FreeCalypso > hg > freecalypso-sw
view gsm-fw/gpf/osl/os_tim_fl.c @ 979:ebdf5afa9fb5
fc-tmsh: omr responses parsed and formatted in a readable manner
author | Mychaela Falconia <falcon@ivan.Harhan.ORG> |
---|---|
date | Thu, 10 Dec 2015 04:28:19 +0000 |
parents | 9d80090a9e0c |
children |
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/* * This C module is a reconstruction based on the disassembly of * os_tim.obj in frame_na7_db_fl.lib from the Leonardo package, * subsequently reworked by Space Falcon. */ /* set of included headers from COFF symtab: */ #include <stdio.h> #include "gpfconf.h" /* FreeCalypso addition */ #include "../../nucleus/nucleus.h" #include "typedefs.h" #include "os.h" #include "gdi.h" #include "os_types.h" #include "os_glob.h" extern UNSIGNED TMD_Timer; extern INT TMD_Timer_State; extern T_OS_TIMER_ENTRY TimerTable[]; extern T_OS_TIMER_TABLE_ENTRY *p_list[]; extern void os_Timeout(UNSIGNED t_handle); extern void timer_error(int err); unsigned os_time_to_tick_multiplier = TIME_TO_TICK_TDMA_FRAME_MULTIPLIER; unsigned os_tick_to_time_multiplier = TICK_TO_TIME_TDMA_FRAME_MULTIPLIER; unsigned volatile t_start_ticks; T_OS_TIMER_TABLE_ENTRY *t_running; int used_timers; int next_t_handle; int volatile t_list_access; int max_used_timers; NU_SEMAPHORE TimSemCB; NU_TIMER os_timer_cb; #define BARRIER asm volatile ("": : :"memory") GLOBAL LONG os_set_tick(int os_system_tick) { switch (os_system_tick) { case SYSTEM_TICK_TDMA_FRAME: os_time_to_tick_multiplier = TIME_TO_TICK_TDMA_FRAME_MULTIPLIER; os_tick_to_time_multiplier = TICK_TO_TIME_TDMA_FRAME_MULTIPLIER; return(OS_OK); case SYSTEM_TICK_10_MS: os_time_to_tick_multiplier = TIME_TO_TICK_10MS_MULTIPLIER; os_tick_to_time_multiplier = TICK_TO_TIME_10MS_MULTIPLIER; return(OS_OK); default: return(OS_ERROR); } } GLOBAL LONG os_TimerInformation(USHORT Index, char *Buffer) { static int t_info_read; if (t_info_read) { t_info_read = 0; return(OS_ERROR); } sprintf(Buffer, "Maximum %d of %d available timers running", max_used_timers, MaxSimultaneousTimer); t_info_read = 1; return(OS_OK); } GLOBAL LONG os_TimInit(void) { int i; if (NU_Create_Semaphore(&TimSemCB, "TIMSEM", 1, NU_PRIORITY) != NU_SUCCESS) return(OS_ERROR); if (NU_Create_Timer(&os_timer_cb, "OS_TIMER", os_Timeout, 0, 1, 0, NU_DISABLE_TIMER) != NU_SUCCESS) return(OS_ERROR); used_timers = 0; max_used_timers = 0; next_t_handle = 1; t_list_access = 0; t_start_ticks = 0; p_list[0] = 0; for (i = 1; i < MaxSimultaneousTimer; i++) { TimerTable[i].entry.status = TMR_FREE; TimerTable[i].entry.next = 0; TimerTable[i].entry.prev = 0; TimerTable[i].next_t_handle = i + 1; p_list[i] = 0; } TimerTable[MaxSimultaneousTimer].entry.status = TMR_FREE; TimerTable[MaxSimultaneousTimer].next_t_handle = 0; t_running = 0; return(OS_OK); } GLOBAL LONG os_RecoverTick(OS_TICK ticks) { UNSIGNED current_system_clock; current_system_clock = NU_Retrieve_Clock(); NU_Set_Clock(current_system_clock + ticks); if (TMD_Timer_State == TM_ACTIVE) { if (TMD_Timer <= ticks) { TMD_Timer_State = TM_EXPIRED; TMD_Timer = 0; } else TMD_Timer -= ticks; } return(OS_OK); } GLOBAL LONG os_QueryTimer(OS_HANDLE TaskHandle, OS_HANDLE TimerHandle, OS_TIME *RemainingTime) { T_OS_TIMER_TABLE_ENTRY *timer, *t_iter; OS_TICK c_ticks, r_ticks, e_ticks; STATUS sts; if (TimerHandle > MaxSimultaneousTimer) return(OS_ERROR); sts = NU_Obtain_Semaphore(&TimSemCB, NU_SUSPEND); timer = &TimerTable[TimerHandle].entry; if (timer->status == TMR_FREE) { if (sts == NU_SUCCESS) NU_Release_Semaphore(&TimSemCB); return(OS_ERROR); } t_list_access = 1; BARRIER; if (!t_running) { r_ticks = 0; goto out; } c_ticks = NU_Retrieve_Clock(); e_ticks = c_ticks - t_start_ticks; t_iter = t_running; if (t_iter->r_ticks >= e_ticks) r_ticks = t_iter->r_ticks - e_ticks; else r_ticks = 0; while (t_iter != timer) { t_iter = t_iter->next; if (t_iter == t_running) { r_ticks = 0; goto out; } r_ticks += t_iter->r_ticks; } out: BARRIER; t_list_access = 0; if (sts == NU_SUCCESS) NU_Release_Semaphore(&TimSemCB); *RemainingTime = SYSTEM_TICKS_TO_TIME(r_ticks); return(OS_OK); } GLOBAL LONG os_InactivityTicks(int *next_event, OS_TICK *next_event_ticks) { *next_event = 1; switch (TMD_Timer_State) { case TM_ACTIVE: *next_event_ticks = TMD_Timer; return(OS_OK); case TM_NOT_ACTIVE: *next_event_ticks = 0; *next_event = 0; return(OS_OK); default: *next_event_ticks = 0; return(OS_OK); } }