hbc/wiipax/stub/crt0.s
2016-11-23 14:35:12 +09:00

331 lines
6.1 KiB
ArmAsm

# crt0.s file for the GameCube V1.0 by Costis (costis@gbaemu.com)!
.text
.section .start,"ax",@progbits
.extern _start
.align 2
.globl _start
_start:
lis 3,__mem1_start@h
ori 3,3,__mem1_start@l
lis 4,__mem2_start@h
ori 4,4,__mem2_start@l
lis 5,__self_end@h
ori 5,5,__self_end@l
_reloc_loop:
lwz 2,0(3)
stw 2,0(4)
addi 3,3,4
addi 4,4,4
cmplw 4,5
blt _reloc_loop
lis 4,__mem2_start@h
ori 4,4,__mem2_start@l
_flush_loop:
dcbst 0,4
sync
icbi 0,4
addi 4,4,32
cmplw 4,5
blt _flush_loop
sync
isync
lis 3,_mem2_entry@h
ori 3,3,_mem2_entry@l
mtctr 3
bctr
_mem2_entry:
# Clear all GPRs except
.irp i, 0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31
li \i,0
.endr
lis 1,_stack_bot@h
ori 1,1,_stack_bot@l
stwu 0,-64(1)
lis 2,0x8000
stw 1,0x34(2) # write sp
# lis 13,_SDA_BASE_@h
# ori 13,13,_SDA_BASE_@l # Set the Small Data (Read\Write) base register.
bl InitHardware # Initialize the GameCube Hardware (Floating Point Registers, Caches, etc.)
bl SystemInit # Initialize more cache aspects, clear a few SPR's, and disable interrupts.
# clear BSS
lis 3, __bss_start@h
ori 3, 3, __bss_start@l
li 4, 0
lis 5, __bss_end@h
ori 5, 5, __bss_end@l
sub 5, 5, 3
bl memset
mr 3, 28
bl stubmain # Branch to the user code!
b .
InitHardware:
mflr 31 # Store the link register in r31
bl PSInit # Initialize Paired Singles
bl FPRInit # Initialize the FPR's
bl CacheInit # Initialize the system caches
mtlr 31 # Retreive the link register from r31
blr
PSInit:
mfspr 3, 920 # (HID2)
oris 3, 3, 0xA000
mtspr 920, 3 # (HID2)
# Set the Instruction Cache invalidation bit in HID0
mfspr 3,1008
ori 3,3,0x0800
mtspr 1008,3
sync
# Clear various Special Purpose Registers
li 3,0
mtspr 912,3
mtspr 913,3
mtspr 914,3
mtspr 915,3
mtspr 916,3
mtspr 917,3
mtspr 918,3
mtspr 919,3
# Return
blr
FPRInit:
# Enable the Floating Point Registers
mfmsr 3
ori 3,3,0x2000
mtmsr 3
# Clear all of the FPR's to 0
lis 3, zfloat@h
ori 3, 3, zfloat@l
lfd 0, 0(3)
fmr 1,0
fmr 2,0
fmr 3,0
fmr 4,0
fmr 5,0
fmr 6,0
fmr 7,0
fmr 8,0
fmr 9,0
fmr 10,0
fmr 11,0
fmr 12,0
fmr 13,0
fmr 14,0
fmr 15,0
fmr 16,0
fmr 17,0
fmr 18,0
fmr 19,0
fmr 20,0
fmr 21,0
fmr 22,0
fmr 23,0
fmr 24,0
fmr 25,0
fmr 26,0
fmr 27,0
fmr 28,0
fmr 29,0
fmr 30,0
fmr 31,0
mtfsf 255,0
# Return
blr
CacheInit:
mflr 0
stw 0, 4(1)
stwu 1, -16(1)
stw 31, 12(1)
stw 30, 8(1)
mfspr 3,1008 # (HID0)
rlwinm 0, 3, 0, 16, 16
cmplwi 0, 0x0000 # Check if the Instruction Cache has been enabled or not.
bne ICEnabled
# If not, then enable it.
isync
mfspr 3, 1008
ori 3, 3, 0x8000
mtspr 1008, 3
ICEnabled:
mfspr 3, 1008 # bl PPCMfhid0
rlwinm 0, 3, 0, 17, 17
cmplwi 0, 0x0000 # Check if the Data Cache has been enabled or not.
bne DCEnabled
# If not, then enable it.
sync
mfspr 3, 1008
ori 3, 3, 0x4000
mtspr 1008, 3
DCEnabled:
mfspr 3, 1017 # (L2CR)
clrrwi 0, 3, 31 # Clear all of the bits except 31
cmplwi 0, 0x0000
bne L2GISkip # Skip the L2 Global Cache Invalidation process if it has already been done befor.
# Store the current state of the MSR in r30
mfmsr 3
mr 30,3
sync
# Enable Instruction and Data Address Translation
li 3, 48
mtmsr 3
sync
sync
# Disable the L2 Global Cache.
mfspr 3, 1017 # (L2CR
clrlwi 3, 3, 1
mtspr 1017, 3 # (L2CR)
sync
# Invalidate the L2 Global Cache.
bl L2GlobalInvalidate
# Restore the previous state of the MSR from r30
mr 3, 30
mtmsr 3
# Enable the L2 Global Cache and disable the L2 Data Only bit and the L2 Global Invalidate Bit.
mfspr 3, 1017 # (L2CR)
oris 0, 3, 0x8000
rlwinm 3, 0, 0, 11, 9
mtspr 1017, 3 # (L2CR)
L2GISkip:
# Restore the non-volatile registers to their previous values and return.
lwz 0, 20(1)
lwz 31, 12(1)
lwz 30, 8(1)
addi 1, 1, 16
mtlr 0
blr
L2GlobalInvalidate:
mflr 0
stw 0, 4(1)
stwu 1, -16(1)
stw 31, 12(1)
sync
# Disable the L2 Cache.
mfspr 3, 1017 # bl PPCMf1017
clrlwi 3, 3, 1
mtspr 1017, 3 # bl PPCMt1017
sync
# Initiate the L2 Cache Global Invalidation process.
mfspr 3, 1017 # (L2CR)
oris 3, 3, 0x0020
mtspr 1017, 3 # (L2CR)
# Wait until the L2 Cache Global Invalidation has been completed.
L2GICheckComplete:
mfspr 3, 1017 # (L2CR)
clrlwi 0, 3, 31
cmplwi 0, 0x0000
bne L2GICheckComplete
# Clear the L2 Data Only bit and the L2 Global Invalidate Bit.
mfspr 3, 1017 # (L2CR)
rlwinm 3, 3, 0, 11, 9
mtspr 1017, 3 # (L2CR)
# Wait until the L2 Cache Global Invalidation status bit signifies that it is ready.
L2GDICheckComplete:
mfspr 3, 1017 # (L2CR)
clrlwi 0, 3, 31
cmplwi 0, 0x0000
bne L2GDICheckComplete
# Restore the non-volatile registers to their previous values and return.
lwz 0, 20(1)
lwz 31, 12(1)
addi 1, 1, 16
mtlr 0
blr
SystemInit:
mflr 0
stw 0, 4(1)
stwu 1, -0x18(1)
stw 31, 0x14(1)
stw 30, 0x10(1)
stw 29, 0xC(1)
# Disable interrupts!
mfmsr 3
rlwinm 4,3,0,17,15
rlwinm 4,4,0,26,24
mtmsr 4
# Clear various SPR's
li 3,0
mtspr 952, 3
mtspr 956, 3
mtspr 953, 3
mtspr 954, 3
mtspr 957, 3
mtspr 958, 3
# Disable Speculative Bus Accesses to non-guarded space from both caches.
mfspr 3, 1008 # (HID0)
ori 3, 3, 0x0200
mtspr 1008, 3
# Set the Non-IEEE mode in the FPSCR
mtfsb1 29
mfspr 3,920 # (HID2)
rlwinm 3, 3, 0, 2, 0
mtspr 920,3 # (HID2)
# Restore the non-volatile registers to their previous values and return.
lwz 0, 0x1C(1)
lwz 31, 0x14(1)
lwz 30, 0x10(1)
lwz 29, 0xC(1)
addi 1, 1, 0x18
mtlr 0
blr
zfloat:
.float 0
.align 4
_got_start: