *RETURN_CODE )
00105 {
00106    pok_ret_t core_ret;
00107
00108    CHECK_SEM_INIT;
00109
00110    if (SEMAPHORE_ID > POK_CONFIG_ARINC653_NB_SEMAPHORES)
00111    {
00112       *RETURN_CODE = INVALID_PARAM;
00113       return;
00114    }
00115
00116    core_ret = pok_sem_wait (pok_arinc653_semaphores_layers[SEMAPHORE_ID].core_id, TIME_OUT);
00117
00118    *RETURN_CODE = INVALID_PARAM;
00119
00120    if (core_ret == POK_ERRNO_OK)
00121    {
00122       *RETURN_CODE = NO_ERROR;
00123    }
00124
00125    if (core_ret == POK_ERRNO_TIMEOUT)
00126    {
00127       *RETURN_CODE = TIMED_OUT;
00128    }
00129 }
00130
00131 void SIGNAL_SEMAPHORE (SEMAPHORE_ID_TYPE SEMAPHORE_ID,
00132                        RETURN_CODE_TYPE *RETURN_CODE )
00133 {
00134    pok_ret_t core_ret;
00135
00136    CHECK_SEM_INIT;
00137
00138    if (SEMAPHORE_ID > POK_CONFIG_ARINC653_NB_SEMAPHORES)
00139    {
00140       *RETURN_CODE = INVALID_PARAM;
00141       return;
00142    }
00143
00144    core_ret = pok_sem_signal (pok_arinc653_semaphores_layers[SEMAPHORE_ID].core_id);
00145
00146    if (core_ret == POK_ERRNO_OK)
00147    {
00148       *RETURN_CODE = NO_ERROR;
00149    }
00150    else
00151    {
00152       *RETURN_CODE = INVALID_PARAM;
00153    }
00154 }
00155
00156 void GET_SEMAPHORE_ID (SEMAPHORE_NAME_TYPE SEMAPHORE_NAME,
00157                        SEMAPHORE_ID_TYPE *SEMAPHORE_ID,
00158                        RETURN_CODE_TYPE *RETURN_CODE )
00159 {
00160    uint16_t i;
00161    uint16_t len;
00162
00163    CHECK_SEM_INIT;
00164
00165    len = strlen (SEMAPHORE_NAME);
00166
00167    *RETURN_CODE = INVALID_CONFIG;
00168
00169    for (i = 0 ; i < POK_CONFIG_ARINC653_NB_SEMAPHORES ; i++)
00170    {
00171       if (strncmp (pok_arinc653_semaphores_names[i], SEMAPHORE_NAME, len) == 0)
00172       {
00173          *SEMAPHORE_ID = i;
00174          *RETURN_CODE = NO_ERROR;
00175          break;
00176       }
00177    }
00178 }
00179
00180 void GET_SEMAPHORE_STATUS (SEMAPHORE_ID_TYPE SEMAPHORE_ID,
00181                            SEMAPHORE_STATUS_TYPE *SEMAPHORE_STATUS,
00182                            RETURN_CODE_TYPE *RETURN_CODE )
00183 {
00184    (void) SEMAPHORE_ID;
00185    (void) SEMAPHORE_STATUS;
00186
00187    CHECK_SEM_INIT;
00188
00189    *RETURN_CODE = NO_ERROR;
00190 }
00191
00192 #endif