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#include <zmq.h>
#include <assert.h>
#include <libgen.h>
#include <unistd.h>
#include <sys/stat.h>
#include <signal.h>
#include "utils.h"
#ifndef LOGGERS_DELAY
#define LOGGERS_DELAY 0
#endif
// Global:
char *__client;
char *__ip;
int __port;
char __logdir[STATIC_LEN];
char __regpower[STATIC_LEN];
int __loginterval;
unsigned char __stop=0;
void *__zmq_context;
void *__zmq_publisher;
void sighandler(int signo){
if (signo == SIGINT){
printf("Stopping...\n");
__stop=1;
}
}
void publish(int queue_id);
typedef struct record {
time_t secs;
long nsecs;
uint16_t power;
} record;
typedef struct queue {
int length;
record records[RECORD_MAX];
} queue;
queue queues[RECORD_QUEUES];
int main (int argc, char *argv [])
{
if(argc != 6){
printf("Usage: %s <abslogdir> <client> <loginterval> <ip> <port>",argv[0]);
exit(1);
}
//----- Init global variables
__client=argv[2];
__loginterval=atoi(argv[3]);
__ip=argv[4];
__port=atoi(argv[5]);
// __logdir:
strcat(__logdir,argv[1]);
strcat(__logdir,"/");
strcat(__logdir,__client);
// __regpower:
strcat(__regpower,INA260_SYSFS);
strcat(__regpower,"/");
strcat(__regpower,__client);
strcat(__regpower,"/");
strcat(__regpower,INA260_POWER_REGISTER);
//----- Sanity checks
signal(SIGINT,sighandler);
mkdirp(__logdir);
if(__loginterval<MIN_INTERVAL){
printf("Log interval is too small (min=%ds)\n",MIN_INTERVAL);
exit(2);
}
if(FILE_EXISTS(__regpower)){
printf("Logger cannot access to %s\n",__regpower);
exit(3);
}
//----- Prepare our context and publisher
__zmq_context = zmq_ctx_new ();
__zmq_publisher = zmq_socket (__zmq_context, ZMQ_PUB);
char bindto[STATIC_LEN];
sprintf(bindto,"tcp://%s:%d",__ip,__port);
int rc = zmq_connect (__zmq_publisher, bindto);
if(rc!=0){
printf("Failed to connect to %s\n",bindto);
exit(1);
}
//----- Start logging
printf("Logger started [client=%s,interval=%ds]\n",__client,__loginterval);
FILE *regptr,*logptr;
char logfilepath[STATIC_LEN]="";
regptr=fopen("/home/loic/out.txt","r");
char buffer[STATIC_LEN];
int power;
time_t interval;
struct timespec power_ts;
int queue_id=0;
while(!__stop){
interval=INTERVAL(__loginterval);
// Log current interval
queue_id=queue_id>=RECORD_QUEUES ? 0 : queue_id+1;
int record=0;
while((TIMESTAMP()-interval)<__loginterval){
if(__stop)
break;
if(record < RECORD_MAX){
// Read power:
fgets(buffer,STATIC_LEN,regptr);
// Get power measurement timestamp:
clock_gettime(CLOCK_REALTIME,&power_ts);
queues[queue_id].records[record].secs=power_ts.tv_sec;
queues[queue_id].records[record].nsecs=power_ts.tv_nsec;
queues[queue_id].records[record].power=atoi(buffer);
// Reset power register file:
fseek(regptr,0,SEEK_SET);
#if LOGGERS_DELAY > 0
usleep(LOGGERS_DELAY*1000);
#endif
printf("Tick\n"); fflush(stdout);
record++;
} else {
printf("Queue overflow, RECORD_MAX must be increase!! n=%d\n",record);
}
}
queues[queue_id].length=record;
publish(queue_id);
}
fclose(regptr);
zmq_close (__zmq_publisher);
zmq_ctx_destroy (__zmq_context);
return 0;
}
void publish(int queue_id){
for(int i=0;i<queues[queue_id].length;i++){
printf("%d,%ld,%d\n",queues[queue_id].records[i].secs,queues[queue_id].records[i].nsecs,queues[queue_id].records[i].power);
fflush(stdout);
}
}
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