package oa;

import com.bumptech.glide.load.engine.b0;
import com.google.crypto.tink.proto.HashType;
import com.google.crypto.tink.proto.KeyData$KeyMaterialType;
import com.google.crypto.tink.proto.OutputPrefixType;
import com.google.crypto.tink.shaded.protobuf.ByteString;
import com.google.crypto.tink.shaded.protobuf.InvalidProtocolBufferException;
import com.google.firebase.components.ComponentRegistrar;
import com.google.firebase.messaging.u;
import com.google.gson.internal.ConstructorConstructor;
import com.google.gson.internal.ObjectConstructor;
import da.l;
import java.security.GeneralSecurityException;
import java.util.List;
import ma.g;
import ma.h0;
import ma.i0;
import ma.w;
import ma.y;
import na.h;
import na.j;
import na.k;
import nb.f;
import ra.p0;
import ra.q0;
import ra.r0;
import ra.s0;
import ra.t0;
import ra.u0;
import ra.x0;
import ra.y0;
import xyz.stream.utils.f0;
import xyz.stream.utils.q;
import xyz.stream.utils.r;
import xyz.stream.utils.s;
import xyz.stream.utils.t;

/* JADX INFO: loaded from: classes2.dex */
public final /* synthetic */ class a implements y, w, g, ma.e, f, com.google.firebase.components.f, w8.b, t6.f, ObjectConstructor, com.it_nomads.fluttersecurestorage.ciphers.a, com.it_nomads.fluttersecurestorage.ciphers.f {

    /* JADX INFO: renamed from: a, reason: collision with root package name */
    public final /* synthetic */ int f31443a;

    public /* synthetic */ a(int i10) {
        this.f31443a = i10;
    }

    @Override // t6.f
    public final Object apply(Object obj) {
        mb.c cVar = (mb.c) obj;
        cVar.getClass();
        return u.f24260a.m(cVar);
    }

    @Override // com.google.firebase.components.f
    public final List c(ComponentRegistrar componentRegistrar) {
        return componentRegistrar.getComponents();
    }

    @Override // com.google.gson.internal.ObjectConstructor
    public final Object construct() {
        switch (this.f31443a) {
            case 17:
                return ConstructorConstructor.lambda$newCollectionConstructor$10();
            case 18:
                return ConstructorConstructor.lambda$newCollectionConstructor$11();
            case 19:
                return ConstructorConstructor.lambda$newCollectionConstructor$12();
            case 20:
                return ConstructorConstructor.lambda$newCollectionConstructor$13();
            case 21:
                return ConstructorConstructor.lambda$newMapConstructor$14();
            case 22:
                return ConstructorConstructor.lambda$newMapConstructor$15();
            case 23:
                return ConstructorConstructor.lambda$newMapConstructor$16();
            case 24:
                return ConstructorConstructor.lambda$newMapConstructor$17();
            default:
                return ConstructorConstructor.lambda$newMapConstructor$18();
        }
    }

    @Override // ma.y
    public final i0 d(l lVar) {
        switch (this.f31443a) {
            case 0:
                na.d dVar = (na.d) lVar;
                x0 x0VarK = y0.K();
                x0VarK.j("type.googleapis.com/google.crypto.tink.AesCmacKey");
                ra.c cVarH = ra.d.H();
                ra.e eVarG = ra.f.G();
                int i10 = dVar.f31139b;
                eVarG.f();
                ra.f.D((ra.f) eVarG.f23982b, i10);
                ra.f fVar = (ra.f) eVarG.c();
                cVarH.f();
                ra.d.E((ra.d) cVarH.f23982b, fVar);
                cVarH.f();
                ra.d.D((ra.d) cVarH.f23982b, dVar.f31138a);
                x0VarK.k(((ra.d) cVarH.c()).f());
                x0VarK.i(b.a(dVar.f31140c));
                return i0.a((y0) x0VarK.c());
            default:
                na.l lVar2 = (na.l) lVar;
                b0 b0Var = d.f31448a;
                x0 x0VarK2 = y0.K();
                x0VarK2.j("type.googleapis.com/google.crypto.tink.HmacKey");
                r0 r0VarJ = s0.J();
                t0 t0VarI = u0.I();
                int i11 = lVar2.f31164b;
                t0VarI.f();
                u0.E((u0) t0VarI.f23982b, i11);
                HashType hashType = (HashType) d.f31449b.b(lVar2.f31166d);
                t0VarI.f();
                u0.D((u0) t0VarI.f23982b, hashType);
                u0 u0Var = (u0) t0VarI.c();
                r0VarJ.f();
                s0.D((s0) r0VarJ.f23982b, u0Var);
                r0VarJ.f();
                s0.E((s0) r0VarJ.f23982b, lVar2.f31163a);
                x0VarK2.k(((s0) r0VarJ.c()).f());
                x0VarK2.i((OutputPrefixType) d.f31448a.b(lVar2.f31165c));
                return i0.a((y0) x0VarK2.c());
        }
    }

    @Override // ma.g
    public final h0 g(com.bumptech.glide.g gVar) {
        da.e eVar = da.e.f25073b;
        KeyData$KeyMaterialType keyData$KeyMaterialType = KeyData$KeyMaterialType.SYMMETRIC;
        switch (this.f31443a) {
            case 2:
                na.a aVar = (na.a) gVar;
                ra.a aVarI = ra.b.I();
                na.d dVar = aVar.f31125b;
                ra.e eVarG = ra.f.G();
                int i10 = dVar.f31139b;
                eVarG.f();
                ra.f.D((ra.f) eVarG.f23982b, i10);
                ra.f fVar = (ra.f) eVarG.c();
                aVarI.f();
                ra.b.E((ra.b) aVarI.f23982b, fVar);
                byte[] bArrF = aVar.f31126c.F(eVar);
                ByteString byteStringG = ByteString.g(0, bArrF.length, bArrF);
                aVarI.f();
                ra.b.D((ra.b) aVarI.f23982b, byteStringG);
                return h0.a("type.googleapis.com/google.crypto.tink.AesCmacKey", ((ra.b) aVarI.c()).f(), keyData$KeyMaterialType, b.a(aVar.f31125b.f31140c), aVar.f31128e);
            default:
                h hVar = (h) gVar;
                b0 b0Var = d.f31448a;
                p0 p0VarJ = q0.J();
                na.l lVar = hVar.f31142b;
                t0 t0VarI = u0.I();
                int i11 = lVar.f31164b;
                t0VarI.f();
                u0.E((u0) t0VarI.f23982b, i11);
                HashType hashType = (HashType) d.f31449b.b(lVar.f31166d);
                t0VarI.f();
                u0.D((u0) t0VarI.f23982b, hashType);
                u0 u0Var = (u0) t0VarI.c();
                p0VarJ.f();
                q0.D((q0) p0VarJ.f23982b, u0Var);
                byte[] bArrF2 = hVar.f31143c.F(eVar);
                ByteString byteStringG2 = ByteString.g(0, bArrF2.length, bArrF2);
                p0VarJ.f();
                q0.E((q0) p0VarJ.f23982b, byteStringG2);
                return h0.a("type.googleapis.com/google.crypto.tink.HmacKey", ((q0) p0VarJ.c()).f(), keyData$KeyMaterialType, (OutputPrefixType) d.f31448a.b(hVar.f31142b.f31165c), hVar.f31145e);
        }
    }

    /* JADX WARN: Multi-variable type inference failed */
    @Override // ma.e
    public final com.bumptech.glide.g h(h0 h0Var) throws GeneralSecurityException {
        da.e eVar = da.e.f25073b;
        q qVar = null;
        Object[] objArr = 0;
        Object[] objArr2 = 0;
        Integer num = h0Var.f30525f;
        OutputPrefixType outputPrefixType = h0Var.f30524e;
        ByteString byteString = h0Var.f30522c;
        String str = h0Var.f30520a;
        switch (this.f31443a) {
            case 3:
                if (!str.equals("type.googleapis.com/google.crypto.tink.AesCmacKey")) {
                    throw new IllegalArgumentException("Wrong type URL in call to AesCmacProtoSerialization.parseKey");
                }
                try {
                    ra.b bVarJ = ra.b.J(byteString, com.google.crypto.tink.shaded.protobuf.q.a());
                    if (bVarJ.H() != 0) {
                        throw new GeneralSecurityException("Only version 0 keys are accepted");
                    }
                    t tVar = new t((s) (objArr2 == true ? 1 : 0));
                    tVar.x(bVarJ.F().size());
                    tVar.y(bVarJ.G().F());
                    tVar.f36174d = b.b(outputPrefixType);
                    na.d dVarJ = tVar.j();
                    t tVar2 = new t((r) (objArr == true ? 1 : 0));
                    tVar2.f36172b = dVarJ;
                    tVar2.f36173c = f0.e(bVarJ.F().k(), eVar);
                    tVar2.f36174d = num;
                    return tVar2.i();
                } catch (InvalidProtocolBufferException | IllegalArgumentException unused) {
                    throw new GeneralSecurityException("Parsing AesCmacKey failed");
                }
            default:
                b0 b0Var = d.f31448a;
                if (!str.equals("type.googleapis.com/google.crypto.tink.HmacKey")) {
                    throw new IllegalArgumentException("Wrong type URL in call to HmacProtoSerialization.parseKey");
                }
                try {
                    q0 q0VarK = q0.K(byteString, com.google.crypto.tink.shaded.protobuf.q.a());
                    if (q0VarK.I() != 0) {
                        throw new GeneralSecurityException("Only version 0 keys are accepted");
                    }
                    u.e eVarB = na.l.b();
                    eVarB.f33125a = Integer.valueOf(q0VarK.G().size());
                    eVarB.f33126b = Integer.valueOf(q0VarK.H().H());
                    eVarB.f33127c = (j) d.f31449b.a(q0VarK.H().G());
                    eVarB.f33128d = (k) d.f31448a.a(outputPrefixType);
                    na.l lVarE = eVarB.e();
                    t tVar3 = new t(qVar);
                    tVar3.f36172b = lVarE;
                    tVar3.f36173c = f0.e(q0VarK.G().k(), eVar);
                    tVar3.f36174d = num;
                    return tVar3.k();
                } catch (InvalidProtocolBufferException | IllegalArgumentException unused2) {
                    throw new GeneralSecurityException("Parsing HmacKey failed");
                }
        }
    }

    @Override // ma.w
    public final l i(i0 i0Var) throws GeneralSecurityException {
        int i10 = this.f31443a;
        y0 y0Var = i0Var.f30529b;
        switch (i10) {
            case 1:
                if (!y0Var.I().equals("type.googleapis.com/google.crypto.tink.AesCmacKey")) {
                    throw new IllegalArgumentException("Wrong type URL in call to AesCmacProtoSerialization.parseParameters: " + y0Var.I());
                }
                try {
                    ra.d dVarI = ra.d.I(y0Var.J(), com.google.crypto.tink.shaded.protobuf.q.a());
                    t tVar = new t((s) null);
                    tVar.x(dVarI.F());
                    tVar.y(dVarI.G().F());
                    tVar.f36174d = b.b(y0Var.H());
                    return tVar.j();
                } catch (InvalidProtocolBufferException e10) {
                    throw new GeneralSecurityException("Parsing AesCmacParameters failed: ", e10);
                }
            default:
                b0 b0Var = d.f31448a;
                if (!y0Var.I().equals("type.googleapis.com/google.crypto.tink.HmacKey")) {
                    throw new IllegalArgumentException("Wrong type URL in call to HmacProtoSerialization.parseParameters: " + y0Var.I());
                }
                try {
                    s0 s0VarK = s0.K(y0Var.J(), com.google.crypto.tink.shaded.protobuf.q.a());
                    if (s0VarK.I() != 0) {
                        throw new GeneralSecurityException("Parsing HmacParameters failed: unknown Version " + s0VarK.I());
                    }
                    u.e eVarB = na.l.b();
                    eVarB.f33125a = Integer.valueOf(s0VarK.G());
                    eVarB.f33126b = Integer.valueOf(s0VarK.H().H());
                    eVarB.f33127c = (j) d.f31449b.a(s0VarK.H().G());
                    eVarB.f33128d = (k) d.f31448a.a(y0Var.H());
                    return eVarB.e();
                } catch (InvalidProtocolBufferException e11) {
                    throw new GeneralSecurityException("Parsing HmacParameters failed: ", e11);
                }
        }
    }

    @Override // w8.b
    public final Object then(w8.h hVar) {
        switch (this.f31443a) {
            case 14:
                Object obj = com.google.firebase.messaging.j.f24191c;
                return 403;
            default:
                Object obj2 = com.google.firebase.messaging.j.f24191c;
                return -1;
        }
    }
}
