SceExcpmgr: Difference between revisions
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== SceExcpmgrForKernel == | == SceExcpmgrForKernel == | ||
=== SceExcpmgrForKernel_03499636 === | |||
{| class="wikitable" | |||
|- | |||
! Version !! NID | |||
|- | |||
| 3.60 || 03499636 | |||
|} | |||
Installs an exception handler. | |||
<code>int SceExcpmgrForKernel_03499636(int excpcode, int priority, void *function)</code> | |||
Where excpcode can be: | |||
* Reset: excpcode = 0 | |||
* Undefined Instruction: excpcode = 1 | |||
* Supervisor Call: excpcode = 2 | |||
* Prefetch Abort: excpcode = 3 | |||
* Data Abort: excpcode = 4 | |||
* Not used: excpcode = 5 | |||
* IRQ interrupt: excpcode = 6 | |||
* FIQ interrupt: excpcode = 7 | |||
== SceExcpmgrForTZS == | == SceExcpmgrForTZS == | ||
Revision as of 13:28, 12 February 2017
SceExcpmgr is a kernel module that sets up exception handling and a version exists in both worlds. In non-secure world, after the kernel is booted up, the exception handlers pointed to by VBAR all jump into code in this module.
Module
This module exists in both non-secure and secure world. The non-secure world SELF can be found in os0:kd/sysmem.skprx
.
Known NIDs
Version | Name | World | Privilege | NID |
---|---|---|---|---|
1.69 | SceExcpmgr | Non-secure | Kernel | 0xBBCA9AB6 |
1.69 | SceExcpmgr | Secure | Kernel | 0x93332B9A |
Libraries
This module only exports kernel libraries.
Known NIDs
Version | Name | World | Visibility | NID |
---|---|---|---|---|
1.69 | SceExcpmgrForKernel | Non-secure | Kernel | 0x4CA0FDD5 |
1.69 | SceExcpmgrForTZS | Secure | Kernel | 0x8F526F35 |
SceExcpmgrForKernel
SceExcpmgrForKernel_03499636
Version | NID |
---|---|
3.60 | 03499636 |
Installs an exception handler.
int SceExcpmgrForKernel_03499636(int excpcode, int priority, void *function)
Where excpcode can be:
- Reset: excpcode = 0
- Undefined Instruction: excpcode = 1
- Supervisor Call: excpcode = 2
- Prefetch Abort: excpcode = 3
- Data Abort: excpcode = 4
- Not used: excpcode = 5
- IRQ interrupt: excpcode = 6
- FIQ interrupt: excpcode = 7
SceExcpmgrForTZS
Exceptions
SVC
The Syscalls interface is defined in non-secure kernel as:
Register | Value |
---|---|
R0 | First argument |
R1 | Second argument |
R2 | Third argument |
R3 | Fourth argument |
R12 | Syscall number |
On return, R1-R3 and R12 are cleared to 0x0 or 0xDEADBEEF to prevent any data leaks. All user pointers passed to syscalls are accessed with ARM instructions LDRT and STRT for hardware forced permission checks. Syscalls 0x0 - 0xFF are likely a "fastcall" interface that do not mask interrupts or set the DACR, however currently are no such fastcalls defined. Syscalls 0x100 - 0xFFF are made with IRQ interrupts masked and DACR set to 0xFFFF0000 (to prevent access to certain memory domains). Any other syscall numbers are invalid.
System calls are handled in "system" mode defined in ARMv7 (mode 0b11111).
User exported functions loaded by SceKernelModulemgr are exported as syscalls. The number assigned to the syscall are randomized with respect to each library but not within a library. That means, for example, two functions exported by a library will always be some syscall number apart even though that number will change on each boot.
There is no SVC in secure world because all code in secure world is running as kernel.
SMC
The SMC interface for making a non-secure kernel call to secure-kernel is:
Register | Value |
---|---|
R0 | First argument |
R1 | Second argument |
R2 | Third argument |
R3 | Fourth argument |
R12 | Secure service number |
The SMC interface is very similar to SVC from userland to non-secure kernel. The SMC handler and MVBAR is set up in secure world by SceExcpmgrForTZS. 0x0 - 0xFF are fast service calls. 0x100 - 0xFFF are normal service calls ran with IRQs masked.
Secure services are ran in ARM system processor mode (0b11111) in the secure world.
SMC calls are registered by SceIntrmgrForTZS.
Aborts
On development units, data and prefetch aborts can handle BKPT instruction for software breakpoints. SceDebug uses this to handle usermode breakpoints. There is no built-in support for BKPT in kernel code.
SceSysmem uses data aborts with the LDRT
and STRT
instructions to implement user pointer checking. When LDRT/STRT throws a MMU data exception because of an invalid access and the exception came from the sceKernelMemcpyUserToKernel
or sceKernelMemcpyKernelToUser
(or related functions), the data abort handler will resume execution.
IRQ
IRQs are only handled in non-secure world. An IRQ in secure world is fatal. See SceKernelIntrMgr.
FIQ
FIQs are only handled in secure world because of the bit set in the SCR. Because of this, it is likely that secure devices such as the F00D Processor use FIQs to communicate with the Cortex A9 cores. See SceKernelIntrMgr.