Kernel Loader: Difference between revisions
Jump to navigation
Jump to search
| Line 7: | Line 7: | ||
void KernelLoader_Main(uintptr_t kernel_base_address, KernelMap *kernel_map, uintptr_t ini1_base_address); | void KernelLoader_Main(uintptr_t kernel_base_address, KernelMap *kernel_map, uintptr_t ini1_base_address); | ||
== | == KernelLdr_Main == | ||
* TODO: Fill in | First, it clears BSS, and then sets SP = <BSS end>. | ||
<pre> | |||
for (uint64_t *i = __bss_start; i != __bss_end; i++) { | |||
*i = 0; | |||
} | |||
SP = __bss_end; | |||
</pre> | |||
Next, it applies relocations to itself and calls its init array. | |||
<pre> | |||
KernelLdr_ApplyRelocations(&KernelLdr_Main, __dynamic_start); | |||
KernelLdr_libc_init_array(); | |||
</pre> | |||
Then, it calls the function which relocates the kernel, and jumps back to the kernel entrypoint. | |||
<pre> | |||
// KernelLdr_LoadKernel returns (relocated_kernel_base - original_kernel_base). | |||
uintptr_t kernel_relocation_offset = KernelLdr_LoadKernel(kernel_base, kernel_map, ini_base); | |||
// dtor called for static page allocator. | |||
g_InitialPageAllocator.~KInitialPageAllocator(); | |||
// Jumps back to the kernel code that called KernelLdr_Main. | |||
((void (*)(void))(kernel_relocation_offset + LR))(); | |||
</pre> | |||
== KernelLdr_ApplyRelocations == | |||
TODO: Fill this out | |||
== KernelLdr_lib_init_array() == | |||
This is just standard libc init array code. .init_array is empty in all available binaries. | |||
== KernelLdr_LoadKernel == | |||
TODO: Fill this out | |||
== KInitialPageAllocator::~KInitialPageAllocator == | |||
This just clears the allocator's next address. | |||
<pre> | |||
this->next_address = 0; | |||
</pre> | |||
== Structures == | == Structures == | ||
Revision as of 06:10, 31 August 2019
The Kernel Loader ("KernelLdr"/"Kernelldr") was added in 8.0.0. It is responsible for applying relocations to the Kernel, and mapping the Kernel's .text/.rodata/.data/.bss at a random slide.
Kernel Loader
KernelLdr is called immediately by the Kernel's crt0 (after it deprivileges from EL2 to EL1, if required), with the following signature:
void KernelLoader_Main(uintptr_t kernel_base_address, KernelMap *kernel_map, uintptr_t ini1_base_address);
KernelLdr_Main
First, it clears BSS, and then sets SP = <BSS end>.
for (uint64_t *i = __bss_start; i != __bss_end; i++) {
*i = 0;
}
SP = __bss_end;
Next, it applies relocations to itself and calls its init array.
KernelLdr_ApplyRelocations(&KernelLdr_Main, __dynamic_start);
KernelLdr_libc_init_array();
Then, it calls the function which relocates the kernel, and jumps back to the kernel entrypoint.
// KernelLdr_LoadKernel returns (relocated_kernel_base - original_kernel_base).
uintptr_t kernel_relocation_offset = KernelLdr_LoadKernel(kernel_base, kernel_map, ini_base);
// dtor called for static page allocator.
g_InitialPageAllocator.~KInitialPageAllocator();
// Jumps back to the kernel code that called KernelLdr_Main.
((void (*)(void))(kernel_relocation_offset + LR))();
KernelLdr_ApplyRelocations
TODO: Fill this out
KernelLdr_lib_init_array()
This is just standard libc init array code. .init_array is empty in all available binaries.
KernelLdr_LoadKernel
TODO: Fill this out
KInitialPageAllocator::~KInitialPageAllocator
This just clears the allocator's next address.
this->next_address = 0;
Structures
KernelMap
| Offset | Size | Description |
|---|---|---|
| 0x0 | 4 | .text offset |
| 0x4 | 4 | .text end offset |
| 0x8 | 4 | .rodata end offset |
| 0xC | 4 | .rodata end offset |
| 0x10 | 4 | .rwdata offset |
| 0x14 | 4 | .rwdata end offset |
| 0x18 | 4 | .bss offset |
| 0x1C | 4 | .bss end offset |
| 0x20 | 4 | INI1 load offset |
| 0x24 | 4 | .dynamic end offset |
| 0x28 | 4 | .init_array end offset |
| 0x2C | 4 | .init_array end offset |