}
-static atomic64_t sys_read_byte;
-static atomic64_t sys_write_byte;
+static atomic64_t bytes_read;
+static atomic64_t bytes_written;
static struct cpus_time ct_idle;
static struct cpus_time ct_system;
{
u64 time;
- atomic64_set(&sys_read_byte, 0);
- atomic64_set(&sys_write_byte, 0);
+ atomic64_set(&bytes_read, 0);
+ atomic64_set(&bytes_written, 0);
time = get_ntime();
cpus_time_init(&ct_idle, time);
static void uninit_data_energy(void)
{
- atomic64_set(&sys_read_byte, 0);
- atomic64_set(&sys_write_byte, 0);
+ atomic64_set(&bytes_read, 0);
+ atomic64_set(&bytes_written, 0);
cpus_time_init(&ct_idle, 0);
cpus_time_init(&ct_system, 0);
struct cpus_time ct;
/* for sys_read */
- atomic64_t sys_read_byte;
+ atomic64_t bytes_read;
/*for sys_write */
- atomic64_t sys_write_byte;
+ atomic64_t bytes_written;
};
ed = kmalloc(sizeof(*ed), GFP_ATOMIC);
if (ed) {
cpus_time_init(&ed->ct, get_ntime());
- atomic64_set(&ed->sys_read_byte, 0);
- atomic64_set(&ed->sys_write_byte, 0);
+ atomic64_set(&ed->bytes_read, 0);
+ atomic64_set(&ed->bytes_written, 0);
}
return (void *)ed;
ed = get_energy_data(current);
if (ed)
- atomic64_add(ret, &ed->sys_read_byte);
+ atomic64_add(ret, &ed->bytes_read);
- atomic64_add(ret, &sys_read_byte);
+ atomic64_add(ret, &bytes_read);
}
}
ed = get_energy_data(current);
if (ed)
- atomic64_add(ret, &ed->sys_write_byte);
+ atomic64_add(ret, &ed->bytes_written);
- atomic64_add(ret, &sys_write_byte);
+ atomic64_add(ret, &bytes_written);
}
}
val = current_time_apps();
break;
case PE_READ_SYSTEM:
- val = atomic64_read(&sys_read_byte);
+ val = atomic64_read(&bytes_read);
break;
case PE_WRITE_SYSTEM:
- val = atomic64_read(&sys_write_byte);
+ val = atomic64_read(&bytes_written);
break;
case PE_READ_APPS:
val = current_read_apps();