package r3; import java.util.concurrent.TimeUnit; import java.util.concurrent.locks.Condition; import java.util.concurrent.locks.ReentrantLock; import kotlin.Unit; import kotlin.jvm.internal.Intrinsics; /* renamed from: r3.e, reason: case insensitive filesystem */ /* loaded from: classes3.dex */ public class C0573e extends K { public static final ReentrantLock h; public static final Condition i; /* renamed from: j, reason: collision with root package name */ public static final long f8275j; /* renamed from: k, reason: collision with root package name */ public static final long f8276k; /* renamed from: l, reason: collision with root package name */ public static C0573e f8277l; /* renamed from: e, reason: collision with root package name */ public boolean f8278e; /* renamed from: f, reason: collision with root package name */ public C0573e f8279f; /* renamed from: g, reason: collision with root package name */ public long f8280g; static { ReentrantLock reentrantLock = new ReentrantLock(); h = reentrantLock; Condition newCondition = reentrantLock.newCondition(); Intrinsics.checkNotNullExpressionValue(newCondition, "newCondition(...)"); i = newCondition; long millis = TimeUnit.SECONDS.toMillis(60L); f8275j = millis; f8276k = TimeUnit.MILLISECONDS.toNanos(millis); } /* JADX WARN: Type inference failed for: r6v1, types: [java.lang.Object, r3.e] */ public final void h() { long j4 = this.f8264c; boolean z3 = this.f8262a; if (j4 != 0 || z3) { ReentrantLock reentrantLock = h; reentrantLock.lock(); try { if (this.f8278e) { throw new IllegalStateException("Unbalanced enter/exit"); } this.f8278e = true; if (f8277l == null) { f8277l = new Object(); Thread thread = new Thread("Okio Watchdog"); thread.setDaemon(true); thread.start(); } long nanoTime = System.nanoTime(); if (j4 != 0 && z3) { this.f8280g = Math.min(j4, c() - nanoTime) + nanoTime; } else if (j4 != 0) { this.f8280g = j4 + nanoTime; } else { if (!z3) { throw new AssertionError(); } this.f8280g = c(); } long j5 = this.f8280g - nanoTime; C0573e c0573e = f8277l; Intrinsics.checkNotNull(c0573e); while (true) { C0573e c0573e2 = c0573e.f8279f; if (c0573e2 == null) { break; } Intrinsics.checkNotNull(c0573e2); if (j5 < c0573e2.f8280g - nanoTime) { break; } c0573e = c0573e.f8279f; Intrinsics.checkNotNull(c0573e); } this.f8279f = c0573e.f8279f; c0573e.f8279f = this; if (c0573e == f8277l) { i.signal(); } Unit unit = Unit.INSTANCE; reentrantLock.unlock(); } catch (Throwable th) { reentrantLock.unlock(); throw th; } } } public final boolean i() { ReentrantLock reentrantLock = h; reentrantLock.lock(); try { if (!this.f8278e) { return false; } this.f8278e = false; C0573e c0573e = f8277l; while (c0573e != null) { C0573e c0573e2 = c0573e.f8279f; if (c0573e2 == this) { c0573e.f8279f = this.f8279f; this.f8279f = null; return false; } c0573e = c0573e2; } reentrantLock.unlock(); return true; } finally { reentrantLock.unlock(); } } public void j() { } }