package okhttp3.internal.concurrent;

import androidx.media3.container.NalUnitUtil;
import com.google.android.gms.measurement.api.AppMeasurementSdk;
import defpackage.cr4;
import defpackage.e6a;
import defpackage.kp6;
import defpackage.n41;
import defpackage.pq6;
import defpackage.qq3;
import defpackage.vx8;
import defpackage.y41;
import java.util.ArrayList;
import java.util.Iterator;
import java.util.List;
import java.util.concurrent.CountDownLatch;
import java.util.concurrent.RejectedExecutionException;
import java.util.logging.Level;
import kotlin.Metadata;
import okhttp3.internal.Util;

/* JADX INFO: loaded from: classes3.dex */
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@vx8
public final class TaskQueue {

    @pq6
    private Task activeTask;
    private boolean cancelActiveTask;

    @kp6
    private final List<Task> futureTasks;

    @kp6
    private final String name;
    private boolean shutdown;

    @kp6
    private final TaskRunner taskRunner;

    @Metadata(d1 = {"\u0000\u001a\n\u0002\u0018\u0002\n\u0002\u0018\u0002\n\u0002\b\u0002\n\u0002\u0018\u0002\n\u0002\b\u0003\n\u0002\u0010\t\n\u0000\b\u0002\u0018\u00002\u00020\u0001B\u0005¢\u0006\u0002\u0010\u0002J\b\u0010\u0007\u001a\u00020\bH\u0016R\u0011\u0010\u0003\u001a\u00020\u0004¢\u0006\b\n\u0000\u001a\u0004\b\u0005\u0010\u0006¨\u0006\t"}, d2 = {"Lokhttp3/internal/concurrent/TaskQueue$AwaitIdleTask;", "Lokhttp3/internal/concurrent/Task;", "()V", "latch", "Ljava/util/concurrent/CountDownLatch;", "getLatch", "()Ljava/util/concurrent/CountDownLatch;", "runOnce", "", "okhttp"}, k = 1, mv = {1, 8, 0}, xi = NalUnitUtil.H265_NAL_UNIT_TYPE_UNSPECIFIED)
    public static final class AwaitIdleTask extends Task {

        @kp6
        private final CountDownLatch latch;

        public AwaitIdleTask() {
            super(n41.s(new StringBuilder(), Util.okHttpName, " awaitIdle"), false);
            this.latch = new CountDownLatch(1);
        }

        @kp6
        public final CountDownLatch getLatch() {
            return this.latch;
        }

        @Override // okhttp3.internal.concurrent.Task
        public long runOnce() {
            this.latch.countDown();
            return -1L;
        }
    }

    /* JADX INFO: renamed from: okhttp3.internal.concurrent.TaskQueue$execute$1, reason: invalid class name */
    @Metadata(d1 = {"\u0000\u0011\n\u0000\n\u0002\u0018\u0002\n\u0000\n\u0002\u0010\t\n\u0000*\u0001\u0000\b\n\u0018\u00002\u00020\u0001J\b\u0010\u0002\u001a\u00020\u0003H\u0016¨\u0006\u0004"}, d2 = {"okhttp3/internal/concurrent/TaskQueue$execute$1", "Lokhttp3/internal/concurrent/Task;", "runOnce", "", "okhttp"}, k = 1, mv = {1, 8, 0}, xi = 176)
    @vx8
    public static final class AnonymousClass1 extends Task {
        final /* synthetic */ qq3<e6a> $block;

        /* JADX WARN: 'super' call moved to the top of the method (can break code semantics) */
        public AnonymousClass1(String str, boolean z, qq3<e6a> qq3Var) {
            super(str, z);
            this.$block = qq3Var;
        }

        @Override // okhttp3.internal.concurrent.Task
        public long runOnce() {
            this.$block.invoke();
            return -1L;
        }
    }

    /* JADX INFO: renamed from: okhttp3.internal.concurrent.TaskQueue$schedule$2, reason: invalid class name */
    @Metadata(d1 = {"\u0000\u0011\n\u0000\n\u0002\u0018\u0002\n\u0000\n\u0002\u0010\t\n\u0000*\u0001\u0000\b\n\u0018\u00002\u00020\u0001J\b\u0010\u0002\u001a\u00020\u0003H\u0016¨\u0006\u0004"}, d2 = {"okhttp3/internal/concurrent/TaskQueue$schedule$2", "Lokhttp3/internal/concurrent/Task;", "runOnce", "", "okhttp"}, k = 1, mv = {1, 8, 0}, xi = 176)
    @vx8
    public static final class AnonymousClass2 extends Task {
        final /* synthetic */ qq3<Long> $block;

        /* JADX WARN: 'super' call moved to the top of the method (can break code semantics) */
        public AnonymousClass2(String str, qq3<Long> qq3Var) {
            super(str, false, 2, null);
            this.$block = qq3Var;
        }

        @Override // okhttp3.internal.concurrent.Task
        public long runOnce() {
            return ((Number) this.$block.invoke()).longValue();
        }
    }

    public TaskQueue(@kp6 TaskRunner taskRunner, @kp6 String str) {
        cr4.g(taskRunner, "taskRunner");
        cr4.g(str, AppMeasurementSdk.ConditionalUserProperty.NAME);
        this.taskRunner = taskRunner;
        this.name = str;
        this.futureTasks = new ArrayList();
    }

    public static /* synthetic */ void execute$default(TaskQueue taskQueue, String str, long j, boolean z, qq3 qq3Var, int i, Object obj) {
        if ((i & 2) != 0) {
            j = 0;
        }
        if ((i & 4) != 0) {
            z = true;
        }
        cr4.g(str, AppMeasurementSdk.ConditionalUserProperty.NAME);
        cr4.g(qq3Var, "block");
        taskQueue.schedule(new AnonymousClass1(str, z, qq3Var), j);
    }

    public static /* synthetic */ void schedule$default(TaskQueue taskQueue, Task task, long j, int i, Object obj) {
        if ((i & 2) != 0) {
            j = 0;
        }
        taskQueue.schedule(task, j);
    }

    public final void cancelAll() {
        if (Util.assertionsEnabled && Thread.holdsLock(this)) {
            throw new AssertionError("Thread " + Thread.currentThread().getName() + " MUST NOT hold lock on " + this);
        }
        synchronized (this.taskRunner) {
            if (cancelAllAndDecide$okhttp()) {
                this.taskRunner.kickCoordinator$okhttp(this);
            }
        }
    }

    public final boolean cancelAllAndDecide$okhttp() {
        Task task = this.activeTask;
        if (task != null) {
            cr4.d(task);
            if (task.getCancelable()) {
                this.cancelActiveTask = true;
            }
        }
        boolean z = false;
        for (int size = this.futureTasks.size() - 1; -1 < size; size--) {
            if (this.futureTasks.get(size).getCancelable()) {
                Task task2 = this.futureTasks.get(size);
                if (TaskRunner.INSTANCE.getLogger().isLoggable(Level.FINE)) {
                    TaskLoggerKt.log(task2, this, "canceled");
                }
                this.futureTasks.remove(size);
                z = true;
            }
        }
        return z;
    }

    public final void execute(@kp6 String name, long delayNanos, boolean cancelable, @kp6 qq3<e6a> block) {
        cr4.g(name, AppMeasurementSdk.ConditionalUserProperty.NAME);
        cr4.g(block, "block");
        schedule(new AnonymousClass1(name, cancelable, block), delayNanos);
    }

    @pq6
    /* JADX INFO: renamed from: getActiveTask$okhttp, reason: from getter */
    public final Task getActiveTask() {
        return this.activeTask;
    }

    /* JADX INFO: renamed from: getCancelActiveTask$okhttp, reason: from getter */
    public final boolean getCancelActiveTask() {
        return this.cancelActiveTask;
    }

    @kp6
    public final List<Task> getFutureTasks$okhttp() {
        return this.futureTasks;
    }

    @kp6
    /* JADX INFO: renamed from: getName$okhttp, reason: from getter */
    public final String getName() {
        return this.name;
    }

    @kp6
    public final List<Task> getScheduledTasks() {
        List<Task> listBo;
        synchronized (this.taskRunner) {
            listBo = y41.bo(this.futureTasks);
        }
        return listBo;
    }

    /* JADX INFO: renamed from: getShutdown$okhttp, reason: from getter */
    public final boolean getShutdown() {
        return this.shutdown;
    }

    @kp6
    /* JADX INFO: renamed from: getTaskRunner$okhttp, reason: from getter */
    public final TaskRunner getTaskRunner() {
        return this.taskRunner;
    }

    @kp6
    public final CountDownLatch idleLatch() {
        synchronized (this.taskRunner) {
            if (this.activeTask == null && this.futureTasks.isEmpty()) {
                return new CountDownLatch(0);
            }
            Task task = this.activeTask;
            if (task instanceof AwaitIdleTask) {
                return ((AwaitIdleTask) task).getLatch();
            }
            for (Task task2 : this.futureTasks) {
                if (task2 instanceof AwaitIdleTask) {
                    return ((AwaitIdleTask) task2).getLatch();
                }
            }
            AwaitIdleTask awaitIdleTask = new AwaitIdleTask();
            if (scheduleAndDecide$okhttp(awaitIdleTask, 0L, false)) {
                this.taskRunner.kickCoordinator$okhttp(this);
            }
            return awaitIdleTask.getLatch();
        }
    }

    public final void schedule(@kp6 Task task, long delayNanos) {
        cr4.g(task, "task");
        synchronized (this.taskRunner) {
            if (!this.shutdown) {
                if (scheduleAndDecide$okhttp(task, delayNanos, false)) {
                    this.taskRunner.kickCoordinator$okhttp(this);
                }
            } else if (task.getCancelable()) {
                if (TaskRunner.INSTANCE.getLogger().isLoggable(Level.FINE)) {
                    TaskLoggerKt.log(task, this, "schedule canceled (queue is shutdown)");
                }
            } else {
                if (TaskRunner.INSTANCE.getLogger().isLoggable(Level.FINE)) {
                    TaskLoggerKt.log(task, this, "schedule failed (queue is shutdown)");
                }
                throw new RejectedExecutionException();
            }
        }
    }

    public final boolean scheduleAndDecide$okhttp(@kp6 Task task, long delayNanos, boolean recurrence) {
        String str;
        cr4.g(task, "task");
        task.initQueue$okhttp(this);
        long jNanoTime = this.taskRunner.getBackend().nanoTime();
        long j = jNanoTime + delayNanos;
        int iIndexOf = this.futureTasks.indexOf(task);
        if (iIndexOf != -1) {
            if (task.getNextExecuteNanoTime() <= j) {
                if (TaskRunner.INSTANCE.getLogger().isLoggable(Level.FINE)) {
                    TaskLoggerKt.log(task, this, "already scheduled");
                }
                return false;
            }
            this.futureTasks.remove(iIndexOf);
        }
        task.setNextExecuteNanoTime$okhttp(j);
        if (TaskRunner.INSTANCE.getLogger().isLoggable(Level.FINE)) {
            if (recurrence) {
                str = "run again after " + TaskLoggerKt.formatDuration(j - jNanoTime);
            } else {
                str = "scheduled after " + TaskLoggerKt.formatDuration(j - jNanoTime);
            }
            TaskLoggerKt.log(task, this, str);
        }
        Iterator<Task> it = this.futureTasks.iterator();
        int size = 0;
        while (true) {
            if (!it.hasNext()) {
                size = -1;
                break;
            }
            if (it.next().getNextExecuteNanoTime() - jNanoTime > delayNanos) {
                break;
            }
            size++;
        }
        if (size == -1) {
            size = this.futureTasks.size();
        }
        this.futureTasks.add(size, task);
        return size == 0;
    }

    public final void setActiveTask$okhttp(@pq6 Task task) {
        this.activeTask = task;
    }

    public final void setCancelActiveTask$okhttp(boolean z) {
        this.cancelActiveTask = z;
    }

    public final void setShutdown$okhttp(boolean z) {
        this.shutdown = z;
    }

    public final void shutdown() {
        if (Util.assertionsEnabled && Thread.holdsLock(this)) {
            throw new AssertionError("Thread " + Thread.currentThread().getName() + " MUST NOT hold lock on " + this);
        }
        synchronized (this.taskRunner) {
            this.shutdown = true;
            if (cancelAllAndDecide$okhttp()) {
                this.taskRunner.kickCoordinator$okhttp(this);
            }
        }
    }

    @kp6
    public String toString() {
        return this.name;
    }

    public static /* synthetic */ void schedule$default(TaskQueue taskQueue, String str, long j, qq3 qq3Var, int i, Object obj) {
        if ((i & 2) != 0) {
            j = 0;
        }
        cr4.g(str, AppMeasurementSdk.ConditionalUserProperty.NAME);
        cr4.g(qq3Var, "block");
        taskQueue.schedule(new AnonymousClass2(str, qq3Var), j);
    }

    public final void schedule(@kp6 String name, long delayNanos, @kp6 qq3<Long> block) {
        cr4.g(name, AppMeasurementSdk.ConditionalUserProperty.NAME);
        cr4.g(block, "block");
        schedule(new AnonymousClass2(name, block), delayNanos);
    }
}
