Start/restart behavior, more of relevant status output

src/camogm.c

@@ -363,9 +363,14 @@ int camogm_start(camogm_state *state, bool restart)
 			D1(syslog (LOG_INFO,    "Starting raw data recording, marked %s", get_state_path(state)));
 			next_state_path(state); // increment path so next time will use different one.
 		} else {
-			D1(fprintf(debug_file, "Re-starting raw data recording, using the same state file, text will be %s, state->path='%s'\n", get_state_path(state), state->path));
+			if (state->prog_state == STATE_STARTING) {
+				D1(fprintf(debug_file, "Continue starting, state->path='%s'\n", state->path));
+				D1(syslog (LOG_INFO,   "Continue starting, state->path='%s'\n", state->path));
+			} else {
+				D1(fprintf(debug_file, "Re-starting raw data recording, using the same state file, next will be %s, state->path='%s'\n", get_state_path(state), state->path));
 				D1(syslog (LOG_INFO,   "Re-starting raw data recording, next will be %s", get_state_path(state)));
 			}
+		}
 	} else {
 		D1(fprintf(debug_file, "Starting file system recording to %s\n", state->path));
 		D1(syslog (LOG_INFO, "Starting file system recording to %s", state->path));
@@ -375,10 +380,11 @@ int camogm_start(camogm_state *state, bool restart)
 	state->frameno = 0;
 
 	// do not trigger overrun alert on successfull (from GUI) restarts
+#if ERRORS_FROM_START == 0
 	if (state->prog_state != STATE_RESTARTING)
 		for (int p = 0; p < SENSOR_PORTS; p++)
 			state->buf_overruns[p] = -1;
-
+#endif
 	state->timescale = state->set_timescale; // current timescale, default 1
 // debug
 	int * ifp =      (int*)&(state->frame_params[port]);
@@ -431,12 +437,36 @@ int camogm_start(camogm_state *state, bool restart)
 				if (!state->ignore_fps) {                                                                               // don't even try in ignore mode
 					if (((fp = lseek(state->fd_circ[chn], LSEEK_CIRC_PREV, SEEK_END))) >= 0) state->cirbuf_rp[chn] = fp;//try to have 2 frames available for fps
 				}
+#if ERRORS_FROM_START == 0
 				state->buf_overruns[chn]++;
 				// file pointer here should match state->rp; so no need to do    lseek(state->fd_circ,state->cirbuf_rp,SEEK_SET);
 				state->buf_min[chn] = getGPValue(chn, G_FREECIRCBUF);
+#endif
 			} else {
-				if (state->buf_min[chn] > getGPValue(chn, G_FREECIRCBUF)) state->buf_min[chn] = getGPValue(chn, G_FREECIRCBUF);
+#if ERRORS_FROM_START == 0
+				if (state->buf_min[chn] > getGPValue(chn, G_FREECIRCBUF)) {
+					state->buf_min[chn] = getGPValue(chn, G_FREECIRCBUF);
+				}
+#endif
+			}
+#if ERRORS_FROM_START
+			if (!restart) { // only reset errors and minimal buffer size during slient-initiated start (not after buffer overrun)
+				state->buf_mmin = state->circ_buff_size[0] - MIN_USED_SIZE;;
+				FOR_EACH_PORT(int, chn) {
+					state->buf_overruns[chn] = 0;
+					state->buf_min[chn] = state->circ_buff_size[chn] - MIN_USED_SIZE;
+					if (state->buf_min[chn] < state->buf_mmin){ // will never happed with the same buffers
+						state->buf_mmin = state->buf_min[chn];
+					}
+				}
+				state->last_error_code = 0;                             // Reset error
+				state->error_restarts = 0;
+			} else { // restart only after buffer overrun
+				if (state->prog_state != STATE_STARTING) { // during STATE_STARTING it continuously gets here if
+					state->error_restarts ++;
 				}
+			}
+#endif
 			D3(fprintf(debug_file, "3: state->cirbuf_rp=0x%x\n", state->cirbuf_rp[chn]));
 			D3(fprintf(debug_file, "4:lseek(state->fd_circ,LSEEK_CIRC_READY,SEEK_END)=0x%x\n",\
 					(int)lseek(state->fd_circ[chn], LSEEK_CIRC_READY, SEEK_END)));
@@ -1160,14 +1190,15 @@ void  camogm_status(camogm_state *state, char * fn, int xml)
 	int _dur = 0, _udur = 0, _dur_raw, _udur_raw;
 	FILE* f;
 	char *_state, *_output_format, *_using_exif, *_using_global_pointer, *_compressor_state[SENSOR_PORTS];
-	int _b_free[SENSOR_PORTS], _b_used[SENSOR_PORTS], _b_size[SENSOR_PORTS];
+//	int _b_free[SENSOR_PORTS], _b_used[SENSOR_PORTS], _b_size[SENSOR_PORTS];
+	int _b_size[SENSOR_PORTS];
 	int _frames_remain[SENSOR_PORTS] = {0};
 	int _sec_remain[SENSOR_PORTS] = {0};
 	int _frames_skip = 0;
 	int _sec_skip = 0;
 	char *_kml_enable, *_kml_used, *_kml_height_mode;
 	unsigned int _percent_done;
-	off_t save_p;
+//	off_t save_p;
 
 	_kml_enable =      state->kml_enable ? "yes" : "no";
 	_kml_used =        state->kml_used ? "yes" : "no";
@@ -1175,11 +1206,11 @@ void  camogm_status(camogm_state *state, char * fn, int xml)
 
 	for (int chn = 0; chn < SENSOR_PORTS; chn++) {
 		_b_size[chn] = getGPValue(chn, G_FRAME_SIZE);
-		save_p = lseek(state->fd_circ[chn], 0, SEEK_CUR);
-		_b_free[chn] = lseek(state->fd_circ[chn], LSEEK_CIRC_FREE, SEEK_END);
-		lseek(state->fd_circ[chn], save_p, SEEK_SET);
-		_b_used[chn] = lseek(state->fd_circ[chn], LSEEK_CIRC_USED, SEEK_END);
-		lseek(state->fd_circ[chn], save_p, SEEK_SET);
+//		save_p = lseek(state->fd_circ[chn], 0, SEEK_CUR);
+//		_b_free[chn] = lseek(state->fd_circ[chn], LSEEK_CIRC_FREE, SEEK_END);
+//		lseek(state->fd_circ[chn], save_p, SEEK_SET);
+//		_b_used[chn] = lseek(state->fd_circ[chn], LSEEK_CIRC_USED, SEEK_END);
+//		lseek(state->fd_circ[chn], save_p, SEEK_SET);
 		_compressor_state[chn] = (getGPValue(chn, P_COMPRESSOR_RUN) == 2) ? "running" : "stopped";
 		if (state->frames_skip > 0)
 			_frames_remain[chn] = state->frames_skip_left[chn];
@@ -1252,6 +1283,8 @@ void  camogm_status(camogm_state *state, char * fn, int xml)
 		fprintf(f, "<?xml version=\"1.0\"?>\n" \
 			"<camogm_state>\n" \
 			"  <state>\"%s\"</state>\n" \
+			"  <buf_mfree>\"%d\"</buf_mfree>\n" \
+			"  <buf_mmin>\"%d\"</buf_mmin>\n" \
 			"  <file_name>\"%s\"</file_name>\n" \
 			"  <frame_number>%d</frame_number>\n" \
 			"  <start_after_timestamp>%f</start_after_timestamp>\n"	\
@@ -1270,6 +1303,7 @@ void  camogm_status(camogm_state *state, char * fn, int xml)
 			"  <timescale>%f</timescale>\n"	\
 			"  <frames_per_chunk>%d</frames_per_chunk>\n" \
 			"  <last_error_code>%d</last_error_code>\n" \
+			"  <error_restarts>%d</error_restarts>\n" \
 			"  <debug_output>\"%s\"</debug_output>\n" \
 			"  <debug_level>%d</debug_level>\n" \
 			"  <use_global_rp>\"%s\"</use_global_rp>\n" \
@@ -1292,11 +1326,11 @@ void  camogm_status(camogm_state *state, char * fn, int xml)
 			"  <lba_start>%llu</lba_start>\n" \
 			"  <lba_current>%llu</lba_current>\n" \
 			"  <lba_end>%llu</lba_end>\n",
-			_state,  state->path, state->frameno, state->start_after_timestamp, _dur, _udur, _len, \
+			_state, state->buf_mfree, state->buf_mmin, state->path, state->frameno, state->start_after_timestamp, _dur, _udur, _len, \
 			_frames_skip, _sec_skip, \
 			state->width, state->height, _output_format, _using_exif, \
 			state->path_prefix, state->segment_duration, state->segment_length, state->max_frames, state->timescale, \
-			state->frames_per_chunk,  state->last_error_code, \
+			state->frames_per_chunk,  state->last_error_code, state->error_restarts, \
 			state->debug_name, debug_level, _using_global_pointer, \
 			_kml_enable, _kml_used, state->kml_path, state->kml_horHalfFov, state->kml_vertHalfFov, state->kml_near, \
 			_kml_height_mode, state->kml_height, state->kml_period, state->kml_last_ts, state->kml_last_uts, \
@@ -1328,8 +1362,8 @@ void  camogm_status(camogm_state *state, char * fn, int xml)
 				state->buf_overruns[chn],
 				state->buf_min[chn],
 				state->frame_period[chn],
-				_b_free[chn],
-				_b_used[chn],
+				state->buf_free[chn], // _b_free[chn],
+				state->circ_buff_size[chn] - state->buf_free[chn], // _b_used[chn],
 				state->cirbuf_rp[chn]
 				);
 			camogm_err_stat(state, chn, f, true);
@@ -1338,6 +1372,8 @@ void  camogm_status(camogm_state *state, char * fn, int xml)
 		fprintf(f, "</camogm_state>\n");
 	} else {
 		fprintf(f, "state              \t%s\n",        _state);
+		fprintf(f, "buf_mfree          \t%d\n",        state->buf_mfree); // minimal of all ports
+		fprintf(f, "buf_mmin           \t%d\n",        state->buf_mmin); // minimal of all ports
 		fprintf(f, "file               \t%s\n",        state->path);
 		fprintf(f, "frame              \t%d\n",        state->frameno);
 		fprintf(f, "start_after_timestamp \t%f\n",     state->start_after_timestamp);
@@ -1363,6 +1399,7 @@ void  camogm_status(camogm_state *state, char * fn, int xml)
 		fprintf(f, "ignore fps         \t%s\n",        state->ignore_fps ? "yes" : "no");
 		fprintf(f, "\n");
 		fprintf(f, "last error code    \t%d\n",        state->last_error_code);
+		fprintf(f, "error_restarts     \t%d\n",        state->error_restarts);
 		fprintf(f, "\n");
 		fprintf(f, "debug output to    \t%s\n",        state->debug_name);
 		fprintf(f, "debug level        \t%d\n",        debug_level);
@@ -1396,17 +1433,20 @@ void  camogm_status(camogm_state *state, char * fn, int xml)
 			fprintf(f, "buffer overruns    \t%d\n",    state->buf_overruns[chn]);
 			fprintf(f, "buffer minimal     \t%d\n",    state->buf_min[chn]);
 			fprintf(f, "frame period       \t%d (0x%x)\n", state->frame_period[chn], state->frame_period[chn]);
-			fprintf(f, "buffer free        \t%d\n",    _b_free[chn]);
-			fprintf(f, "buffer used        \t%d\n",    _b_used[chn]);
+			fprintf(f, "buffer free        \t%d\n",    state->buf_free[chn]); // _b_free[chn]);
+			fprintf(f, "buffer used        \t%d\n",    state->circ_buff_size[chn] - state->buf_free[chn]); //_b_used[chn]);
 			fprintf(f, "circbuf_rp         \t%d (0x%x)\n", state->cirbuf_rp[chn], state->cirbuf_rp[chn]);
 			camogm_err_stat(state, chn, f, false);
 			fprintf(f, "\n");
 		}
 	}
+
 	if ((f != stdout) && (f != stderr)) fclose(f);
+#if ERRORS_FROM_START == 0
 	FOR_EACH_PORT(int, chn) {if (state->buf_overruns[chn] >= 0) state->buf_overruns[chn] = 0;}  // resets overruns after reading status , so "overruns" means since last reading status
 	state->last_error_code = 0;                             // Reset error
 	FOR_EACH_PORT(int, chn) {state->buf_min[chn] = _b_free[chn];}
+#endif
 }
 
 /**
@@ -1877,7 +1917,8 @@ int listener_loop(camogm_state *state)
 			case  CAMOGM_FRAME_INVALID:     // invalid frame pointer
 			case  CAMOGM_FRAME_BROKEN:      // frame broken (buffer overrun)
 				// restart the file
-				D0(fprintf(debug_file,"%s:line %d - sendImageFrame() returned -%d\n", __FILE__, __LINE__, rslt));
+				D0(fprintf(debug_file,"%s:line %d - *** sendImageFrame() returned -%d, restarting\n", __FILE__, __LINE__, rslt));
+				D0(syslog (LOG_INFO,"%s:line %d - *** sendImageFrame() returned -%d, restarting", __FILE__, __LINE__, rslt));
 				camogm_stop(state);
 				state->prog_state = STATE_RESTARTING;
 				D6(fprintf(debug_file, "camogm_start() from %s:%d: @ %07d\n", \
@@ -1920,7 +1961,6 @@ int listener_loop(camogm_state *state)
 //next_segment_pos
 			}
 		} else if (state->prog_state == STATE_STARTING) { // no commands in queue,starting (but not started yet)
-
 			// retry starting
 			D2(fprintf(debug_file, "camogm_start() from %s:%d: @ %07d\n", __FILE__, __LINE__,get_fpga_usec(state->fd_fparmsall[0], 0)));
 			switch ((rslt = -camogm_start(state, true))) {
@@ -2213,20 +2253,32 @@ unsigned int select_port(camogm_state *state)
 								port,state->cirbuf_rp[port]); for (i=0; i< 16; i++) { \
 							fprintf(debug_file," 0x%08lx", ((unsigned long* )&ccam_dma_buf[port][dbg_meta >> 2])[i]); \
 						if ((i & 7) == 7) fprintf(debug_file,"\n");	});
-
+#if ERRORS_FROM_START
+						state ->buf_overruns[port]++;
+#endif
 						chn = -1; // port;
 						break;
 
 					}
 					D6(fprintf(debug_file, "port %i = %li, ", port, free_sz));
 				}
-				if ((free_sz < min_sz && free_sz >= 0) || min_sz == -1) {
+#if ERRORS_FROM_START
+				if (free_sz >= 0) {
+					state-> buf_free[port] = free_sz;
+					if (free_sz < state-> buf_min[port]){
+						state-> buf_min[port] = free_sz;
+					}
+				}
+#endif
+				if (((free_sz < min_sz) && (free_sz >= 0)) || min_sz == -1) {
 					if (free_sz < CAMOGM_MIN_BUF_FRAMES * state->image_size[port]) {
 						if ((state->prog_state == STATE_STARTING) || (state->prog_state == STATE_RUNNING)) {
 							D1(fprintf(debug_file, "port %i has too little free space (%ld <CAMOGM_MIN_BUF_FRAMES * %d), considered BROKEN, state=%d\n", \
 									port, free_sz, state->image_size[port], state->prog_state));
-
 						}
+#if ERRORS_FROM_START
+						state ->buf_overruns[port]++;
+#endif
 						chn = -1; // port;
 						break;
 					}
@@ -2248,6 +2300,10 @@ unsigned int select_port(camogm_state *state)
 		}
 	}
 	if ((state->prog_state == STATE_STARTING) || (state->prog_state == STATE_RUNNING)) {
+		state->buf_mfree = min_sz;
+		if (state->buf_mfree < state->buf_mmin){
+			state->buf_mmin = state->buf_mfree;
+		}
 #ifdef MIN_USED_SIZE
 		D1(if ((chn >=0) && (lseek(state->fd_circ[chn], LSEEK_CIRC_READY, SEEK_END) >= 0) && \
 				(lseek(state->fd_circ[chn], LSEEK_CIRC_USED, SEEK_END) >= MIN_USED_SIZE)) {\

src/camogm.h

@@ -35,6 +35,7 @@
 #define NUM_NEED_NEMPTY           (NUM_WRITER_THREADS + 0) // wake up main thread if there are at least this number of empty pages
 #define NUM_FREE_MANY             (NUM_WRITER_THREADS + 1) // Set many if get_num_empty() < NUM_FREE_MANY
 
+#define ERRORS_FROM_START         1        ///< Reset errors only when starting recording, not after reading status
 //#define NODEBUG
 #define CAMOGM_FRAME_NOT_READY    1        ///< frame pointer valid, but not yet acquired
 #define CAMOGM_FRAME_INVALID      2        ///< invalid frame pointer
@@ -172,7 +173,7 @@ enum state_flags {
 	STATE_STARTING,
 	STATE_RUNNING,
 	STATE_READING,
-	STATE_RESTARTING,
+	STATE_RESTARTING, // after errors, until started
 	STATE_CANCEL
 };
 
@@ -337,6 +338,10 @@ typedef struct {
 	int data_segments;                                      ///< the number of segments in frame
 	int buf_overruns[SENSOR_PORTS];
 	int buf_min[SENSOR_PORTS];
+	int buf_free[SENSOR_PORTS];                             ///< free buffer size last measured, per port
+	int buf_mfree;                                          ///< free buffer size - minimal for all ports
+	int buf_mmin;                                           ///< minimum of buf_min[port]
+	int error_restarts;                                     ///< number of restarts due to errors;
 	int set_frames_skip;                                    ///< will be copied to frames_skip if stopped or at start
 	int frames_skip;                                        ///< number of frames to skip after the one recorded (for time lapse)
 	                                                        ///< if negative - -(interval between frames in seconds)