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android / platform / frameworks / base.git / refs/heads/main / . / tools / aapt2 / configuration / ConfigurationParser_test.cpp
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/*
* Copyright (C) 2017 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.
*/
#include "configuration/ConfigurationParser.h"
#include <string>
#include "android-base/stringprintf.h"
#include "androidfw/ResourceTypes.h"
#include "SdkConstants.h"
#include "configuration/ConfigurationParser.internal.h"
#include "test/Test.h"
#include "xml/XmlDom.h"
using ::android::ConfigDescription;
namespace aapt {
namespace configuration {
bool operator==(const ConfiguredArtifact& lhs, const ConfiguredArtifact& rhs) {
return lhs.name == rhs.name && lhs.abi_group == rhs.abi_group &&
lhs.screen_density_group == rhs.screen_density_group &&
lhs.locale_group == rhs.locale_group && lhs.android_sdk == rhs.android_sdk &&
lhs.device_feature_group == rhs.device_feature_group &&
lhs.gl_texture_group == rhs.gl_texture_group;
}
namespace handler {
namespace {
using ::aapt::configuration::Abi;
using ::aapt::configuration::AndroidManifest;
using ::aapt::configuration::AndroidSdk;
using ::aapt::configuration::ConfiguredArtifact;
using ::aapt::configuration::DeviceFeature;
using ::aapt::configuration::ExtractConfiguration;
using ::aapt::configuration::GlTexture;
using ::aapt::configuration::Locale;
using ::aapt::configuration::PostProcessingConfiguration;
using ::aapt::xml::Element;
using ::aapt::xml::NodeCast;
using ::android::ResTable_config;
using ::android::base::StringPrintf;
using ::testing::ElementsAre;
using ::testing::Eq;
using ::testing::SizeIs;
using ::testing::StrEq;
constexpr const char* kValidConfig = R"(<?xml version="1.0" encoding="utf-8" ?>
<post-process xmlns="http://schemas.android.com/tools/aapt">
<abi-groups>
<abi-group label="other" version-code-order="2">
<abi>x86</abi>
<abi>mips</abi>
</abi-group>
<abi-group label="arm" version-code-order="1">
<abi>armeabi-v7a</abi>
<abi>arm64-v8a</abi>
</abi-group>
</abi-groups>
<screen-density-groups>
<screen-density-group label="large" version-code-order="2">
<screen-density>xhdpi</screen-density>
<screen-density>xxhdpi</screen-density>
<screen-density>xxxhdpi</screen-density>
</screen-density-group>
<screen-density-group label="alldpi" version-code-order="1">
<screen-density>ldpi</screen-density>
<screen-density>mdpi</screen-density>
<screen-density>hdpi</screen-density>
<screen-density>xhdpi</screen-density>
<screen-density>xxhdpi</screen-density>
<screen-density>xxxhdpi</screen-density>
</screen-density-group>
</screen-density-groups>
<locale-groups>
<locale-group label="europe" version-code-order="1">
<locale>en</locale>
<locale>es</locale>
<locale>fr</locale>
<locale>de</locale>
</locale-group>
<locale-group label="north-america" version-code-order="2">
<locale>en</locale>
<locale>es-rMX</locale>
<locale>fr-rCA</locale>
</locale-group>
<locale-group label="all" version-code-order="-1">
<locale />
</locale-group>
</locale-groups>
<android-sdks>
<android-sdk
label="v19"
minSdkVersion="19"
targetSdkVersion="24"
maxSdkVersion="25">
<manifest>
<!--- manifest additions here XSLT? TODO -->
</manifest>
</android-sdk>
</android-sdks>
<gl-texture-groups>
<gl-texture-group label="dxt1" version-code-order="2">
<gl-texture name="GL_EXT_texture_compression_dxt1">
<texture-path>assets/dxt1/*</texture-path>
</gl-texture>
</gl-texture-group>
</gl-texture-groups>
<device-feature-groups>
<device-feature-group label="low-latency" version-code-order="2">
<supports-feature>android.hardware.audio.low_latency</supports-feature>
</device-feature-group>
</device-feature-groups>
<artifacts>
<artifact-format>
${base}.${abi}.${screen-density}.${locale}.${sdk}.${gl}.${feature}.release
</artifact-format>
<artifact
name="art1"
abi-group="arm"
screen-density-group="large"
locale-group="europe"
android-sdk="v19"
gl-texture-group="dxt1"
device-feature-group="low-latency"/>
<artifact
name="art2"
abi-group="other"
screen-density-group="alldpi"
locale-group="north-america"
android-sdk="v19"
gl-texture-group="dxt1"
device-feature-group="low-latency"/>
</artifacts>
</post-process>
)";
class ConfigurationParserTest : public ConfigurationParser, public ::testing::Test {
public:
ConfigurationParserTest() : ConfigurationParser("", "config.xml") {
}
protected:
StdErrDiagnostics diag_;
};
TEST_F(ConfigurationParserTest, ForPath_NoFile) {
auto result = ConfigurationParser::ForPath("./does_not_exist.xml");
EXPECT_FALSE(result);
}
TEST_F(ConfigurationParserTest, ExtractConfiguration) {
std::optional<PostProcessingConfiguration> maybe_config =
ExtractConfiguration(kValidConfig, "fake.xml", &diag_);
PostProcessingConfiguration config = maybe_config.value();
auto& arm = config.abi_groups["arm"];
auto& other = config.abi_groups["other"];
EXPECT_EQ(arm.order, 1);
EXPECT_EQ(other.order, 2);
auto& large = config.screen_density_groups["large"];
auto& alldpi = config.screen_density_groups["alldpi"];
EXPECT_EQ(large.order, 2);
EXPECT_EQ(alldpi.order, 1);
auto& north_america = config.locale_groups["north-america"];
auto& europe = config.locale_groups["europe"];
auto& all = config.locale_groups["all"];
// Checked in reverse to make sure access order does not matter.
EXPECT_EQ(north_america.order, 2);
EXPECT_EQ(europe.order, 1);
EXPECT_EQ(all.order, -1);
EXPECT_EQ(3ul, config.locale_groups.size());
}
TEST_F(ConfigurationParserTest, ValidateFile) {
auto parser = ConfigurationParser::ForContents(kValidConfig, "conf.xml").WithDiagnostics(&diag_);
auto result = parser.Parse("test.apk");
ASSERT_TRUE(result);
const std::vector<OutputArtifact>& value = result.value();
EXPECT_THAT(value, SizeIs(2ul));
const OutputArtifact& a1 = value[0];
EXPECT_EQ(a1.name, "art1.apk");
EXPECT_EQ(a1.version, 1);
EXPECT_THAT(a1.abis, ElementsAre(Abi::kArmV7a, Abi::kArm64V8a));
EXPECT_THAT(a1.screen_densities,
ElementsAre(test::ParseConfigOrDie("xhdpi").CopyWithoutSdkVersion(),
test::ParseConfigOrDie("xxhdpi").CopyWithoutSdkVersion(),
test::ParseConfigOrDie("xxxhdpi").CopyWithoutSdkVersion()));
EXPECT_THAT(a1.locales, ElementsAre(test::ParseConfigOrDie("en"), test::ParseConfigOrDie("es"),
test::ParseConfigOrDie("fr"), test::ParseConfigOrDie("de")));
ASSERT_TRUE(a1.android_sdk);
ASSERT_TRUE(a1.android_sdk.value().min_sdk_version);
EXPECT_EQ(a1.android_sdk.value().min_sdk_version, 19L);
EXPECT_THAT(a1.textures, SizeIs(1ul));
EXPECT_THAT(a1.features, SizeIs(1ul));
const OutputArtifact& a2 = value[1];
EXPECT_EQ(a2.name, "art2.apk");
EXPECT_EQ(a2.version, 2);
EXPECT_THAT(a2.abis, ElementsAre(Abi::kX86, Abi::kMips));
EXPECT_THAT(a2.screen_densities,
ElementsAre(test::ParseConfigOrDie("ldpi").CopyWithoutSdkVersion(),
test::ParseConfigOrDie("mdpi").CopyWithoutSdkVersion(),
test::ParseConfigOrDie("hdpi").CopyWithoutSdkVersion(),
test::ParseConfigOrDie("xhdpi").CopyWithoutSdkVersion(),
test::ParseConfigOrDie("xxhdpi").CopyWithoutSdkVersion(),
test::ParseConfigOrDie("xxxhdpi").CopyWithoutSdkVersion()));
EXPECT_THAT(a2.locales,
ElementsAre(test::ParseConfigOrDie("en"), test::ParseConfigOrDie("es-rMX"),
test::ParseConfigOrDie("fr-rCA")));
ASSERT_TRUE(a2.android_sdk);
ASSERT_TRUE(a2.android_sdk.value().min_sdk_version);
EXPECT_EQ(a2.android_sdk.value().min_sdk_version, 19L);
EXPECT_THAT(a2.textures, SizeIs(1ul));
EXPECT_THAT(a2.features, SizeIs(1ul));
}
TEST_F(ConfigurationParserTest, ConfiguredArtifactOrdering) {
// Create a base builder with the configuration groups but no artifacts to allow it to be copied.
test::PostProcessingConfigurationBuilder base_builder = test::PostProcessingConfigurationBuilder()
.AddAbiGroup("arm")
.AddAbiGroup("arm64")
.AddAndroidSdk("v23", 23)
.AddAndroidSdk("v19", 19);
{
// Test version ordering.
ConfiguredArtifact v23;
v23.android_sdk = {"v23"};
ConfiguredArtifact v19;
v19.android_sdk = {"v19"};
test::PostProcessingConfigurationBuilder builder = base_builder;
PostProcessingConfiguration config = builder.AddArtifact(v23).AddArtifact(v19).Build();
config.SortArtifacts();
ASSERT_THAT(config.artifacts, SizeIs(2));
EXPECT_THAT(config.artifacts[0], Eq(v19));
EXPECT_THAT(config.artifacts[1], Eq(v23));
}
{
// Test ABI ordering.
ConfiguredArtifact arm;
arm.android_sdk = {"v19"};
arm.abi_group = {"arm"};
ConfiguredArtifact arm64;
arm64.android_sdk = {"v19"};
arm64.abi_group = {"arm64"};
test::PostProcessingConfigurationBuilder builder = base_builder;
PostProcessingConfiguration config = builder.AddArtifact(arm64).AddArtifact(arm).Build();
config.SortArtifacts();
ASSERT_THAT(config.artifacts, SizeIs(2));
EXPECT_THAT(config.artifacts[0], Eq(arm));
EXPECT_THAT(config.artifacts[1], Eq(arm64));
}
{
// Test Android SDK has precedence over ABI.
ConfiguredArtifact arm;
arm.android_sdk = {"v23"};
arm.abi_group = {"arm"};
ConfiguredArtifact arm64;
arm64.android_sdk = {"v19"};
arm64.abi_group = {"arm64"};
test::PostProcessingConfigurationBuilder builder = base_builder;
PostProcessingConfiguration config = builder.AddArtifact(arm64).AddArtifact(arm).Build();
config.SortArtifacts();
ASSERT_THAT(config.artifacts, SizeIs(2));
EXPECT_THAT(config.artifacts[0], Eq(arm64));
EXPECT_THAT(config.artifacts[1], Eq(arm));
}
{
// Test version is better than ABI.
ConfiguredArtifact arm;
arm.abi_group = {"arm"};
ConfiguredArtifact v19;
v19.android_sdk = {"v19"};
test::PostProcessingConfigurationBuilder builder = base_builder;
PostProcessingConfiguration config = builder.AddArtifact(v19).AddArtifact(arm).Build();
config.SortArtifacts();
ASSERT_THAT(config.artifacts, SizeIs(2));
EXPECT_THAT(config.artifacts[0], Eq(arm));
EXPECT_THAT(config.artifacts[1], Eq(v19));
}
{
// Test version is sorted higher than no version.
ConfiguredArtifact arm;
arm.abi_group = {"arm"};
ConfiguredArtifact v19;
v19.abi_group = {"arm"};
v19.android_sdk = {"v19"};
test::PostProcessingConfigurationBuilder builder = base_builder;
PostProcessingConfiguration config = builder.AddArtifact(v19).AddArtifact(arm).Build();
config.SortArtifacts();
ASSERT_THAT(config.artifacts, SizeIs(2));
EXPECT_THAT(config.artifacts[0], Eq(arm));
EXPECT_THAT(config.artifacts[1], Eq(v19));
}
}
TEST_F(ConfigurationParserTest, InvalidNamespace) {
constexpr const char* invalid_ns = R"(<?xml version="1.0" encoding="utf-8" ?>
<post-process xmlns="http://schemas.android.com/tools/another-unknown-tool" />)";
auto result = ConfigurationParser::ForContents(invalid_ns, "config.xml").Parse("test.apk");
ASSERT_FALSE(result);
}
TEST_F(ConfigurationParserTest, ArtifactAction) {
PostProcessingConfiguration config;
const auto doc = test::BuildXmlDom(R"xml(
<artifact
abi-group="arm"
screen-density-group="large"
locale-group="europe"
android-sdk="v19"
gl-texture-group="dxt1"
device-feature-group="low-latency"/>)xml");
ASSERT_TRUE(ArtifactTagHandler(&config, NodeCast<Element>(doc->root.get()), &diag_));
EXPECT_THAT(config.artifacts, SizeIs(1ul));
auto& artifact = config.artifacts.back();
EXPECT_FALSE(artifact.name); // TODO: make this fail.
EXPECT_EQ("arm", artifact.abi_group.value());
EXPECT_EQ("large", artifact.screen_density_group.value());
EXPECT_EQ("europe", artifact.locale_group.value());
EXPECT_EQ("v19", artifact.android_sdk.value());
EXPECT_EQ("dxt1", artifact.gl_texture_group.value());
EXPECT_EQ("low-latency", artifact.device_feature_group.value());
}
TEST_F(ConfigurationParserTest, ArtifactFormatAction) {
const auto doc = test::BuildXmlDom(R"xml(
<artifact-format>
${base}.${abi}.${screen-density}.${locale}.${sdk}.${gl}.${feature}.release
</artifact-format>)xml");
PostProcessingConfiguration config;
bool ok = ArtifactFormatTagHandler(&config, NodeCast<Element>(doc.get()->root.get()), &diag_);
ASSERT_TRUE(ok);
ASSERT_TRUE(config.artifact_format);
EXPECT_EQ(
"${base}.${abi}.${screen-density}.${locale}.${sdk}.${gl}.${feature}.release",
static_cast<std::string>(config.artifact_format.value())
);
}
TEST_F(ConfigurationParserTest, AbiGroupAction) {
static constexpr const char* xml = R"xml(
<abi-group label="arm" version-code-order="2">
<!-- First comment. -->
<abi>
armeabi-v7a
</abi>
<!-- Another comment. -->
<abi>arm64-v8a</abi>
</abi-group>)xml";
auto doc = test::BuildXmlDom(xml);
PostProcessingConfiguration config;
bool ok = AbiGroupTagHandler(&config, NodeCast<Element>(doc.get()->root.get()), &diag_);
ASSERT_TRUE(ok);
EXPECT_THAT(config.abi_groups, SizeIs(1ul));
ASSERT_EQ(1u, config.abi_groups.count("arm"));
auto& out = config.abi_groups["arm"].entry;
ASSERT_THAT(out, ElementsAre(Abi::kArmV7a, Abi::kArm64V8a));
}
TEST_F(ConfigurationParserTest, AbiGroupAction_EmptyGroup) {
static constexpr const char* xml =
R"xml(<abi-group label="arm64-v8a" version-code-order="3"/>)xml";
auto doc = test::BuildXmlDom(xml);
PostProcessingConfiguration config;
bool ok = AbiGroupTagHandler(&config, NodeCast<Element>(doc.get()->root.get()), &diag_);
ASSERT_TRUE(ok);
EXPECT_THAT(config.abi_groups, SizeIs(1ul));
ASSERT_EQ(1u, config.abi_groups.count("arm64-v8a"));
auto& out = config.abi_groups["arm64-v8a"];
ASSERT_THAT(out.entry, ElementsAre(Abi::kArm64V8a));
EXPECT_EQ(3, out.order);
}
TEST_F(ConfigurationParserTest, AbiGroupAction_EmptyGroup_NoOrder) {
static constexpr const char* xml = R"xml(<abi-group label="arm64-v8a"/>)xml";
auto doc = test::BuildXmlDom(xml);
PostProcessingConfiguration config;
bool ok = AbiGroupTagHandler(&config, NodeCast<Element>(doc.get()->root.get()), &diag_);
ASSERT_FALSE(ok);
}
TEST_F(ConfigurationParserTest, AbiGroupAction_InvalidEmptyGroup) {
static constexpr const char* xml = R"xml(<abi-group label="arm" order="2"/>)xml";
auto doc = test::BuildXmlDom(xml);
PostProcessingConfiguration config;
bool ok = AbiGroupTagHandler(&config, NodeCast<Element>(doc.get()->root.get()), &diag_);
ASSERT_FALSE(ok);
}
TEST_F(ConfigurationParserTest, ScreenDensityGroupAction) {
static constexpr const char* xml = R"xml(
<screen-density-group label="large" version-code-order="2">
<screen-density>xhdpi</screen-density>
<screen-density>
xxhdpi
</screen-density>
<screen-density>xxxhdpi</screen-density>
</screen-density-group>)xml";
auto doc = test::BuildXmlDom(xml);
PostProcessingConfiguration config;
bool ok = ScreenDensityGroupTagHandler(&config, NodeCast<Element>(doc.get()->root.get()), &diag_);
ASSERT_TRUE(ok);
EXPECT_THAT(config.screen_density_groups, SizeIs(1ul));
ASSERT_EQ(1u, config.screen_density_groups.count("large"));
ConfigDescription xhdpi;
xhdpi.density = ResTable_config::DENSITY_XHIGH;
ConfigDescription xxhdpi;
xxhdpi.density = ResTable_config::DENSITY_XXHIGH;
ConfigDescription xxxhdpi;
xxxhdpi.density = ResTable_config::DENSITY_XXXHIGH;
auto& out = config.screen_density_groups["large"].entry;
ASSERT_THAT(out, ElementsAre(xhdpi, xxhdpi, xxxhdpi));
}
TEST_F(ConfigurationParserTest, ScreenDensityGroupAction_EmtpyGroup) {
static constexpr const char* xml =
R"xml(<screen-density-group label="xhdpi" version-code-order="4"/>)xml";
auto doc = test::BuildXmlDom(xml);
PostProcessingConfiguration config;
bool ok = ScreenDensityGroupTagHandler(&config, NodeCast<Element>(doc.get()->root.get()), &diag_);
ASSERT_TRUE(ok);
EXPECT_THAT(config.screen_density_groups, SizeIs(1ul));
ASSERT_EQ(1u, config.screen_density_groups.count("xhdpi"));
ConfigDescription xhdpi;
xhdpi.density = ResTable_config::DENSITY_XHIGH;
auto& out = config.screen_density_groups["xhdpi"];
EXPECT_THAT(out.entry, ElementsAre(xhdpi));
EXPECT_EQ(4, out.order);
}
TEST_F(ConfigurationParserTest, ScreenDensityGroupAction_EmtpyGroup_NoVersion) {
static constexpr const char* xml = R"xml(<screen-density-group label="xhdpi"/>)xml";
auto doc = test::BuildXmlDom(xml);
PostProcessingConfiguration config;
bool ok = ScreenDensityGroupTagHandler(&config, NodeCast<Element>(doc.get()->root.get()), &diag_);
ASSERT_FALSE(ok);
}
TEST_F(ConfigurationParserTest, ScreenDensityGroupAction_InvalidEmtpyGroup) {
static constexpr const char* xml = R"xml(<screen-density-group label="really-big-screen"/>)xml";
auto doc = test::BuildXmlDom(xml);
PostProcessingConfiguration config;
bool ok = ScreenDensityGroupTagHandler(&config, NodeCast<Element>(doc.get()->root.get()), &diag_);
ASSERT_FALSE(ok);
}
TEST_F(ConfigurationParserTest, LocaleGroupAction) {
static constexpr const char* xml = R"xml(
<locale-group label="europe" version-code-order="2">
<locale>en</locale>
<locale>es</locale>
<locale>fr</locale>
<locale>de</locale>
</locale-group>)xml";
auto doc = test::BuildXmlDom(xml);
PostProcessingConfiguration config;
bool ok = LocaleGroupTagHandler(&config, NodeCast<Element>(doc.get()->root.get()), &diag_);
ASSERT_TRUE(ok);
ASSERT_EQ(1ul, config.locale_groups.size());
ASSERT_EQ(1u, config.locale_groups.count("europe"));
const auto& out = config.locale_groups["europe"].entry;
ConfigDescription en = test::ParseConfigOrDie("en");
ConfigDescription es = test::ParseConfigOrDie("es");
ConfigDescription fr = test::ParseConfigOrDie("fr");
ConfigDescription de = test::ParseConfigOrDie("de");
ASSERT_THAT(out, ElementsAre(en, es, fr, de));
}
TEST_F(ConfigurationParserTest, LocaleGroupAction_EmtpyGroup) {
static constexpr const char* xml = R"xml(<locale-group label="en" version-code-order="6"/>)xml";
auto doc = test::BuildXmlDom(xml);
PostProcessingConfiguration config;
bool ok = LocaleGroupTagHandler(&config, NodeCast<Element>(doc.get()->root.get()), &diag_);
ASSERT_TRUE(ok);
ASSERT_EQ(1ul, config.locale_groups.size());
ASSERT_EQ(1u, config.locale_groups.count("en"));
const auto& out = config.locale_groups["en"];
ConfigDescription en = test::ParseConfigOrDie("en");
EXPECT_THAT(out.entry, ElementsAre(en));
EXPECT_EQ(6, out.order);
}
TEST_F(ConfigurationParserTest, LocaleGroupAction_EmtpyGroup_NoOrder) {
static constexpr const char* xml = R"xml(<locale-group label="en"/>)xml";
auto doc = test::BuildXmlDom(xml);
PostProcessingConfiguration config;
bool ok = LocaleGroupTagHandler(&config, NodeCast<Element>(doc.get()->root.get()), &diag_);
ASSERT_FALSE(ok);
}
TEST_F(ConfigurationParserTest, LocaleGroupAction_InvalidEmtpyGroup) {
static constexpr const char* xml = R"xml(<locale-group label="arm64"/>)xml";
auto doc = test::BuildXmlDom(xml);
PostProcessingConfiguration config;
bool ok = LocaleGroupTagHandler(&config, NodeCast<Element>(doc.get()->root.get()), &diag_);
ASSERT_FALSE(ok);
}
TEST_F(ConfigurationParserTest, AndroidSdkGroupAction) {
static constexpr const char* xml = R"xml(
<android-sdk label="v19"
minSdkVersion="19"
targetSdkVersion="24"
maxSdkVersion="25">
<manifest>
<!--- manifest additions here XSLT? TODO -->
</manifest>
</android-sdk>)xml";
auto doc = test::BuildXmlDom(xml);
PostProcessingConfiguration config;
bool ok = AndroidSdkTagHandler(&config, NodeCast<Element>(doc.get()->root.get()), &diag_);
ASSERT_TRUE(ok);
ASSERT_EQ(1ul, config.android_sdks.size());
ASSERT_EQ(1u, config.android_sdks.count("v19"));
auto& out = config.android_sdks["v19"];
AndroidSdk sdk;
sdk.min_sdk_version = 19;
sdk.target_sdk_version = 24;
sdk.max_sdk_version = 25;
sdk.manifest = AndroidManifest();
ASSERT_EQ(sdk, out);
}
TEST_F(ConfigurationParserTest, AndroidSdkGroupAction_SingleVersion) {
{
const char* xml = "<android-sdk label='v19' minSdkVersion='19'></android-sdk>";
auto doc = test::BuildXmlDom(xml);
PostProcessingConfiguration config;
bool ok = AndroidSdkTagHandler(&config, NodeCast<Element>(doc.get()->root.get()), &diag_);
ASSERT_TRUE(ok);
ASSERT_EQ(1ul, config.android_sdks.size());
ASSERT_EQ(1u, config.android_sdks.count("v19"));
auto& out = config.android_sdks["v19"];
EXPECT_EQ(19, out.min_sdk_version);
EXPECT_FALSE(out.max_sdk_version);
EXPECT_FALSE(out.target_sdk_version);
}
{
const char* xml =
"<android-sdk label='v19' minSdkVersion='19' maxSdkVersion='19'></android-sdk>";
auto doc = test::BuildXmlDom(xml);
PostProcessingConfiguration config;
bool ok = AndroidSdkTagHandler(&config, NodeCast<Element>(doc.get()->root.get()), &diag_);
ASSERT_TRUE(ok);
ASSERT_EQ(1ul, config.android_sdks.size());
ASSERT_EQ(1u, config.android_sdks.count("v19"));
auto& out = config.android_sdks["v19"];
EXPECT_EQ(19, out.max_sdk_version.value());
EXPECT_EQ(19, out.min_sdk_version);
EXPECT_FALSE(out.target_sdk_version);
}
{
const char* xml =
"<android-sdk label='v19' minSdkVersion='19' targetSdkVersion='19'></android-sdk>";
auto doc = test::BuildXmlDom(xml);
PostProcessingConfiguration config;
bool ok = AndroidSdkTagHandler(&config, NodeCast<Element>(doc.get()->root.get()), &diag_);
ASSERT_TRUE(ok);
ASSERT_EQ(1ul, config.android_sdks.size());
ASSERT_EQ(1u, config.android_sdks.count("v19"));
auto& out = config.android_sdks["v19"];
EXPECT_EQ(19, out.target_sdk_version.value());
EXPECT_EQ(19, out.min_sdk_version);
EXPECT_FALSE(out.max_sdk_version);
}
}
TEST_F(ConfigurationParserTest, AndroidSdkGroupAction_InvalidVersion) {
static constexpr const char* xml = R"xml(
<android-sdk
label="v19"
minSdkVersion="v19"
targetSdkVersion="v24"
maxSdkVersion="v25">
<manifest>
<!--- manifest additions here XSLT? TODO -->
</manifest>
</android-sdk>)xml";
auto doc = test::BuildXmlDom(xml);
PostProcessingConfiguration config;
bool ok = AndroidSdkTagHandler(&config, NodeCast<Element>(doc.get()->root.get()), &diag_);
ASSERT_FALSE(ok);
}
TEST_F(ConfigurationParserTest, AndroidSdkGroupAction_NonNumeric) {
auto doc = test::BuildXmlDom(R"xml(
<android-sdk
label="Q"
minSdkVersion="25"
targetSdkVersion="Q"
maxSdkVersion="Q">
</android-sdk>)xml");
PostProcessingConfiguration config;
ASSERT_TRUE(AndroidSdkTagHandler(&config, NodeCast<Element>(doc.get()->root.get()), &diag_));
ASSERT_EQ(1ul, config.android_sdks.size());
ASSERT_EQ(1u, config.android_sdks.count("Q"));
AndroidSdk sdk;
sdk.min_sdk_version = 25;
sdk.target_sdk_version = 10000;
sdk.max_sdk_version = 10000;
ASSERT_EQ(sdk, config.android_sdks["Q"]);
}
TEST_F(ConfigurationParserTest, GlTextureGroupAction) {
static constexpr const char* xml = R"xml(
<gl-texture-group label="dxt1" version-code-order="2">
<gl-texture name="GL_EXT_texture_compression_dxt1">
<texture-path>assets/dxt1/main/*</texture-path>
<texture-path>
assets/dxt1/test/*
</texture-path>
</gl-texture>
</gl-texture-group>)xml";
auto doc = test::BuildXmlDom(xml);
PostProcessingConfiguration config;
bool ok = GlTextureGroupTagHandler(&config, NodeCast<Element>(doc.get()->root.get()), &diag_);
ASSERT_TRUE(ok);
EXPECT_THAT(config.gl_texture_groups, SizeIs(1ul));
ASSERT_EQ(1u, config.gl_texture_groups.count("dxt1"));
auto& out = config.gl_texture_groups["dxt1"].entry;
GlTexture texture{
std::string("GL_EXT_texture_compression_dxt1"),
{"assets/dxt1/main/*", "assets/dxt1/test/*"}
};
ASSERT_EQ(1ul, out.size());
ASSERT_EQ(texture, out[0]);
}
TEST_F(ConfigurationParserTest, DeviceFeatureGroupAction) {
static constexpr const char* xml = R"xml(
<device-feature-group label="low-latency" version-code-order="2">
<supports-feature>android.hardware.audio.low_latency</supports-feature>
<supports-feature>
android.hardware.audio.pro
</supports-feature>
</device-feature-group>)xml";
auto doc = test::BuildXmlDom(xml);
PostProcessingConfiguration config;
bool ok = DeviceFeatureGroupTagHandler(&config, NodeCast<Element>(doc.get()->root.get()), &diag_);
ASSERT_TRUE(ok);
EXPECT_THAT(config.device_feature_groups, SizeIs(1ul));
ASSERT_EQ(1u, config.device_feature_groups.count("low-latency"));
auto& out = config.device_feature_groups["low-latency"].entry;
DeviceFeature low_latency = "android.hardware.audio.low_latency";
DeviceFeature pro = "android.hardware.audio.pro";
ASSERT_THAT(out, ElementsAre(low_latency, pro));
}
TEST_F(ConfigurationParserTest, Group_Valid) {
Group<int32_t> group;
group["item1"].order = 1;
group["item2"].order = 2;
group["item3"].order = 3;
group["item4"].order = 4;
group["item5"].order = 5;
group["item6"].order = 6;
EXPECT_TRUE(IsGroupValid(group, "test", &diag_));
}
TEST_F(ConfigurationParserTest, Group_OverlappingOrder) {
Group<int32_t> group;
group["item1"].order = 1;
group["item2"].order = 2;
group["item3"].order = 3;
group["item4"].order = 2;
group["item5"].order = 5;
group["item6"].order = 1;
EXPECT_FALSE(IsGroupValid(group, "test", &diag_));
}
// Artifact name parser test cases.
TEST(ArtifactTest, Simple) {
StdErrDiagnostics diag;
ConfiguredArtifact x86;
x86.abi_group = {"x86"};
auto x86_result = x86.ToArtifactName("something.${abi}.apk", "", &diag);
ASSERT_TRUE(x86_result);
EXPECT_EQ(x86_result.value(), "something.x86.apk");
ConfiguredArtifact arm;
arm.abi_group = {"armeabi-v7a"};
{
auto arm_result = arm.ToArtifactName("app.${abi}.apk", "", &diag);
ASSERT_TRUE(arm_result);
EXPECT_EQ(arm_result.value(), "app.armeabi-v7a.apk");
}
{
auto arm_result = arm.ToArtifactName("app.${abi}.apk", "different_name.apk", &diag);
ASSERT_TRUE(arm_result);
EXPECT_EQ(arm_result.value(), "app.armeabi-v7a.apk");
}
{
auto arm_result = arm.ToArtifactName("${basename}.${abi}.apk", "app.apk", &diag);
ASSERT_TRUE(arm_result);
EXPECT_EQ(arm_result.value(), "app.armeabi-v7a.apk");
}
{
auto arm_result = arm.ToArtifactName("app.${abi}.${ext}", "app.apk", &diag);
ASSERT_TRUE(arm_result);
EXPECT_EQ(arm_result.value(), "app.armeabi-v7a.apk");
}
}
TEST(ArtifactTest, Complex) {
StdErrDiagnostics diag;
ConfiguredArtifact artifact;
artifact.abi_group = {"mips64"};
artifact.screen_density_group = {"ldpi"};
artifact.device_feature_group = {"df1"};
artifact.gl_texture_group = {"glx1"};
artifact.locale_group = {"en-AU"};
artifact.android_sdk = {"v26"};
{
auto result = artifact.ToArtifactName(
"app.${density}_${locale}_${feature}_${gl}.${sdk}.${abi}.apk", "", &diag);
ASSERT_TRUE(result);
EXPECT_EQ(result.value(), "app.ldpi_en-AU_df1_glx1.v26.mips64.apk");
}
{
auto result = artifact.ToArtifactName(
"app.${density}_${locale}_${feature}_${gl}.${sdk}.${abi}.apk", "app.apk", &diag);
ASSERT_TRUE(result);
EXPECT_EQ(result.value(), "app.ldpi_en-AU_df1_glx1.v26.mips64.apk");
}
{
auto result = artifact.ToArtifactName(
"${basename}.${density}_${locale}_${feature}_${gl}.${sdk}.${abi}.apk", "app.apk", &diag);
ASSERT_TRUE(result);
EXPECT_EQ(result.value(), "app.ldpi_en-AU_df1_glx1.v26.mips64.apk");
}
{
auto result = artifact.ToArtifactName(
"app.${density}_${locale}_${feature}_${gl}.${sdk}.${abi}.${ext}", "app.apk", &diag);
ASSERT_TRUE(result);
EXPECT_EQ(result.value(), "app.ldpi_en-AU_df1_glx1.v26.mips64.apk");
}
{
auto result = artifact.ToArtifactName(
"${basename}.${density}_${locale}_${feature}_${gl}.${sdk}.${abi}", "app.apk", &diag);
ASSERT_TRUE(result);
EXPECT_EQ(result.value(), "app.ldpi_en-AU_df1_glx1.v26.mips64.apk");
}
}
TEST(ArtifactTest, Missing) {
StdErrDiagnostics diag;
ConfiguredArtifact x86;
x86.abi_group = {"x86"};
EXPECT_FALSE(x86.ToArtifactName("something.${density}.apk", "", &diag));
EXPECT_FALSE(x86.ToArtifactName("something.apk", "", &diag));
EXPECT_FALSE(x86.ToArtifactName("something.${density}.apk", "something.apk", &diag));
EXPECT_FALSE(x86.ToArtifactName("something.apk", "something.apk", &diag));
}
TEST(ArtifactTest, Empty) {
StdErrDiagnostics diag;
ConfiguredArtifact artifact;
EXPECT_FALSE(artifact.ToArtifactName("something.${density}.apk", "", &diag));
EXPECT_TRUE(artifact.ToArtifactName("something.apk", "", &diag));
EXPECT_FALSE(artifact.ToArtifactName("something.${density}.apk", "something.apk", &diag));
EXPECT_TRUE(artifact.ToArtifactName("something.apk", "something.apk", &diag));
}
TEST(ArtifactTest, Repeated) {
StdErrDiagnostics diag;
ConfiguredArtifact artifact;
artifact.screen_density_group = {"mdpi"};
ASSERT_TRUE(artifact.ToArtifactName("something.${density}.apk", "", &diag));
EXPECT_FALSE(artifact.ToArtifactName("something.${density}.${density}.apk", "", &diag));
ASSERT_TRUE(artifact.ToArtifactName("something.${density}.apk", "something.apk", &diag));
}
TEST(ArtifactTest, Nesting) {
StdErrDiagnostics diag;
ConfiguredArtifact x86;
x86.abi_group = {"x86"};
EXPECT_FALSE(x86.ToArtifactName("something.${abi${density}}.apk", "", &diag));
const std::optional<std::string>& name =
x86.ToArtifactName("something.${abi${abi}}.apk", "", &diag);
ASSERT_TRUE(name);
EXPECT_EQ(name.value(), "something.${abix86}.apk");
}
TEST(ArtifactTest, Recursive) {
StdErrDiagnostics diag;
ConfiguredArtifact artifact;
artifact.device_feature_group = {"${gl}"};
artifact.gl_texture_group = {"glx1"};
EXPECT_FALSE(artifact.ToArtifactName("app.${feature}.${gl}.apk", "", &diag));
artifact.device_feature_group = {"df1"};
artifact.gl_texture_group = {"${feature}"};
{
const auto& result = artifact.ToArtifactName("app.${feature}.${gl}.apk", "", &diag);
ASSERT_TRUE(result);
EXPECT_EQ(result.value(), "app.df1.${feature}.apk");
}
// This is an invalid case, but should be the only possible case due to the ordering of
// replacement.
artifact.device_feature_group = {"${gl}"};
artifact.gl_texture_group = {"glx1"};
{
const auto& result = artifact.ToArtifactName("app.${feature}.apk", "", &diag);
ASSERT_TRUE(result);
EXPECT_EQ(result.value(), "app.glx1.apk");
}
}
} // namespace
} // namespace handler
} // namespace configuration
} // namespace aapt