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Merge "Add additional MediaDrm API tests" into klp-dev

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This commit is contained in:
Jeff Tinker
2013-12-12 19:25:48 +00:00
committed by Android (Google) Code Review
parent 38cc7122fd 4ab8efc21d
commit 88063a8d20
2 changed files with 227 additions and 142 deletions
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8
libwvdrmengine/test/java/src/com/widevine/test/KeyRequester.java
View File

@@ -28,9 +28,11 @@ public class KeyRequester {
mServerUrl = url;
}
public void doTransact(MediaDrm drm, byte[] sessionId) {
public boolean doTransact(MediaDrm drm, byte[] sessionId) {
boolean retryTransaction;
boolean result = false;
do {
retryTransaction = false;
@@ -52,7 +54,7 @@ public class KeyRequester {
if (drmRequest == null) {
Log.e(TAG, "Failed to get key request");
return;
return false;
}
PostRequestTask postTask = new PostRequestTask(drmRequest.getData());
@@ -80,6 +82,7 @@ public class KeyRequester {
} else {
try {
drm.provideKeyResponse(sessionId, drmResponse);
result = true;
} catch (NotProvisionedException e) {
Log.i(TAG, "Key response invalidated the certificate, reprovisioning");
ProvisionRequester provisionRequester = new ProvisionRequester();
@@ -92,6 +95,7 @@ public class KeyRequester {
}
}
} while (retryTransaction);
return result;
}
private class PostRequestTask extends AsyncTask<String, Void, Void> {

361
libwvdrmengine/test/java/src/com/widevine/test/MediaDrmAPITest.java
View File

@@ -11,8 +11,11 @@ import android.view.View;
import android.view.SurfaceView;
import android.view.SurfaceHolder;
import android.view.Surface;
import android.view.Display;
import android.content.Context;
import android.graphics.Point;
import android.media.MediaDrm;
import android.widget.TextView;
import android.media.MediaDrm.CryptoSession;
import android.media.MediaDrmException;
import android.media.NotProvisionedException;
@@ -25,6 +28,7 @@ import android.media.MediaCodec.CryptoInfo;
import android.media.MediaCodecInfo;
import android.media.MediaFormat;
import android.util.Log;
import android.util.TypedValue;
import android.util.AttributeSet;
import java.util.UUID;
import java.util.Arrays;
@@ -38,14 +42,17 @@ import java.lang.Exception;
import java.lang.InterruptedException;
import java.security.MessageDigest;
import java.security.NoSuchAlgorithmException;
import java.lang.Math;
class SurfacePanel extends SurfaceView implements SurfaceHolder.Callback
{
private final String TAG = "SurfacePanel";
private boolean mIsCreated;
public SurfacePanel(Context context, AttributeSet attrSet)
{
super(context, attrSet);
mIsCreated = false;
SurfaceHolder holder = getHolder();
holder.addCallback(this);
}
@@ -54,6 +61,7 @@ class SurfacePanel extends SurfaceView implements SurfaceHolder.Callback
public void surfaceDestroyed(SurfaceHolder holder)
{
Log.d(TAG, "surfaceDestroyed");
mIsCreated = false;
}
@Override
@@ -67,6 +75,11 @@ class SurfacePanel extends SurfaceView implements SurfaceHolder.Callback
public void surfaceCreated(SurfaceHolder holder)
{
Log.d(TAG, "surfaceCreated");
mIsCreated = true;
}
public boolean isCreated() {
return mIsCreated;
}
}
@@ -79,13 +92,27 @@ public class MediaDrmAPITest extends Activity {
static final UUID kWidevineScheme = new UUID(0xEDEF8BA979D64ACEL, 0xA3C827DCD51D21EDL);
private boolean mTestFailed;
private TextView mTextView;
private String mDisplayText;
/** Called when the activity is first created. */
@Override
public void onCreate(Bundle savedInstanceState) {
super.onCreate(savedInstanceState);
setContentView(R.layout.main);
mTextView = new TextView(this);
mDisplayText = new String("MediaDrm API Test\n\n");
Display display = getWindowManager().getDefaultDisplay();
Point size = new Point();
display.getSize(size);
int width = size.x;
int height = size.y;
final int max_lines = 20;
int textSize = Math.min(width, height) / max_lines;
mTextView.setTextSize(TypedValue.COMPLEX_UNIT_PX, textSize);
setContentView(mTextView);
Log.i(TAG, "width=" + width + " height=" + height + " size=" + textSize);
new Thread() {
@Override
@@ -95,22 +122,48 @@ public class MediaDrmAPITest extends Activity {
testWidevineSchemeSupported();
testProperties();
testQueryKeyStatus();
testClearContentNoKeys();
testEncryptedContent();
testGenericEncryptAndDecrypt();
testGenericSign();
testGenericVerify();
testGenericMultipleKeys();
runOnUiThread(new Runnable() {
public void run() {
setContentView(R.layout.main);
}
});
testClearContentNoKeys();
testEncryptedContent();
runOnUiThread(new Runnable() {
public void run() {
setContentView(mTextView);
}
});
if (mTestFailed) {
Log.e(TAG, "TEST FAILED!");
displayText("\nTEST FAILED!");
} else {
Log.e(TAG, "TEST SUCCESS!");
displayText("\nTEST PASSED!");
}
}
}.start();
}
// draw text on the surface view
private void displayText(String text) {
Log.i(TAG, text);
mDisplayText += text + "\n";
runOnUiThread(new Runnable() {
public void run() {
mTextView.setText(mDisplayText);
}
});
}
private MediaDrm mDrm;
private Looper mLooper;
private Object mLock = new Object();
@@ -210,48 +263,54 @@ public class MediaDrmAPITest extends Activity {
private void testProperties() {
MediaDrm drm = startDrm();
Log.i(TAG, "vendor: " + drm.getPropertyString(MediaDrm.PROPERTY_VENDOR));
Log.i(TAG, "version: " + drm.getPropertyString(MediaDrm.PROPERTY_VERSION));
Log.i(TAG, "description: " + drm.getPropertyString(MediaDrm.PROPERTY_DESCRIPTION));
Log.i(TAG, "deviceId: " + Arrays.toString(drm.getPropertyByteArray(MediaDrm.PROPERTY_DEVICE_UNIQUE_ID)));
Log.i(TAG, "algorithms: " + drm.getPropertyString(MediaDrm.PROPERTY_ALGORITHMS));
displayText("vendor: " + drm.getPropertyString(MediaDrm.PROPERTY_VENDOR));
displayText("version: " + drm.getPropertyString(MediaDrm.PROPERTY_VERSION));
displayText("description: " + drm.getPropertyString(MediaDrm.PROPERTY_DESCRIPTION));
displayText("deviceId: " + Arrays.toString(drm.getPropertyByteArray(MediaDrm.PROPERTY_DEVICE_UNIQUE_ID)));
displayText("algorithms: " + drm.getPropertyString(MediaDrm.PROPERTY_ALGORITHMS));
// widevine-specific properties
Log.i(TAG, "security level: " + drm.getPropertyString("securityLevel"));
Log.i(TAG, "system ID: " + drm.getPropertyString("systemId"));
displayText("security level: " + drm.getPropertyString("securityLevel"));
displayText("system ID: " + drm.getPropertyString("systemId"));
stopDrm(drm);
}
private void testQueryKeyStatus() {
MediaDrm drm = startDrm();
byte[] sessionId = openSession(drm);
getKeys(drm, sessionId);
Log.i(TAG, "Query Key Status:");
HashMap<String, String> keyStatus = drm.queryKeyStatus(sessionId);
Iterator<String> iterator = keyStatus.keySet().iterator();
while (iterator.hasNext()) {
String name = iterator.next();
Log.i(TAG, "\t" + name + " = " + keyStatus.get(name));
if (getKeys(drm, sessionId)) {
Log.i(TAG, "Query Key Status:");
HashMap<String, String> keyStatus = drm.queryKeyStatus(sessionId);
Iterator<String> iterator = keyStatus.keySet().iterator();
while (iterator.hasNext()) {
String name = iterator.next();
Log.i(TAG, "\t" + name + " = " + keyStatus.get(name));
}
}
drm.closeSession(sessionId);
stopDrm(drm);
}
private void getKeys(MediaDrm drm, byte[] sessionId) {
private boolean getKeys(MediaDrm drm, byte[] sessionId) {
final byte[] kPssh = hex2ba("08011210e02562e04cd55351b14b3d748d36ed8e");
final String kClientAuth = "?source=YOUTUBE&video_id=EGHC6OHNbOo&oauth=ya.gtsqawidevine";
final String kPort = "80";
KeyRequester keyRequester = new KeyRequester(kPssh, kKeyServerUrl + ":" + kPort + kClientAuth);
keyRequester.doTransact(drm, sessionId);
boolean result = keyRequester.doTransact(drm, sessionId);
if (!result) {
displayText("Failed to get keys from license server!");
mTestFailed = true;
}
return result;
}
private void testEncryptedContent() {
MediaDrm drm = startDrm();
byte[] sessionId = openSession(drm);
getKeys(drm, sessionId);
testDecrypt(sessionId);
if (getKeys(drm, sessionId)) {
testDecrypt(sessionId);
}
drm.closeSession(sessionId);
stopDrm(drm);
}
@@ -263,38 +322,41 @@ public class MediaDrmAPITest extends Activity {
byte[] sessionId = openSession(drm);
KeyRequester keyRequester = new KeyRequester(kOperatorSessionAESPssh, kOperatorSessionKeyServerUrl);
keyRequester.doTransact(drm, sessionId);
if (keyRequester.doTransact(drm, sessionId)) {
CryptoSession cs = drm.getCryptoSession(sessionId, "AES/CBC/NoPadding", "HmacSHA256");
CryptoSession cs = drm.getCryptoSession(sessionId, "AES/CBC/NoPadding", "HmacSHA256");
// operator_session_key_permissions=allow_encrypt | allow_decrypt
byte[] aes_key_id = hex2ba("3be2b25db355fc64a0e69a50f4dbb298");
byte[] aes_key = hex2ba("5762d22a5e17d5402dc310a7c33ce539");
// operator_session_key_permissions=allow_encrypt | allow_decrypt
byte[] aes_key_id = hex2ba("3be2b25db355fc64a0e69a50f4dbb298");
byte[] aes_key = hex2ba("5762d22a5e17d5402dc310a7c33ce539");
byte[] clr_data = hex2ba("4c02bcc3943aa828ecf7bbb16420572d00cabb21c3084c422217fee7fadd766d" +
"4bf726a232d029a81830e40e1e12ba34ba005ca6ce8033a0e3602a52b9b8d3d4" +
"b15dc458730f8affebbf35b1536c1a5d42370cf93c5b4094c0920bb1b2333f6a" +
"1897c5dd62eadfc1060786b0f69f228d5d7241cc644b85c35b9a7f4b893b5b85");
byte[] enc_data = hex2ba("ee92d402f55f1d7eef4844803d9d43a603a4dd13f4a2ad5ea7653adcefa74b06" +
"ff459ab476a497567198c7cfa06d6fdd66b7924c2ca430baf534c5e00c800a06" +
"d0c108057ceab2ea33671d83e35eaaf1f1ff0f7e1618d05810a47b12cbc0806f" +
"d6ba8127a5e411f49b4e1790b1a6cb963e33d6cbc6569c44b4e1b28005fd1dde");
byte[] clr_data = hex2ba("4c02bcc3943aa828ecf7bbb16420572d00cabb21c3084c422217fee7fadd766d" +
"4bf726a232d029a81830e40e1e12ba34ba005ca6ce8033a0e3602a52b9b8d3d4" +
"b15dc458730f8affebbf35b1536c1a5d42370cf93c5b4094c0920bb1b2333f6a" +
"1897c5dd62eadfc1060786b0f69f228d5d7241cc644b85c35b9a7f4b893b5b85");
byte[] enc_data = hex2ba("ee92d402f55f1d7eef4844803d9d43a603a4dd13f4a2ad5ea7653adcefa74b06" +
"ff459ab476a497567198c7cfa06d6fdd66b7924c2ca430baf534c5e00c800a06" +
"d0c108057ceab2ea33671d83e35eaaf1f1ff0f7e1618d05810a47b12cbc0806f" +
"d6ba8127a5e411f49b4e1790b1a6cb963e33d6cbc6569c44b4e1b28005fd1dde");
byte[] iv = hex2ba("3ec0f3d3970fbd541ac4e7e1d06a6131");
byte[] iv = hex2ba("3ec0f3d3970fbd541ac4e7e1d06a6131");
byte[] result = cs.decrypt(aes_key_id, enc_data, iv);
if (Arrays.equals(clr_data, result)) {
Log.d(TAG, "Decrypt test passed!");
} else {
Log.d(TAG, "Decrypt test failed!");
mTestFailed = true;
}
byte[] result = cs.decrypt(aes_key_id, enc_data, iv);
if (Arrays.equals(clr_data, result)) {
Log.d(TAG, "Decrypt test passed!");
result = cs.encrypt(aes_key_id, clr_data, iv);
if (Arrays.equals(enc_data, result)) {
Log.d(TAG, "Encrypt test passed!");
} else {
Log.d(TAG, "Encrypt test failed!");
mTestFailed = true;
}
} else {
Log.d(TAG, "Decrypt test failed!");
mTestFailed = true;
}
result = cs.encrypt(aes_key_id, clr_data, iv);
if (Arrays.equals(enc_data, result)) {
Log.d(TAG, "Encrypt test passed!");
} else {
Log.d(TAG, "Encrypt test failed!");
displayText("Failed to get keys from license server!");
mTestFailed = true;
}
drm.closeSession(sessionId);
@@ -307,28 +369,32 @@ public class MediaDrmAPITest extends Activity {
MediaDrm drm = startDrm();
byte[] sessionId = openSession(drm);
KeyRequester keyRequester = new KeyRequester(kOperatorSessionSignPssh, kOperatorSessionKeyServerUrl);
keyRequester.doTransact(drm, sessionId);
if (keyRequester.doTransact(drm, sessionId)) {
CryptoSession cs = drm.getCryptoSession(sessionId, "AES/CBC/NoPadding", "HmacSHA256");
CryptoSession cs = drm.getCryptoSession(sessionId, "AES/CBC/NoPadding", "HmacSHA256");
// operator_session_key_permissions=allow_sign
byte[] signing_key_id = hex2ba("2685086ee9cb5835b063ab20786ffd78");
byte[] signing_key = hex2ba("b3dddf87d1cfc0b04c9253231ff89b9e374ef2f424edc7b7f4b2c10e39768ee8");
// operator_session_key_permissions=allow_sign
byte[] signing_key_id = hex2ba("2685086ee9cb5835b063ab20786ffd78");
byte[] signing_key = hex2ba("b3dddf87d1cfc0b04c9253231ff89b9e374ef2f424edc7b7f4b2c10e39768ee8");
byte[] data = hex2ba("4c02bcc3943aa828ecf7bbb16420572d00cabb21c3084c422217fee7fadd766d" +
"4bf726a232d029a81830e40e1e12ba34ba005ca6ce8033a0e3602a52b9b8d3d4" +
"b15dc458730f8affebbf35b1536c1a5d42370cf93c5b4094c0920bb1b2333f6a" +
"1897c5dd62eadfc1060786b0f69f228d5d7241cc644b85c35b9a7f4b893b5b85");
byte[] data = hex2ba("4c02bcc3943aa828ecf7bbb16420572d00cabb21c3084c422217fee7fadd766d" +
"4bf726a232d029a81830e40e1e12ba34ba005ca6ce8033a0e3602a52b9b8d3d4" +
"b15dc458730f8affebbf35b1536c1a5d42370cf93c5b4094c0920bb1b2333f6a" +
"1897c5dd62eadfc1060786b0f69f228d5d7241cc644b85c35b9a7f4b893b5b85");
byte[] hmacsha256 = hex2ba("5fc29a4c15fcf9e1e26b63b3be169d7f53e61e1564b92876f70c9ffd17697437");
byte[] hmacsha256 = hex2ba("5fc29a4c15fcf9e1e26b63b3be169d7f53e61e1564b92876f70c9ffd17697437");
byte[] result = cs.sign(signing_key_id, data);
if (Arrays.equals(hmacsha256, result)) {
Log.d(TAG, "Signing test passed!");
byte[] result = cs.sign(signing_key_id, data);
if (Arrays.equals(hmacsha256, result)) {
Log.d(TAG, "Signing test passed!");
} else {
Log.d(TAG, "Signing test failed!");
mTestFailed = true;
}
} else {
Log.d(TAG, "Signing test failed!");
displayText("Failed to get keys from license server!");
mTestFailed = true;
}
drm.closeSession(sessionId);
stopDrm(drm);
}
@@ -339,25 +405,28 @@ public class MediaDrmAPITest extends Activity {
final byte[] kOperatorSessionVerifyPssh = hex2ba("0801121097c003f73b1a53aa51ba54a6ef631ca0");
KeyRequester keyRequester = new KeyRequester(kOperatorSessionVerifyPssh, kOperatorSessionKeyServerUrl);
keyRequester.doTransact(drm, sessionId);
if (keyRequester.doTransact(drm, sessionId)) {
CryptoSession cs = drm.getCryptoSession(sessionId, "AES/CBC/NoPadding", "HmacSHA256");
CryptoSession cs = drm.getCryptoSession(sessionId, "AES/CBC/NoPadding", "HmacSHA256");
// operator_session_key_permissions=allow_signature_verify
byte[] verify_key_id = hex2ba("97c003f73b1a53aa51ba54a6ef631ca0");
byte[] verify_key = hex2ba("cfe2acb04ad5169153690c1932d5d2c6062a4607d274901e935d27b77ad48b2e");
// operator_session_key_permissions=allow_signature_verify
byte[] verify_key_id = hex2ba("97c003f73b1a53aa51ba54a6ef631ca0");
byte[] verify_key = hex2ba("cfe2acb04ad5169153690c1932d5d2c6062a4607d274901e935d27b77ad48b2e");
byte[] data = hex2ba("4c02bcc3943aa828ecf7bbb16420572d00cabb21c3084c422217fee7fadd766d" +
"4bf726a232d029a81830e40e1e12ba34ba005ca6ce8033a0e3602a52b9b8d3d4" +
"b15dc458730f8affebbf35b1536c1a5d42370cf93c5b4094c0920bb1b2333f6a" +
"1897c5dd62eadfc1060786b0f69f228d5d7241cc644b85c35b9a7f4b893b5b85");
byte[] data = hex2ba("4c02bcc3943aa828ecf7bbb16420572d00cabb21c3084c422217fee7fadd766d" +
"4bf726a232d029a81830e40e1e12ba34ba005ca6ce8033a0e3602a52b9b8d3d4" +
"b15dc458730f8affebbf35b1536c1a5d42370cf93c5b4094c0920bb1b2333f6a" +
"1897c5dd62eadfc1060786b0f69f228d5d7241cc644b85c35b9a7f4b893b5b85");
byte[] hmacsha256 = hex2ba("6bd61722e5cc3e698d536317309940328ab973be3a3b5705650aa09a48ebbf61");
byte[] hmacsha256 = hex2ba("6bd61722e5cc3e698d536317309940328ab973be3a3b5705650aa09a48ebbf61");
if (cs.verify(verify_key_id, data, hmacsha256)) {
Log.d(TAG, "Verify test passed!");
if (cs.verify(verify_key_id, data, hmacsha256)) {
Log.d(TAG, "Verify test passed!");
} else {
Log.d(TAG, "Verify test failed!");
mTestFailed = true;
}
} else {
Log.d(TAG, "Verify test failed!");
displayText("Failed to get keys from license server!");
mTestFailed = true;
}
drm.closeSession(sessionId);
@@ -372,77 +441,79 @@ public class MediaDrmAPITest extends Activity {
byte[] sessionId = openSession(drm);
KeyRequester keyRequester = new KeyRequester(kOperatorSessionAESPssh, kOperatorSessionKeyServerUrl);
keyRequester.doTransact(drm, sessionId);
if (keyRequester.doTransact(drm, sessionId)) {
CryptoSession cs = drm.getCryptoSession(sessionId, "AES/CBC/NoPadding", "HmacSHA256");
CryptoSession cs = drm.getCryptoSession(sessionId, "AES/CBC/NoPadding", "HmacSHA256");
// operator_session_key_permissions=allow_encrypt | allow_decrypt
byte[] aes_key_id = hex2ba("3be2b25db355fc64a0e69a50f4dbb298");
byte[] aes_key = hex2ba("5762d22a5e17d5402dc310a7c33ce539");
// operator_session_key_permissions=allow_encrypt | allow_decrypt
byte[] aes_key_id = hex2ba("3be2b25db355fc64a0e69a50f4dbb298");
byte[] aes_key = hex2ba("5762d22a5e17d5402dc310a7c33ce539");
byte[] clr_data = hex2ba("4c02bcc3943aa828ecf7bbb16420572d00cabb21c3084c422217fee7fadd766d" +
"4bf726a232d029a81830e40e1e12ba34ba005ca6ce8033a0e3602a52b9b8d3d4" +
"b15dc458730f8affebbf35b1536c1a5d42370cf93c5b4094c0920bb1b2333f6a" +
"1897c5dd62eadfc1060786b0f69f228d5d7241cc644b85c35b9a7f4b893b5b85");
byte[] enc_data = hex2ba("ee92d402f55f1d7eef4844803d9d43a603a4dd13f4a2ad5ea7653adcefa74b06" +
"ff459ab476a497567198c7cfa06d6fdd66b7924c2ca430baf534c5e00c800a06" +
"d0c108057ceab2ea33671d83e35eaaf1f1ff0f7e1618d05810a47b12cbc0806f" +
"d6ba8127a5e411f49b4e1790b1a6cb963e33d6cbc6569c44b4e1b28005fd1dde");
byte[] iv = hex2ba("3ec0f3d3970fbd541ac4e7e1d06a6131");
byte[] result = cs.decrypt(aes_key_id, enc_data, iv);
if (Arrays.equals(clr_data, result)) {
Log.d(TAG, "Multiple key decrypt test passed!");
} else {
Log.d(TAG, "Multiple key decrypt test failed!");
mTestFailed = true;
}
result = cs.encrypt(aes_key_id, clr_data, iv);
if (Arrays.equals(enc_data, result)) {
Log.d(TAG, "Multiple key encrypt test passed!");
} else {
Log.d(TAG, "Multiple key encrypt test failed!");
mTestFailed = true;
}
byte[] signing_key_id = hex2ba("2685086ee9cb5835b063ab20786ffd78");
byte[] signing_key = hex2ba("b3dddf87d1cfc0b04c9253231ff89b9e374ef2f424edc7b7f4b2c10e39768ee8");
byte[] signing_data = hex2ba("4c02bcc3943aa828ecf7bbb16420572d00cabb21c3084c422217fee7fadd766d" +
byte[] clr_data = hex2ba("4c02bcc3943aa828ecf7bbb16420572d00cabb21c3084c422217fee7fadd766d" +
"4bf726a232d029a81830e40e1e12ba34ba005ca6ce8033a0e3602a52b9b8d3d4" +
"b15dc458730f8affebbf35b1536c1a5d42370cf93c5b4094c0920bb1b2333f6a" +
"1897c5dd62eadfc1060786b0f69f228d5d7241cc644b85c35b9a7f4b893b5b85");
byte[] enc_data = hex2ba("ee92d402f55f1d7eef4844803d9d43a603a4dd13f4a2ad5ea7653adcefa74b06" +
"ff459ab476a497567198c7cfa06d6fdd66b7924c2ca430baf534c5e00c800a06" +
"d0c108057ceab2ea33671d83e35eaaf1f1ff0f7e1618d05810a47b12cbc0806f" +
"d6ba8127a5e411f49b4e1790b1a6cb963e33d6cbc6569c44b4e1b28005fd1dde");
byte[] hmacsha256 = hex2ba("5fc29a4c15fcf9e1e26b63b3be169d7f53e61e1564b92876f70c9ffd17697437");
byte[] iv = hex2ba("3ec0f3d3970fbd541ac4e7e1d06a6131");
result = cs.sign(signing_key_id, signing_data);
if (Arrays.equals(hmacsha256, result)) {
Log.d(TAG, "Multiple key signing test passed!");
byte[] result = cs.decrypt(aes_key_id, enc_data, iv);
if (Arrays.equals(clr_data, result)) {
Log.d(TAG, "Multiple key decrypt test passed!");
} else {
Log.d(TAG, "Multiple key decrypt test failed!");
mTestFailed = true;
}
result = cs.encrypt(aes_key_id, clr_data, iv);
if (Arrays.equals(enc_data, result)) {
Log.d(TAG, "Multiple key encrypt test passed!");
} else {
Log.d(TAG, "Multiple key encrypt test failed!");
mTestFailed = true;
}
byte[] signing_key_id = hex2ba("2685086ee9cb5835b063ab20786ffd78");
byte[] signing_key = hex2ba("b3dddf87d1cfc0b04c9253231ff89b9e374ef2f424edc7b7f4b2c10e39768ee8");
byte[] signing_data = hex2ba("4c02bcc3943aa828ecf7bbb16420572d00cabb21c3084c422217fee7fadd766d" +
"4bf726a232d029a81830e40e1e12ba34ba005ca6ce8033a0e3602a52b9b8d3d4" +
"b15dc458730f8affebbf35b1536c1a5d42370cf93c5b4094c0920bb1b2333f6a" +
"1897c5dd62eadfc1060786b0f69f228d5d7241cc644b85c35b9a7f4b893b5b85");
byte[] hmacsha256 = hex2ba("5fc29a4c15fcf9e1e26b63b3be169d7f53e61e1564b92876f70c9ffd17697437");
result = cs.sign(signing_key_id, signing_data);
if (Arrays.equals(hmacsha256, result)) {
Log.d(TAG, "Multiple key signing test passed!");
} else {
Log.d(TAG, "Multiple key signing test failed!");
mTestFailed = true;
}
// operator_session_key_permissions=allow_signature_verify
byte[] verify_key_id = hex2ba("97c003f73b1a53aa51ba54a6ef631ca0");
byte[] verify_key = hex2ba("cfe2acb04ad5169153690c1932d5d2c6062a4607d274901e935d27b77ad48b2e");
byte[] verify_data = hex2ba("4c02bcc3943aa828ecf7bbb16420572d00cabb21c3084c422217fee7fadd766d" +
"4bf726a232d029a81830e40e1e12ba34ba005ca6ce8033a0e3602a52b9b8d3d4" +
"b15dc458730f8affebbf35b1536c1a5d42370cf93c5b4094c0920bb1b2333f6a" +
"1897c5dd62eadfc1060786b0f69f228d5d7241cc644b85c35b9a7f4b893b5b85");
hmacsha256 = hex2ba("6bd61722e5cc3e698d536317309940328ab973be3a3b5705650aa09a48ebbf61");
if (cs.verify(verify_key_id, verify_data, hmacsha256)) {
Log.d(TAG, "Multiple key verify test passed!");
} else {
Log.d(TAG, "Multiple key verify test failed!");
mTestFailed = true;
}
} else {
Log.d(TAG, "Multiple key signing test failed!");
displayText("Failed to get keys from license server!");
mTestFailed = true;
}
// operator_session_key_permissions=allow_signature_verify
byte[] verify_key_id = hex2ba("97c003f73b1a53aa51ba54a6ef631ca0");
byte[] verify_key = hex2ba("cfe2acb04ad5169153690c1932d5d2c6062a4607d274901e935d27b77ad48b2e");
byte[] verify_data = hex2ba("4c02bcc3943aa828ecf7bbb16420572d00cabb21c3084c422217fee7fadd766d" +
"4bf726a232d029a81830e40e1e12ba34ba005ca6ce8033a0e3602a52b9b8d3d4" +
"b15dc458730f8affebbf35b1536c1a5d42370cf93c5b4094c0920bb1b2333f6a" +
"1897c5dd62eadfc1060786b0f69f228d5d7241cc644b85c35b9a7f4b893b5b85");
hmacsha256 = hex2ba("6bd61722e5cc3e698d536317309940328ab973be3a3b5705650aa09a48ebbf61");
if (cs.verify(verify_key_id, verify_data, hmacsha256)) {
Log.d(TAG, "Multiple key verify test passed!");
} else {
Log.d(TAG, "Multiple key verify test failed!");
mTestFailed = true;
}
drm.closeSession(sessionId);
stopDrm(drm);
}
@@ -636,6 +707,16 @@ public class MediaDrmAPITest extends Activity {
codec = MediaCodec.createDecoderByType(mime);
}
// make sure the surface view has been created
SurfacePanel sp = (SurfacePanel)findViewById(R.id.surface_view);
int max_retries = 500; // 5 seconds
while (!sp.isCreated()) {
sleep(10);
if (--max_retries == 0) {
break;
}
}
MediaFormat format = MediaFormat.createVideoFormat(mime, 1280, 720);
SurfaceView sv = (SurfaceView)findViewById(R.id.surface_view);
codec.configure(format, sv.getHolder().getSurface(), crypto, 0);