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#
# Copyright (c) 2003-2004 Jakub Jermar
# All rights reserved.
#
# Redistribution and use in source and binary forms, with or without
# modification, are permitted provided that the following conditions
# are met:
#
# - Redistributions of source code must retain the above copyright
#   notice, this list of conditions and the following disclaimer.
# - Redistributions in binary form must reproduce the above copyright
#   notice, this list of conditions and the following disclaimer in the
#   documentation and/or other materials provided with the distribution.
# - The name of the author may not be used to endorse or promote products
#   derived from this software without specific prior written permission.
#
# THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
# IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
# OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
# IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
# INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
# NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
# DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
# THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
# THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
#

#include <arch/asm/regname.h>
#include <arch/mm/page.h>
#include <arch/asm/boot.h>
#include <arch/context_offset.h>
#include <arch/stack.h>
    
.text

.set noat
.set noreorder
.set nomacro

.global kernel_image_start
.global tlb_refill_entry
.global cache_error_entry
.global exception_entry
.global userspace_asm

# Which status bits should are thread-local
#define REG_SAVE_MASK 0x1f # KSU(UM), EXL, ERL, IE
    
# Save registers to space defined by \r
# We will change status: Disable ERL,EXL,UM,IE
# These changes will be automatically reversed in REGISTER_LOAD
# SP is NOT saved as part of these registers
.macro REGISTERS_STORE_AND_EXC_RESET r
    sw $at, EOFFSET_AT(\r)
    sw $v0, EOFFSET_V0(\r)
    sw $v1, EOFFSET_V1(\r)
    sw $a0, EOFFSET_A0(\r)
    sw $a1, EOFFSET_A1(\r)
    sw $a2, EOFFSET_A2(\r)
    sw $a3, EOFFSET_A3(\r)
    sw $t0, EOFFSET_T0(\r)
    sw $t1, EOFFSET_T1(\r)
    sw $t2, EOFFSET_T2(\r)
    sw $t3, EOFFSET_T3(\r)
    sw $t4, EOFFSET_T4(\r)
    sw $t5, EOFFSET_T5(\r)
    sw $t6, EOFFSET_T6(\r)
    sw $t7, EOFFSET_T7(\r)
    sw $t8, EOFFSET_T8(\r)
    sw $t9, EOFFSET_T9(\r)

    mflo $at
    sw $at, EOFFSET_LO(\r)
    mfhi $at
    sw $at, EOFFSET_HI(\r)
    
#ifdef CONFIG_DEBUG_ALLREGS 
    sw $s0, EOFFSET_S0(\r)
    sw $s1, EOFFSET_S1(\r)
    sw $s2, EOFFSET_S2(\r)
    sw $s3, EOFFSET_S3(\r)
    sw $s4, EOFFSET_S4(\r)
    sw $s5, EOFFSET_S5(\r)
    sw $s6, EOFFSET_S6(\r)
    sw $s7, EOFFSET_S7(\r)
    sw $s8, EOFFSET_S8(\r)
#endif
    
    sw $gp, EOFFSET_GP(\r)
    sw $ra, EOFFSET_RA(\r)
    sw $k1, EOFFSET_K1(\r)

    mfc0 $t0, $status
    mfc0 $t1, $epc
    
    and $t2, $t0, REG_SAVE_MASK # Save only KSU,EXL,ERL,IE
    li $t3, ~(0x1f)
    and $t0, $t0, $t3       # Clear KSU,EXL,ERL,IE
    
    sw $t2,EOFFSET_STATUS(\r)
    sw $t1,EOFFSET_EPC(\r)
    mtc0 $t0, $status
.endm

.macro REGISTERS_LOAD r
    # Update only UM,EXR,IE from status, the rest
    # is controlled by OS and not bound to task
    mfc0 $t0, $status
    lw $t1,EOFFSET_STATUS(\r)

    li $t2, ~REG_SAVE_MASK      # Mask UM,EXL,ERL,IE
    and $t0, $t0, $t2
    
    or $t0, $t0, $t1        # Copy UM,EXL, ERL, IE from saved status
    mtc0 $t0, $status
    
    lw $v0, EOFFSET_V0(\r)
    lw $v1, EOFFSET_V1(\r)
    lw $a0, EOFFSET_A0(\r)
    lw $a1, EOFFSET_A1(\r)
    lw $a2, EOFFSET_A2(\r)
    lw $a3, EOFFSET_A3(\r)
    lw $t0, EOFFSET_T0(\r)
    lw $t1, EOFFSET_T1(\r)
    lw $t2, EOFFSET_T2(\r)
    lw $t3, EOFFSET_T3(\r)
    lw $t4, EOFFSET_T4(\r)
    lw $t5, EOFFSET_T5(\r)
    lw $t6, EOFFSET_T6(\r)
    lw $t7, EOFFSET_T7(\r)
    lw $t8, EOFFSET_T8(\r)
    lw $t9, EOFFSET_T9(\r)
    
#ifdef CONFIG_DEBUG_ALLREGS 
    lw $s0, EOFFSET_S0(\r)
    lw $s1, EOFFSET_S1(\r)
    lw $s2, EOFFSET_S2(\r)
    lw $s3, EOFFSET_S3(\r)
    lw $s4, EOFFSET_S4(\r)
    lw $s5, EOFFSET_S5(\r)
    lw $s6, EOFFSET_S6(\r)
    lw $s7, EOFFSET_S7(\r)
    lw $s8, EOFFSET_S8(\r)
#endif
    lw $gp, EOFFSET_GP(\r)
    lw $ra, EOFFSET_RA(\r)
    lw $k1, EOFFSET_K1(\r)
    
    lw $at, EOFFSET_LO(\r)
    mtlo $at
    lw $at, EOFFSET_HI(\r)
    mthi $at

    lw $at, EOFFSET_EPC(\r)
    mtc0 $at, $epc
    
    lw $at, EOFFSET_AT(\r)
    lw $sp, EOFFSET_SP(\r)
.endm

# Move kernel stack pointer address to register K0
# - if we are in user mode, load the appropriate stack
# address
.macro KERNEL_STACK_TO_K0
    # If we are in user mode
    mfc0 $k0, $status
    andi $k0, 0x10
    
    beq $k0, $0, 1f
    add $k0, $sp, 0
    
    # Move $k0 pointer to kernel stack
    lui $k0, %hi(supervisor_sp)
    ori $k0, $k0, %lo(supervisor_sp)
    # Move $k0 (superveisor_sp)
    lw $k0, 0($k0)
1:      
.endm
        
.org 0x0
kernel_image_start:
    /* Load temporary stack */
    lui $sp, %hi(end_stack)
    ori $sp, $sp, %lo(end_stack)
    
    /* $a1 contains physical address of bootinfo_t */
    /* $a2 contains size of bootinfo_t */
    
    beq $a2, $0, bootinfo_end
    
    /* Not sure about this, but might be needed for PIC code???? */
    lui $gp, 0x8000
    
    lui $a3, %hi(bootinfo)
    ori $a3, $a3, %lo(bootinfo)
    
    bootinfo_loop:
        
        lw $v0, 0($a1)
        sw $v0, 0($a3)
        
        addi $a1, $a1, 4
        addi $a3, $a3, 4
        addi $a2, $a2, -4
        
        bgtz $a2, bootinfo_loop
        nop
        
    bootinfo_end:
    
    jal arch_pre_main
    nop
    
    j main_bsp
    nop

    .space TEMP_STACK_SIZE
end_stack:

tlb_refill_entry:
    j tlb_refill_handler
    nop

cache_error_entry:
    j cache_error_handler
    nop

exception_entry:
    j exception_handler
    nop 
    
exception_handler:
    KERNEL_STACK_TO_K0
    sub $k0, REGISTER_SPACE
    sw $sp, EOFFSET_SP($k0)
    move $sp, $k0
    
    mfc0 $k0, $cause
    
    sra $k0, $k0, 0x2       # cp0_exc_cause() part 1
    andi $k0, $k0, 0x1f     # cp0_exc_cause() part 2
    sub $k0, 8          # 8 = SYSCALL
    
    beqz $k0, syscall_shortcut
    add $k0, 8          # Revert $k0 back to correct exc number
    
    REGISTERS_STORE_AND_EXC_RESET $sp
    
    move $a1, $sp
    jal exc_dispatch        # exc_dispatch(excno, register_space)
    move $a0, $k0

    REGISTERS_LOAD $sp
    # The $sp is automatically restored to former value
    eret

## Syscall entry
#
# Registers:
#
# @param v0     Syscall number.
# @param a0     1st argument.
# @param a1     2nd argument.
# @param a2     3rd argument.
# @param a3     4th argument.
# @param t0     5th argument.
# @param t1     6th argument.
#
# @return       The return value will be stored in v0.
#
#define SS_SP       EOFFSET_SP
#define SS_STATUS   EOFFSET_STATUS
#define SS_EPC      EOFFSET_EPC
#define SS_K1       EOFFSET_K1
syscall_shortcut:
    # We have a lot of space on the stack, with free use
    mfc0 $t3, $epc
    mfc0 $t2, $status
    sw $t3, SS_EPC($sp)     # Save EPC
    sw $k1, SS_K1($sp)          # Save k1 not saved on context switch
    
    and $t4, $t2, REG_SAVE_MASK # Save only KSU, EXL, ERL, IE
    li $t5, ~(0x1f)
    and $t2, $t2, $t5       # Clear KSU, EXL, ERL
    ori $t2, $t2, 0x1       # Set IE

    sw $t4, SS_STATUS($sp)
    mtc0 $t2, $status

    #
    # Call the higher level system call handler
    # We are going to reuse part of the unused exception stack frame
    #
    sw $t0, STACK_ARG4($sp)     # save the 5th argument on the stack
    sw $t1, STACK_ARG5($sp)     # save the 6th argument on the stack
    jal syscall_handler
    sw $v0, STACK_ARG6($sp)     # save the syscall number on the stack

    # restore status
    mfc0 $t2, $status
    lw $t3, SS_STATUS($sp)

    # Change back to EXL = 1 (from last exception), otherwise
    # an interrupt could rewrite the CP0 - EPC
    li $t4, ~REG_SAVE_MASK      # Mask UM, EXL, ERL, IE
    and $t2, $t2, $t4
    or $t2, $t2, $t3        # Copy saved UM, EXL, ERL, IE
    mtc0 $t2, $status
            
    # restore epc + 4
    lw $t2, SS_EPC($sp)
    lw $k1, SS_K1($sp)
    addi $t2, $t2, 4
    mtc0 $t2, $epc
    
    lw $sp, SS_SP($sp)      # restore sp
    
    eret
        
tlb_refill_handler:
    KERNEL_STACK_TO_K0
    sub $k0, REGISTER_SPACE
    REGISTERS_STORE_AND_EXC_RESET $k0
    sw $sp,EOFFSET_SP($k0)
    add $sp, $k0, 0

    jal tlb_refill
    add $a0, $sp, 0 

    REGISTERS_LOAD $sp

    eret

cache_error_handler:
    KERNEL_STACK_TO_K0
    sub $k0, REGISTER_SPACE
    REGISTERS_STORE_AND_EXC_RESET $k0
    sw $sp,EOFFSET_SP($k0)
    add $sp, $k0, 0

    jal cache_error
    add $a0, $sp, 0 

    REGISTERS_LOAD $sp

    eret

userspace_asm:
    add $sp, $a0, 0
    add $v0, $a1, 0 
    add $t9, $a2, 0         # Set up correct entry into PIC code
    xor $a0, $a0, $a0       # $a0 is defined to hold pcb_ptr
                    # set it to 0
    eret

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