package l3; import java.io.IOException; import kotlin.Unit; import kotlin.jvm.internal.Intrinsics; import kotlin.jvm.internal.Ref; /* loaded from: classes3.dex */ public final class j extends h3.a { /* renamed from: e, reason: collision with root package name */ public final /* synthetic */ int f7408e; /* renamed from: f, reason: collision with root package name */ public final /* synthetic */ Object f7409f; /* renamed from: g, reason: collision with root package name */ public final /* synthetic */ Object f7410g; /* JADX WARN: 'super' call moved to the top of the method (can break code semantics) */ public /* synthetic */ j(String str, Object obj, Object obj2, int i) { super(str, true); this.f7408e = i; this.f7409f = obj; this.f7410g = obj2; } /* JADX WARN: Multi-variable type inference failed */ /* JADX WARN: Type inference failed for: r7v0, types: [T, l3.C] */ @Override // h3.a public final long a() { long a2; y[] yVarArr; int i = 0; switch (this.f7408e) { case 0: q qVar = (q) this.f7409f; qVar.f7429a.a(qVar, (C) ((Ref.ObjectRef) this.f7410g).element); return -1L; case 1: try { ((q) this.f7409f).f7429a.b((y) this.f7410g); } catch (IOException e4) { m3.n nVar = m3.n.f7829a; m3.n nVar2 = m3.n.f7829a; String str = "Http2Connection.Listener failure for " + ((q) this.f7409f).f7431c; nVar2.getClass(); m3.n.i(4, str, e4); try { ((y) this.f7410g).c(EnumC0439b.PROTOCOL_ERROR, e4); } catch (IOException unused) { } } return -1L; default: l lVar = (l) this.f7409f; C settings = (C) this.f7410g; Intrinsics.checkNotNullParameter(settings, "settings"); Ref.ObjectRef objectRef = new Ref.ObjectRef(); q qVar2 = lVar.f7415b; synchronized (qVar2.f7448w) { synchronized (qVar2) { try { C c4 = qVar2.f7442q; ?? c5 = new C(); c5.b(c4); c5.b(settings); objectRef.element = c5; a2 = c5.a() - c4.a(); if (a2 != 0 && !qVar2.f7430b.isEmpty()) { yVarArr = (y[]) qVar2.f7430b.values().toArray(new y[0]); C c6 = (C) objectRef.element; Intrinsics.checkNotNullParameter(c6, ""); qVar2.f7442q = c6; qVar2.f7436j.c(new j(qVar2.f7431c + " onSettings", qVar2, objectRef, i), 0L); Unit unit = Unit.INSTANCE; } yVarArr = null; C c62 = (C) objectRef.element; Intrinsics.checkNotNullParameter(c62, ""); qVar2.f7442q = c62; qVar2.f7436j.c(new j(qVar2.f7431c + " onSettings", qVar2, objectRef, i), 0L); Unit unit2 = Unit.INSTANCE; } catch (Throwable th) { throw th; } } try { qVar2.f7448w.d((C) objectRef.element); } catch (IOException e5) { qVar2.e(e5); } Unit unit3 = Unit.INSTANCE; } if (yVarArr != null) { int length = yVarArr.length; while (i < length) { y yVar = yVarArr[i]; synchronized (yVar) { yVar.f7484f += a2; if (a2 > 0) { Intrinsics.checkNotNull(yVar, "null cannot be cast to non-null type java.lang.Object"); yVar.notifyAll(); } Unit unit4 = Unit.INSTANCE; } i++; } } return -1L; } } }