package o; import android.graphics.Color; import android.os.Process; import android.os.SystemClock; import android.text.TextUtils; import android.view.Gravity; import android.view.KeyEvent; import android.view.MotionEvent; import android.view.ViewConfiguration; import android.widget.ExpandableListView; import com.google.android.gms.maps.model.BitmapDescriptorFactory; import com.isprint.e2eea.client.util.E2EEAException; import java.io.Serializable; import java.lang.reflect.Method; import java.util.HashMap; import java.util.Map; import org.bouncycastle.crypto.tls.CipherSuite; /* loaded from: classes3.dex */ public final class Luy { private Sts b; private static final byte[] $$a = {55, -34, 73, 110}; private static final int $$b = CipherSuite.TLS_DHE_PSK_WITH_AES_256_CBC_SHA384; private static int $10 = 0; private static int $11 = 1; private static int d = 0; private static int e = 1; private static char[] a = {36835, 27237, 36834}; private static long c = -8883332706427797248L; /* JADX WARN: Multi-variable type inference failed */ /* JADX WARN: Type inference failed for: r3v3, types: [byte[], java.io.Serializable] */ /* JADX WARN: Type inference failed for: r3v6, types: [byte[], java.io.Serializable] */ public static /* synthetic */ Object b(Object[] objArr, int i, int i2, int i3) { Sts sts; int i4; Luy luy = (Luy) objArr[0]; String str = (String) objArr[1]; int i5 = 2 % 2; int i6 = d + 77; e = i6 % 128; if (i6 % 2 == 0) { luy.b.d("CIPHER_PARAM_ENCRYPTION_MODE", Boolean.TRUE); luy.b.d("CIPHER_PARAM_ENCRYPTION_MODE_BYTES", a(str)); sts = luy.b; i4 = 124; } else { luy.b.d("CIPHER_PARAM_ENCRYPTION_MODE", Boolean.TRUE); luy.b.d("CIPHER_PARAM_ENCRYPTION_MODE_BYTES", a(str)); sts = luy.b; i4 = 16; } sts.d("CIPHER_PARAM_ENCRYPTION_MODE_KEYLENGTH", Integer.valueOf(i4)); return luy; } private static void g(short s, int i, int i2, Object[] objArr) { int i3 = i2 + 98; byte[] bArr = $$a; int i4 = s * 2; int i5 = (i * 4) + 4; byte[] bArr2 = new byte[i4 + 1]; int i6 = -1; if (bArr == null) { i3 = i5 + i3; i5++; } while (true) { i6++; bArr2[i6] = (byte) i3; if (i6 == i4) { objArr[0] = new String(bArr2, 0); return; } int i7 = i3; int i8 = i5 + 1; i3 = i7 + bArr[i5]; i5 = i8; } } /* JADX WARN: Multi-variable type inference failed */ /* JADX WARN: Type inference failed for: r1v4, types: [byte[], java.io.Serializable] */ private Luy() { Sts sts = new Sts((byte) 0); this.b = sts; Object[] objArr = new Object[1]; f((char) TextUtils.getOffsetAfter("", 0), Color.blue(0), (ViewConfiguration.getZoomControlsTimeout() > 0L ? 1 : (ViewConfiguration.getZoomControlsTimeout() == 0L ? 0 : -1)), objArr); sts.d("MESSAGE_VERSION", Ymn.d(((String) objArr[0]).intern())); this.b.d("MASTER_KEY_VERSION", (byte) 1); this.b.d("MASTER_KEY_USAGE", (byte) 1); this.b.d("MASTER_KEY_KEYLENGTH", 48); e("NONE-SHORT"); c(10); } /* JADX WARN: Multi-variable type inference failed */ /* JADX WARN: Type inference failed for: r5v1, types: [byte[], java.io.Serializable] */ public final Luy e(String str) { int i = 2 % 2; int i2 = d + 23; e = i2 % 128; int i3 = i2 % 2; this.b.d("CIPHER_PARAM_HASH_MODE", Boolean.TRUE); this.b.d("CIPHER_PARAM_HASH_MODE_BYTES", c(str)); int i4 = d + 87; e = i4 % 128; int i5 = i4 % 2; return this; } /* JADX WARN: Multi-variable type inference failed */ /* JADX WARN: Type inference failed for: r5v2, types: [byte[], java.io.Serializable] */ /* JADX WARN: Type inference failed for: r5v5, types: [byte[], java.io.Serializable] */ public final Luy c(int i) { int i2 = 2 % 2; int i3 = e + 93; d = i3 % 128; if (i3 % 2 == 0) { this.b.d("CIPHER_PARAM_MESSAGE_TYPE", Boolean.TRUE); this.b.d("CIPHER_PARAM_MESSAGE_TYPE_BYTES", Ymn.d(String.valueOf(i))); return this; } this.b.d("CIPHER_PARAM_MESSAGE_TYPE", Boolean.TRUE); this.b.d("CIPHER_PARAM_MESSAGE_TYPE_BYTES", Ymn.d(String.valueOf(i))); throw null; } public static Luy c() { int i = 2 % 2; Luy luy = new Luy(); int i2 = e + 13; d = i2 % 128; if (i2 % 2 != 0) { int i3 = 60 / 0; } return luy; } private static byte[] c(String str) { byte[] bArr; int i = 2 % 2; if ("NONE-SHORT".equals(str)) { Object[] objArr = new Object[1]; f((char) TextUtils.getOffsetAfter("", 0), (Process.getElapsedCpuTime() > 0L ? 1 : (Process.getElapsedCpuTime() == 0L ? 0 : -1)) + 1, 1 - (ViewConfiguration.getMinimumFlingVelocity() >> 16), objArr); bArr = Ymn.d(((String) objArr[0]).intern()); } else { if ("MD5-CLEAR".equals(str)) { throw new E2EEAException.NotImplemented(); } if ("MD5-XOR".equals(str)) { throw new E2EEAException.NotImplemented(); } if ("SHA1-XOR".equals(str)) { throw new E2EEAException.NotImplemented(); } if (!"NONE-LONG".equals(str)) { int i2 = e + 53; d = i2 % 128; Object obj = null; if (i2 % 2 != 0) { obj.hashCode(); throw null; } bArr = null; } else { throw new E2EEAException.NotImplemented(); } } int i3 = d + 55; e = i3 % 128; if (i3 % 2 == 0) { int i4 = 35 / 0; } return bArr; } private static byte[] a(String str) { Object obj; int i = 2 % 2; if (!"DES-ECB".equals(str)) { if (!"DES-CBC".equals(str)) { return null; } int i2 = d + 15; e = i2 % 128; int i3 = i2 % 2; Object[] objArr = new Object[1]; f((char) ((SystemClock.elapsedRealtime() > 0L ? 1 : (SystemClock.elapsedRealtime() == 0L ? 0 : -1)) + 58756), (SystemClock.currentThreadTimeMillis() > (-1L) ? 1 : (SystemClock.currentThreadTimeMillis() == (-1L) ? 0 : -1)), (ViewConfiguration.getScrollFriction() > BitmapDescriptorFactory.HUE_RED ? 1 : (ViewConfiguration.getScrollFriction() == BitmapDescriptorFactory.HUE_RED ? 0 : -1)), objArr); return Ymn.d(((String) objArr[0]).intern()); } int i4 = e + 115; d = i4 % 128; if (i4 % 2 != 0) { Object[] objArr2 = new Object[1]; f((char) TextUtils.getTrimmedLength(""), KeyEvent.getMaxKeyCode() >> 8, 1 >> (Process.myTid() >> 108), objArr2); obj = objArr2[0]; } else { Object[] objArr3 = new Object[1]; f((char) TextUtils.getTrimmedLength(""), KeyEvent.getMaxKeyCode() >> 16, 1 - (Process.myTid() >> 22), objArr3); obj = objArr3[0]; } return Ymn.d(((String) obj).intern()); } /* loaded from: classes3.dex */ public static class Sts { Map c; /* synthetic */ Sts(byte b) { this(); } private Sts() { this.c = new HashMap(); } final void d(String str, Serializable serializable) { if (serializable == null && this.c.containsKey(str)) { this.c.remove(str); } else { this.c.put(str, serializable); } } } private static void f(char c2, int i, int i2, Object[] objArr) { char c3; int i3 = 2 % 2; dQY dqy = new dQY(); long[] jArr = new long[i2]; dqy.a = 0; int i4 = $11 + 33; $10 = i4 % 128; int i5 = i4 % 2; while (true) { c3 = '0'; if (dqy.a >= i2) { break; } int i6 = $11 + 79; $10 = i6 % 128; int i7 = i6 % 2; int i8 = dqy.a; try { Object[] objArr2 = {Integer.valueOf(a[i + dqy.a])}; Object obj = xzZ.y.get(1095064095); if (obj == null) { Class cls = (Class) xzZ.c(309 - (ViewConfiguration.getGlobalActionKeyTimeout() > 0L ? 1 : (ViewConfiguration.getGlobalActionKeyTimeout() == 0L ? 0 : -1)), 5 - (KeyEvent.getMaxKeyCode() >> 16), (char) (32796 - TextUtils.indexOf((CharSequence) "", '0', 0, 0))); byte b = (byte) 0; byte b2 = b; Object[] objArr3 = new Object[1]; g(b, b2, b2, objArr3); obj = cls.getMethod((String) objArr3[0], Integer.TYPE); xzZ.y.put(1095064095, obj); } Object[] objArr4 = {Long.valueOf(((Long) ((Method) obj).invoke(null, objArr2)).longValue()), Long.valueOf(dqy.a), Long.valueOf(c), Integer.valueOf(c2)}; Object obj2 = xzZ.y.get(-548438098); if (obj2 == null) { Class cls2 = (Class) xzZ.c(411 - MotionEvent.axisFromString(""), (ViewConfiguration.getScrollBarFadeDuration() >> 16) + 5, (char) (ViewConfiguration.getMaximumFlingVelocity() >> 16)); byte b3 = (byte) 0; byte b4 = b3; Object[] objArr5 = new Object[1]; g(b3, b4, (byte) (b4 + 1), objArr5); obj2 = cls2.getMethod((String) objArr5[0], Long.TYPE, Long.TYPE, Long.TYPE, Integer.TYPE); xzZ.y.put(-548438098, obj2); } jArr[i8] = ((Long) ((Method) obj2).invoke(null, objArr4)).longValue(); Object[] objArr6 = {dqy, dqy}; Object obj3 = xzZ.y.get(1071125919); if (obj3 == null) { Class cls3 = (Class) xzZ.c(408 - (SystemClock.elapsedRealtimeNanos() > 0L ? 1 : (SystemClock.elapsedRealtimeNanos() == 0L ? 0 : -1)), 5 - Color.green(0), (char) (29235 - (SystemClock.elapsedRealtimeNanos() > 0L ? 1 : (SystemClock.elapsedRealtimeNanos() == 0L ? 0 : -1)))); byte b5 = (byte) 0; byte b6 = b5; Object[] objArr7 = new Object[1]; g(b5, b6, (byte) (b6 | 8), objArr7); obj3 = cls3.getMethod((String) objArr7[0], Object.class, Object.class); xzZ.y.put(1071125919, obj3); } ((Method) obj3).invoke(null, objArr6); } catch (Throwable th) { Throwable cause = th.getCause(); if (cause == null) { throw th; } throw cause; } } char[] cArr = new char[i2]; dqy.a = 0; while (dqy.a < i2) { int i9 = $10 + 109; $11 = i9 % 128; if (i9 % 2 == 0) { cArr[dqy.a] = (char) jArr[dqy.a]; try { Object[] objArr8 = {dqy, dqy}; Object obj4 = xzZ.y.get(1071125919); if (obj4 == null) { Class cls4 = (Class) xzZ.c(407 - TextUtils.getCapsMode("", 0, 0), 5 - Gravity.getAbsoluteGravity(0, 0), (char) (29234 - (ViewConfiguration.getScrollBarSize() >> 8))); byte b7 = (byte) 0; byte b8 = b7; Object[] objArr9 = new Object[1]; g(b7, b8, (byte) (b8 | 8), objArr9); obj4 = cls4.getMethod((String) objArr9[0], Object.class, Object.class); xzZ.y.put(1071125919, obj4); } ((Method) obj4).invoke(null, objArr8); int i10 = 7 / 0; } catch (Throwable th2) { Throwable cause2 = th2.getCause(); if (cause2 == null) { throw th2; } throw cause2; } } else { cArr[dqy.a] = (char) jArr[dqy.a]; try { Object[] objArr10 = {dqy, dqy}; Object obj5 = xzZ.y.get(1071125919); if (obj5 == null) { Class cls5 = (Class) xzZ.c((ViewConfiguration.getKeyRepeatTimeout() >> 16) + 407, TextUtils.indexOf("", c3, 0) + 6, (char) (29234 - ExpandableListView.getPackedPositionType(0L))); byte b9 = (byte) 0; byte b10 = b9; Object[] objArr11 = new Object[1]; g(b9, b10, (byte) (b10 | 8), objArr11); obj5 = cls5.getMethod((String) objArr11[0], Object.class, Object.class); xzZ.y.put(1071125919, obj5); } ((Method) obj5).invoke(null, objArr10); } catch (Throwable th3) { Throwable cause3 = th3.getCause(); if (cause3 == null) { throw th3; } throw cause3; } } c3 = '0'; } objArr[0] = new String(cArr); } public final Luy b(String str) { return (Luy) b(new Object[]{this, str}, -322528280, 322528280, System.identityHashCode(this)); } public final Sts a() { int i = 2 % 2; int i2 = e + 51; int i3 = i2 % 128; d = i3; int i4 = i2 % 2; Sts sts = this.b; int i5 = i3 + 11; e = i5 % 128; if (i5 % 2 != 0) { return sts; } throw null; } }