EMUFS_FSC gap_aux,gap_before,gap_after,gap_new;
char name_f_fsc[255];
EMUFS_REG_ID pos_gap_before = 0, pos_gap_after = 0;
- unsigned long source,destination,limit,file_size,reg_count = 0,cant_moved = 0;
- char found = 0;
+ unsigned long source,destination,file_size,reg_count = 0,cant_moved = 0;
strcpy(name_f_fsc,emu->nombre);
strcat(name_f_fsc, EMUFS_FSC_EXT);
/* Si no encontre gaps ni por delante ni por detras */
if ((gap_before.marker == -1) && (gap_after.marker == -1)) {
- /* Lo guardo ordenado donde deba ir */
+ /* Lo guardo en el archivo al final */
gap_new.marker = marker;
gap_new.freespace = freespace;
- /* Busco el gap que sucede a este */
- fseek(f_fsc,0,SEEK_SET);
- while (!feof(f_fsc)) {
- fread(&gap_aux,sizeof(EMUFS_FSC),1,f_fsc);
- if (gap_aux.marker > gap_new.marker) {
- found = 1;
- break;
- }
- }
- if (found == 1) {
- /* Movemos todos los gaps desde el sucesor hasta el final, una pos adelante */
- limit = ftell(f_fsc) - sizeof(EMUFS_FSC);
- fseek(f_fsc,0,SEEK_END);
- reg_count = (ftell(f_fsc) - limit) / sizeof(EMUFS_FSC);
- source = ftell(f_fsc) - sizeof(EMUFS_FSC);
-
- while (cant_moved < reg_count)
- {
- fseek(f_fsc,source,SEEK_SET);
- fread(&gap_aux,sizeof(EMUFS_FSC),1,f_fsc);
- fwrite(&gap_aux,sizeof(EMUFS_FSC),1,f_fsc);
- source -= sizeof(EMUFS_FSC);
- ++cant_moved;
- }
- /* Agrego el nuevo registro */
- fseek(f_fsc,limit,SEEK_SET);
- fwrite(&gap_new,sizeof(EMUFS_FSC),1,f_fsc);
- }
- else {
- fseek(f_fsc,0,SEEK_END);
- fwrite(&gap_new,sizeof(EMUFS_FSC),1,f_fsc);
- }
-
+ fseek(f_fsc,0,SEEK_END);
+ fwrite(&gap_new,sizeof(EMUFS_FSC),1,f_fsc);
fclose(f_fsc);
}
strcpy(name_f_fsc,emu->nombre);
strcat(name_f_fsc, EMUFS_FSC_EXT);
+ *min = ULONG_MAX;
+ *max = 0;
if ( (f_fsc = fopen(name_f_fsc,"r"))==NULL ) return -1;
-
- /* Si el file esta vacio, devuelvo valores nulos */
- fseek(f_fsc,0,SEEK_END);
- if (ftell(f_fsc) == 0) {
- *min = 0;
- *max = 0;
- return 0;
- }
- else
- {
- /* Busco Min y Max */
- *min = ULONG_MAX;
- *max = 0;
- fseek(f_fsc,0,SEEK_SET);
- while ( !feof(f_fsc) ){
- if ( fread(®, sizeof(EMUFS_FSC), 1, f_fsc) != 1) continue;
- if ( reg.freespace < *min )
- *min = reg.freespace;
- if ( reg.freespace > *max )
- *max = reg.freespace;
- }
- fclose(f_fsc);
- return 0;
+
+ while ( !feof(f_fsc) ){
+ fread(®, sizeof(EMUFS_FSC), 1, f_fsc);
+ if ( reg.freespace < *min )
+ *min = reg.freespace;
+ if ( reg.freespace > *max )
+ *max = reg.freespace;
}
+
+ fclose(f_fsc);
+ return 0;
}
EMUFS_FREE emufs_fsc_get_media_fs(EMUFS *emu)
if ( (f_fsc = fopen(name_f_fsc,"r"))==NULL ) return -1;
while ( !feof(f_fsc) ){
- if ( fread(®, sizeof(EMUFS_FSC), 1, f_fsc) != 1) continue;
+ fread(®, sizeof(EMUFS_FSC), 1, f_fsc);
total_fs += reg.freespace;
++gap_count;
}
fclose(f_fsc);
+ return total_fs/gap_count;
+}
+
+int emufs_fsc_get_cant_bloques_vacios(EMUFS *emu)
+{
+ FILE *f_fsc;
+ EMUFS_FSC reg;
+ char name_f_fsc[255];
+ int cant=0;
- if (gap_count > 0) return total_fs/gap_count;
- else return 0;
+ strcpy(name_f_fsc,emu->nombre);
+ strcat(name_f_fsc, EMUFS_FSC_EXT);
+
+ if ( (f_fsc = fopen(name_f_fsc,"r"))==NULL ) return -1;
+ while ( !feof(f_fsc) ){
+ fread(®, sizeof(EMUFS_FSC), 1, f_fsc);
+ if ( reg.freespace == emu->tam_bloque )
+ cant++;
+ }
+
+ fclose(f_fsc);
+ return cant;
+}
+
+int emufs_fsc_truncate(EMUFS* efs, EMUFS_BLOCK_ID blocks)
+{
+ char name_f_fsc[255];
+
+ strcpy(name_f_fsc, efs->nombre);
+ strcat(name_f_fsc, EMUFS_FSC_EXT);
+ return truncate(name_f_fsc, blocks * sizeof(EMUFS_FSC));
}