package com.applovin.impl; import android.media.AudioAttributes; import android.media.AudioFormat; import android.media.AudioManager; import android.media.AudioTrack; import android.media.AudioTrack$StreamEventCallback; import android.media.PlaybackParams; import android.os.ConditionVariable; import android.os.Handler; import android.os.SystemClock; import android.util.Pair; import androidx.emoji2.text.ConcurrencyHelpers$$ExternalSyntheticLambda1; import com.applovin.impl.p1; import com.applovin.impl.r1; import com.applovin.impl.u1; import com.google.android.gms.auth.blockstore.BlockstoreStatusCodes; import com.mbridge.msdk.playercommon.exoplayer2.C; import com.mbridge.msdk.playercommon.exoplayer2.extractor.ogg.DefaultOggSeeker; import com.mbridge.msdk.playercommon.exoplayer2.util.MimeTypes; import java.nio.ByteBuffer; import java.nio.ByteOrder; import java.util.ArrayDeque; import java.util.ArrayList; import java.util.Collections; import java.util.Objects; /* loaded from: classes.dex */ public final class s5 implements r1 { public static boolean a0 = false; private long A; private long B; private long C; private int D; private boolean E; private boolean F; private long G; private float H; private p1[] I; private ByteBuffer[] J; private ByteBuffer K; private int L; private ByteBuffer M; private byte[] N; private int O; private int P; private boolean Q; private boolean R; private boolean S; private boolean T; private int U; private v1 V; private boolean W; private long X; private boolean Y; private boolean Z; private final n1 a; private final b b; private final boolean c; private final d3 d; private final zo e; private final p1[] f; private final p1[] g; private final ConditionVariable h; private final u1 i; private final ArrayDeque j; private final boolean k; private final int l; private i m; private final g n; private final g o; private r1.c p; private c q; private c r; private AudioTrack s; private l1 t; private f u; private f v; private ph w; private ByteBuffer x; private int y; private long z; public interface b { long a(long j); ph a(ph phVar); boolean a(boolean z); p1[] a(); long b(); } private boolean t() { return this.s != null; } @Override // com.applovin.impl.r1 public void a(r1.c cVar) { this.p = cVar; } @Override // com.applovin.impl.r1 public void h() { if (xp.a < 25) { b(); return; } this.o.a(); this.n.a(); if (t()) { w(); if (this.i.d()) { this.s.pause(); } this.s.flush(); this.i.g(); u1 u1Var = this.i; AudioTrack audioTrack = this.s; c cVar = this.r; u1Var.a(audioTrack, cVar.c == 2, cVar.g, cVar.d, cVar.h); this.F = true; } } @Override // com.applovin.impl.r1 public void i() { this.E = true; } public final class h implements u1.a { @Override // com.applovin.impl.u1.a public void b(long j, long j2, long j3, long j4) { String str = "Spurious audio timestamp (system clock mismatch): " + j + ", " + j2 + ", " + j3 + ", " + j4 + ", " + s5.this.q() + ", " + s5.this.r(); if (s5.a0) { throw new e(str, null); } pc.d("DefaultAudioSink", str); } @Override // com.applovin.impl.u1.a public void b(long j) { pc.d("DefaultAudioSink", "Ignoring impossibly large audio latency: " + j); } private h() { } @Override // com.applovin.impl.u1.a public void a(long j) { if (s5.this.p != null) { s5.this.p.a(j); } } public /* synthetic */ h(s5 s5Var, a aVar) { this(); } @Override // com.applovin.impl.u1.a public void a(int i, long j) { if (s5.this.p != null) { s5.this.p.a(i, j, SystemClock.elapsedRealtime() - s5.this.X); } } @Override // com.applovin.impl.u1.a public void a(long j, long j2, long j3, long j4) { String str = "Spurious audio timestamp (frame position mismatch): " + j + ", " + j2 + ", " + j3 + ", " + j4 + ", " + s5.this.q() + ", " + s5.this.r(); if (!s5.a0) { pc.d("DefaultAudioSink", str); return; } throw new e(str, null); } } private static boolean e(int i2) { return (xp.a >= 24 && i2 == -6) || i2 == -32; } @Override // com.applovin.impl.r1 public void e() { b1.b(xp.a >= 21); b1.b(this.T); if (this.W) { return; } this.W = true; b(); } public static final class e extends RuntimeException { private e(String str) { super(str); } public /* synthetic */ e(String str, a aVar) { this(str); } } public static class d implements b { private final p1[] a; private final ak b; private final ok c; @Override // com.applovin.impl.s5.b public p1[] a() { return this.a; } public d(p1... p1VarArr) { this(p1VarArr, new ak(), new ok()); } @Override // com.applovin.impl.s5.b public ph a(ph phVar) { this.c.b(phVar.a); this.c.a(phVar.b); return phVar; } @Override // com.applovin.impl.s5.b public long b() { return this.b.j(); } public d(p1[] p1VarArr, ak akVar, ok okVar) { p1[] p1VarArr2 = new p1[p1VarArr.length + 2]; this.a = p1VarArr2; System.arraycopy(p1VarArr, 0, p1VarArr2, 0, p1VarArr.length); this.b = akVar; this.c = okVar; p1VarArr2[p1VarArr.length] = akVar; p1VarArr2[p1VarArr.length + 1] = okVar; } @Override // com.applovin.impl.s5.b public boolean a(boolean z) { this.b.a(z); return z; } @Override // com.applovin.impl.s5.b public long a(long j) { return this.c.a(j); } } public s5(n1 n1Var, b bVar, boolean z, boolean z2, int i2) { this.a = n1Var; this.b = (b) b1.a(bVar); int i3 = xp.a; this.c = i3 >= 21 && z; this.k = i3 >= 23 && z2; this.l = i3 >= 29 ? i2 : 0; this.h = new ConditionVariable(true); this.i = new u1(new h(this, null)); d3 d3Var = new d3(); this.d = d3Var; zo zoVar = new zo(); this.e = zoVar; ArrayList arrayList = new ArrayList(); Collections.addAll(arrayList, new wi(), d3Var, zoVar); Collections.addAll(arrayList, bVar.a()); this.f = (p1[]) arrayList.toArray(new p1[0]); this.g = new p1[]{new c9()}; this.H = 1.0f; this.t = l1.g; this.U = 0; this.V = new v1(0, 0.0f); ph phVar = ph.d; this.v = new f(phVar, false, 0L, 0L, null); this.w = phVar; this.P = -1; this.I = new p1[0]; this.J = new ByteBuffer[0]; this.j = new ArrayDeque(); this.n = new g(100L); this.o = new g(100L); } private void y() { p1[] p1VarArr = this.r.i; ArrayList arrayList = new ArrayList(); for (p1 p1Var : p1VarArr) { if (p1Var.f()) { arrayList.add(p1Var); } else { p1Var.b(); } } int size = arrayList.size(); this.I = (p1[]) arrayList.toArray(new p1[size]); this.J = new ByteBuffer[size]; m(); } private void m() { int i2 = 0; while (true) { p1[] p1VarArr = this.I; if (i2 >= p1VarArr.length) { return; } p1 p1Var = p1VarArr[i2]; p1Var.b(); this.J[i2] = p1Var.d(); i2++; } } private void s() { this.h.block(); AudioTrack k = k(); this.s = k; if (a(k)) { b(this.s); if (this.l != 3) { AudioTrack audioTrack = this.s; f9 f9Var = this.r.a; audioTrack.setOffloadDelayPadding(f9Var.C, f9Var.D); } } this.U = this.s.getAudioSessionId(); u1 u1Var = this.i; AudioTrack audioTrack2 = this.s; c cVar = this.r; u1Var.a(audioTrack2, cVar.c == 2, cVar.g, cVar.d, cVar.h); x(); int i2 = this.V.a; if (i2 != 0) { this.s.attachAuxEffect(i2); this.s.setAuxEffectSendLevel(this.V.b); } this.F = true; } @Override // com.applovin.impl.r1 public void j() { this.S = true; if (t()) { this.i.i(); this.s.play(); } } private AudioTrack k() { try { return ((c) b1.a(this.r)).a(this.W, this.t, this.U); } catch (r1.b e2) { u(); r1.c cVar = this.p; if (cVar != null) { cVar.a(e2); } throw e2; } } private void u() { if (this.r.b()) { this.Y = true; } } /* JADX WARN: Removed duplicated region for block: B:15:0x002f */ /* JADX WARN: Removed duplicated region for block: B:7:0x0018 */ /* JADX WARN: Unsupported multi-entry loop pattern (BACK_EDGE: B:14:0x0029 -> B:4:0x0009). Please report as a decompilation issue!!! */ /* Code decompiled incorrectly, please refer to instructions dump. To view partially-correct add '--show-bad-code' argument */ private boolean l() { /* r9 = this; int r0 = r9.P r1 = 1 r2 = 0 r3 = -1 if (r0 != r3) goto Lb r9.P = r2 L9: r0 = r1 goto Lc Lb: r0 = r2 Lc: int r4 = r9.P com.applovin.impl.p1[] r5 = r9.I int r6 = r5.length r7 = -9223372036854775807(0x8000000000000001, double:-4.9E-324) if (r4 >= r6) goto L2f r4 = r5[r4] if (r0 == 0) goto L1f r4.e() L1f: r9.d(r7) boolean r0 = r4.c() if (r0 != 0) goto L29 return r2 L29: int r0 = r9.P int r0 = r0 + r1 r9.P = r0 goto L9 L2f: java.nio.ByteBuffer r0 = r9.M if (r0 == 0) goto L3b r9.a(r0, r7) java.nio.ByteBuffer r0 = r9.M if (r0 == 0) goto L3b return r2 L3b: r9.P = r3 return r1 */ throw new UnsupportedOperationException("Method not decompiled: com.applovin.impl.s5.l():boolean"); } @Override // com.applovin.impl.r1 public void f() { if (!this.Q && t() && l()) { v(); this.Q = true; } } public boolean p() { return o().b; } @Override // com.applovin.impl.r1 public boolean g() { return t() && this.i.e(r()); } private void x() { if (t()) { if (xp.a >= 21) { a(this.s, this.H); } else { b(this.s, this.H); } } } @Override // com.applovin.impl.r1 public void pause() { this.S = false; if (t() && this.i.f()) { this.s.pause(); } } public class a extends Thread { final /* synthetic */ AudioTrack a; /* JADX WARN: 'super' call moved to the top of the method (can break code semantics) */ public a(String str, AudioTrack audioTrack) { super(str); this.a = audioTrack; } @Override // java.lang.Thread, java.lang.Runnable public void run() { try { this.a.flush(); this.a.release(); } finally { s5.this.h.open(); } } } @Override // com.applovin.impl.r1 public void d() { if (this.W) { this.W = false; b(); } } @Override // com.applovin.impl.r1 public void reset() { b(); for (p1 p1Var : this.f) { p1Var.reset(); } for (p1 p1Var2 : this.g) { p1Var2.reset(); } this.S = false; this.Y = false; } private void w() { this.z = 0L; this.A = 0L; this.B = 0L; this.C = 0L; this.Z = false; this.D = 0; this.v = new f(n(), p(), 0L, 0L, null); this.G = 0L; this.u = null; this.j.clear(); this.K = null; this.L = 0; this.M = null; this.R = false; this.Q = false; this.P = -1; this.x = null; this.y = 0; this.e.k(); m(); } private ph n() { return o().a; } private f o() { f fVar = this.u; return fVar != null ? fVar : !this.j.isEmpty() ? (f) this.j.getLast() : this.v; } private boolean z() { return (this.W || !MimeTypes.AUDIO_RAW.equals(this.r.a.m) || f(this.r.a.B)) ? false : true; } /* JADX INFO: Access modifiers changed from: private */ public long q() { return this.r.c == 0 ? this.z / r0.b : this.A; } /* JADX INFO: Access modifiers changed from: private */ public long r() { return this.r.c == 0 ? this.B / r0.d : this.C; } private void a(long j) { ph phVar; if (z()) { phVar = this.b.a(n()); } else { phVar = ph.d; } ph phVar2 = phVar; boolean a2 = z() ? this.b.a(p()) : false; this.j.add(new f(phVar2, a2, Math.max(0L, j), this.r.b(r()), null)); y(); r1.c cVar = this.p; if (cVar != null) { cVar.a(a2); } } private long c(long j) { return j + this.r.b(this.b.b()); } private long b(long j) { while (!this.j.isEmpty() && j >= ((f) this.j.getFirst()).d) { this.v = (f) this.j.remove(); } f fVar = this.v; long j2 = j - fVar.d; if (fVar.a.equals(ph.d)) { return this.v.c + j2; } if (this.j.isEmpty()) { return this.v.c + this.b.a(j2); } f fVar2 = (f) this.j.getFirst(); return fVar2.c - xp.a(fVar2.d - j, this.v.a.a); } private void v() { if (this.R) { return; } this.R = true; this.i.d(r()); this.s.stop(); this.y = 0; } public final class i { private final Handler a = new Handler(); private final AudioTrack$StreamEventCallback b; public i() { this.b = new a(s5.this); } public class a extends AudioTrack$StreamEventCallback { final /* synthetic */ s5 a; public a(s5 s5Var) { this.a = s5Var; } public void onDataRequest(AudioTrack audioTrack, int i) { b1.b(audioTrack == s5.this.s); if (s5.this.p == null || !s5.this.S) { return; } s5.this.p.a(); } public void onTearDown(AudioTrack audioTrack) { b1.b(audioTrack == s5.this.s); if (s5.this.p == null || !s5.this.S) { return; } s5.this.p.a(); } } public void a(AudioTrack audioTrack) { Handler handler = this.a; Objects.requireNonNull(handler); audioTrack.registerStreamEventCallback(new ConcurrencyHelpers$$ExternalSyntheticLambda1(handler), this.b); } public void b(AudioTrack audioTrack) { audioTrack.unregisterStreamEventCallback(this.b); this.a.removeCallbacksAndMessages(null); } } public static final class f { public final ph a; public final boolean b; public final long c; public final long d; private f(ph phVar, boolean z, long j, long j2) { this.a = phVar; this.b = z; this.c = j; this.d = j2; } public /* synthetic */ f(ph phVar, boolean z, long j, long j2, a aVar) { this(phVar, z, j, j2); } } public static final class c { public final f9 a; public final int b; public final int c; public final int d; public final int e; public final int f; public final int g; public final int h; public final p1[] i; public boolean b() { return this.c == 1; } public c(f9 f9Var, int i, int i2, int i3, int i4, int i5, int i6, int i7, boolean z, p1[] p1VarArr) { this.a = f9Var; this.b = i; this.c = i2; this.d = i3; this.e = i4; this.f = i5; this.g = i6; this.i = p1VarArr; this.h = a(i7, z); } public long b(long j) { return (j * 1000000) / this.e; } public AudioTrack a(boolean z, l1 l1Var, int i) { try { AudioTrack b = b(z, l1Var, i); int state = b.getState(); if (state == 1) { return b; } try { b.release(); } catch (Exception unused) { } throw new r1.b(state, this.e, this.f, this.h, this.a, b(), null); } catch (IllegalArgumentException | UnsupportedOperationException e) { throw new r1.b(0, this.e, this.f, this.h, this.a, b(), e); } } private AudioTrack d(boolean z, l1 l1Var, int i) { AudioTrack.Builder offloadedPlayback; offloadedPlayback = new AudioTrack.Builder().setAudioAttributes(a(l1Var, z)).setAudioFormat(s5.b(this.e, this.f, this.g)).setTransferMode(1).setBufferSizeInBytes(this.h).setSessionId(i).setOffloadedPlayback(this.c == 1); return offloadedPlayback.build(); } private int c(long j) { int d = s5.d(this.g); if (this.g == 5) { d *= 2; } return (int) ((j * d) / 1000000); } private AudioTrack c(boolean z, l1 l1Var, int i) { return new AudioTrack(a(l1Var, z), s5.b(this.e, this.f, this.g), this.h, 1, i); } public boolean a(c cVar) { return cVar.c == this.c && cVar.g == this.g && cVar.e == this.e && cVar.f == this.f && cVar.d == this.d; } public long d(long j) { return (j * 1000000) / this.a.A; } private AudioTrack b(boolean z, l1 l1Var, int i) { int i2 = xp.a; if (i2 >= 29) { return d(z, l1Var, i); } if (i2 >= 21) { return c(z, l1Var, i); } return a(l1Var, i); } private int a(int i, boolean z) { if (i != 0) { return i; } int i2 = this.c; if (i2 == 0) { return a(z ? 8.0f : 1.0f); } if (i2 == 1) { return c(50000000L); } if (i2 == 2) { return c(250000L); } throw new IllegalStateException(); } private AudioTrack a(l1 l1Var, int i) { int e = xp.e(l1Var.c); if (i == 0) { return new AudioTrack(e, this.e, this.f, this.g, this.h, 1); } return new AudioTrack(e, this.e, this.f, this.g, this.h, 1, i); } public long a(long j) { return (j * this.e) / 1000000; } private static AudioAttributes a(l1 l1Var, boolean z) { if (z) { return a(); } return l1Var.a(); } private int a(float f) { int minBufferSize = AudioTrack.getMinBufferSize(this.e, this.f, this.g); b1.b(minBufferSize != -2); int a = xp.a(minBufferSize * 4, ((int) a(250000L)) * this.d, Math.max(minBufferSize, ((int) a(750000L)) * this.d)); return f != 1.0f ? Math.round(a * f) : a; } private static AudioAttributes a() { return new AudioAttributes.Builder().setContentType(3).setFlags(16).setUsage(1).build(); } } @Override // com.applovin.impl.r1 public void a(f9 f9Var, int i2, int[] iArr) { int i3; p1[] p1VarArr; int intValue; int i4; int i5; int intValue2; int i6; int[] iArr2; if (MimeTypes.AUDIO_RAW.equals(f9Var.m)) { b1.a(xp.g(f9Var.B)); int b2 = xp.b(f9Var.B, f9Var.z); p1[] p1VarArr2 = f(f9Var.B) ? this.g : this.f; this.e.a(f9Var.C, f9Var.D); if (xp.a < 21 && f9Var.z == 8 && iArr == null) { iArr2 = new int[6]; for (int i7 = 0; i7 < 6; i7++) { iArr2[i7] = i7; } } else { iArr2 = iArr; } this.d.a(iArr2); p1.a aVar = new p1.a(f9Var.A, f9Var.z, f9Var.B); for (p1 p1Var : p1VarArr2) { try { p1.a a2 = p1Var.a(aVar); if (p1Var.f()) { aVar = a2; } } catch (p1.b e2) { throw new r1.a(e2, f9Var); } } int i8 = aVar.c; i4 = aVar.a; intValue2 = xp.a(aVar.b); p1VarArr = p1VarArr2; intValue = i8; i5 = b2; i3 = xp.b(i8, aVar.b); i6 = 0; } else { p1[] p1VarArr3 = new p1[0]; int i9 = f9Var.A; i3 = -1; if (a(f9Var, this.t)) { p1VarArr = p1VarArr3; intValue = Cif.b((String) b1.a((Object) f9Var.m), f9Var.j); i6 = 1; intValue2 = xp.a(f9Var.z); i4 = i9; i5 = -1; } else { Pair a3 = a(f9Var, this.a); if (a3 != null) { p1VarArr = p1VarArr3; intValue = ((Integer) a3.first).intValue(); i4 = i9; i5 = -1; intValue2 = ((Integer) a3.second).intValue(); i6 = 2; } else { throw new r1.a("Unable to configure passthrough for: " + f9Var, f9Var); } } } if (intValue == 0) { throw new r1.a("Invalid output encoding (mode=" + i6 + ") for: " + f9Var, f9Var); } if (intValue2 != 0) { this.Y = false; c cVar = new c(f9Var, i5, i6, i3, i4, intValue2, intValue, i2, this.k, p1VarArr); if (t()) { this.q = cVar; return; } else { this.r = cVar; return; } } throw new r1.a("Invalid output channel config (mode=" + i6 + ") for: " + f9Var, f9Var); } public static final class g { private final long a; private Exception b; private long c; public void a() { this.b = null; } public g(long j) { this.a = j; } public void a(Exception exc) { long elapsedRealtime = SystemClock.elapsedRealtime(); if (this.b == null) { this.b = exc; this.c = this.a + elapsedRealtime; } if (elapsedRealtime >= this.c) { Exception exc2 = this.b; if (exc2 != exc) { exc2.addSuppressed(exc); } Exception exc3 = this.b; a(); throw exc3; } } } private boolean f(int i2) { return this.c && xp.f(i2); } @Override // com.applovin.impl.r1 public boolean c() { return !t() || (this.Q && !g()); } private static int c(int i2) { int i3 = xp.a; if (i3 <= 28) { if (i2 == 7) { i2 = 8; } else if (i2 == 3 || i2 == 4 || i2 == 5) { i2 = 6; } } if (i3 <= 26 && "fugu".equals(xp.b) && i2 == 1) { i2 = 2; } return xp.a(i2); } @Override // com.applovin.impl.r1 public long a(boolean z) { if (!t() || this.F) { return Long.MIN_VALUE; } return c(b(Math.min(this.i.a(z), this.r.b(r())))); } @Override // com.applovin.impl.r1 public void b() { if (t()) { w(); if (this.i.d()) { this.s.pause(); } if (a(this.s)) { ((i) b1.a(this.m)).b(this.s); } AudioTrack audioTrack = this.s; this.s = null; if (xp.a < 21 && !this.T) { this.U = 0; } c cVar = this.q; if (cVar != null) { this.r = cVar; this.q = null; } this.i.g(); this.h.close(); new a("ExoPlayer:AudioTrackReleaseThread", audioTrack).start(); } this.o.a(); this.n.a(); } /* JADX INFO: Access modifiers changed from: private */ public static int d(int i2) { switch (i2) { case 5: return 80000; case 6: case 18: return 768000; case 7: return 192000; case 8: return 2250000; case 9: return BlockstoreStatusCodes.MAX_SIZE_EXCEEDED; case 10: return DefaultOggSeeker.MATCH_BYTE_RANGE; case 11: return 16000; case 12: return 7000; case 13: default: throw new IllegalArgumentException(); case 14: return 3062500; case 15: return 8000; case 16: return 256000; case 17: return 336000; } } @Override // com.applovin.impl.r1 public int b(f9 f9Var) { if (!MimeTypes.AUDIO_RAW.equals(f9Var.m)) { return ((this.Y || !a(f9Var, this.t)) && !b(f9Var, this.a)) ? 0 : 2; } if (!xp.g(f9Var.B)) { pc.d("DefaultAudioSink", "Invalid PCM encoding: " + f9Var.B); return 0; } int i2 = f9Var.B; return (i2 == 2 || (this.c && i2 == 4)) ? 2 : 1; } private void d(long j) { ByteBuffer byteBuffer; int length = this.I.length; int i2 = length; while (i2 >= 0) { if (i2 > 0) { byteBuffer = this.J[i2 - 1]; } else { byteBuffer = this.K; if (byteBuffer == null) { byteBuffer = p1.a; } } if (i2 == length) { a(byteBuffer, j); } else { p1 p1Var = this.I[i2]; if (i2 > this.P) { p1Var.a(byteBuffer); } ByteBuffer d2 = p1Var.d(); this.J[i2] = d2; if (d2.hasRemaining()) { i2++; } } if (byteBuffer.hasRemaining()) { return; } else { i2--; } } } private static Pair a(f9 f9Var, n1 n1Var) { if (n1Var == null) { return null; } int b2 = Cif.b((String) b1.a((Object) f9Var.m), f9Var.j); int i2 = 6; if (b2 != 5 && b2 != 6 && b2 != 18 && b2 != 17 && b2 != 7 && b2 != 8 && b2 != 14) { return null; } if (b2 == 18 && !n1Var.a(18)) { b2 = 6; } else if (b2 == 8 && !n1Var.a(8)) { b2 = 7; } if (!n1Var.a(b2)) { return null; } if (b2 == 18) { if (xp.a >= 29 && (i2 = a(18, f9Var.A)) == 0) { pc.d("DefaultAudioSink", "E-AC3 JOC encoding supported but no channel count supported"); return null; } } else { i2 = f9Var.z; if (i2 > n1Var.c()) { return null; } } int c2 = c(i2); if (c2 == 0) { return null; } return Pair.create(Integer.valueOf(b2), Integer.valueOf(c2)); } private static boolean b(f9 f9Var, n1 n1Var) { return a(f9Var, n1Var) != null; } private void b(AudioTrack audioTrack) { if (this.m == null) { this.m = new i(); } this.m.a(audioTrack); } private static int a(int i2, ByteBuffer byteBuffer) { switch (i2) { case 5: case 6: case 18: return k.b(byteBuffer); case 7: case 8: return f7.a(byteBuffer); case 9: int d2 = tf.d(xp.a(byteBuffer, byteBuffer.position())); if (d2 != -1) { return d2; } throw new IllegalArgumentException(); case 10: return 1024; case 11: case 12: return 2048; case 13: default: throw new IllegalStateException("Unexpected audio encoding: " + i2); case 14: int a2 = k.a(byteBuffer); if (a2 == -1) { return 0; } return k.a(byteBuffer, a2) * 16; case 15: return 512; case 16: return 1024; case 17: return n.a(byteBuffer); } } private void b(ph phVar) { if (t()) { try { this.s.setPlaybackParams(new PlaybackParams().allowDefaults().setSpeed(phVar.a).setPitch(phVar.b).setAudioFallbackMode(2)); } catch (IllegalArgumentException e2) { pc.c("DefaultAudioSink", "Failed to set playback params", e2); } phVar = new ph(this.s.getPlaybackParams().getSpeed(), this.s.getPlaybackParams().getPitch()); this.i.a(phVar.a); } this.w = phVar; } @Override // com.applovin.impl.r1 public ph a() { return this.k ? this.w : n(); } @Override // com.applovin.impl.r1 public boolean a(ByteBuffer byteBuffer, long j, int i2) { ByteBuffer byteBuffer2 = this.K; b1.a(byteBuffer2 == null || byteBuffer == byteBuffer2); if (this.q != null) { if (!l()) { return false; } if (!this.q.a(this.r)) { v(); if (g()) { return false; } b(); } else { this.r = this.q; this.q = null; if (a(this.s) && this.l != 3) { this.s.setOffloadEndOfStream(); AudioTrack audioTrack = this.s; f9 f9Var = this.r.a; audioTrack.setOffloadDelayPadding(f9Var.C, f9Var.D); this.Z = true; } } a(j); } if (!t()) { try { s(); } catch (r1.b e2) { if (!e2.b) { this.n.a(e2); return false; } throw e2; } } this.n.a(); if (this.F) { this.G = Math.max(0L, j); this.E = false; this.F = false; if (this.k && xp.a >= 23) { b(this.w); } a(j); if (this.S) { j(); } } if (!this.i.g(r())) { return false; } if (this.K == null) { b1.a(byteBuffer.order() == ByteOrder.LITTLE_ENDIAN); if (!byteBuffer.hasRemaining()) { return true; } c cVar = this.r; if (cVar.c != 0 && this.D == 0) { int a2 = a(cVar.g, byteBuffer); this.D = a2; if (a2 == 0) { return true; } } if (this.u != null) { if (!l()) { return false; } a(j); this.u = null; } long d2 = this.G + this.r.d(q() - this.e.j()); if (!this.E && Math.abs(d2 - j) > 200000) { this.p.a(new r1.d(j, d2)); this.E = true; } if (this.E) { if (!l()) { return false; } long j2 = j - d2; this.G += j2; this.E = false; a(j); r1.c cVar2 = this.p; if (cVar2 != null && j2 != 0) { cVar2.b(); } } if (this.r.c == 0) { this.z += byteBuffer.remaining(); } else { this.A += this.D * i2; } this.K = byteBuffer; this.L = i2; } d(j); if (!this.K.hasRemaining()) { this.K = null; this.L = 0; return true; } if (!this.i.f(r())) { return false; } pc.d("DefaultAudioSink", "Resetting stalled audio track"); b(); return true; } @Override // com.applovin.impl.r1 public void b(boolean z) { a(n(), z); } @Override // com.applovin.impl.r1 public void a(l1 l1Var) { if (this.t.equals(l1Var)) { return; } this.t = l1Var; if (this.W) { return; } b(); } private static void b(AudioTrack audioTrack, float f2) { audioTrack.setStereoVolume(f2, f2); } /* JADX INFO: Access modifiers changed from: private */ public static AudioFormat b(int i2, int i3, int i4) { return new AudioFormat.Builder().setSampleRate(i2).setChannelMask(i3).setEncoding(i4).build(); } private void a(ph phVar, boolean z) { f o = o(); if (phVar.equals(o.a) && z == o.b) { return; } f fVar = new f(phVar, z, C.TIME_UNSET, C.TIME_UNSET, null); if (t()) { this.u = fVar; } else { this.v = fVar; } } @Override // com.applovin.impl.r1 public void a(int i2) { if (this.U != i2) { this.U = i2; this.T = i2 != 0; b(); } } @Override // com.applovin.impl.r1 public void a(v1 v1Var) { if (this.V.equals(v1Var)) { return; } int i2 = v1Var.a; float f2 = v1Var.b; AudioTrack audioTrack = this.s; if (audioTrack != null) { if (this.V.a != i2) { audioTrack.attachAuxEffect(i2); } if (i2 != 0) { this.s.setAuxEffectSendLevel(f2); } } this.V = v1Var; } @Override // com.applovin.impl.r1 public void a(ph phVar) { ph phVar2 = new ph(xp.a(phVar.a, 0.1f, 8.0f), xp.a(phVar.b, 0.1f, 8.0f)); if (this.k && xp.a >= 23) { b(phVar2); } else { a(phVar2, p()); } } @Override // com.applovin.impl.r1 public void a(float f2) { if (this.H != f2) { this.H = f2; x(); } } private static void a(AudioTrack audioTrack, float f2) { audioTrack.setVolume(f2); } @Override // com.applovin.impl.r1 public boolean a(f9 f9Var) { return b(f9Var) != 0; } private void a(ByteBuffer byteBuffer, long j) { int a2; if (byteBuffer.hasRemaining()) { ByteBuffer byteBuffer2 = this.M; if (byteBuffer2 != null) { b1.a(byteBuffer2 == byteBuffer); } else { this.M = byteBuffer; if (xp.a < 21) { int remaining = byteBuffer.remaining(); byte[] bArr = this.N; if (bArr == null || bArr.length < remaining) { this.N = new byte[remaining]; } int position = byteBuffer.position(); byteBuffer.get(this.N, 0, remaining); byteBuffer.position(position); this.O = 0; } } int remaining2 = byteBuffer.remaining(); if (xp.a < 21) { int b2 = this.i.b(this.B); if (b2 > 0) { a2 = this.s.write(this.N, this.O, Math.min(remaining2, b2)); if (a2 > 0) { this.O += a2; byteBuffer.position(byteBuffer.position() + a2); } } else { a2 = 0; } } else if (this.W) { b1.b(j != C.TIME_UNSET); a2 = a(this.s, byteBuffer, remaining2, j); } else { a2 = a(this.s, byteBuffer, remaining2); } this.X = SystemClock.elapsedRealtime(); if (a2 < 0) { boolean e2 = e(a2); if (e2) { u(); } r1.e eVar = new r1.e(a2, this.r.a, e2); r1.c cVar = this.p; if (cVar != null) { cVar.a(eVar); } if (!eVar.b) { this.o.a(eVar); return; } throw eVar; } this.o.a(); if (a(this.s)) { long j2 = this.C; if (j2 > 0) { this.Z = false; } if (this.S && this.p != null && a2 < remaining2 && !this.Z) { this.p.b(this.i.c(j2)); } } int i2 = this.r.c; if (i2 == 0) { this.B += a2; } if (a2 == remaining2) { if (i2 != 0) { b1.b(byteBuffer == this.K); this.C += this.D * this.L; } this.M = null; } } } private static int a(AudioTrack audioTrack, ByteBuffer byteBuffer, int i2) { return audioTrack.write(byteBuffer, i2, 1); } private static int a(int i2, int i3) { boolean isDirectPlaybackSupported; AudioAttributes build = new AudioAttributes.Builder().setUsage(1).setContentType(3).build(); for (int i4 = 8; i4 > 0; i4--) { isDirectPlaybackSupported = AudioTrack.isDirectPlaybackSupported(new AudioFormat.Builder().setEncoding(i2).setSampleRate(i3).setChannelMask(xp.a(i4)).build(), build); if (isDirectPlaybackSupported) { return i4; } } return 0; } private boolean a(f9 f9Var, l1 l1Var) { int b2; int a2; int a3; if (xp.a < 29 || this.l == 0 || (b2 = Cif.b((String) b1.a((Object) f9Var.m), f9Var.j)) == 0 || (a2 = xp.a(f9Var.z)) == 0 || (a3 = a(b(f9Var.A, a2, b2), l1Var.a())) == 0) { return false; } if (a3 == 1) { return ((f9Var.C != 0 || f9Var.D != 0) && (this.l == 1)) ? false : true; } if (a3 == 2) { return true; } throw new IllegalStateException(); } private int a(AudioFormat audioFormat, AudioAttributes audioAttributes) { boolean isOffloadedPlaybackSupported; int playbackOffloadSupport; int i2 = xp.a; if (i2 >= 31) { playbackOffloadSupport = AudioManager.getPlaybackOffloadSupport(audioFormat, audioAttributes); return playbackOffloadSupport; } isOffloadedPlaybackSupported = AudioManager.isOffloadedPlaybackSupported(audioFormat, audioAttributes); if (isOffloadedPlaybackSupported) { return (i2 == 30 && xp.d.startsWith("Pixel")) ? 2 : 1; } return 0; } private static boolean a(AudioTrack audioTrack) { boolean isOffloadedPlayback; if (xp.a >= 29) { isOffloadedPlayback = audioTrack.isOffloadedPlayback(); if (isOffloadedPlayback) { return true; } } return false; } private int a(AudioTrack audioTrack, ByteBuffer byteBuffer, int i2, long j) { if (xp.a >= 26) { return audioTrack.write(byteBuffer, i2, 1, j * 1000); } if (this.x == null) { ByteBuffer allocate = ByteBuffer.allocate(16); this.x = allocate; allocate.order(ByteOrder.BIG_ENDIAN); this.x.putInt(1431633921); } if (this.y == 0) { this.x.putInt(4, i2); this.x.putLong(8, j * 1000); this.x.position(0); this.y = i2; } int remaining = this.x.remaining(); if (remaining > 0) { int write = audioTrack.write(this.x, remaining, 1); if (write < 0) { this.y = 0; return write; } if (write < remaining) { return 0; } } int a2 = a(audioTrack, byteBuffer, i2); if (a2 < 0) { this.y = 0; return a2; } this.y -= a2; return a2; } }