EthernetTetheringTest: make some global variables static
Before making enableEthernetTethering a static function, make its
dependency variable static.
Bug: 254183718
Test: atest CtsTetheringTest
Change-Id: Id3781d67b3abc69b146fa704d4795bcfb2431a2a
diff --git a/Tethering/tests/integration/base/android/net/EthernetTetheringTestBase.java b/Tethering/tests/integration/base/android/net/EthernetTetheringTestBase.java
index 377da91..692a2dd 100644
--- a/Tethering/tests/integration/base/android/net/EthernetTetheringTestBase.java
+++ b/Tethering/tests/integration/base/android/net/EthernetTetheringTestBase.java
@@ -31,12 +31,14 @@
import static android.net.TetheringTester.isExpectedIcmpPacket;
import static android.net.TetheringTester.isExpectedTcpPacket;
import static android.net.TetheringTester.isExpectedUdpPacket;
+
import static com.android.net.module.util.HexDump.dumpHexString;
import static com.android.net.module.util.NetworkStackConstants.ICMPV6_ROUTER_ADVERTISEMENT;
import static com.android.net.module.util.NetworkStackConstants.TCPHDR_ACK;
import static com.android.net.module.util.NetworkStackConstants.TCPHDR_SYN;
import static com.android.testutils.TestNetworkTrackerKt.initTestNetwork;
import static com.android.testutils.TestPermissionUtil.runAsShell;
+
import static org.junit.Assert.assertEquals;
import static org.junit.Assert.assertFalse;
import static org.junit.Assert.assertNotNull;
@@ -46,7 +48,6 @@
import static org.junit.Assume.assumeFalse;
import static org.junit.Assume.assumeTrue;
-import android.app.UiAutomation;
import android.content.Context;
import android.content.pm.PackageManager;
import android.net.EthernetManager.TetheredInterfaceCallback;
@@ -141,11 +142,12 @@
protected static final ByteBuffer TX_PAYLOAD =
ByteBuffer.wrap(new byte[] { (byte) 0x56, (byte) 0x78 });
- private final Context mContext = InstrumentationRegistry.getInstrumentation().getContext();
- private final EthernetManager mEm = mContext.getSystemService(EthernetManager.class);
- private final TetheringManager mTm = mContext.getSystemService(TetheringManager.class);
- private final PackageManager mPackageManager = mContext.getPackageManager();
- private final CtsNetUtils mCtsNetUtils = new CtsNetUtils(mContext);
+ private static final Context sContext =
+ InstrumentationRegistry.getInstrumentation().getContext();
+ private static final EthernetManager sEm = sContext.getSystemService(EthernetManager.class);
+ private static final TetheringManager sTm = sContext.getSystemService(TetheringManager.class);
+ private static final PackageManager sPackageManager = sContext.getPackageManager();
+ private static final CtsNetUtils sCtsNetUtils = new CtsNetUtils(sContext);
// Late initialization in setUp()
private boolean mRunTests;
@@ -161,7 +163,7 @@
private MyTetheringEventCallback mTetheringEventCallback;
public Context getContext() {
- return mContext;
+ return sContext;
}
@BeforeClass
@@ -170,11 +172,10 @@
// Tethering would cache the last upstreams so that the next enabled tethering avoids
// picking up the address that is in conflict with the upstreams. To protect subsequent
// tests, turn tethering on and off before running them.
- final Context ctx = InstrumentationRegistry.getInstrumentation().getContext();
- final CtsTetheringUtils utils = new CtsTetheringUtils(ctx);
+ final CtsTetheringUtils utils = new CtsTetheringUtils(sContext);
final TestTetheringEventCallback callback = utils.registerTetheringEventCallback();
try {
- if (!callback.isWifiTetheringSupported(ctx)) return;
+ if (!callback.isWifiTetheringSupported(sContext)) return;
callback.expectNoTetheringActive();
@@ -195,13 +196,13 @@
mRunTests = isEthernetTetheringSupported();
assumeTrue(mRunTests);
- mTetheredInterfaceRequester = new TetheredInterfaceRequester(mHandler, mEm);
+ mTetheredInterfaceRequester = new TetheredInterfaceRequester(mHandler);
}
private boolean isEthernetTetheringSupported() throws Exception {
- if (mEm == null) return false;
+ if (sEm == null) return false;
- return runAsShell(NETWORK_SETTINGS, TETHER_PRIVILEGED, () -> mTm.isTetheringSupported());
+ return runAsShell(NETWORK_SETTINGS, TETHER_PRIVILEGED, () -> sTm.isTetheringSupported());
}
protected void maybeStopTapPacketReader(final TapPacketReader tapPacketReader)
@@ -230,7 +231,7 @@
protected void stopEthernetTethering(final MyTetheringEventCallback callback) {
runAsShell(TETHER_PRIVILEGED, () -> {
- mTm.stopTethering(TETHERING_ETHERNET);
+ sTm.stopTethering(TETHERING_ETHERNET);
maybeUnregisterTetheringEventCallback(callback);
});
}
@@ -282,13 +283,13 @@
// waiting timeout, just checking whether the system currently has any
// ethernet interface is more reliable.
if (!SdkLevel.isAtLeastT()) {
- return runAsShell(CONNECTIVITY_USE_RESTRICTED_NETWORKS, () -> mEm.isAvailable());
+ return runAsShell(CONNECTIVITY_USE_RESTRICTED_NETWORKS, () -> sEm.isAvailable());
}
// If previous test case doesn't release tethering interface successfully, the other tests
// after that test may be skipped as unexcepted.
// TODO: figure out a better way to check default tethering interface existenion.
- final TetheredInterfaceRequester requester = new TetheredInterfaceRequester(mHandler, mEm);
+ final TetheredInterfaceRequester requester = new TetheredInterfaceRequester(mHandler);
try {
// Use short timeout (200ms) for requesting an existing interface, if any, because
// it should reurn faster than requesting a new tethering interface. Using default
@@ -308,13 +309,13 @@
protected void setIncludeTestInterfaces(boolean include) {
runAsShell(NETWORK_SETTINGS, () -> {
- mEm.setIncludeTestInterfaces(include);
+ sEm.setIncludeTestInterfaces(include);
});
}
protected void setPreferTestNetworks(boolean prefer) {
runAsShell(NETWORK_SETTINGS, () -> {
- mTm.setPreferTestNetworks(prefer);
+ sTm.setPreferTestNetworks(prefer);
});
}
@@ -344,7 +345,6 @@
protected static final class MyTetheringEventCallback implements TetheringEventCallback {
- private final TetheringManager mTm;
private final CountDownLatch mTetheringStartedLatch = new CountDownLatch(1);
private final CountDownLatch mTetheringStoppedLatch = new CountDownLatch(1);
private final CountDownLatch mLocalOnlyStartedLatch = new CountDownLatch(1);
@@ -368,19 +368,18 @@
// seconds. See b/289881008.
private static final int EXPANDED_TIMEOUT_MS = 30000;
- MyTetheringEventCallback(TetheringManager tm, String iface) {
- this(tm, iface, null);
+ MyTetheringEventCallback(String iface) {
+ this(iface, null);
mAcceptAnyUpstream = true;
}
- MyTetheringEventCallback(TetheringManager tm, String iface, Network expectedUpstream) {
- mTm = tm;
+ MyTetheringEventCallback(String iface, Network expectedUpstream) {
mIface = new TetheringInterface(TETHERING_ETHERNET, iface);
mExpectedUpstream = expectedUpstream;
}
public void unregister() {
- mTm.unregisterTetheringEventCallback(this);
+ sTm.unregisterTetheringEventCallback(this);
mUnregistered = true;
}
@Override
@@ -531,12 +530,12 @@
// after etherent tethering started.
final MyTetheringEventCallback callback;
if (expectedUpstream != null) {
- callback = new MyTetheringEventCallback(mTm, iface, expectedUpstream);
+ callback = new MyTetheringEventCallback(iface, expectedUpstream);
} else {
- callback = new MyTetheringEventCallback(mTm, iface);
+ callback = new MyTetheringEventCallback(iface);
}
runAsShell(NETWORK_SETTINGS, () -> {
- mTm.registerTetheringEventCallback(mHandler::post, callback);
+ sTm.registerTetheringEventCallback(mHandler::post, callback);
// Need to hold the shell permission until callback is registered. This helps to avoid
// the test become flaky.
callback.awaitCallbackRegistered();
@@ -556,7 +555,7 @@
};
Log.d(TAG, "Starting Ethernet tethering");
runAsShell(TETHER_PRIVILEGED, () -> {
- mTm.startTethering(request, mHandler::post /* executor */, startTetheringCallback);
+ sTm.startTethering(request, mHandler::post /* executor */, startTetheringCallback);
// Binder call is an async call. Need to hold the shell permission until tethering
// started. This helps to avoid the test become flaky.
if (!tetheringStartedLatch.await(TIMEOUT_MS, TimeUnit.MILLISECONDS)) {
@@ -606,14 +605,12 @@
protected static final class TetheredInterfaceRequester implements TetheredInterfaceCallback {
private final Handler mHandler;
- private final EthernetManager mEm;
private TetheredInterfaceRequest mRequest;
private final CompletableFuture<String> mFuture = new CompletableFuture<>();
- TetheredInterfaceRequester(Handler handler, EthernetManager em) {
+ TetheredInterfaceRequester(Handler handler) {
mHandler = handler;
- mEm = em;
}
@Override
@@ -631,7 +628,7 @@
assertNull("BUG: more than one tethered interface request", mRequest);
Log.d(TAG, "Requesting tethered interface");
mRequest = runAsShell(NETWORK_SETTINGS, () ->
- mEm.requestTetheredInterface(mHandler::post, this));
+ sEm.requestTetheredInterface(mHandler::post, this));
return mFuture;
}
@@ -654,7 +651,7 @@
protected TestNetworkInterface createTestInterface() throws Exception {
TestNetworkManager tnm = runAsShell(MANAGE_TEST_NETWORKS, () ->
- mContext.getSystemService(TestNetworkManager.class));
+ sContext.getSystemService(TestNetworkManager.class));
TestNetworkInterface iface = runAsShell(MANAGE_TEST_NETWORKS, () ->
tnm.createTapInterface());
Log.d(TAG, "Created test interface " + iface.getInterfaceName());
@@ -669,7 +666,7 @@
lp.setLinkAddresses(addresses);
lp.setDnsServers(dnses);
- return runAsShell(MANAGE_TEST_NETWORKS, () -> initTestNetwork(mContext, lp, TIMEOUT_MS));
+ return runAsShell(MANAGE_TEST_NETWORKS, () -> initTestNetwork(sContext, lp, TIMEOUT_MS));
}
protected void sendDownloadPacketUdp(@NonNull final InetAddress srcIp,
@@ -851,7 +848,7 @@
private void maybeRetryTestedUpstreamChanged(final Network expectedUpstream,
final TimeoutException fallbackException) throws Exception {
// Fall back original exception because no way to reselect if there is no WIFI feature.
- assertTrue(fallbackException.toString(), mPackageManager.hasSystemFeature(FEATURE_WIFI));
+ assertTrue(fallbackException.toString(), sPackageManager.hasSystemFeature(FEATURE_WIFI));
// Try to toggle wifi network, if any, to reselect upstream network via default network
// switching. Because test network has higher priority than internet network, this can
@@ -867,7 +864,7 @@
// See Tethering#chooseUpstreamType, CtsNetUtils#toggleWifi.
// TODO: toggle cellular network if the device has no WIFI feature.
Log.d(TAG, "Toggle WIFI to retry upstream selection");
- mCtsNetUtils.toggleWifi();
+ sCtsNetUtils.toggleWifi();
// Wait for expected upstream.
final CompletableFuture<Network> future = new CompletableFuture<>();
@@ -881,14 +878,14 @@
}
};
try {
- mTm.registerTetheringEventCallback(mHandler::post, callback);
+ sTm.registerTetheringEventCallback(mHandler::post, callback);
assertEquals("onUpstreamChanged for unexpected network", expectedUpstream,
future.get(TIMEOUT_MS, TimeUnit.MILLISECONDS));
} catch (TimeoutException e) {
throw new AssertionError("Did not receive upstream " + expectedUpstream
+ " callback after " + TIMEOUT_MS + "ms");
} finally {
- mTm.unregisterTetheringEventCallback(callback);
+ sTm.unregisterTetheringEventCallback(callback);
}
}
@@ -925,7 +922,7 @@
mDownstreamReader = makePacketReader(mDownstreamIface);
mUpstreamReader = makePacketReader(mUpstreamTracker.getTestIface());
- final ConnectivityManager cm = mContext.getSystemService(ConnectivityManager.class);
+ final ConnectivityManager cm = sContext.getSystemService(ConnectivityManager.class);
// Currently tethering don't have API to tell when ipv6 tethering is available. Thus, make
// sure tethering already have ipv6 connectivity before testing.
if (cm.getLinkProperties(mUpstreamTracker.getNetwork()).hasGlobalIpv6Address()) {