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rCore/riscv-pk/machine/mentry.S

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2018-07-04 12:22:20 +04:00
// See LICENSE for license details.
#include "mtrap.h"
#include "bits.h"
.data
.align 6
trap_table:
#define BAD_TRAP_VECTOR 0
.word bad_trap
.word pmp_trap
.word illegal_insn_trap
.word bad_trap
.word misaligned_load_trap
.word pmp_trap
.word misaligned_store_trap
.word pmp_trap
.word bad_trap
.word mcall_trap
.word bad_trap
.word bad_trap
.word bad_trap
#define TRAP_FROM_MACHINE_MODE_VECTOR 13
.word __trap_from_machine_mode
.word bad_trap
.word bad_trap
.option norvc
.section .text.init,"ax",@progbits
.globl reset_vector
reset_vector:
j do_reset
trap_vector:
csrrw sp, mscratch, sp
beqz sp, .Ltrap_from_machine_mode
STORE a0, 10*REGBYTES(sp)
STORE a1, 11*REGBYTES(sp)
csrr a1, mcause
bgez a1, .Lhandle_trap_in_machine_mode
# This is an interrupt. Discard the mcause MSB and decode the rest.
sll a1, a1, 1
# Is it a machine timer interrupt?
li a0, IRQ_M_TIMER * 2
bne a0, a1, 1f
# Yes. Simply clear MSIE and raise SSIP.
li a0, MIP_MTIP
csrc mie, a0
li a0, MIP_STIP
csrs mip, a0
.Lmret:
# Go back whence we came.
LOAD a0, 10*REGBYTES(sp)
LOAD a1, 11*REGBYTES(sp)
csrrw sp, mscratch, sp
mret
1:
# Is it an IPI?
li a0, IRQ_M_SOFT * 2
bne a0, a1, .Lbad_trap
# Yes. First, clear the MIPI bit.
LOAD a0, MENTRY_IPI_OFFSET(sp)
sw x0, (a0)
fence
# Now, decode the cause(s).
#ifdef __riscv_atomic
addi a0, sp, MENTRY_IPI_PENDING_OFFSET
amoswap.w a0, x0, (a0)
#else
lw a0, MENTRY_IPI_PENDING_OFFSET(a0)
sw x0, MENTRY_IPI_PENDING_OFFSET(a0)
#endif
and a1, a0, IPI_SOFT
beqz a1, 1f
csrs mip, MIP_SSIP
1:
andi a1, a0, IPI_FENCE_I
beqz a1, 1f
fence.i
1:
andi a1, a0, IPI_SFENCE_VMA
beqz a1, 1f
sfence.vma
1:
j .Lmret
.Lhandle_trap_in_machine_mode:
# Preserve the registers. Compute the address of the trap handler.
STORE ra, 1*REGBYTES(sp)
STORE gp, 3*REGBYTES(sp)
STORE tp, 4*REGBYTES(sp)
STORE t0, 5*REGBYTES(sp)
1:auipc t0, %pcrel_hi(trap_table) # t0 <- %hi(trap_table)
STORE t1, 6*REGBYTES(sp)
sll t1, a1, 2 # t1 <- mcause << 2
STORE t2, 7*REGBYTES(sp)
add t1, t0, t1 # t1 <- %hi(trap_table)[mcause]
STORE s0, 8*REGBYTES(sp)
LWU t1, %pcrel_lo(1b)(t1) # t1 <- trap_table[mcause]
STORE s1, 9*REGBYTES(sp)
mv a0, sp # a0 <- regs
STORE a2,12*REGBYTES(sp)
csrr a2, mepc # a2 <- mepc
STORE a3,13*REGBYTES(sp)
csrrw t0, mscratch, x0 # t0 <- user sp
STORE a4,14*REGBYTES(sp)
STORE a5,15*REGBYTES(sp)
STORE a6,16*REGBYTES(sp)
STORE a7,17*REGBYTES(sp)
STORE s2,18*REGBYTES(sp)
STORE s3,19*REGBYTES(sp)
STORE s4,20*REGBYTES(sp)
STORE s5,21*REGBYTES(sp)
STORE s6,22*REGBYTES(sp)
STORE s7,23*REGBYTES(sp)
STORE s8,24*REGBYTES(sp)
STORE s9,25*REGBYTES(sp)
STORE s10,26*REGBYTES(sp)
STORE s11,27*REGBYTES(sp)
STORE t3,28*REGBYTES(sp)
STORE t4,29*REGBYTES(sp)
STORE t5,30*REGBYTES(sp)
STORE t6,31*REGBYTES(sp)
STORE t0, 2*REGBYTES(sp) # sp
#ifndef __riscv_flen
lw tp, (sp) # Move the emulated FCSR from x0's save slot into tp.
#endif
STORE x0, (sp) # Zero x0's save slot.
# Invoke the handler.
jalr t1
#ifndef __riscv_flen
sw tp, (sp) # Move the emulated FCSR from tp into x0's save slot.
#endif
restore_mscratch:
# Restore mscratch, so future traps will know they didn't come from M-mode.
csrw mscratch, sp
restore_regs:
# Restore all of the registers.
LOAD ra, 1*REGBYTES(sp)
LOAD gp, 3*REGBYTES(sp)
LOAD tp, 4*REGBYTES(sp)
LOAD t0, 5*REGBYTES(sp)
LOAD t1, 6*REGBYTES(sp)
LOAD t2, 7*REGBYTES(sp)
LOAD s0, 8*REGBYTES(sp)
LOAD s1, 9*REGBYTES(sp)
LOAD a0,10*REGBYTES(sp)
LOAD a1,11*REGBYTES(sp)
LOAD a2,12*REGBYTES(sp)
LOAD a3,13*REGBYTES(sp)
LOAD a4,14*REGBYTES(sp)
LOAD a5,15*REGBYTES(sp)
LOAD a6,16*REGBYTES(sp)
LOAD a7,17*REGBYTES(sp)
LOAD s2,18*REGBYTES(sp)
LOAD s3,19*REGBYTES(sp)
LOAD s4,20*REGBYTES(sp)
LOAD s5,21*REGBYTES(sp)
LOAD s6,22*REGBYTES(sp)
LOAD s7,23*REGBYTES(sp)
LOAD s8,24*REGBYTES(sp)
LOAD s9,25*REGBYTES(sp)
LOAD s10,26*REGBYTES(sp)
LOAD s11,27*REGBYTES(sp)
LOAD t3,28*REGBYTES(sp)
LOAD t4,29*REGBYTES(sp)
LOAD t5,30*REGBYTES(sp)
LOAD t6,31*REGBYTES(sp)
LOAD sp, 2*REGBYTES(sp)
mret
.Ltrap_from_machine_mode:
csrr sp, mscratch
addi sp, sp, -INTEGER_CONTEXT_SIZE
STORE a0,10*REGBYTES(sp)
STORE a1,11*REGBYTES(sp)
li a1, TRAP_FROM_MACHINE_MODE_VECTOR
j .Lhandle_trap_in_machine_mode
.Lbad_trap:
li a1, BAD_TRAP_VECTOR
j .Lhandle_trap_in_machine_mode
.globl __redirect_trap
__redirect_trap:
# reset sp to top of M-mode stack
li t0, MACHINE_STACK_SIZE
add sp, sp, t0
neg t0, t0
and sp, sp, t0
addi sp, sp, -MENTRY_FRAME_SIZE
j restore_mscratch
__trap_from_machine_mode:
jal trap_from_machine_mode
j restore_regs
do_reset:
li x1, 0
li x2, 0
li x3, 0
li x4, 0
li x5, 0
li x6, 0
li x7, 0
li x8, 0
li x9, 0
// save a0 and a1; arguments from previous boot loader stage:
// li x10, 0
// li x11, 0
li x12, 0
li x13, 0
li x14, 0
li x15, 0
li x16, 0
li x17, 0
li x18, 0
li x19, 0
li x20, 0
li x21, 0
li x22, 0
li x23, 0
li x24, 0
li x25, 0
li x26, 0
li x27, 0
li x28, 0
li x29, 0
li x30, 0
li x31, 0
csrw mscratch, x0
# write mtvec and make sure it sticks
la t0, trap_vector
csrw mtvec, t0
csrr t1, mtvec
1:bne t0, t1, 1b
la sp, stacks + RISCV_PGSIZE - MENTRY_FRAME_SIZE
csrr a3, mhartid
slli a2, a3, RISCV_PGSHIFT
add sp, sp, a2
# Boot on the first hart
beqz a3, init_first_hart
# set MSIE bit to receive IPI
li a2, MIP_MSIP
csrw mie, a2
.LmultiHart:
#if MAX_HARTS > 1
# wait for an IPI to signal that it's safe to boot
wfi
# masked harts never start
la a4, disabled_hart_mask
LOAD a4, 0(a4)
srl a4, a4, a3
andi a4, a4, 1
bnez a4, .LmultiHart
# only start if mip is set
csrr a2, mip
andi a2, a2, MIP_MSIP
beqz a2, .LmultiHart
# make sure our hart id is within a valid range
fence
li a2, MAX_HARTS
bltu a3, a2, init_other_hart
#endif
wfi
j .LmultiHart
.bss
.align RISCV_PGSHIFT
stacks:
.skip RISCV_PGSIZE * MAX_HARTS