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# Copyright (C) 2023-2024 Free Software Foundation, Inc.
#
# This file is part of GNU Emacs.
#
# GNU Emacs is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published
# by the Free Software Foundation, either version 3 of the License,
# or (at your option) any later version.
#
# GNU Emacs is distributed in the hope that it will be useful, but
# WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
# General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with GNU Emacs. If not, see <https://www.gnu.org/licenses/>.
include(`config-mips.m4')
.set noreorder # delay slots managed by hand
.set noat # no assembler macros
.section .text
.global __start
__start:
dnl li $v0, 5034 # SYS_nanosleep
dnl dla $a0, .timespec # rqtp
dnl li $a1, 0 # rmtp
dnl syscall # syscall
ld $s2, ($sp) # original stack pointer
DADDI3( $s0, $sp, 16) # start of load area
DADDI2( $sp, -16) # primary fd, secondary fd
li $t0, -1 # secondary fd
sd $t0, 8($sp) # initialize secondary fd
.next_action:
ld $s1, ($s0) # action number
andi $t0, $s1, 15 # t0 = action number & 15
beqz $t0, .open_file # open file?
nop # delay slot
DADDI2( $t0, -3) # t0 -= 3
beqz $t0, .rest_of_exec # jump to code
nop # delay slot
li $t1, 1
beq $t0, $t1, .do_mmap_anon # anonymous mmap?
nop # delay slot
.do_mmap:
ld $t0, 8($s0) # vm address
ld $t1, 16($s0) # file_offset
ld $t2, 24($s0) # protection
ld $t3, 32($s0) # length
ld $v0, 40($s0) # flags
ld $v1, ($sp) # primary fd
andi $s3, $s1, 16 # s1 & 16?
beqz $s3, .do_mmap_1 # secondary fd?
nop # delay slot
ld $v1, 8($sp) # secondary fd
.do_mmap_1:
move $a0, $t0 # syscall arg
move $a1, $t3 # syscall arg
move $a2, $t2 # syscall arg
move $a3, $v0 # syscall arg
move $a4, $v1 # syscall arg
move $a5, $t1 # syscall arg
li $v0, 5009 # SYS_mmap
syscall # syscall
bne $a3, $zero, .perror # perror?
nop # delay slot
ld $t1, 48($s0) # clear
dadd $t0, $a0, $a1 # t0 = end of mapping
dsub $t1, $t0, $t1 # t1 = t0 - clear
.align:
beq $t0, $t1, .continue # already finished
nop # delay slot
andi $t2, $t1, 7 # t1 & 7?
bnez $t2, .filld # start filling longs
nop # delay slot
.filld:
dsub $t2, $t0, $t1 # t2 = t0 - t1
sltiu $t2, $t2, 64 # t2 < 64?
bne $t2, $zero, .fillb # fill bytes
nop # delay slot
sd $zero, ($t1) # zero doubleword
DADDI2( $t1, 8) # next doubleword
sd $zero, ($t1) # zero doubleword
DADDI2( $t1, 8) # next doubleword
sd $zero, ($t1) # zero doubleword
DADDI2( $t1, 8) # next doubleword
sd $zero, ($t1) # zero doubleword
DADDI2( $t1, 8) # next doubleword
sd $zero, ($t1) # zero doubleword
DADDI2( $t1, 8) # next doubleword
sd $zero, ($t1) # zero doubleword
DADDI2( $t1, 8) # next doubleword
sd $zero, ($t1) # zero doubleword
DADDI2( $t1, 8) # next doubleword
sd $zero, ($t1) # zero doubleword
DADDI2( $t1, 8) # next doubleword
j .filld # fill either doubleword or byte
nop # delay slot
.fillb:
beq $t0, $t1, .continue # already finished?
nop # delay slot
sb $zero, ($t1) # clear byte
DADDI2( $t1, 1) # t1++
.continue:
DADDI2( $s0, 56) # s0 = next action
j .next_action # next action
nop # delay slot
.do_mmap_anon:
ld $t0, 8($s0) # vm address
ld $t1, 16($s0) # file_offset
ld $t2, 24($s0) # protection
ld $t3, 32($s0) # length
ld $v0, 40($s0) # flags
li $v1, -1 # fd
j .do_mmap_1 # do mmap
nop # branch delay slot
.open_file:
li $v0, 5002 # SYS_open
DADDI3( $a0, $s0, 8) # start of name
move $a1, $zero # flags = O_RDONLY
move $a2, $zero # mode = 0
syscall # syscall
bne $a3, $zero, .perror # perror
nop # delay slot
DADDI2( $s0, 8) # start of string
move $t3, $s0 # t3 = s0
.nextc:
lb $t0, ($s0) # load byte
DADDI2( $s0, 1) # s0++
li $t1, 47 # directory separator `/'
bne $t0, $t1, .nextc1 # is separator char?
nop # delay slot
move $t3, $s0 # t3 = char past separator
.nextc1:
bnez $t0, .nextc # next character?
nop # delay slot
DADDI2( $s0, 7) # adjust for round
li $t2, -8 # t2 = -8
and $s0, $s0, $t2 # mask for round
andi $t0, $s1, 16 # t1 = s1 & 16
move $t1, $sp # address of primary fd
beqz $t0, .primary # primary fd?
nop # delay slot
DADDI2( $t1, 8) # address of secondary fd
sd $v0, ($t1) # store fd
j .next_action # next action
nop # delay slot
.primary:
sd $v0, ($t1) # store fd
li $v0, 5153 # SYS_prctl
li $a0, 15 # PR_SET_NAME
move $a1, $t3 # char past separator
move $a2, $zero # a2
move $a3, $zero # a3
move $a4, $zero # a4
move $a5, $zero # a5
syscall # syscall
j .next_action # next action
nop # delay slot
.perror:
move $a0, $v0 # errno
li $v0, 5058 # SYS_exit
syscall # syscall
.rest_of_exec:
move $s1, $s2 # original SP
ld $t0, ($s1) # argc
dsll $t0, $t0, 3 # argc *= 8
DADDI2( $t0, 16) # argc += 16
dadd $s1, $s1, $t0 # s1 = start of envp
.skipenv:
ld $t0, ($s1) # t0 = *s1
DADDI2( $s1, 8) # s1++
bne $t0, $zero, .skipenv # skip again
nop # delay slot
dla $t3, .auxvtab # address of auxv table
.one_auxv:
ld $t0, ($s1) # t0 = auxv type
li $t1, 10 # t1 = 10
beqz $t0, .finish # is AT_IGNORE?
nop # delay slot
sltu $t1, $t0, $t1 # t1 = t0 < num offsets
beqz $t1, .next # next auxv
nop # delay slot
dsll $t1, $t0, 2 # t1 = t0 * 4
dadd $t1, $t3, $t1 # t1 = .auxvtab + t1
lw $t2, ($t1) # t2 = *t1
beqz $t2, .next # skip auxv
nop # delay slot
dadd $t2, $s0, $t2 # t2 = s0 + t2
ld $t2, ($t2) # t2 = *t2
sd $t2, 8($s1) # set auxv value
.next:
DADDI2( $s1, 16) # next auxv
j .one_auxv # next auxv
nop # delay slot
.finish:
ld $t0, 8($sp) # secondary fd
li $t1, -1 # t1 = -1
ld $s1, ($sp) # s1 = primary fd
li $v0, 5003 # SYS_close
beq $t0, $t2, .finish1 # secondary fd set?
nop # delay slot
move $a0, $t0 # secondary fd
syscall # syscall
li $v0, 5003 # SYS_close
.finish1:
move $a0, $s1 # primary fd
syscall # syscall
.jump:
move $v0, $zero # rtld_fini
ld $t0, 8($s0) # entry
move $sp, $s2 # restore stack pointer, delay slot
jr $t0 # enter
nop # delay slot
.auxvtab:
.long 0 # 0
.long 0 # 1
.long 0 # 2
.long 40 # 3 AT_PHDR
.long 24 # 4 AT_PHENT
.long 32 # 5 AT_PHNUM
.long 0 # 6
.long 48 # 7 AT_BASE
.long 0 # 8
.long 16 # 9 AT_ENTRY
.timespec:
.quad 10
.quad 10
# Local Variables:
# asm-comment-char: ?#
# End:
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