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1# Copyright (c) 2010 The Chromium OS Authors. All rights reserved.
2# Use of this source code is governed by a BSD-style license that can be
3# found in the LICENSE file.
4
5import logging, time
6from autotest_lib.client.bin import test
7from autotest_lib.client.common_lib import error
8from autotest_lib.client.cros import power_status, power_utils, service_stopper
9
10class power_BatteryCharge(test.test):
11    """class power_BatteryCharge."""
12    version = 1
13
14    def initialize(self):
15        if not power_utils.has_battery():
16            raise error.TestNAError('DUT has no battery. Test Skipped')
17
18        self.status = power_status.get_status()
19
20        if not self.status.on_ac():
21            raise error.TestNAError(
22                  'This test needs to be run with the AC power online')
23
24        self._services = service_stopper.ServiceStopper(
25            service_stopper.ServiceStopper.POWER_DRAW_SERVICES + ['ui'])
26        self._services.stop_services()
27
28
29    def run_once(self, max_run_time=180, percent_charge_to_add=1,
30                 percent_initial_charge_max=None,
31                 percent_target_charge=None,
32                 use_design_charge_capacity=True):
33
34        """
35        max_run_time: maximum time the test will run for
36        percent_charge_to_add: percentage of the charge capacity charge to
37                  add. The target charge will be capped at the charge capacity.
38        percent_initial_charge_max: maxium allowed initial charge.
39        use_design_charge_capacity: If set, use charge_full_design rather than
40                  charge_full for calculations. charge_full represents
41                  wear-state of battery, vs charge_full_design representing
42                  ideal design state.
43        """
44
45        time_to_sleep = 60
46
47        self._backlight = power_utils.Backlight()
48        self._backlight.set_percent(0)
49
50        self.remaining_time = self.max_run_time = max_run_time
51
52        self.charge_full_design = self.status.battery[0].charge_full_design
53        self.charge_full = self.status.battery[0].charge_full
54        if use_design_charge_capacity:
55            self.charge_capacity = self.charge_full_design
56        else:
57            self.charge_capacity = self.charge_full
58
59        if self.charge_capacity == 0:
60            raise error.TestError('Failed to determine charge capacity')
61
62        self.initial_charge = self.status.battery[0].charge_now
63        percent_initial_charge = self.initial_charge * 100 / \
64                                 self.charge_capacity
65        if percent_initial_charge_max and percent_initial_charge > \
66                                          percent_initial_charge_max:
67            raise error.TestError('Initial charge (%f) higher than max (%f)'
68                      % (percent_initial_charge, percent_initial_charge_max))
69
70        current_charge = self.initial_charge
71        if percent_target_charge is None:
72            charge_to_add = self.charge_capacity * \
73                            float(percent_charge_to_add) / 100
74            target_charge = current_charge + charge_to_add
75        else:
76            target_charge = self.charge_capacity * \
77                            float(percent_target_charge) / 100
78
79        # trim target_charge if it exceeds charge capacity
80        if target_charge > self.charge_capacity:
81            target_charge = self.charge_capacity
82
83        logging.info('max_run_time: %d', self.max_run_time)
84        logging.info('initial_charge: %f', self.initial_charge)
85        logging.info('target_charge: %f', target_charge)
86
87        while self.remaining_time and current_charge < target_charge:
88            if time_to_sleep > self.remaining_time:
89                time_to_sleep = self.remaining_time
90            self.remaining_time -= time_to_sleep
91
92            time.sleep(time_to_sleep)
93
94            self.status.refresh()
95            if not self.status.on_ac():
96                raise error.TestError(
97                      'This test needs to be run with the AC power online')
98
99            new_charge = self.status.battery[0].charge_now
100            logging.info('time_to_sleep: %d', time_to_sleep)
101            logging.info('charge_added: %f', (new_charge - current_charge))
102
103            current_charge = new_charge
104            logging.info('current_charge: %f', current_charge)
105
106            if self.status.battery[0].status == 'Full':
107                logging.info('Battery full, aborting!')
108                break
109
110
111    def postprocess_iteration(self):
112        keyvals = {}
113        keyvals['ah_charge_full'] = self.charge_full
114        keyvals['ah_charge_full_design'] = self.charge_full_design
115        keyvals['ah_charge_capacity'] = self.charge_capacity
116        keyvals['ah_initial_charge'] = self.initial_charge
117        keyvals['ah_final_charge'] = self.status.battery[0].charge_now
118        keyvals['s_time_taken'] = self.max_run_time - self.remaining_time
119        keyvals['percent_initial_charge'] = self.initial_charge * 100 / \
120                                            keyvals['ah_charge_capacity']
121        keyvals['percent_final_charge'] = keyvals['ah_final_charge'] * 100 / \
122                                          keyvals['ah_charge_capacity']
123
124        percent_charge_added = keyvals['percent_final_charge'] - \
125            keyvals['percent_initial_charge']
126        # Conditionally write charge current keyval only when the amount of
127        # charge added is > 50% to remove samples when test is run but battery
128        # is already mostly full.  Otherwise current will be ~0 and not
129        # meaningful.
130        if percent_charge_added > 50:
131            hrs_charging = keyvals['s_time_taken'] / 3600.
132            keyvals['a_avg50_charge_current'] = \
133                (keyvals['ah_final_charge'] - self.initial_charge) / \
134                hrs_charging
135
136        self.write_perf_keyval(keyvals)
137
138
139    def cleanup(self):
140        if hasattr(self, '_services') and self._services:
141            self._services.restore_services()
142        if hasattr(self, '_backlight') and self._backlight:
143            self._backlight.restore()
144