targets/plc_main_tail.c
author Andrey Skvortsov <andrej.skvortzov@gmail.com>
Mon, 16 Jan 2017 12:15:20 +0300
changeset 1635 25e3bf6e193d
parent 1479 8f41aa88aa46
child 1800 1711339585ce
permissions -rw-r--r--
change white background for project tree element to transparent

because on GNU/Linux project tree has grey background, therefore
white background looks not good.
/**
 * Tail of code common to all C targets
 **/

/** 
 * LOGGING
 **/

#ifndef LOG_BUFFER_SIZE
#define LOG_BUFFER_SIZE (1<<14) /*16Ko*/
#endif
#ifndef LOG_BUFFER_ATTRS
#define LOG_BUFFER_ATTRS
#endif

#define LOG_BUFFER_MASK (LOG_BUFFER_SIZE-1)

static char LogBuff[LOG_LEVELS][LOG_BUFFER_SIZE] LOG_BUFFER_ATTRS;
static void inline copy_to_log(uint8_t level, uint32_t buffpos, void* buf, uint32_t size){
    if(buffpos + size < LOG_BUFFER_SIZE){
        memcpy(&LogBuff[level][buffpos], buf, size);
    }else{
        uint32_t remaining = LOG_BUFFER_SIZE - buffpos; 
        memcpy(&LogBuff[level][buffpos], buf, remaining);
        memcpy(LogBuff[level], (char*)buf + remaining, size - remaining);
    }
}
static void inline copy_from_log(uint8_t level, uint32_t buffpos, void* buf, uint32_t size){
    if(buffpos + size < LOG_BUFFER_SIZE){
        memcpy(buf, &LogBuff[level][buffpos], size);
    }else{
        uint32_t remaining = LOG_BUFFER_SIZE - buffpos; 
        memcpy(buf, &LogBuff[level][buffpos], remaining);
        memcpy((char*)buf + remaining, LogBuff[level], size - remaining);
    }
}

/* Log buffer structure

 |<-Tail1.msgsize->|<-sizeof(mTail)->|<--Tail2.msgsize-->|<-sizeof(mTail)->|...
 |  Message1 Body  |      Tail1      |   Message2 Body   |      Tail2      |

*/
typedef struct {
    uint32_t msgidx;
    uint32_t msgsize;
    unsigned long tick;
    IEC_TIME time;
} mTail;

/* Log cursor : 64b
   |63 ... 32|31 ... 0|
   | Message | Buffer |
   | counter | Index  | */
static uint64_t LogCursor[LOG_LEVELS] LOG_BUFFER_ATTRS = {0x0,0x0,0x0,0x0};

void ResetLogCount(void) {
	uint8_t level;
	for(level=0;level<LOG_LEVELS;level++){
		LogCursor[level] = 0;
	}
}

/* Store one log message of give size */
int LogMessage(uint8_t level, char* buf, uint32_t size){
    if(size < LOG_BUFFER_SIZE - sizeof(mTail)){
        uint32_t buffpos;
        uint64_t new_cursor, old_cursor;

        mTail tail;
        tail.msgsize = size;
        tail.tick = __tick;
        PLC_GetTime(&tail.time);

        /* We cannot increment both msg index and string pointer 
           in a single atomic operation but we can detect having been interrupted.
           So we can try with atomic compare and swap in a loop until operation
           succeeds non interrupted */
        do{
            old_cursor = LogCursor[level];
            buffpos = (uint32_t)old_cursor;
            tail.msgidx = (old_cursor >> 32); 
            new_cursor = ((uint64_t)(tail.msgidx + 1)<<32) 
                         | (uint64_t)((buffpos + size + sizeof(mTail)) & LOG_BUFFER_MASK);
        }while(AtomicCompareExchange64(
            (long long*)&LogCursor[level],
            (long long)old_cursor,
            (long long)new_cursor)!=(long long)old_cursor);

        copy_to_log(level, buffpos, buf, size);
        copy_to_log(level, (buffpos + size) & LOG_BUFFER_MASK, &tail, sizeof(mTail));

        return 1; /* Success */
    }else{
    	char mstr[] = "Logging error : message too big";
        LogMessage(LOG_CRITICAL, mstr, sizeof(mstr));
    }
    return 0;
}

uint32_t GetLogCount(uint8_t level){
    return (uint64_t)LogCursor[level] >> 32;
}

/* Return message size and content */
uint32_t GetLogMessage(uint8_t level, uint32_t msgidx, char* buf, uint32_t max_size, uint32_t* tick, uint32_t* tv_sec, uint32_t* tv_nsec){
    uint64_t cursor = LogCursor[level];
    if(cursor){
        /* seach cursor */
        uint32_t stailpos = (uint32_t)cursor; 
        uint32_t smsgidx;
        mTail tail;
        tail.msgidx = cursor >> 32;
        tail.msgsize = 0;

        /* Message search loop */
        do {
            smsgidx = tail.msgidx;
            stailpos = (stailpos - sizeof(mTail) - tail.msgsize ) & LOG_BUFFER_MASK;
            copy_from_log(level, stailpos, &tail, sizeof(mTail));
        }while((tail.msgidx == smsgidx - 1) && (tail.msgidx > msgidx));

        if(tail.msgidx == msgidx){
            uint32_t sbuffpos = (stailpos - tail.msgsize ) & LOG_BUFFER_MASK; 
            uint32_t totalsize = tail.msgsize;
            *tick = tail.tick; 
            *tv_sec = tail.time.tv_sec; 
            *tv_nsec = tail.time.tv_nsec; 
            copy_from_log(level, sbuffpos, buf, 
                          totalsize > max_size ? max_size : totalsize);
            return totalsize;
        }
    }
    return 0;
}

#define CALIBRATED -2
#define NOT_CALIBRATED -1
static int calibration_count = NOT_CALIBRATED;
static IEC_TIME cal_begin;
static long long Tsync = 0;
static long long FreqCorr = 0;
static int Nticks = 0;
static unsigned long last_tick = 0;

/*
 * Called on each external periodic sync event
 * make PLC tick synchronous with external sync
 * ratio defines when PLC tick occurs between two external sync
 * @param sync_align_ratio 
 *          0->100 : align ratio
 *          < 0 : no align, calibrate period
 **/
void align_tick(int sync_align_ratio)
{
	/*
	printf("align_tick(%d)\n", calibrate);
	*/
	if(sync_align_ratio < 0){ /* Calibration */
		if(calibration_count == CALIBRATED)
			/* Re-calibration*/
			calibration_count = NOT_CALIBRATED;
		if(calibration_count == NOT_CALIBRATED)
			/* Calibration start, get time*/
			PLC_GetTime(&cal_begin);
		calibration_count++;
	}else{ /* do alignment (if possible) */
		if(calibration_count >= 0){
			/* End of calibration */
			/* Get final time */
			IEC_TIME cal_end;
			PLC_GetTime(&cal_end);
			/*adjust calibration_count*/
			calibration_count++;
			/* compute mean of Tsync, over calibration period */
			Tsync = ((long long)(cal_end.tv_sec - cal_begin.tv_sec) * (long long)1000000000 +
					(cal_end.tv_nsec - cal_begin.tv_nsec)) / calibration_count;
			if( (Nticks = (Tsync / common_ticktime__)) > 0){
				FreqCorr = (Tsync % common_ticktime__); /* to be divided by Nticks */
			}else{
				FreqCorr = Tsync - (common_ticktime__ % Tsync);
			}
			/*
			printf("Tsync = %ld\n", Tsync);
			printf("calibration_count = %d\n", calibration_count);
			printf("Nticks = %d\n", Nticks);
			*/
			calibration_count = CALIBRATED;
		}
		if(calibration_count == CALIBRATED){
			/* Get Elapsed time since last PLC tick (__CURRENT_TIME) */
			IEC_TIME now;
			long long elapsed;
			long long Tcorr;
			long long PhaseCorr;
			long long PeriodicTcorr;
			PLC_GetTime(&now);
			elapsed = (now.tv_sec - __CURRENT_TIME.tv_sec) * 1000000000 + now.tv_nsec - __CURRENT_TIME.tv_nsec;
			if(Nticks > 0){
				PhaseCorr = elapsed - (common_ticktime__ + FreqCorr/Nticks)*sync_align_ratio/100; /* to be divided by Nticks */
				Tcorr = common_ticktime__ + (PhaseCorr + FreqCorr) / Nticks;
				if(Nticks < 2){
					/* When Sync source period is near Tick time */
					/* PhaseCorr may not be applied to Periodic time given to timer */
					PeriodicTcorr = common_ticktime__ + FreqCorr / Nticks;
				}else{
					PeriodicTcorr = Tcorr;
				}
			}else if(__tick > last_tick){
				last_tick = __tick;
				PhaseCorr = elapsed - (Tsync*sync_align_ratio/100);
				PeriodicTcorr = Tcorr = common_ticktime__ + PhaseCorr + FreqCorr;
			}else{
				/*PLC did not run meanwhile. Nothing to do*/
				return;
			}
			/* DO ALIGNEMENT */
			PLC_SetTimer(Tcorr - elapsed, PeriodicTcorr);
		}
	}
}