package c7;

import android.database.Cursor;
import android.text.Editable;
import android.view.LayoutInflater;
import android.view.View;
import com.google.android.datatransport.runtime.synchronization.SynchronizationException;
import com.google.android.gms.measurement.internal.u1;
import com.google.android.material.carousel.MaskableFrameLayout;
import com.google.android.material.internal.p;
import com.google.android.material.shape.r;
import com.google.android.material.textfield.TextInputLayout;
import com.google.android.material.textfield.z;
import com.google.crypto.tink.config.internal.TinkFipsUtil$AlgorithmFipsCompatibility;
import com.google.crypto.tink.proto.KeyData$KeyMaterialType;
import com.google.crypto.tink.proto.OutputPrefixType;
import com.google.crypto.tink.shaded.protobuf.InvalidProtocolBufferException;
import ea.a0;
import ea.e0;
import ea.f0;
import ea.g0;
import ea.j0;
import ea.k0;
import ea.n0;
import ea.o0;
import ea.q;
import ea.v;
import ie.a4;
import ie.h4;
import ie.o3;
import ie.t3;
import ie.u3;
import ie.v3;
import ie.w3;
import ie.y3;
import ie.z3;
import java.security.GeneralSecurityException;
import java.util.ArrayList;
import javax.crypto.Cipher;
import javax.crypto.spec.SecretKeySpec;
import ma.c0;
import ma.d0;
import ma.h0;
import ma.i0;
import ma.u;
import ma.w;
import ma.x;
import ma.y;
import ra.i1;
import ra.j1;
import ra.k1;
import ra.l1;
import ra.m1;
import ra.n1;
import ra.p1;
import ra.x0;
import ra.y0;
import xyz.stream.view.BindingDialogBuilder;

/* JADX INFO: loaded from: classes2.dex */
public final /* synthetic */ class g implements j, r, p, z, da.f, d0, y, w, ma.g, ma.e, BindingDialogBuilder.BindingInflater, BindingDialogBuilder.ViewProvider, BindingDialogBuilder.DialogClick {

    /* JADX INFO: renamed from: a, reason: collision with root package name */
    public final /* synthetic */ int f4921a;

    public /* synthetic */ g(int i10) {
        this.f4921a = i10;
    }

    @Override // c7.j
    public Object apply(Object obj) {
        switch (this.f4921a) {
            case 0:
                return Boolean.valueOf(((Cursor) obj).getCount() > 0);
            case 1:
                Cursor cursor = (Cursor) obj;
                if (cursor.moveToNext()) {
                    return Long.valueOf(cursor.getLong(0));
                }
                return 0L;
            case 2:
                throw new SynchronizationException("Timed out while trying to acquire the lock.", (Throwable) obj);
            case 3:
                return l.e((Cursor) obj);
            case 4:
                return Boolean.valueOf(((Cursor) obj).moveToNext());
            default:
                Cursor cursor2 = (Cursor) obj;
                ArrayList arrayList = new ArrayList();
                int length = 0;
                while (cursor2.moveToNext()) {
                    byte[] blob = cursor2.getBlob(0);
                    arrayList.add(blob);
                    length += blob.length;
                }
                byte[] bArr = new byte[length];
                int length2 = 0;
                for (int i10 = 0; i10 < arrayList.size(); i10++) {
                    byte[] bArr2 = (byte[]) arrayList.get(i10);
                    System.arraycopy(bArr2, 0, bArr, length2, bArr2.length);
                    length2 += bArr2.length;
                }
                return bArr;
        }
    }

    @Override // com.google.android.material.shape.r
    public com.google.android.material.shape.d b(com.google.android.material.shape.d dVar) {
        int i10 = MaskableFrameLayout.f22407g;
        return dVar instanceof com.google.android.material.shape.a ? new com.google.android.material.shape.c(((com.google.android.material.shape.a) dVar).f23042a) : dVar;
    }

    @Override // com.google.android.material.textfield.z
    public int countLength(Editable editable) {
        int i10 = TextInputLayout.T0;
        if (editable != null) {
            return editable.length();
        }
        return 0;
    }

    @Override // ma.y
    public i0 d(da.l lVar) {
        switch (this.f4921a) {
            case 23:
                ea.i0 i0Var = (ea.i0) lVar;
                x xVar = j0.f25673a;
                x0 x0VarK = y0.K();
                x0VarK.j("type.googleapis.com/google.crypto.tink.KmsAeadKey");
                k1 k1VarG = l1.G();
                String str = i0Var.f25666a;
                k1VarG.f();
                l1.D((l1) k1VarG.f23982b, str);
                x0VarK.k(((l1) k1VarG.c()).f());
                x0VarK.i(j0.a(i0Var.f25667b));
                return i0.a((y0) x0VarK.c());
            default:
                n0 n0Var = (n0) lVar;
                x xVar2 = o0.f25717a;
                x0 x0VarK2 = y0.K();
                x0VarK2.j("type.googleapis.com/google.crypto.tink.KmsEnvelopeAeadKey");
                x0VarK2.k(o0.b(n0Var).f());
                x0VarK2.i(o0.c(n0Var.f25710a));
                return i0.a((y0) x0VarK2.c());
        }
    }

    @Override // ma.d0
    public Object e(com.bumptech.glide.g gVar) throws GeneralSecurityException {
        byte[] bArrB;
        da.e eVar = da.e.f25073b;
        switch (this.f4921a) {
            case 15:
                ma.j jVar = (ma.j) gVar;
                h0 h0Var = jVar.f30530b;
                ma.j.S(h0Var);
                da.a aVar = (da.a) ma.c.f30500d.a(da.a.class, h0Var.f30520a).a(h0Var.f30522c);
                OutputPrefixType outputPrefixType = h0Var.f30524e;
                int iOrdinal = outputPrefixType.ordinal();
                h0 h0Var2 = jVar.f30530b;
                if (iOrdinal == 1) {
                    bArrB = u.b(h0Var2.f30525f.intValue()).b();
                } else if (iOrdinal == 2) {
                    bArrB = u.a(h0Var2.f30525f.intValue()).b();
                } else if (iOrdinal != 3) {
                    if (iOrdinal != 4) {
                        throw new GeneralSecurityException("unknown output prefix type " + outputPrefixType);
                    }
                    bArrB = u.a(h0Var2.f30525f.intValue()).b();
                } else {
                    bArrB = u.f30557a.b();
                }
                return new fa.p(aVar, bArrB);
            case 16:
                ea.g gVar2 = (ea.g) gVar;
                byte[] bArrF = gVar2.f25655c.F(eVar);
                ea.m mVar = gVar2.f25654b;
                sa.a aVar2 = new sa.a(bArrF, mVar.f25699c);
                sa.m mVar2 = new sa.m("HMAC" + mVar.f25702f, new SecretKeySpec(gVar2.f25656d.F(eVar), "HMAC"));
                int i10 = mVar.f25700d;
                return new sa.h(aVar2, new sa.n(mVar2, i10), i10, gVar2.f25657e.b());
            case 17:
                ea.n nVar = (ea.n) gVar;
                com.google.android.gms.common.api.internal.x0 x0Var = sa.b.f32711e;
                if (!TinkFipsUtil$AlgorithmFipsCompatibility.f23814a.a()) {
                    throw new GeneralSecurityException("Can not use AES-EAX in FIPS-mode.");
                }
                q qVar = nVar.f25706b;
                if (qVar.f25737c == 16) {
                    return new sa.b(nVar.f25707c.F(eVar), qVar.f25736b, nVar.f25708d.b());
                }
                throw new GeneralSecurityException("AesEaxJce only supports 16 byte tag size, not " + qVar.f25737c);
            case 18:
                ea.r rVar = (ea.r) gVar;
                ea.u uVar = rVar.f25743b;
                if (uVar.f25764b != 12) {
                    throw new GeneralSecurityException("Expected IV Size 12, got " + uVar.f25764b);
                }
                int i11 = uVar.f25765c;
                if (i11 == 16) {
                    return new sa.c(rVar.f25744c.F(eVar), rVar.f25745d);
                }
                throw new GeneralSecurityException(u1.g("Expected tag Size 16, got ", i11));
            case 19:
                v vVar = (v) gVar;
                com.google.android.gms.common.api.internal.x0 x0Var2 = ga.a.f26334a;
                fa.h hVar = new fa.h(10);
                byte[] bArr = fa.e.f25993d;
                if (fa.e.c((Cipher) hVar.get())) {
                    return new fa.e(vVar.f25772c.F(eVar), vVar.f25773d.b(), hVar);
                }
                throw new IllegalStateException("Cipher does not implement AES GCM SIV.");
            case 20:
                ea.z zVar = (ea.z) gVar;
                c0 c0Var = a0.f25627a;
                try {
                    fa.g.c();
                    return new fa.g(zVar.f25795c.F(eVar), zVar.f25796d.b(), fa.g.c().getProvider());
                } catch (GeneralSecurityException unused) {
                    return new fa.p(zVar.f25795c.F(eVar), 1, zVar.f25796d.b());
                }
            case 21:
                g0 g0Var = (g0) gVar;
                c0 c0Var2 = ea.d0.f25637a;
                return new fa.p(((la.f) da.j.a(g0Var.f25659b.f25666a)).b(g0Var.f25659b.f25666a), g0Var.f25660c.b());
            default:
                k0 k0Var = (k0) gVar;
                ma.h hVar2 = f0.f25651a;
                n0 n0Var = k0Var.f25683b;
                String str = n0Var.f25711b;
                ea.c cVar = n0Var.f25713d;
                la.d dVarB = ((la.f) da.j.a(str)).b(str);
                byte[] bArr2 = e0.f25644d;
                try {
                    return new fa.p(new e0(y0.M(com.bumptech.glide.f.q(cVar), com.google.crypto.tink.shaded.protobuf.q.a()), dVarB), k0Var.f25684c.b());
                } catch (InvalidProtocolBufferException e10) {
                    throw new GeneralSecurityException(e10);
                }
        }
    }

    @Override // da.f
    public void f(da.g gVar) {
    }

    @Override // ma.g
    public h0 g(com.bumptech.glide.g gVar) {
        KeyData$KeyMaterialType keyData$KeyMaterialType = KeyData$KeyMaterialType.REMOTE;
        switch (this.f4921a) {
            case 25:
                g0 g0Var = (g0) gVar;
                x xVar = j0.f25673a;
                i1 i1VarG = j1.G();
                k1 k1VarG = l1.G();
                String str = g0Var.f25659b.f25666a;
                k1VarG.f();
                l1.D((l1) k1VarG.f23982b, str);
                l1 l1Var = (l1) k1VarG.c();
                i1VarG.f();
                j1.D((j1) i1VarG.f23982b, l1Var);
                return h0.a("type.googleapis.com/google.crypto.tink.KmsAeadKey", ((j1) i1VarG.c()).f(), keyData$KeyMaterialType, j0.a(g0Var.f25659b.f25667b), g0Var.f25661d);
            default:
                k0 k0Var = (k0) gVar;
                x xVar2 = o0.f25717a;
                m1 m1VarG = n1.G();
                p1 p1VarB = o0.b(k0Var.f25683b);
                m1VarG.f();
                n1.D((n1) m1VarG.f23982b, p1VarB);
                return h0.a("type.googleapis.com/google.crypto.tink.KmsEnvelopeAeadKey", ((n1) m1VarG.c()).f(), keyData$KeyMaterialType, o0.c(k0Var.f25683b.f25710a), k0Var.f25685d);
        }
    }

    @Override // xyz.stream.view.BindingDialogBuilder.ViewProvider
    public View get(v3.a aVar) {
        switch (this.f4921a) {
            case 1:
                return ((h4) aVar).f26962c;
            case 2:
                return ((h4) aVar).f26961b;
            case 3:
                return ((h4) aVar).f26962c;
            case 4:
                return ((h4) aVar).f26963d;
            case 5:
                return ((h4) aVar).f26962c;
            case 6:
                return ((h4) aVar).f26961b;
            case 7:
                return ((h4) aVar).f26961b;
            case 8:
                return ((h4) aVar).f26962c;
            case 9:
                return ((h4) aVar).f26961b;
            case 10:
                return ((h4) aVar).f26962c;
            case 11:
            case 13:
            case 16:
            case 21:
            default:
                return ((o3) aVar).f27303b;
            case 12:
                return ((t3) aVar).f27503b;
            case 14:
                return ((w3) aVar).f27631d;
            case 15:
                return ((w3) aVar).f27630c;
            case 17:
                return ((w3) aVar).f27630c;
            case 18:
                return ((w3) aVar).f27630c;
            case 19:
                return ((w3) aVar).f27629b;
            case 20:
                return ((w3) aVar).f27629b;
            case 22:
                return ((u3) aVar).f27533c;
            case 23:
                return ((u3) aVar).f27533c;
        }
    }

    @Override // ma.e
    public com.bumptech.glide.g h(h0 h0Var) throws GeneralSecurityException {
        x xVar = j0.f25673a;
        if (!h0Var.f30520a.equals("type.googleapis.com/google.crypto.tink.KmsAeadKey")) {
            throw new IllegalArgumentException("Wrong type URL in call to LegacyKmsAeadProtoSerialization.parseKey");
        }
        try {
            j1 j1VarH = j1.H(h0Var.f30522c, com.google.crypto.tink.shaded.protobuf.q.a());
            if (j1VarH.F() == 0) {
                return g0.S(new ea.i0(j1VarH.E().F(), j0.b(h0Var.f30524e)), h0Var.f30525f);
            }
            throw new GeneralSecurityException("KmsAeadKey are only accepted with version 0, got " + j1VarH);
        } catch (InvalidProtocolBufferException e10) {
            throw new GeneralSecurityException("Parsing KmsAeadKey failed: ", e10);
        }
    }

    @Override // ma.w
    public da.l i(i0 i0Var) throws GeneralSecurityException {
        int i10 = this.f4921a;
        y0 y0Var = i0Var.f30529b;
        switch (i10) {
            case 24:
                x xVar = j0.f25673a;
                if (y0Var.I().equals("type.googleapis.com/google.crypto.tink.KmsAeadKey")) {
                    try {
                        return new ea.i0(l1.H(y0Var.J(), com.google.crypto.tink.shaded.protobuf.q.a()).F(), j0.b(y0Var.H()));
                    } catch (InvalidProtocolBufferException e10) {
                        throw new GeneralSecurityException("Parsing KmsAeadKeyFormat failed: ", e10);
                    }
                }
                throw new IllegalArgumentException("Wrong type URL in call to LegacyKmsAeadProtoSerialization.parseParameters: " + y0Var.I());
            default:
                x xVar2 = o0.f25717a;
                if (!y0Var.I().equals("type.googleapis.com/google.crypto.tink.KmsEnvelopeAeadKey")) {
                    throw new IllegalArgumentException("Wrong type URL in call to LegacyKmsEnvelopeAeadProtoSerialization.parseParameters: " + y0Var.I());
                }
                try {
                    return o0.a(p1.J(y0Var.J(), com.google.crypto.tink.shaded.protobuf.q.a()), y0Var.H());
                } catch (InvalidProtocolBufferException e11) {
                    throw new GeneralSecurityException("Parsing KmsEnvelopeAeadKeyFormat failed: ", e11);
                }
        }
    }

    @Override // xyz.stream.view.BindingDialogBuilder.BindingInflater
    public v3.a inflate(LayoutInflater layoutInflater) {
        switch (this.f4921a) {
            case 0:
                return h4.inflate(layoutInflater, null, false);
            case 11:
                return t3.inflate(layoutInflater, null, false);
            case 13:
                return w3.inflate(layoutInflater, null, false);
            case 21:
                return u3.inflate(layoutInflater, null, false);
            case 24:
                return a4.inflate(layoutInflater, null, false);
            case 25:
                return z3.inflate(layoutInflater, null, false);
            case 26:
                return o3.inflate(layoutInflater, null, false);
            case 28:
                return v3.inflate(layoutInflater, null, false);
            default:
                return y3.inflate(layoutInflater, null, false);
        }
    }

    @Override // xyz.stream.view.BindingDialogBuilder.DialogClick
    public void onClick(v3.a aVar, e.m mVar, View view) {
        mVar.dismiss();
    }
}
