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Stop location to avoid timing issue (VTS 2.0)

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Before setting constellation blacklist, the location report should
be stopped first. Otherwise, the sv status which contains blacklist
constellation is still reporting and may be counted in checking
SvList. According to the comments of this case, location should be
turned off as 2a step.

Also adding another test that a blacklist request that comes in
while tracking is started, takes effect after a stop/start cycle.

Bug: 144675840
Test: on device
Change-Id: I0a5030cbeeb4bbc45000157414582117d8abbae9
This commit is contained in:
Yu-Han Yang
2020-04-17 15:44:59 -07:00
parent 25ff02b703
commit 4e5ffc2231
7 changed files with 178 additions and 70 deletions
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1
gnss/1.1/vts/functional/Android.bp
View File

@@ -25,6 +25,7 @@ cc_test {
static_libs: [
"android.hardware.gnss@1.0",
"android.hardware.gnss@1.1",
"android.hardware.gnss@2.0",
"android.hardware.gnss@common-vts-lib",
],
shared_libs: [

43
gnss/2.0/vts/functional/gnss_hal_test.cpp
View File

@@ -247,3 +247,46 @@ Return<void> GnssHalTest::GnssMeasurementCorrectionsCallback::setCapabilitiesCb(
capabilities_cbq_.store(capabilities);
return Void();
}
GnssConstellationType_1_0 GnssHalTest::startLocationAndGetNonGpsConstellation() {
const int kLocationsToAwait = 3;
gnss_cb_->location_cbq_.reset();
StartAndCheckLocations(kLocationsToAwait);
const int location_called_count = gnss_cb_->location_cbq_.calledCount();
// Tolerate 1 less sv status to handle edge cases in reporting.
int sv_info_list_cbq_size = gnss_cb_->sv_info_list_cbq_.size();
EXPECT_GE(sv_info_list_cbq_size + 1, kLocationsToAwait);
ALOGD("Observed %d GnssSvStatus, while awaiting %d Locations (%d received)",
sv_info_list_cbq_size, kLocationsToAwait, location_called_count);
// Find first non-GPS constellation to blacklist. Exclude IRNSS in GnssConstellationType_2_0
// as blacklisting of this constellation is not supported in gnss@2.0.
const int kGnssSvStatusTimeout = 2;
GnssConstellationType_1_0 constellation_to_blacklist = GnssConstellationType_1_0::UNKNOWN;
for (int i = 0; i < sv_info_list_cbq_size; ++i) {
hidl_vec<IGnssCallback_2_0::GnssSvInfo> sv_info_list;
gnss_cb_->sv_info_list_cbq_.retrieve(sv_info_list, kGnssSvStatusTimeout);
for (IGnssCallback_2_0::GnssSvInfo sv_info : sv_info_list) {
if ((sv_info.v1_0.svFlag & IGnssCallback_2_0::GnssSvFlags::USED_IN_FIX) &&
(sv_info.constellation != GnssConstellationType_2_0::UNKNOWN) &&
(sv_info.constellation != GnssConstellationType_2_0::IRNSS) &&
(sv_info.constellation != GnssConstellationType_2_0::GPS)) {
// found a non-GPS V1_0 constellation
constellation_to_blacklist = Utils::mapConstellationType(sv_info.constellation);
break;
}
}
if (constellation_to_blacklist != GnssConstellationType_1_0::UNKNOWN) {
break;
}
}
if (constellation_to_blacklist == GnssConstellationType_1_0::UNKNOWN) {
ALOGI("No non-GPS constellations found, constellation blacklist test less effective.");
// Proceed functionally to blacklist something.
constellation_to_blacklist = GnssConstellationType_1_0::GLONASS;
}
return constellation_to_blacklist;
}

13
gnss/2.0/vts/functional/gnss_hal_test.h
View File

@@ -31,6 +31,9 @@ using android::hardware::gnss::measurement_corrections::V1_0::IMeasurementCorrec
using android::hardware::gnss::V1_0::GnssLocationFlags;
using android::hardware::gnss::V2_0::IGnss;
using GnssConstellationType_1_0 = android::hardware::gnss::V1_0::GnssConstellationType;
using GnssConstellationType_2_0 = android::hardware::gnss::V2_0::GnssConstellationType;
using GnssLocation_1_0 = android::hardware::gnss::V1_0::GnssLocation;
using GnssLocation_2_0 = android::hardware::gnss::V2_0::GnssLocation;
@@ -194,6 +197,16 @@ class GnssHalTest : public testing::TestWithParam<std::string> {
*/
void SetPositionMode(const int min_interval_msec, const bool low_power_mode);
/*
* startLocationAndGetNonGpsConstellation:
* 1. Start location
* 2. Find and return first non-GPS constellation
*
* Note that location is not stopped in this method. The client should call
* StopAndClearLocations() after the call.
*/
GnssConstellationType_1_0 startLocationAndGetNonGpsConstellation();
sp<IGnss> gnss_hal_; // GNSS HAL to call into
sp<GnssCallback> gnss_cb_; // Primary callback interface
};

160
gnss/2.0/vts/functional/gnss_hal_test_cases.cpp
View File

@@ -24,8 +24,6 @@
using android::hardware::hidl_string;
using android::hardware::hidl_vec;
using GnssConstellationType_2_0 = android::hardware::gnss::V2_0::GnssConstellationType;
using GnssConstellationType_1_0 = android::hardware::gnss::V1_0::GnssConstellationType;
using IGnssConfiguration_2_0 = android::hardware::gnss::V2_0::IGnssConfiguration;
using IGnssConfiguration_1_1 = android::hardware::gnss::V1_1::IGnssConfiguration;
using IAGnssRil_2_0 = android::hardware::gnss::V2_0::IAGnssRil;
@@ -491,31 +489,6 @@ TEST_P(GnssHalTest, GetLocationLowPower) {
StopAndClearLocations();
}
/*
* MapConstellationType:
* Given a GnssConstellationType_2_0 type constellation, maps to its equivalent
* GnssConstellationType_1_0 type constellation. For constellations that do not have
* an equivalent value, maps to GnssConstellationType_1_0::UNKNOWN
*/
GnssConstellationType_1_0 MapConstellationType(GnssConstellationType_2_0 constellation) {
switch (constellation) {
case GnssConstellationType_2_0::GPS:
return GnssConstellationType_1_0::GPS;
case GnssConstellationType_2_0::SBAS:
return GnssConstellationType_1_0::SBAS;
case GnssConstellationType_2_0::GLONASS:
return GnssConstellationType_1_0::GLONASS;
case GnssConstellationType_2_0::QZSS:
return GnssConstellationType_1_0::QZSS;
case GnssConstellationType_2_0::BEIDOU:
return GnssConstellationType_1_0::BEIDOU;
case GnssConstellationType_2_0::GALILEO:
return GnssConstellationType_1_0::GALILEO;
default:
return GnssConstellationType_1_0::UNKNOWN;
}
}
/*
* FindStrongFrequentNonGpsSource:
*
@@ -555,7 +528,7 @@ IGnssConfiguration_1_1::BlacklistedSource FindStrongFrequentNonGpsSource(
(sv_info.constellation != GnssConstellationType_2_0::GPS)) {
ComparableBlacklistedSource source;
source.id.svid = sv_info.v1_0.svid;
source.id.constellation = MapConstellationType(sv_info.constellation);
source.id.constellation = Utils::mapConstellationType(sv_info.constellation);
const auto& itSignal = mapSignals.find(source);
if (itSignal == mapSignals.end()) {
@@ -694,7 +667,7 @@ TEST_P(GnssHalTest, BlacklistIndividualSatellites) {
hidl_vec<IGnssCallback_2_0::GnssSvInfo> sv_info_list;
gnss_cb_->sv_info_list_cbq_.retrieve(sv_info_list, kGnssSvStatusTimeout);
for (IGnssCallback_2_0::GnssSvInfo sv_info : sv_info_list) {
auto constellation = MapConstellationType(sv_info.constellation);
auto constellation = Utils::mapConstellationType(sv_info.constellation);
EXPECT_FALSE((sv_info.v1_0.svid == source_to_blacklist.svid) &&
(constellation == source_to_blacklist.constellation) &&
(sv_info.v1_0.svFlag & IGnssCallback::GnssSvFlags::USED_IN_FIX));
@@ -736,7 +709,7 @@ TEST_P(GnssHalTest, BlacklistIndividualSatellites) {
hidl_vec<IGnssCallback_2_0::GnssSvInfo> sv_info_list;
gnss_cb_->sv_info_list_cbq_.retrieve(sv_info_list, kGnssSvStatusTimeout);
for (IGnssCallback_2_0::GnssSvInfo sv_info : sv_info_list) {
auto constellation = MapConstellationType(sv_info.constellation);
auto constellation = Utils::mapConstellationType(sv_info.constellation);
if ((sv_info.v1_0.svid == source_to_blacklist.svid) &&
(constellation == source_to_blacklist.constellation) &&
(sv_info.v1_0.svFlag & IGnssCallback::GnssSvFlags::USED_IN_FIX)) {
@@ -752,7 +725,7 @@ TEST_P(GnssHalTest, BlacklistIndividualSatellites) {
}
/*
* BlacklistConstellation:
* BlacklistConstellationWithLocationOff:
*
* 1) Turns on location, waits for 3 locations, ensuring they are valid, and checks corresponding
* GnssStatus for any non-GPS constellations.
@@ -761,12 +734,11 @@ TEST_P(GnssHalTest, BlacklistIndividualSatellites) {
* GnssStatus does not use any constellation but GPS.
* 4a & b) Clean up by turning off location, and send in empty blacklist.
*/
TEST_P(GnssHalTest, BlacklistConstellation) {
TEST_P(GnssHalTest, BlacklistConstellationWithLocationOff) {
if (!IsGnssHalVersion_2_0()) {
ALOGI("Test BlacklistConstellation skipped. GNSS HAL version is greater than 2.0.");
return;
}
if (!(gnss_cb_->last_capabilities_ & IGnssCallback::Capabilities::SATELLITE_BLACKLIST)) {
ALOGI("Test BlacklistConstellation skipped. SATELLITE_BLACKLIST capability not supported.");
return;
@@ -774,43 +746,12 @@ TEST_P(GnssHalTest, BlacklistConstellation) {
const int kLocationsToAwait = 3;
gnss_cb_->location_cbq_.reset();
StartAndCheckLocations(kLocationsToAwait);
const int location_called_count = gnss_cb_->location_cbq_.calledCount();
// Find first non-GPS constellation to blacklist
GnssConstellationType_1_0 constellation_to_blacklist = startLocationAndGetNonGpsConstellation();
// Tolerate 1 less sv status to handle edge cases in reporting.
int sv_info_list_cbq_size = gnss_cb_->sv_info_list_cbq_.size();
EXPECT_GE(sv_info_list_cbq_size + 1, kLocationsToAwait);
ALOGD("Observed %d GnssSvStatus, while awaiting %d Locations (%d received)",
sv_info_list_cbq_size, kLocationsToAwait, location_called_count);
// Turns off location
StopAndClearLocations();
// Find first non-GPS constellation to blacklist. Exclude IRNSS in GnssConstellationType_2_0
// as blacklisting of this constellation is not supported in gnss@2.0.
const int kGnssSvStatusTimeout = 2;
GnssConstellationType_1_0 constellation_to_blacklist = GnssConstellationType_1_0::UNKNOWN;
for (int i = 0; i < sv_info_list_cbq_size; ++i) {
hidl_vec<IGnssCallback_2_0::GnssSvInfo> sv_info_list;
gnss_cb_->sv_info_list_cbq_.retrieve(sv_info_list, kGnssSvStatusTimeout);
for (IGnssCallback_2_0::GnssSvInfo sv_info : sv_info_list) {
if ((sv_info.v1_0.svFlag & IGnssCallback::GnssSvFlags::USED_IN_FIX) &&
(sv_info.constellation != GnssConstellationType_2_0::UNKNOWN) &&
(sv_info.constellation != GnssConstellationType_2_0::IRNSS) &&
(sv_info.constellation != GnssConstellationType_2_0::GPS)) {
// found a non-GPS V1_0 constellation
constellation_to_blacklist = MapConstellationType(sv_info.constellation);
break;
}
}
if (constellation_to_blacklist != GnssConstellationType_1_0::UNKNOWN) {
break;
}
}
if (constellation_to_blacklist == GnssConstellationType_1_0::UNKNOWN) {
ALOGI("No non-GPS constellations found, constellation blacklist test less effective.");
// Proceed functionally to blacklist something.
constellation_to_blacklist = GnssConstellationType_1_0::GLONASS;
}
IGnssConfiguration_1_1::BlacklistedSource source_to_blacklist;
source_to_blacklist.constellation = constellation_to_blacklist;
source_to_blacklist.svid = 0; // documented wildcard for all satellites in this constellation
@@ -824,6 +765,7 @@ TEST_P(GnssHalTest, BlacklistConstellation) {
sources.resize(1);
sources[0] = source_to_blacklist;
// setBlacklist when location is off.
auto result = gnss_configuration_hal->setBlacklist(sources);
ASSERT_TRUE(result.isOk());
EXPECT_TRUE(result);
@@ -835,15 +777,93 @@ TEST_P(GnssHalTest, BlacklistConstellation) {
StartAndCheckLocations(kLocationsToAwait);
// Tolerate 1 less sv status to handle edge cases in reporting.
sv_info_list_cbq_size = gnss_cb_->sv_info_list_cbq_.size();
int sv_info_list_cbq_size = gnss_cb_->sv_info_list_cbq_.size();
EXPECT_GE(sv_info_list_cbq_size + 1, kLocationsToAwait);
ALOGD("Observed %d GnssSvStatus, while awaiting %d Locations", sv_info_list_cbq_size,
kLocationsToAwait);
const int kGnssSvStatusTimeout = 2;
for (int i = 0; i < sv_info_list_cbq_size; ++i) {
hidl_vec<IGnssCallback_2_0::GnssSvInfo> sv_info_list;
gnss_cb_->sv_info_list_cbq_.retrieve(sv_info_list, kGnssSvStatusTimeout);
for (IGnssCallback_2_0::GnssSvInfo sv_info : sv_info_list) {
auto constellation = MapConstellationType(sv_info.constellation);
auto constellation = Utils::mapConstellationType(sv_info.constellation);
EXPECT_FALSE((constellation == source_to_blacklist.constellation) &&
(sv_info.v1_0.svFlag & IGnssCallback::GnssSvFlags::USED_IN_FIX));
}
}
// clean up
StopAndClearLocations();
sources.resize(0);
result = gnss_configuration_hal->setBlacklist(sources);
ASSERT_TRUE(result.isOk());
EXPECT_TRUE(result);
}
/*
* BlacklistConstellationWithLocationOn:
*
* 1) Turns on location, waits for 3 locations, ensuring they are valid, and checks corresponding
* GnssStatus for any non-GPS constellations.
* 2a & b) Blacklist first non-GPS constellations, and turns off location.
* 3) Restart location, wait for 3 locations, ensuring they are valid, and checks corresponding
* GnssStatus does not use any constellation but GPS.
* 4a & b) Clean up by turning off location, and send in empty blacklist.
*/
TEST_P(GnssHalTest, BlacklistConstellationWithLocationOn) {
if (!IsGnssHalVersion_2_0()) {
ALOGI("Test BlacklistConstellation skipped. GNSS HAL version is greater than 2.0.");
return;
}
if (!(gnss_cb_->last_capabilities_ & IGnssCallback::Capabilities::SATELLITE_BLACKLIST)) {
ALOGI("Test BlacklistConstellation skipped. SATELLITE_BLACKLIST capability not supported.");
return;
}
const int kLocationsToAwait = 3;
// Find first non-GPS constellation to blacklist
GnssConstellationType_1_0 constellation_to_blacklist = startLocationAndGetNonGpsConstellation();
IGnssConfiguration_1_1::BlacklistedSource source_to_blacklist;
source_to_blacklist.constellation = constellation_to_blacklist;
source_to_blacklist.svid = 0; // documented wildcard for all satellites in this constellation
auto gnss_configuration_hal_return = gnss_hal_->getExtensionGnssConfiguration_1_1();
ASSERT_TRUE(gnss_configuration_hal_return.isOk());
sp<IGnssConfiguration_1_1> gnss_configuration_hal = gnss_configuration_hal_return;
ASSERT_NE(gnss_configuration_hal, nullptr);
hidl_vec<IGnssConfiguration_1_1::BlacklistedSource> sources;
sources.resize(1);
sources[0] = source_to_blacklist;
// setBlacklist when location is on.
auto result = gnss_configuration_hal->setBlacklist(sources);
ASSERT_TRUE(result.isOk());
EXPECT_TRUE(result);
// Turns off location
StopAndClearLocations();
// retry and ensure constellation not used
gnss_cb_->sv_info_list_cbq_.reset();
gnss_cb_->location_cbq_.reset();
StartAndCheckLocations(kLocationsToAwait);
// Tolerate 1 less sv status to handle edge cases in reporting.
int sv_info_list_cbq_size = gnss_cb_->sv_info_list_cbq_.size();
EXPECT_GE(sv_info_list_cbq_size + 1, kLocationsToAwait);
ALOGD("Observed %d GnssSvStatus, while awaiting %d Locations", sv_info_list_cbq_size,
kLocationsToAwait);
const int kGnssSvStatusTimeout = 2;
for (int i = 0; i < sv_info_list_cbq_size; ++i) {
hidl_vec<IGnssCallback_2_0::GnssSvInfo> sv_info_list;
gnss_cb_->sv_info_list_cbq_.retrieve(sv_info_list, kGnssSvStatusTimeout);
for (IGnssCallback_2_0::GnssSvInfo sv_info : sv_info_list) {
auto constellation = Utils::mapConstellationType(sv_info.constellation);
EXPECT_FALSE((constellation == source_to_blacklist.constellation) &&
(sv_info.v1_0.svFlag & IGnssCallback::GnssSvFlags::USED_IN_FIX));
}

1
gnss/common/utils/vts/Android.bp
View File

@@ -29,6 +29,7 @@ cc_library_static {
export_include_dirs: ["include"],
shared_libs: [
"android.hardware.gnss@1.0",
"android.hardware.gnss@2.0",
"android.hardware.gnss.measurement_corrections@1.0",
"android.hardware.gnss.measurement_corrections@1.1",
],

25
gnss/common/utils/vts/Utils.cpp
View File

@@ -169,6 +169,31 @@ const MeasurementCorrections_1_1 Utils::getMockMeasurementCorrections_1_1() {
return mockCorrections_1_1;
}
/*
* MapConstellationType:
* Given a GnssConstellationType_2_0 type constellation, maps to its equivalent
* GnssConstellationType_1_0 type constellation. For constellations that do not have
* an equivalent value, maps to GnssConstellationType_1_0::UNKNOWN
*/
GnssConstellationType_1_0 Utils::mapConstellationType(GnssConstellationType_2_0 constellation) {
switch (constellation) {
case GnssConstellationType_2_0::GPS:
return GnssConstellationType_1_0::GPS;
case GnssConstellationType_2_0::SBAS:
return GnssConstellationType_1_0::SBAS;
case GnssConstellationType_2_0::GLONASS:
return GnssConstellationType_1_0::GLONASS;
case GnssConstellationType_2_0::QZSS:
return GnssConstellationType_1_0::QZSS;
case GnssConstellationType_2_0::BEIDOU:
return GnssConstellationType_1_0::BEIDOU;
case GnssConstellationType_2_0::GALILEO:
return GnssConstellationType_1_0::GALILEO;
default:
return GnssConstellationType_1_0::UNKNOWN;
}
}
} // namespace common
} // namespace gnss
} // namespace hardware

5
gnss/common/utils/vts/include/Utils.h
View File

@@ -18,9 +18,12 @@
#define android_hardware_gnss_common_vts_Utils_H_
#include <android/hardware/gnss/1.0/IGnss.h>
#include <android/hardware/gnss/2.0/IGnss.h>
#include <android/hardware/gnss/measurement_corrections/1.0/IMeasurementCorrections.h>
#include <android/hardware/gnss/measurement_corrections/1.1/IMeasurementCorrections.h>
using GnssConstellationType_1_0 = android::hardware::gnss::V1_0::GnssConstellationType;
using GnssConstellationType_2_0 = android::hardware::gnss::V2_0::GnssConstellationType;
using GnssLocation = ::android::hardware::gnss::V1_0::GnssLocation;
using namespace android::hardware::gnss::measurement_corrections::V1_0;
@@ -44,6 +47,8 @@ struct Utils {
bool check_more_accuracies);
static const MeasurementCorrections_1_0 getMockMeasurementCorrections();
static const MeasurementCorrections_1_1 getMockMeasurementCorrections_1_1();
static GnssConstellationType_1_0 mapConstellationType(GnssConstellationType_2_0 constellation);
};
} // namespace common