dasemu/adif-api-reverse-engineering
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Primer paso de la investigacion. Se aportan el .apk, las carpetas con el apk extraido y el apk descompilado. El archivo API_DOCUMENTATION.md es un archivo donde se anotaran los descubrimientos del funcionamiento de la API, y los .py son scripts para probar la funcionalidad de la API con los métodos que vayamos encontrando. Finalmente, los archivos .js son scripts de Frida para extraer informacion de la APP durante la ejecucion.

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This commit is contained in:
Dasemu
2025-12-04 13:59:54 +01:00
parent f2fd1c3bf5
commit e0133d2ca2
10432 changed files with 1019085 additions and 1 deletions
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221
apk_decompiled/sources/s/k.java Normal file
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package s;
import java.util.Arrays;
import kotlin.collections.ArraysKt___ArraysJvmKt;
import kotlin.jvm.internal.Intrinsics;
import o0.C0529f;
import t.AbstractC0613a;
/* loaded from: classes.dex */
public final class k implements Cloneable {
/* renamed from: a, reason: collision with root package name */
public /* synthetic */ boolean f8353a;
/* renamed from: b, reason: collision with root package name */
public /* synthetic */ int[] f8354b;
/* renamed from: c, reason: collision with root package name */
public /* synthetic */ Object[] f8355c;
/* renamed from: d, reason: collision with root package name */
public /* synthetic */ int f8356d;
public k() {
int i;
int i4 = 4;
while (true) {
i = 40;
if (i4 >= 32) {
break;
}
int i5 = (1 << i4) - 12;
if (40 <= i5) {
i = i5;
break;
}
i4++;
}
int i6 = i / 4;
this.f8354b = new int[i6];
this.f8355c = new Object[i6];
}
public final void a(int i, Object obj) {
int i4 = this.f8356d;
if (i4 != 0 && i <= this.f8354b[i4 - 1]) {
e(i, obj);
return;
}
if (this.f8353a && i4 >= this.f8354b.length) {
h.a(this);
}
int i5 = this.f8356d;
if (i5 >= this.f8354b.length) {
int i6 = (i5 + 1) * 4;
int i7 = 4;
while (true) {
if (i7 >= 32) {
break;
}
int i8 = (1 << i7) - 12;
if (i6 <= i8) {
i6 = i8;
break;
}
i7++;
}
int i9 = i6 / 4;
int[] copyOf = Arrays.copyOf(this.f8354b, i9);
Intrinsics.checkNotNullExpressionValue(copyOf, "copyOf(this, newSize)");
this.f8354b = copyOf;
Object[] copyOf2 = Arrays.copyOf(this.f8355c, i9);
Intrinsics.checkNotNullExpressionValue(copyOf2, "copyOf(this, newSize)");
this.f8355c = copyOf2;
}
this.f8354b[i5] = i;
this.f8355c[i5] = obj;
this.f8356d = i5 + 1;
}
public final boolean b(C0529f c0529f) {
if (this.f8353a) {
h.a(this);
}
int i = this.f8356d;
int i4 = 0;
while (true) {
if (i4 >= i) {
i4 = -1;
break;
}
if (this.f8355c[i4] == c0529f) {
break;
}
i4++;
}
return i4 >= 0;
}
public final Object c(int i) {
Object obj;
Intrinsics.checkNotNullParameter(this, "<this>");
int a2 = AbstractC0613a.a(this.f8354b, this.f8356d, i);
if (a2 < 0 || (obj = this.f8355c[a2]) == h.f8349b) {
return null;
}
return obj;
}
public final Object clone() {
Object clone = super.clone();
Intrinsics.checkNotNull(clone, "null cannot be cast to non-null type androidx.collection.SparseArrayCompat<E of androidx.collection.SparseArrayCompat>");
k kVar = (k) clone;
kVar.f8354b = (int[]) this.f8354b.clone();
kVar.f8355c = (Object[]) this.f8355c.clone();
return kVar;
}
public final int d(int i) {
if (this.f8353a) {
h.a(this);
}
return this.f8354b[i];
}
public final void e(int i, Object obj) {
int a2 = AbstractC0613a.a(this.f8354b, this.f8356d, i);
if (a2 >= 0) {
this.f8355c[a2] = obj;
return;
}
int i4 = ~a2;
int i5 = this.f8356d;
if (i4 < i5) {
Object[] objArr = this.f8355c;
if (objArr[i4] == h.f8349b) {
this.f8354b[i4] = i;
objArr[i4] = obj;
return;
}
}
if (this.f8353a && i5 >= this.f8354b.length) {
h.a(this);
i4 = ~AbstractC0613a.a(this.f8354b, this.f8356d, i);
}
int i6 = this.f8356d;
if (i6 >= this.f8354b.length) {
int i7 = (i6 + 1) * 4;
int i8 = 4;
while (true) {
if (i8 >= 32) {
break;
}
int i9 = (1 << i8) - 12;
if (i7 <= i9) {
i7 = i9;
break;
}
i8++;
}
int i10 = i7 / 4;
int[] copyOf = Arrays.copyOf(this.f8354b, i10);
Intrinsics.checkNotNullExpressionValue(copyOf, "copyOf(this, newSize)");
this.f8354b = copyOf;
Object[] copyOf2 = Arrays.copyOf(this.f8355c, i10);
Intrinsics.checkNotNullExpressionValue(copyOf2, "copyOf(this, newSize)");
this.f8355c = copyOf2;
}
int i11 = this.f8356d;
if (i11 - i4 != 0) {
int[] iArr = this.f8354b;
int i12 = i4 + 1;
ArraysKt___ArraysJvmKt.copyInto(iArr, iArr, i12, i4, i11);
Object[] objArr2 = this.f8355c;
ArraysKt___ArraysJvmKt.copyInto(objArr2, objArr2, i12, i4, this.f8356d);
}
this.f8354b[i4] = i;
this.f8355c[i4] = obj;
this.f8356d++;
}
public final int f() {
if (this.f8353a) {
h.a(this);
}
return this.f8356d;
}
public final Object g(int i) {
if (this.f8353a) {
h.a(this);
}
return this.f8355c[i];
}
public final String toString() {
if (f() <= 0) {
return "{}";
}
StringBuilder sb = new StringBuilder(this.f8356d * 28);
sb.append('{');
int i = this.f8356d;
for (int i4 = 0; i4 < i; i4++) {
if (i4 > 0) {
sb.append(", ");
}
sb.append(d(i4));
sb.append('=');
Object g4 = g(i4);
if (g4 != this) {
sb.append(g4);
} else {
sb.append("(this Map)");
}
}
sb.append('}');
String sb2 = sb.toString();
Intrinsics.checkNotNullExpressionValue(sb2, "buffer.toString()");
return sb2;
}
}