Kernel
The PS Vita has a purely modular kernel. All components of the kernel are .skprx files found in the os0:
partition and are listed in Modules.
UID
Class
Version | Module | Name | Size (bytes) |
---|---|---|---|
3.60 | SceSysmem | SceUIDClass | 0x8 |
3.60 | SceUIDDLinkClass | 0xC | |
3.60 | SceUIDHeapClass | 0xC | |
3.60 | SceUIDFixedHeapClass | 0xA4 | |
3.60 | SceUIDEntryHeapClass | 0xB0 | |
3.60 | SceUIDKernelHeapClass | 0x80 | |
3.60 | SceUIDSysrootClass | 0x41C | |
3.60 | SceUIDSimpleMemBlockClass | 0x40 | |
3.60 | SceUIDMemBlockClass | 0x40 | |
3.60 | SceUIDTinyPartitionClass | 0x38 | |
3.60 | SceUIDPartitionClass | 0x80 | |
3.60 | SceUIDAddressSpaceClass | 0x170 | |
3.60 | SceUIDPhyMemPartClass | 0xAC | |
3.60 | SceUIDSysEventClass | 0x20 | |
3.60 | SceUIDProcEventClass | 0x30 | |
3.60-3.73 | SceKernelModulemgr | SceUIDModuleClass | 0xF4 |
3.60-3.73 | SceUIDLibraryClass | 0x10 | |
3.60-3.73 | SceUIDLibStubClass | 0x10 | |
3.60 | SceKernelThreadMgr | SceUIDCacheClass | 0x10 |
3.60 | SceUIDWaitableClass | 0x28 | |
3.60 | SceUIDThreadClass | 0x200 | |
3.60 | SceUIDFastMutexClass | 0x80 | |
3.60 | SceUIDCallbackClass | 0x80 | |
3.60 | SceUIDRegisterCallbackClass | 0x30 | |
3.60 | SceUIDThreadEventClass | 0x80 | |
3.60 | SceUIDEventFlagClass | 0x80 | |
3.60 | SceUIDSemaphoreClass | 0x80 | |
3.60 | SceUIDMutexClass | 0x80 | |
3.60 | SceUIDCondClass | 0x80 | |
3.60 | SceUIDEventClass | 0x38 | |
3.60 | SceUIDMsgPipeClass | 0x80 | |
3.60 | SceUIDLwMutexClass | 0x80 | |
3.60 | SceUIDLwCondClass | 0x80 | |
3.60 | SceUIDRWLockClass | 0x80 | |
3.60 | SceUIDSimpleEventClass | 0x80 | |
3.60 | SceUIDWorkQueueClass | 0x80 | |
3.60 | SceUIDWorkTaskClass | 0x80 | |
3.60 | SceUIDExceptionClass | 0x80 | |
3.60 | SceUIDCpuTimerClass | 0x58 | |
3.60 | SceUIDDelayClass | 0x80 | |
3.60 | SceUIDAlarmClass | 0x80 | |
3.60 | SceUIDTimerClass | 0x80 | |
3.60 | SceProcessmgr | SceUIDProcBudgetClass | 0x74 |
3.60 | SceUIDProcessClass | 0x4E0 | |
3.60 | Unknown | SceUIDVSlotClass | 0x40 |
3.60 | SceIofilemgr | SceUIDVfsFileClass | 0x48 |
3.60 | SceUIDIoMountEventClass | 0x4C | |
3.60 | SceUIDIoErrorEventClass | 0x50 | |
3.60 | SceUIDIoAsyncEventClass | 0xF8 | |
3.60 | SceDisplay | SceUIDVblankEventClass | 0x38 |
3.60 | Unknown | SceUIDCodecEngineMemoryClass | 0x34 |
3.60 | Unknown (maybe SceCoredump) | SceUIDCafContextClass | 0x4E0 |
Temp
TODO: move these to the appropriate place
SceUIDKernelHeapObject
typedef struct SceKernelHeap { // size is 0x78-bytes uintptr_t unk_0x00; int cpu_intr; uintptr_t unk_0x08[2]; SceUInt32 attr; SceSize unk_0x14; // from opt.field_14 SceUInt32 heap_memory_type; SceSize unk_0x1C; // from opt.field_8 SceSize heapSize1; SceSize heapSize2; SceUInt32 currentHeapCount; SceUInt32 maximumHeapCount; SceSize currentHeapUsedSize; SceSize maximumHeapUsedSize; SceSize maximumRequestSize; void *pWorkingArea; // for internal char *name; void *data_0x44; SceUInt32 unk_0x48; SceUInt32 unk_0x4C[0xB]; // zeros } SceKernelHeap; typedef struct SceUIDKernelHeapObject { // size is 0x80-bytes union { uintptr_t sce_rsvd[2]; struct { void *pUserdata; SceClass *pClass; }; }; SceKernelHeap kernelHeap; } SceUIDKernelHeapObject;
UID Attr
Mask Description 0x70000 | vis_level 0x300000 | act entry
GUID
Global UID.
0 0 00 0000 0000 0001 0000 0000 0000 000 1
Error bit. should be 0.
PUID bit. should be 0.
Sub UID. 14-bits wide. Has no effect directly for core uid. Somewhat random values are used for security (With increase method).
Core UID. 15-bits wide. Value to identify the object.
UID bit. should be 1.
The Core UID is 15-bits so in theory the system can create to 0x8000 (32768) objects
Example : 0x10005, 0x10007, 0x10547, 0x2DF84A9
PUID
Process UID.
0 1 00 0000 0000 0001 0000 0000 0000 000 1
Error bit. should be 0.
PUID bit. should be 1.
Unknown. maybe sub UID. 14-bits wide.
Unknown. maybe core UID. 15-bits wide.
UID bit. should be 1.
Example : 0x40010001
Security
KASLR
Since PS Vita FW 1.80 or so, the kernel implements kernel address space layout randomization to discourage ROP attacks.
Canaries
Since PS Vita FW 1.80 or so, the kernel makes use of stack canaries to detect stack buffer overflows and halts the system when an overflow is detected.
Memory Domains
Memory domains is a feature in ARM MMU that provides an easy way of showing and hiding groups of addresses as well as their permissions. When a syscall is made, the handler disables all access to memory domains for user memory so kernel code cannot directly access user memory. This means if a user pointer is passed in and the kernel forgets to check it and dereferences it directly, it will abort. In order to access user memory, special functions are used that temporarily enables all domains and the access is implemented with the ARM unprivileged access instructions LDRT
and STRT
to make sure the access functions cannot read or write in kernel memory space. As long as the domain disable code in the syscall hander is secure and the user memory access functions are secure, there is no need for additional checks implemented per function. Additionally all non-code pages are marked as "execute never" (XN) in both kernel and usermode.
Syscall Randomization
The numbers assigned to syscalls change on each boot but the delta between the same functions exported by the same module will stay consistent.
NID Poisoning
Since PS Vita FW 2.10, SceKernelModulemgr replace the NIDs entries in the module import tables with junk data. This means that you can no longer map syscall numbers to NIDs.
Usermode stack pivoting protection
Since unknown PS Vita FW version (seen on 3.18) the kernel terminates an application if it notices that its stack pointer register (SP) is not pointing into the stack memory. This is commonly named "SMAP" on Linux where it crashes when Kernel stack pointer points to usermode memory.
User and kernel heap overflow protection
dlmalloc, used for heap allocations, is compiled with -DFOOTERS=1 to enable more heap overflow checks. Additionally, a custom SceNetPs malloc implementation also does some heap overflow checks on its own.
List of kernel modules
For a list of all kernel modules, check out Modules.