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android / platform / tools / test / connectivity / 0f3757d0cf0c394384482f72e24b99ff603d0dcd / . / acts_tests / tests / google / gnss / GnssFunctionTest.py
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#!/usr/bin/env python3
#
# Copyright 2020 - The Android Open Source Project
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
import os
import re
import fnmatch
from acts import asserts
from acts import signals
from acts.base_test import BaseTestClass
from acts_contrib.test_utils.gnss import gnss_test_utils as gutils
from acts.utils import get_current_epoch_time
from acts.utils import unzip_maintain_permissions
from acts_contrib.test_utils.wifi.wifi_test_utils import wifi_toggle_state
from acts_contrib.test_utils.tel.tel_bootloader_utils import flash_radio
from acts_contrib.test_utils.tel.tel_test_utils import verify_internet_connection
from acts_contrib.test_utils.tel.tel_test_utils import check_call_state_connected_by_adb
from acts_contrib.test_utils.tel.tel_test_utils import toggle_airplane_mode
from acts_contrib.test_utils.tel.tel_voice_utils import hangup_call
from acts_contrib.test_utils.gnss.gnss_test_utils import get_baseband_and_gms_version
from acts_contrib.test_utils.gnss.gnss_test_utils import set_attenuator_gnss_signal
from acts_contrib.test_utils.gnss.gnss_test_utils import _init_device
from acts_contrib.test_utils.gnss.gnss_test_utils import check_location_service
from acts_contrib.test_utils.gnss.gnss_test_utils import clear_logd_gnss_qxdm_log
from acts_contrib.test_utils.gnss.gnss_test_utils import set_mobile_data
from acts_contrib.test_utils.gnss.gnss_test_utils import set_wifi_and_bt_scanning
from acts_contrib.test_utils.gnss.gnss_test_utils import get_gnss_qxdm_log
from acts_contrib.test_utils.gnss.gnss_test_utils import remount_device
from acts_contrib.test_utils.gnss.gnss_test_utils import reboot
from acts_contrib.test_utils.gnss.gnss_test_utils import check_network_location
from acts_contrib.test_utils.gnss.gnss_test_utils import launch_google_map
from acts_contrib.test_utils.gnss.gnss_test_utils import check_location_api
from acts_contrib.test_utils.gnss.gnss_test_utils import set_battery_saver_mode
from acts_contrib.test_utils.gnss.gnss_test_utils import start_gnss_by_gtw_gpstool
from acts_contrib.test_utils.gnss.gnss_test_utils import process_gnss_by_gtw_gpstool
from acts_contrib.test_utils.gnss.gnss_test_utils import connect_to_wifi_network
from acts_contrib.test_utils.gnss.gnss_test_utils import gnss_tracking_via_gtw_gpstool
from acts_contrib.test_utils.gnss.gnss_test_utils import parse_gtw_gpstool_log
from acts_contrib.test_utils.gnss.gnss_test_utils import start_toggle_gnss_by_gtw_gpstool
from acts_contrib.test_utils.gnss.gnss_test_utils import grant_location_permission
from acts_contrib.test_utils.gnss.gnss_test_utils import is_mobile_data_on
from acts_contrib.test_utils.gnss.gnss_test_utils import is_wearable_btwifi
from acts_contrib.test_utils.gnss.gnss_test_utils import is_device_wearable
from acts_contrib.test_utils.gnss.gnss_test_utils import log_current_epoch_time
from acts_contrib.test_utils.gnss.testtracker_util import log_testtracker_uuid
from acts_contrib.test_utils.tel.tel_logging_utils import stop_adb_tcpdump
from acts_contrib.test_utils.tel.tel_logging_utils import get_tcpdump_log
class GnssFunctionTest(BaseTestClass):
""" GNSS Function Tests"""
def setup_class(self):
super().setup_class()
self.ad = self.android_devices[0]
req_params = ["pixel_lab_network",
"standalone_ws_criteria", "standalone_hs_criteria",
"supl_cs_criteria",
"supl_hs_criteria",
"standalone_cs_criteria",
"wearable_reboot_hs_criteria",
"default_gnss_signal_attenuation",
"weak_gnss_signal_attenuation",
"gnss_init_error_list",
"gnss_init_error_allowlist", "pixel_lab_location",
"qdsp6m_path", "ttff_test_cycle",
"collect_logs", "dpo_threshold",
"brcm_error_log_allowlist", "onchip_interval", "adr_ratio_threshold",
"set_attenuator", "weak_signal_criteria", "weak_signal_cs_criteria"]
self.unpack_userparams(req_param_names=req_params)
# create hashmap for SSID
self.ssid_map = {}
for network in self.pixel_lab_network:
SSID = network["SSID"]
self.ssid_map[SSID] = network
self.ttff_mode = {"cs": "Cold Start",
"ws": "Warm Start",
"hs": "Hot Start",
"csa": "CSWith Assist"}
if self.collect_logs and gutils.check_chipset_vendor_by_qualcomm(self.ad):
self.flash_new_radio_or_mbn()
self.push_gnss_cfg()
self.init_device()
def init_device(self):
gutils._init_device(self.ad)
gutils.enable_supl_mode(self.ad)
gutils.enable_vendor_orbit_assistance_data(self.ad)
gutils.disable_ramdump(self.ad)
def setup_test(self):
log_current_epoch_time(self.ad, "test_start_time")
log_testtracker_uuid(self.ad, self.current_test_name)
get_baseband_and_gms_version(self.ad)
if self.collect_logs:
clear_logd_gnss_qxdm_log(self.ad)
if self.set_attenuator:
set_attenuator_gnss_signal(self.ad, self.attenuators,
self.default_gnss_signal_attenuation)
# TODO (b/202101058:chenstanley): Need to double check how to disable wifi successfully in wearable projects.
if is_wearable_btwifi(self.ad):
wifi_toggle_state(self.ad, True)
connect_to_wifi_network(
self.ad, self.ssid_map[self.pixel_lab_network[0]["SSID"]])
else:
wifi_toggle_state(self.ad, False)
set_mobile_data(self.ad, True)
if not verify_internet_connection(self.ad.log, self.ad, retries=3,
expected_state=True):
raise signals.TestFailure("Fail to connect to LTE network.")
def teardown_test(self):
if self.collect_logs:
gutils.stop_pixel_logger(self.ad)
stop_adb_tcpdump(self.ad)
if self.set_attenuator:
set_attenuator_gnss_signal(self.ad, self.attenuators,
self.default_gnss_signal_attenuation)
# TODO(chenstanley): sim structure issue
if not is_device_wearable(self.ad):
if check_call_state_connected_by_adb(self.ad):
hangup_call(self.ad.log, self.ad)
if self.ad.droid.connectivityCheckAirplaneMode():
self.ad.log.info("Force airplane mode off")
toggle_airplane_mode(self.ad.log, self.ad, new_state=False)
if int(self.ad.adb.shell(
"settings get global wifi_scan_always_enabled")) != 1:
set_wifi_and_bt_scanning(self.ad, True)
log_current_epoch_time(self.ad, "test_end_time")
def on_fail(self, test_name, begin_time):
if self.collect_logs:
self.ad.take_bug_report(test_name, begin_time)
get_gnss_qxdm_log(self.ad, self.qdsp6m_path)
get_tcpdump_log(self.ad, test_name, begin_time)
def push_gnss_cfg(self):
"""Push required GNSS cfg file to DUT for PixelLogger to use as
default GNSS logging mask."""
gnss_cfg_path = "/vendor/etc/mdlog"
gnss_cfg_file = self.user_params.get("gnss_cfg")
if isinstance(gnss_cfg_file, list):
gnss_cfg_file = gnss_cfg_file[0]
os.system("chmod -R 777 %s" % gnss_cfg_file)
self.ad.log.info("GNSS Required CFG = %s" % gnss_cfg_file)
self.ad.log.info("Push %s to %s" % (gnss_cfg_file, gnss_cfg_path))
self.ad.push_system_file(gnss_cfg_file, gnss_cfg_path)
def flash_new_radio_or_mbn(self):
paths = {}
path = self.user_params.get("radio_image")
if isinstance(path, list):
path = path[0]
if "dev/null" in path:
self.ad.log.info("Radio image path is not defined in Test flag.")
return False
for path_key in os.listdir(path):
if fnmatch.fnmatch(path_key, "*.img"):
paths["radio_image"] = os.path.join(path, path_key)
os.system("chmod -R 777 %s" % paths["radio_image"])
self.ad.log.info("radio_image = %s" % paths["radio_image"])
if fnmatch.fnmatch(path_key, "*.zip"):
zip_path = os.path.join(path, path_key)
self.ad.log.info("Unzip %s", zip_path)
dest_path = os.path.join(path, "mbn")
unzip_maintain_permissions(zip_path, dest_path)
paths["mbn_path"] = dest_path
os.system("chmod -R 777 %s" % paths["mbn_path"])
self.ad.log.info("mbn_path = %s" % paths["mbn_path"])
self.ad.log.info(os.listdir(paths["mbn_path"]))
if not paths.get("radio_image"):
self.ad.log.info("No radio image is provided on X20. "
"Skip flashing radio step.")
return False
else:
get_baseband_and_gms_version(self.ad, "Before flash radio")
flash_radio(self.ad, paths["radio_image"])
get_baseband_and_gms_version(self.ad, "After flash radio")
if not paths.get("mbn_path"):
self.ad.log.info("No need to push mbn files")
return False
else:
try:
mcfg_ver = self.ad.adb.shell(
"cat /vendor/rfs/msm/mpss/readonly/vendor/mbn/mcfg.version")
if mcfg_ver:
self.ad.log.info("Before push mcfg, mcfg.version = %s",
mcfg_ver)
else:
self.ad.log.info("There is no mcfg.version before push, "
"unmatching device")
return False
except Exception as e:
self.ad.log.info("There is no mcfg.version before push, "
"unmatching device %s" % e)
return False
get_baseband_and_gms_version(self.ad, "Before push mcfg")
try:
remount_device(self.ad)
cmd = "%s %s" % (paths["mbn_path"]+"/.",
"/vendor/rfs/msm/mpss/readonly/vendor/mbn/")
out = self.ad.adb.push(cmd)
self.ad.log.info(out)
reboot(self.ad)
except Exception as e:
self.ad.log.error("Push mbn files error %s", e)
return False
get_baseband_and_gms_version(self.ad, "After push mcfg")
try:
new_mcfg_ver = self.ad.adb.shell(
"cat /vendor/rfs/msm/mpss/readonly/vendor/mbn/mcfg.version")
if new_mcfg_ver:
self.ad.log.info("New mcfg.version = %s", new_mcfg_ver)
if new_mcfg_ver == mcfg_ver:
self.ad.log.error("mcfg.version is the same before and "
"after push")
return True
else:
self.ad.log.error("Unable to get new mcfg.version")
return False
except Exception as e:
self.ad.log.error("cat mcfg.version with error %s", e)
return False
def standalone_ttff_airplane_mode_on(self, mode, criteria):
"""Verify Standalone GNSS TTFF functionality while airplane mode is on.
Args:
mode: "cs", "ws" or "hs"
criteria: Criteria for the test.
"""
gutils.start_qxdm_and_tcpdump_log(self.ad, self.collect_logs)
self.ad.log.info("Turn airplane mode on")
toggle_airplane_mode(self.ad.log, self.ad, new_state=True)
gutils.run_ttff_via_gtw_gpstool(
self.ad, mode, criteria, self.ttff_test_cycle, self.pixel_lab_location)
""" Test Cases """
def test_cs_first_fixed_system_server_restart(self):
"""Verify cs first fixed after system server restart.
Steps:
1. Get location fixed within supl_cs_criteria.
2. Restarts android runtime.
3. Get location fixed within supl_cs_criteria.
Expected Results:
Location fixed within supl_cs_criteria.
"""
overall_test_result = []
gutils.start_qxdm_and_tcpdump_log(self.ad, self.collect_logs)
for test_loop in range(1, 6):
gutils.process_gnss_by_gtw_gpstool(self.ad, self.supl_cs_criteria)
gutils.start_gnss_by_gtw_gpstool(self.ad, False)
self.ad.restart_runtime()
self.ad.unlock_screen(password=None)
test_result = gutils.process_gnss_by_gtw_gpstool(self.ad, self.supl_cs_criteria)
gutils.start_gnss_by_gtw_gpstool(self.ad, False)
self.ad.log.info("Iteration %d => %s" % (test_loop, test_result))
overall_test_result.append(test_result)
asserts.assert_true(all(overall_test_result),
"SUPL fail after system server restart.")
def test_cs_ttff_after_gps_service_restart(self):
"""Verify cs ttff after modem silent reboot / GPS daemons restart.
Steps:
1. Trigger modem crash by adb/Restart GPS daemons by killing PID.
2. Wait 1 minute for modem to recover.
3. TTFF Cold Start for 3 iteration.
4. Repeat Step 1. to Step 3. for 5 times.
Expected Results:
All SUPL TTFF Cold Start results should be within supl_cs_criteria.
"""
supl_ssr_test_result_all = []
gutils.start_qxdm_and_tcpdump_log(self.ad, self.collect_logs)
for times in range(1, 6):
begin_time = get_current_epoch_time()
if gutils.check_chipset_vendor_by_qualcomm(self.ad):
test_info = "Modem SSR"
gutils.gnss_trigger_modem_ssr_by_mds(self.ad)
else:
test_info = "restarting GPS daemons"
gutils.restart_gps_daemons(self.ad)
if not verify_internet_connection(self.ad.log, self.ad, retries=3,
expected_state=True):
raise signals.TestFailure("Fail to connect to LTE network.")
gutils.process_gnss_by_gtw_gpstool(self.ad, self.standalone_cs_criteria)
gutils.start_ttff_by_gtw_gpstool(self.ad, ttff_mode="cs", iteration=3)
ttff_data = gutils.process_ttff_by_gtw_gpstool(self.ad, begin_time,
self.pixel_lab_location)
supl_ssr_test_result = gutils.check_ttff_data(
self.ad, ttff_data, ttff_mode="Cold Start",
criteria=self.supl_cs_criteria)
self.ad.log.info("SUPL after %s test %d times -> %s" % (
test_info, times, supl_ssr_test_result))
supl_ssr_test_result_all.append(supl_ssr_test_result)
asserts.assert_true(all(supl_ssr_test_result_all),
"TTFF fails to reach designated criteria")
def test_gnss_one_hour_tracking(self):
"""Verify GNSS tracking performance of signal strength and position
error.
Steps:
1. Launch GTW_GPSTool.
2. GNSS tracking for 60 minutes.
Expected Results:
DUT could finish 60 minutes test and output track data.
"""
test_time = 60
gutils.start_qxdm_and_tcpdump_log(self.ad, self.collect_logs)
gnss_tracking_via_gtw_gpstool(self.ad, self.standalone_cs_criteria,
api_type="gnss", testtime=test_time)
location_data = parse_gtw_gpstool_log(self.ad, self.pixel_lab_location, api_type="gnss")
gutils.validate_location_fix_rate(self.ad, location_data, run_time=test_time,
fix_rate_criteria=0.99)
gutils.verify_gps_time_should_be_close_to_device_time(self.ad, location_data)
def test_duty_cycle_function(self):
"""Verify duty cycle Functionality.
Steps:
1. Launch GTW_GPSTool.
2. Enable GnssMeasurement.
3. GNSS tracking for 5 minutes.
4. Calculate the count diff of "HardwareClockDiscontinuityCount"
Expected Results:
Duty cycle should be engaged in 5 minutes GNSS tracking.
"""
tracking_minutes = 5
gutils.start_qxdm_and_tcpdump_log(self.ad, self.collect_logs)
dpo_begin_time = get_current_epoch_time()
gnss_tracking_via_gtw_gpstool(self.ad,
self.standalone_cs_criteria,
api_type="gnss",
testtime=tracking_minutes,
meas_flag=True)
if gutils.check_chipset_vendor_by_qualcomm(self.ad):
gutils.check_dpo_rate_via_gnss_meas(self.ad,
dpo_begin_time,
self.dpo_threshold)
else:
gutils.check_dpo_rate_via_brcm_log(self.ad,
self.dpo_threshold,
self.brcm_error_log_allowlist)
def test_gnss_init_error(self):
"""Check if there is any GNSS initialization error after reboot.
Steps:
1. Reboot DUT.
2. Check logcat if the following error pattern shows up.
"E LocSvc.*", ".*avc.*denied.*u:r:location:s0",
".*avc.*denied.*u:r:hal_gnss_qti:s0"
Expected Results:
There should be no GNSS initialization error after reboot.
"""
error_mismatch = True
for attr in self.gnss_init_error_list:
error = self.ad.adb.shell("logcat -d | grep -E '%s'" % attr)
if error:
for allowlist in self.gnss_init_error_allowlist:
if allowlist in error:
error = re.sub(".*"+allowlist+".*\n?", "", error)
self.ad.log.info("\"%s\" is in allow-list and removed "
"from error." % allowlist)
if error:
error_mismatch = False
self.ad.log.error("\n%s" % error)
else:
self.ad.log.info("NO \"%s\" initialization error found." % attr)
asserts.assert_true(error_mismatch, "Error message found after GNSS "
"init")
def test_sap_valid_modes(self):
"""Verify SAP Valid Modes.
Steps:
1. Root DUT.
2. Check SAP Valid Modes.
Expected Results:
SAP=PREMIUM
"""
if not gutils.check_chipset_vendor_by_qualcomm(self.ad):
raise signals.TestSkip("Not Qualcomm chipset. Skip the test.")
sap_state = str(self.ad.adb.shell("cat vendor/etc/izat.conf | grep "
"SAP="))
self.ad.log.info("SAP Valid Modes - %s" % sap_state)
asserts.assert_true("SAP=PREMIUM" in sap_state,
"Wrong SAP Valid Modes is set")
def test_network_location_provider_cell(self):
"""Verify LocationManagerService API reports cell Network Location.
Steps:
1. WiFi scanning and Bluetooth scanning in Location Setting are OFF.
2. Launch GTW_GPSTool.
3. Verify whether test devices could report cell Network Location.
4. Repeat Step 2. to Step 3. for 5 times.
Expected Results:
Test devices could report cell Network Location.
"""
test_result_all = []
gutils.start_qxdm_and_tcpdump_log(self.ad, self.collect_logs)
set_wifi_and_bt_scanning(self.ad, False)
for i in range(1, 6):
test_result = check_network_location(
self.ad, retries=3, location_type="cell")
test_result_all.append(test_result)
self.ad.log.info("Iteration %d => %s" % (i, test_result))
set_wifi_and_bt_scanning(self.ad, True)
asserts.assert_true(all(test_result_all),
"Fail to get networkLocationType=cell")
def test_network_location_provider_wifi(self):
"""Verify LocationManagerService API reports wifi Network Location.
Steps:
1. WiFi scanning and Bluetooth scanning in Location Setting are ON.
2. Launch GTW_GPSTool.
3. Verify whether test devices could report wifi Network Location.
4. Repeat Step 2. to Step 3. for 5 times.
Expected Results:
Test devices could report wifi Network Location.
"""
test_result_all = []
gutils.start_qxdm_and_tcpdump_log(self.ad, self.collect_logs)
set_wifi_and_bt_scanning(self.ad, True)
for i in range(1, 6):
test_result = check_network_location(
self.ad, retries=3, location_type="wifi")
test_result_all.append(test_result)
self.ad.log.info("Iteration %d => %s" % (i, test_result))
asserts.assert_true(all(test_result_all),
"Fail to get networkLocationType=wifi")
def test_gmap_location_report_battery_saver(self):
"""Verify GnssLocationProvider API reports location to Google Map
when Battery Saver is enabled.
Steps:
1. GPS and NLP are on.
2. Enable Battery Saver.
3. Launch Google Map.
4. Verify whether test devices could report location.
5. Repeat Step 3. to Step 4. for 5 times.
6. Disable Battery Saver.
Expected Results:
Test devices could report location to Google Map.
"""
test_result_all = []
gutils.start_qxdm_and_tcpdump_log(self.ad, self.collect_logs)
set_battery_saver_mode(self.ad, True)
for i in range(1, 6):
grant_location_permission(self.ad, True)
launch_google_map(self.ad)
test_result = check_location_api(self.ad, retries=3)
self.ad.send_keycode("HOME")
test_result_all.append(test_result)
self.ad.log.info("Iteration %d => %s" % (i, test_result))
set_battery_saver_mode(self.ad, False)
asserts.assert_true(all(test_result_all), "Fail to get location update")
def test_gnss_ttff_cs_airplane_mode_on(self):
"""Verify Standalone GNSS functionality of TTFF Cold Start while
airplane mode is on.
Steps:
1. Turn on airplane mode.
2. TTFF Cold Start for 10 iteration.
Expected Results:
All Standalone TTFF Cold Start results should be within
standalone_cs_criteria.
"""
self.standalone_ttff_airplane_mode_on("cs", self.standalone_cs_criteria)
def test_gnss_ttff_ws_airplane_mode_on(self):
"""Verify Standalone GNSS functionality of TTFF Warm Start while
airplane mode is on.
Steps:
1. Turn on airplane mode.
2. TTFF Warm Start for 10 iteration.
Expected Results:
All Standalone TTFF Warm Start results should be within
standalone_ws_criteria.
"""
self.standalone_ttff_airplane_mode_on("ws", self.standalone_ws_criteria)
def test_gnss_ttff_hs_airplane_mode_on(self):
"""Verify Standalone GNSS functionality of TTFF Hot Start while
airplane mode is on.
Steps:
1. Turn on airplane mode.
2. TTFF Hot Start for 10 iteration.
Expected Results:
All Standalone TTFF Hot Start results should be within
standalone_hs_criteria.
"""
self.standalone_ttff_airplane_mode_on("hs", self.standalone_hs_criteria)
def test_cs_ttff_in_weak_gnss_signal(self):
"""Verify TTFF cold start under weak GNSS signal.
Steps:
1. Set attenuation value to weak GNSS signal.
2. TTFF Cold Start for 10 iteration.
Expected Results:
TTFF CS results should be within weak_signal_cs_criteria.
"""
gutils.set_attenuator_gnss_signal(self.ad, self.attenuators,
self.weak_gnss_signal_attenuation)
gutils.run_ttff(self.ad, mode="cs", criteria=self.weak_signal_cs_criteria,
test_cycle=self.ttff_test_cycle, base_lat_long=self.pixel_lab_location,
collect_logs=self.collect_logs)
def test_ws_ttff_in_weak_gnss_signal(self):
"""Verify TTFF warm start under weak GNSS signal.
Steps:
2. Set attenuation value to weak GNSS signal.
3. TTFF Warm Start for 10 iteration.
Expected Results:
TTFF WS result should be within weak_signal_criteria.
"""
gutils.set_attenuator_gnss_signal(self.ad, self.attenuators,
self.weak_gnss_signal_attenuation)
gutils.run_ttff(self.ad, mode="ws", criteria=self.weak_signal_criteria,
test_cycle=self.ttff_test_cycle, base_lat_long=self.pixel_lab_location,
collect_logs=self.collect_logs)
def test_hs_ttff_in_weak_gnss_signal(self):
"""Verify TTFF hot start under weak GNSS signal.
Steps:
2. Set attenuation value to weak GNSS signal.
3. TTFF Hot Start for 10 iteration.
Expected Results:
TTFF HS result should be within weak_signal_criteria.
"""
gutils.set_attenuator_gnss_signal(self.ad, self.attenuators,
self.weak_gnss_signal_attenuation)
gutils.run_ttff(self.ad, mode="hs", criteria=self.weak_signal_criteria,
test_cycle=self.ttff_test_cycle, base_lat_long=self.pixel_lab_location,
collect_logs=self.collect_logs)
def test_quick_toggle_gnss_state(self):
"""Verify GNSS can still work properly after quick toggle GNSS off
to on.
Steps:
1. Launch GTW_GPSTool.
2. Go to "Advance setting"
3. Set Cycle = 10 & Time-out = 60
4. Go to "Toggle GPS" tab
5. Execute "Start"
Expected Results:
No single Timeout is seen in 10 iterations.
"""
gutils.start_qxdm_and_tcpdump_log(self.ad, self.collect_logs)
start_toggle_gnss_by_gtw_gpstool(
self.ad, iteration=self.ttff_test_cycle)
def test_gnss_init_after_reboot(self):
"""Verify SUPL and XTRA/LTO functionality after reboot.
Steps:
1. Get location fixed within supl_cs_criteria.
2. Reboot DUT.
3. Get location fixed within supl_hs_criteria.
4. Repeat Step 2. to Step 3. for 10 times.
Expected Results:
Location fixed within supl_hs_criteria.
"""
overall_test_result = []
# As b/252971345 requests, we need the log before reboot for debugging.
gutils.start_pixel_logger(self.ad)
process_gnss_by_gtw_gpstool(self.ad, self.supl_cs_criteria)
start_gnss_by_gtw_gpstool(self.ad, False)
gutils.stop_pixel_logger(self.ad)
for test_loop in range(1, 11):
reboot(self.ad)
gutils.start_qxdm_and_tcpdump_log(self.ad, self.collect_logs)
if is_device_wearable(self.ad):
test_result = process_gnss_by_gtw_gpstool(
self.ad, self.wearable_reboot_hs_criteria, clear_data=False)
else:
test_result = process_gnss_by_gtw_gpstool(
self.ad, self.supl_hs_criteria, clear_data=False)
start_gnss_by_gtw_gpstool(self.ad, False)
self.ad.log.info("Iteration %d => %s" % (test_loop, test_result))
overall_test_result.append(test_result)
gutils.stop_pixel_logger(self.ad)
stop_adb_tcpdump(self.ad)
pass_rate = overall_test_result.count(True)/len(overall_test_result)
self.ad.log.info("TestResult Pass_rate %s" % format(pass_rate, ".0%"))
asserts.assert_true(all(overall_test_result),
"GNSS init fail after reboot.")
def test_host_gnssstatus_validation(self):
"""Verify GnssStatus integrity during host tracking for 1 minute.
Steps:
1. Launch GTW_GPSTool.
2. GNSS tracking for 1 minute with 1 second frequency.
3. Validate all the GnssStatus raw data.(SV, SVID, Elev, Azim)
Expected Results:
GnssStatus obj should return no failures
"""
gnss_tracking_via_gtw_gpstool(self.ad, self.standalone_cs_criteria,
api_type="gnss", testtime=1)
parse_gtw_gpstool_log(self.ad, self.pixel_lab_location, api_type="gnss",
validate_gnssstatus=True)
def test_onchip_gnssstatus_validation(self):
"""Verify GnssStatus integrity during onchip tracking for 1 minute.
Steps:
1. Launch GTW_GPSTool.
2. GNSS tracking for 1 minute with 6 second frequency.
3. Validate all the GnssStatus raw data.(SV, SVID, Elev, Azim)
Expected Results:
GnssStatus obj should return no failures
"""
if gutils.check_chipset_vendor_by_qualcomm(self.ad):
raise signals.TestSkip("Not BRCM chipset. Skip the test.")
gnss_tracking_via_gtw_gpstool(self.ad, self.standalone_cs_criteria,
api_type="gnss", testtime=1, freq=self.onchip_interval)
parse_gtw_gpstool_log(self.ad, self.pixel_lab_location, api_type="gnss",
validate_gnssstatus=True)
def test_location_update_after_resuming_from_deep_suspend(self):
"""Verify the GPS location reported after resume from suspend mode
1. Enable GPS location report for 1 min to make sure the GPS is working
2. Force DUT into deep suspend mode for a while(3 times with 15s interval)
3. Enable GPS location report for 5 mins
4. Check the report frequency
5. Check the location fix rate
"""
gps_enable_minutes = 1
gnss_tracking_via_gtw_gpstool(self.ad, criteria=self.supl_cs_criteria, api_type="gnss",
testtime=gps_enable_minutes)
result = parse_gtw_gpstool_log(self.ad, self.pixel_lab_location, api_type="gnss")
self.ad.log.debug("Location report details before suspend")
self.ad.log.debug(result)
gutils.validate_location_fix_rate(self.ad, result, run_time=gps_enable_minutes,
fix_rate_criteria=0.95)
gutils.deep_suspend_device(self.ad)
gps_enable_minutes = 5
gnss_tracking_via_gtw_gpstool(self.ad, criteria=self.supl_cs_criteria, api_type="gnss",
testtime=gps_enable_minutes)
result = parse_gtw_gpstool_log(self.ad, self.pixel_lab_location, api_type="gnss")
self.ad.log.debug("Location report details after suspend")
self.ad.log.debug(result)
location_report_time = list(result.keys())
gutils.check_location_report_interval(self.ad, location_report_time,
gps_enable_minutes * 60, tolerance=0.01)
gutils.validate_location_fix_rate(self.ad, result, run_time=gps_enable_minutes,
fix_rate_criteria=0.99)
def test_location_mode_in_battery_saver_with_screen_off(self):
"""Ensure location request with foreground permission can work
in battery saver mode (screen off)
1. unplug power
2. enter battery saver mode
3. start tracking for 2 mins with screen off
4. repest step 3 for 3 times
"""
try:
gutils.set_battery_saver_mode(self.ad, state=True)
test_time = 2
for i in range(1, 4):
self.ad.log.info("Tracking attempt %s" % str(i))
gnss_tracking_via_gtw_gpstool(
self.ad, criteria=self.supl_cs_criteria, api_type="gnss", testtime=test_time,
is_screen_off=True)
result = parse_gtw_gpstool_log(self.ad, self.pixel_lab_location, api_type="gnss")
gutils.validate_location_fix_rate(self.ad, result, run_time=test_time,
fix_rate_criteria=0.99)
finally:
gutils.set_battery_saver_mode(self.ad, state=False)
def test_measure_adr_rate_after_10_mins_tracking(self):
"""Verify ADR rate
1. Enable "Force full gnss measurement"
2. Start tracking with GnssMeasurement enabled for 10 mins
3. Check ADR usable rate / valid rate
4. Disable "Force full gnss measurement"
"""
adr_threshold = self.adr_ratio_threshold.get(self.ad.model)
if not adr_threshold:
self.ad.log.warn((f"Can't get '{self.ad.model}' threshold from config "
f"{self.adr_ratio_threshold}, use default threshold 0.5"))
adr_threshold = 0.5
with gutils.full_gnss_measurement(self.ad):
gnss_tracking_via_gtw_gpstool(self.ad, criteria=self.supl_cs_criteria, api_type="gnss",
testtime=10, meas_flag=True)
gutils.validate_adr_rate(self.ad, pass_criteria=float(adr_threshold))
def test_hal_crashing_should_resume_tracking(self):
"""Make sure location request can be resumed after HAL restart.
1. Start GPS tool and get First Fixed
2. Wait for 1 min for tracking
3. Restart HAL service
4. Wait for 1 min for tracking
5. Check fix rate
"""
first_fixed_time = process_gnss_by_gtw_gpstool(self.ad, criteria=self.supl_cs_criteria)
begin_time = int(first_fixed_time.timestamp() * 1000)
self.ad.log.info("Start 2 mins tracking")
gutils.wait_n_mins_for_gnss_tracking(self.ad, begin_time, testtime=1,
ignore_hal_crash=False)
gutils.restart_hal_service(self.ad)
# The test case is designed to run the tracking for 2 mins, so we assign testime to 2 to
# indicate the total run time is 2 mins (starting from begin_time).
gutils.wait_n_mins_for_gnss_tracking(self.ad, begin_time, testtime=2, ignore_hal_crash=True)
start_gnss_by_gtw_gpstool(self.ad, state=False)
result = parse_gtw_gpstool_log(self.ad, self.pixel_lab_location)
gutils.validate_location_fix_rate(self.ad, result, run_time=2,
fix_rate_criteria=0.95)
def test_power_save_mode_should_apply_latest_measurement_setting(self):
"""Ensure power save mode will apply the GNSS measurement setting.
1. Turn off full GNSS measurement.
2. Run tracking for 2 mins
3. Check the power save mode status
4. Turn on full GNSS measurement and re-register measurement callback
6. Run tracking for 30s
7. Check the power save mode status
8. Turn off full GNSS measurement and re-register measurement callback
9. Run tracking for 2 mins
10. Check the power save mode status
"""
def wait_for_power_state_changes(wait_time):
gutils.re_register_measurement_callback(self.ad)
tracking_begin_time = get_current_epoch_time()
gutils.wait_n_mins_for_gnss_tracking(self.ad, tracking_begin_time, testtime=wait_time)
return tracking_begin_time
if self.ad.model.lower() == "sunfish":
raise signals.TestSkip(
"According to b/241049795, it's HW issue and won't be fixed.")
gutils.start_pixel_logger(self.ad)
with gutils.run_gnss_tracking(self.ad, criteria=self.supl_cs_criteria, meas_flag=True):
start_time = wait_for_power_state_changes(wait_time=2)
gutils.check_power_save_mode_status(
self.ad, full_power=False, begin_time=start_time,
brcm_error_allowlist=self.brcm_error_log_allowlist)
with gutils.full_gnss_measurement(self.ad):
start_time = wait_for_power_state_changes(wait_time=0.5)
gutils.check_power_save_mode_status(
self.ad, full_power=True, begin_time=start_time,
brcm_error_allowlist=self.brcm_error_log_allowlist)
start_time = wait_for_power_state_changes(wait_time=2)
gutils.check_power_save_mode_status(
self.ad, full_power=False, begin_time=start_time,
brcm_error_allowlist=self.brcm_error_log_allowlist)
gutils.stop_pixel_logger(self.ad)