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realtime.c
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realtime.c
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/* vim:set expandtab! ts=4: */
#include "eeprom.h"
#include <time.h>
#include <unistd.h>
#include "record.h"
#define BUFSIZE 32768
void print_usage() {
fprintf(stderr, "Usage: realtime\n");
exit(EXIT_FAILURE);
}
int main(int argc, char *argv[]) {
unsigned char data[BUFSIZE];
int sensors;
int block_size = 0;
int data_offset = 0x64;
int start_adr;
int record_interval;
int skip, skip_offset;
int sequential = 0;
Record r;
Record rnext;
time_t t;
struct tm *tm;
memset(data, 0xAA, BUFSIZE);
if (argc != 1) {
print_usage();
}
// need root for (timing) portio
if (geteuid() != 0) {
fprintf(stderr, "E: this program needs root privileges to do direct port I/O.\n");
exit(EXIT_FAILURE);
}
t = time(NULL);
tm = localtime(&t);
if (tm == NULL) {
perror("localtime");
exit(EXIT_FAILURE);
}
// Setup serial port
open_weatherstation();
// read config
nanodelay();
eeprom_seek(0);
eeprom_read(data, data_offset);
// config check
sensors = data[0x0C];
sensors++;
if (sensors == 4 || sensors == 5) block_size = 15;
if (sensors == 6) block_size = 20;
printf("Using sensors=%d\n", sensors);
if (block_size == 0) {
fprintf(stderr,"E: dont understand this format, found sensors=%d\n", sensors);
exit(EXIT_FAILURE);
}
printf("Saved time: %02X:%02X \n", data[1], data[0]);
/* data 2-5 seem to be the date */
skip = ((data[0xA] & 0x0F) * 100) + ((data[0x09]>>4) * 10) + (data[0x09] & 0x0F);
printf("RecordCount: %d (other interesting shid: %02X %02X )\n", skip, data[0x0B], data[0x0A] & 0xF0);
printf("Scanning for two connected records\n");
start_adr = data_offset;
while(start_adr < (data_offset + block_size*50)) {
int read_len = (2*block_size);
eeprom_seek(start_adr);
eeprom_read(data + start_adr, read_len);
record_parse(data+data_offset, &r, sensors);
record_parse(data+data_offset+block_size, &rnext, sensors);
record_interval = rnext.time_m - r.time_m;
if (record_interval > 0 && record_interval < 30) {
break;
}
record_interval = -1;
start_adr += read_len;
}
if (record_interval == -1) {
fprintf(stderr,"E: can't discover recording interval\n");
exit(EXIT_FAILURE);
}
printf("%02d.%02d.20%02d %02d:%02d \n", r.date_d, r.date_m, r.date_y, r.time_h, r.time_m);
printf("%02d.%02d.20%02d %02d:%02d \n", rnext.date_d, rnext.date_m, rnext.date_y, rnext.time_h, rnext.time_m);
printf("Recording interval: %d\n", record_interval);
skip = 0;
if (tm->tm_year-(2000+r.date_y) > 1 || tm->tm_mon-r.date_m > 1) {
// too far in the future
sequential = 1;
}
if (tm->tm_hour-r.time_h > 1) {
skip += (tm->tm_hour-r.time_h)*60/record_interval;
printf("hours off: %d\n", (tm->tm_hour-r.time_h));
skip += (tm->tm_min-r.time_m)/record_interval;
}
if (tm->tm_hour-r.time_h == 0 && tm->tm_min-r.time_m > (2*record_interval)) {
printf("only correcting minutes\n");
skip += (tm->tm_min-r.time_m)/record_interval;
}
skip -= 5;
printf("skip=%d, seq=%d\n", skip, sequential);
if (skip > 1100 || skip < 0) {
sequential = 1;
}
if (sequential == 1) {
printf("Falling back to sequential read.\n");
printf("not implemented ;)\n");
} else {
printf("Jumping to record %d\n", skip);
// now read from guessed record position
skip_offset = data_offset + skip*block_size;
eeprom_seek(skip_offset);
eeprom_read(data+skip_offset, block_size*2);
record_parse(data+skip_offset, &r, sensors);
printf("%02d.%02d.20%02d %02d:%02d ",
r.date_d, r.date_m, r.date_y, r.time_h, r.time_m);
printf("\n");
}
close_weatherstation();
return(0);
}