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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227
apk_decompiled/sources/h3/e.java Normal file
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package h3;
import f0.C0338b;
import java.util.ArrayList;
import java.util.Iterator;
import java.util.concurrent.ThreadPoolExecutor;
import java.util.logging.Logger;
import kotlin.Unit;
import kotlin.jvm.internal.Intrinsics;
import kotlin.jvm.internal.LongCompanionObject;
/* loaded from: classes3.dex */
public final class e {
public static final C0338b h = new C0338b(5);
public static final e i;
/* renamed from: j, reason: collision with root package name */
public static final Logger f6792j;
/* renamed from: a, reason: collision with root package name */
public final d f6793a;
/* renamed from: b, reason: collision with root package name */
public int f6794b;
/* renamed from: c, reason: collision with root package name */
public boolean f6795c;
/* renamed from: d, reason: collision with root package name */
public long f6796d;
/* renamed from: e, reason: collision with root package name */
public final ArrayList f6797e;
/* renamed from: f, reason: collision with root package name */
public final ArrayList f6798f;
/* renamed from: g, reason: collision with root package name */
public final F0.c f6799g;
static {
String name = f3.c.f6475g + " TaskRunner";
Intrinsics.checkNotNullParameter(name, "name");
i = new e(new d(new f3.b(name, true)));
Logger logger = Logger.getLogger(e.class.getName());
Intrinsics.checkNotNullExpressionValue(logger, "getLogger(TaskRunner::class.java.name)");
f6792j = logger;
}
public e(d backend) {
Intrinsics.checkNotNullParameter(backend, "backend");
this.f6793a = backend;
this.f6794b = 10000;
this.f6797e = new ArrayList();
this.f6798f = new ArrayList();
this.f6799g = new F0.c(this, 8);
}
public static final void a(e eVar, a aVar) {
eVar.getClass();
byte[] bArr = f3.c.f6469a;
Thread currentThread = Thread.currentThread();
String name = currentThread.getName();
currentThread.setName(aVar.f6778a);
try {
long a2 = aVar.a();
synchronized (eVar) {
eVar.b(aVar, a2);
Unit unit = Unit.INSTANCE;
}
currentThread.setName(name);
} catch (Throwable th) {
synchronized (eVar) {
eVar.b(aVar, -1L);
Unit unit2 = Unit.INSTANCE;
currentThread.setName(name);
throw th;
}
}
}
public final void b(a aVar, long j4) {
byte[] bArr = f3.c.f6469a;
c cVar = aVar.f6780c;
Intrinsics.checkNotNull(cVar);
if (cVar.f6787d != aVar) {
throw new IllegalStateException("Check failed.");
}
boolean z3 = cVar.f6789f;
cVar.f6789f = false;
cVar.f6787d = null;
this.f6797e.remove(cVar);
if (j4 != -1 && !z3 && !cVar.f6786c) {
cVar.d(aVar, j4, true);
}
if (cVar.f6788e.isEmpty()) {
return;
}
this.f6798f.add(cVar);
}
public final a c() {
long j4;
a aVar;
boolean z3;
byte[] bArr = f3.c.f6469a;
while (true) {
ArrayList arrayList = this.f6798f;
if (arrayList.isEmpty()) {
return null;
}
d dVar = this.f6793a;
long nanoTime = System.nanoTime();
Iterator it = arrayList.iterator();
long j5 = LongCompanionObject.MAX_VALUE;
a aVar2 = null;
while (true) {
if (!it.hasNext()) {
j4 = nanoTime;
aVar = null;
z3 = false;
break;
}
a aVar3 = (a) ((c) it.next()).f6788e.get(0);
j4 = nanoTime;
aVar = null;
long max = Math.max(0L, aVar3.f6781d - j4);
if (max > 0) {
j5 = Math.min(max, j5);
} else {
if (aVar2 != null) {
z3 = true;
break;
}
aVar2 = aVar3;
}
nanoTime = j4;
}
ArrayList arrayList2 = this.f6797e;
if (aVar2 != null) {
byte[] bArr2 = f3.c.f6469a;
aVar2.f6781d = -1L;
c cVar = aVar2.f6780c;
Intrinsics.checkNotNull(cVar);
cVar.f6788e.remove(aVar2);
arrayList.remove(cVar);
cVar.f6787d = aVar2;
arrayList2.add(cVar);
if (z3 || (!this.f6795c && !arrayList.isEmpty())) {
F0.c runnable = this.f6799g;
Intrinsics.checkNotNullParameter(runnable, "runnable");
((ThreadPoolExecutor) dVar.f6791b).execute(runnable);
}
return aVar2;
}
if (this.f6795c) {
if (j5 >= this.f6796d - j4) {
return aVar;
}
Intrinsics.checkNotNullParameter(this, "taskRunner");
notify();
return aVar;
}
this.f6795c = true;
this.f6796d = j4 + j5;
try {
try {
Intrinsics.checkNotNullParameter(this, "taskRunner");
long j6 = j5 / 1000000;
long j7 = j5 - (1000000 * j6);
if (j6 > 0 || j5 > 0) {
wait(j6, (int) j7);
}
} catch (InterruptedException unused) {
for (int size = arrayList2.size() - 1; -1 < size; size--) {
((c) arrayList2.get(size)).b();
}
for (int size2 = arrayList.size() - 1; -1 < size2; size2--) {
c cVar2 = (c) arrayList.get(size2);
cVar2.b();
if (cVar2.f6788e.isEmpty()) {
arrayList.remove(size2);
}
}
}
} finally {
this.f6795c = false;
}
}
}
public final void d(c taskQueue) {
Intrinsics.checkNotNullParameter(taskQueue, "taskQueue");
byte[] bArr = f3.c.f6469a;
if (taskQueue.f6787d == null) {
boolean isEmpty = taskQueue.f6788e.isEmpty();
ArrayList arrayList = this.f6798f;
if (isEmpty) {
arrayList.remove(taskQueue);
} else {
Intrinsics.checkNotNullParameter(arrayList, "<this>");
if (!arrayList.contains(taskQueue)) {
arrayList.add(taskQueue);
}
}
}
boolean z3 = this.f6795c;
d dVar = this.f6793a;
if (z3) {
Intrinsics.checkNotNullParameter(this, "taskRunner");
notify();
} else {
F0.c runnable = this.f6799g;
Intrinsics.checkNotNullParameter(runnable, "runnable");
((ThreadPoolExecutor) dVar.f6791b).execute(runnable);
}
}
public final c e() {
int i4;
synchronized (this) {
i4 = this.f6794b;
this.f6794b = i4 + 1;
}
return new c(this, com.google.android.gms.measurement.internal.a.l(i4, "Q"));
}
}