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#!/usr/bin/env python3
import argparse
import tempfile
import struct
import copy
import sys
import re
import os
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from collections import namedtuple
from io import StringIO
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MAX_FN_SIZE = 100
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SLOW_CHECKS = False
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EI_NIDENT = 16
EI_CLASS = 4
EI_DATA = 5
EI_VERSION = 6
EI_OSABI = 7
EI_ABIVERSION = 8
STN_UNDEF = 0
SHN_UNDEF = 0
SHN_ABS = 0xfff1
SHN_COMMON = 0xfff2
SHN_XINDEX = 0xffff
SHN_LORESERVE = 0xff00
STT_NOTYPE = 0
STT_OBJECT = 1
STT_FUNC = 2
STT_SECTION = 3
STT_FILE = 4
STT_COMMON = 5
STT_TLS = 6
STB_LOCAL = 0
STB_GLOBAL = 1
STB_WEAK = 2
STV_DEFAULT = 0
STV_INTERNAL = 1
STV_HIDDEN = 2
STV_PROTECTED = 3
SHT_NULL = 0
SHT_PROGBITS = 1
SHT_SYMTAB = 2
SHT_STRTAB = 3
SHT_RELA = 4
SHT_HASH = 5
SHT_DYNAMIC = 6
SHT_NOTE = 7
SHT_NOBITS = 8
SHT_REL = 9
SHT_SHLIB = 10
SHT_DYNSYM = 11
SHT_INIT_ARRAY = 14
SHT_FINI_ARRAY = 15
SHT_PREINIT_ARRAY = 16
SHT_GROUP = 17
SHT_SYMTAB_SHNDX = 18
SHT_MIPS_GPTAB = 0x70000003
SHT_MIPS_DEBUG = 0x70000005
SHT_MIPS_REGINFO = 0x70000006
SHT_MIPS_OPTIONS = 0x7000000d
SHF_WRITE = 0x1
SHF_ALLOC = 0x2
SHF_EXECINSTR = 0x4
SHF_MERGE = 0x10
SHF_STRINGS = 0x20
SHF_INFO_LINK = 0x40
SHF_LINK_ORDER = 0x80
SHF_OS_NONCONFORMING = 0x100
SHF_GROUP = 0x200
SHF_TLS = 0x400
R_MIPS_32 = 2
R_MIPS_26 = 4
R_MIPS_HI16 = 5
R_MIPS_LO16 = 6
class ElfHeader :
"""
typedef struct {
unsigned char e_ident [ EI_NIDENT ] ;
Elf32_Half e_type ;
Elf32_Half e_machine ;
Elf32_Word e_version ;
Elf32_Addr e_entry ;
Elf32_Off e_phoff ;
Elf32_Off e_shoff ;
Elf32_Word e_flags ;
Elf32_Half e_ehsize ;
Elf32_Half e_phentsize ;
Elf32_Half e_phnum ;
Elf32_Half e_shentsize ;
Elf32_Half e_shnum ;
Elf32_Half e_shstrndx ;
} Elf32_Ehdr ;
"""
def __init__ ( self , data ) :
self . e_ident = data [ : EI_NIDENT ]
self . e_type , self . e_machine , self . e_version , self . e_entry , self . e_phoff , self . e_shoff , self . e_flags , self . e_ehsize , self . e_phentsize , self . e_phnum , self . e_shentsize , self . e_shnum , self . e_shstrndx = struct . unpack ( ' >HHIIIIIHHHHHH ' , data [ EI_NIDENT : ] )
assert self . e_ident [ EI_CLASS ] == 1 # 32-bit
assert self . e_ident [ EI_DATA ] == 2 # big-endian
assert self . e_type == 1 # relocatable
assert self . e_machine == 8 # MIPS I Architecture
assert self . e_phoff == 0 # no program header
assert self . e_shoff != 0 # section header
assert self . e_shstrndx != SHN_UNDEF
def to_bin ( self ) :
return self . e_ident + struct . pack ( ' >HHIIIIIHHHHHH ' , self . e_type ,
self . e_machine , self . e_version , self . e_entry , self . e_phoff ,
self . e_shoff , self . e_flags , self . e_ehsize , self . e_phentsize ,
self . e_phnum , self . e_shentsize , self . e_shnum , self . e_shstrndx )
class Symbol :
"""
typedef struct {
Elf32_Word st_name ;
Elf32_Addr st_value ;
Elf32_Word st_size ;
unsigned char st_info ;
unsigned char st_other ;
Elf32_Half st_shndx ;
} Elf32_Sym ;
"""
def __init__ ( self , data , strtab ) :
self . st_name , self . st_value , self . st_size , st_info , self . st_other , self . st_shndx = struct . unpack ( ' >IIIBBH ' , data )
assert self . st_shndx != SHN_XINDEX , " too many sections (SHN_XINDEX not supported) "
self . bind = st_info >> 4
self . type = st_info & 15
self . name = strtab . lookup_str ( self . st_name )
self . visibility = self . st_other & 3
def to_bin ( self ) :
st_info = ( self . bind << 4 ) | self . type
return struct . pack ( ' >IIIBBH ' , self . st_name , self . st_value , self . st_size , st_info , self . st_other , self . st_shndx )
class Relocation :
def __init__ ( self , data , sh_type ) :
self . sh_type = sh_type
if sh_type == SHT_REL :
self . r_offset , self . r_info = struct . unpack ( ' >II ' , data )
else :
self . r_offset , self . r_info , self . r_addend = struct . unpack ( ' >III ' , data )
self . sym_index = self . r_info >> 8
self . rel_type = self . r_info & 0xff
def to_bin ( self ) :
self . r_info = ( self . sym_index << 8 ) | self . rel_type
if self . sh_type == SHT_REL :
return struct . pack ( ' >II ' , self . r_offset , self . r_info )
else :
return struct . pack ( ' >III ' , self . r_offset , self . r_info , self . r_addend )
class Section :
"""
typedef struct {
Elf32_Word sh_name ;
Elf32_Word sh_type ;
Elf32_Word sh_flags ;
Elf32_Addr sh_addr ;
Elf32_Off sh_offset ;
Elf32_Word sh_size ;
Elf32_Word sh_link ;
Elf32_Word sh_info ;
Elf32_Word sh_addralign ;
Elf32_Word sh_entsize ;
} Elf32_Shdr ;
"""
def __init__ ( self , header , data , index ) :
self . sh_name , self . sh_type , self . sh_flags , self . sh_addr , self . sh_offset , self . sh_size , self . sh_link , self . sh_info , self . sh_addralign , self . sh_entsize = struct . unpack ( ' >IIIIIIIIII ' , header )
assert not self . sh_flags & SHF_LINK_ORDER
if self . sh_entsize != 0 :
assert self . sh_size % self . sh_entsize == 0
if self . sh_type == SHT_NOBITS :
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self . data = b ' '
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else :
self . data = data [ self . sh_offset : self . sh_offset + self . sh_size ]
self . index = index
self . relocated_by = [ ]
@staticmethod
def from_parts ( sh_name , sh_type , sh_flags , sh_link , sh_info , sh_addralign , sh_entsize , data , index ) :
header = struct . pack ( ' >IIIIIIIIII ' , sh_name , sh_type , sh_flags , 0 , 0 , len ( data ) , sh_link , sh_info , sh_addralign , sh_entsize )
return Section ( header , data , index )
def lookup_str ( self , index ) :
assert self . sh_type == SHT_STRTAB
to = self . data . find ( b ' \0 ' , index )
assert to != - 1
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return self . data [ index : to ] . decode ( ' latin1 ' )
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def add_str ( self , string ) :
assert self . sh_type == SHT_STRTAB
ret = len ( self . data )
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self . data + = string . encode ( ' latin1 ' ) + b ' \0 '
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return ret
def is_rel ( self ) :
return self . sh_type == SHT_REL or self . sh_type == SHT_RELA
def header_to_bin ( self ) :
if self . sh_type != SHT_NOBITS :
self . sh_size = len ( self . data )
return struct . pack ( ' >IIIIIIIIII ' , self . sh_name , self . sh_type , self . sh_flags , self . sh_addr , self . sh_offset , self . sh_size , self . sh_link , self . sh_info , self . sh_addralign , self . sh_entsize )
def late_init ( self , sections ) :
if self . sh_type == SHT_SYMTAB :
self . init_symbols ( sections )
elif self . is_rel ( ) :
self . rel_target = sections [ self . sh_info ]
self . rel_target . relocated_by . append ( self )
self . init_relocs ( )
def find_symbol ( self , name ) :
assert self . sh_type == SHT_SYMTAB
for s in self . symbol_entries :
if s . name == name :
return ( s . st_shndx , s . st_value )
return None
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def find_symbol_in_section ( self , name , section ) :
pos = self . find_symbol ( name )
assert pos is not None
assert pos [ 0 ] == section . index
return pos [ 1 ]
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def init_symbols ( self , sections ) :
assert self . sh_type == SHT_SYMTAB
assert self . sh_entsize == 16
self . strtab = sections [ self . sh_link ]
entries = [ ]
for i in range ( 0 , self . sh_size , self . sh_entsize ) :
entries . append ( Symbol ( self . data [ i : i + self . sh_entsize ] , self . strtab ) )
self . symbol_entries = entries
def init_relocs ( self ) :
assert self . is_rel ( )
entries = [ ]
for i in range ( 0 , self . sh_size , self . sh_entsize ) :
entries . append ( Relocation ( self . data [ i : i + self . sh_entsize ] , self . sh_type ) )
self . relocations = entries
def local_symbols ( self ) :
assert self . sh_type == SHT_SYMTAB
return self . symbol_entries [ : self . sh_info ]
def global_symbols ( self ) :
assert self . sh_type == SHT_SYMTAB
return self . symbol_entries [ self . sh_info : ]
class ElfFile :
def __init__ ( self , data ) :
self . data = data
assert data [ : 4 ] == b ' \x7f ELF ' , " not an ELF file "
self . elf_header = ElfHeader ( data [ 0 : 52 ] )
offset , size = self . elf_header . e_shoff , self . elf_header . e_shentsize
null_section = Section ( data [ offset : offset + size ] , data , 0 )
num_sections = self . elf_header . e_shnum or null_section . sh_size
self . sections = [ null_section ]
for i in range ( 1 , num_sections ) :
ind = offset + i * size
self . sections . append ( Section ( data [ ind : ind + size ] , data , i ) )
symtab = None
for s in self . sections :
if s . sh_type == SHT_SYMTAB :
assert not symtab
symtab = s
assert symtab is not None
self . symtab = symtab
shstr = self . sections [ self . elf_header . e_shstrndx ]
for s in self . sections :
s . name = shstr . lookup_str ( s . sh_name )
s . late_init ( self . sections )
def find_section ( self , name ) :
for s in self . sections :
if s . name == name :
return s
return None
def add_section ( self , name , sh_type , sh_flags , sh_link , sh_info , sh_addralign , sh_entsize , data ) :
shstr = self . sections [ self . elf_header . e_shstrndx ]
sh_name = shstr . add_str ( name )
s = Section . from_parts ( sh_name = sh_name , sh_type = sh_type ,
sh_flags = sh_flags , sh_link = sh_link , sh_info = sh_info ,
sh_addralign = sh_addralign , sh_entsize = sh_entsize , data = data ,
index = len ( self . sections ) )
self . sections . append ( s )
s . name = name
s . late_init ( self . sections )
return s
def drop_irrelevant_sections ( self ) :
# We can only drop sections at the end, since otherwise section
# references might be wrong. Luckily, these sections typically are.
while self . sections [ - 1 ] . sh_type in [ SHT_MIPS_DEBUG , SHT_MIPS_GPTAB ] :
self . sections . pop ( )
def write ( self , filename ) :
outfile = open ( filename , ' wb ' )
outidx = 0
def write_out ( data ) :
nonlocal outidx
outfile . write ( data )
outidx + = len ( data )
def pad_out ( align ) :
if align and outidx % align :
write_out ( b ' \0 ' * ( align - outidx % align ) )
self . elf_header . e_shnum = len ( self . sections )
write_out ( self . elf_header . to_bin ( ) )
for s in self . sections :
if s . sh_type != SHT_NOBITS and s . sh_type != SHT_NULL :
pad_out ( s . sh_addralign )
s . sh_offset = outidx
write_out ( s . data )
pad_out ( 4 )
self . elf_header . e_shoff = outidx
for s in self . sections :
write_out ( s . header_to_bin ( ) )
outfile . seek ( 0 )
outfile . write ( self . elf_header . to_bin ( ) )
outfile . close ( )
def is_temp_name ( name ) :
return name . startswith ( ' _asmpp_ ' )
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# https://stackoverflow.com/a/241506
def re_comment_replacer ( match ) :
s = match . group ( 0 )
if s [ 0 ] in " /# " :
return " "
else :
return s
re_comment_or_string = re . compile (
r ' #.*|/ \ *.*? \ */| " (?: \\ .|[^ \\ " ])* " '
)
class Failure ( Exception ) :
def __init__ ( self , message ) :
self . message = message
def __str__ ( self ) :
return self . message
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class GlobalState :
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def __init__ ( self , min_instr_count , skip_instr_count , use_jtbl_for_rodata ) :
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# A value that hopefully never appears as a 32-bit rodata constant (or we
# miscompile late rodata). Increases by 1 in each step.
self . late_rodata_hex = 0xE0123456
self . namectr = 0
self . min_instr_count = min_instr_count
self . skip_instr_count = skip_instr_count
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self . use_jtbl_for_rodata = use_jtbl_for_rodata
def next_late_rodata_hex ( self ) :
dummy_bytes = struct . pack ( ' >I ' , self . late_rodata_hex )
if ( self . late_rodata_hex & 0xffff ) == 0 :
# Avoid lui
self . late_rodata_hex + = 1
self . late_rodata_hex + = 1
return dummy_bytes
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def make_name ( self , cat ) :
self . namectr + = 1
return ' _asmpp_ {} {} ' . format ( cat , self . namectr )
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Function = namedtuple ( ' Function ' , [ ' text_glabels ' , ' asm_conts ' , ' late_rodata_dummy_bytes ' , ' jtbl_rodata_size ' , ' late_rodata_asm_conts ' , ' fn_desc ' , ' data ' ] )
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class GlobalAsmBlock :
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def __init__ ( self , fn_desc ) :
self . fn_desc = fn_desc
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self . cur_section = ' .text '
self . asm_conts = [ ]
self . late_rodata_asm_conts = [ ]
self . late_rodata_alignment = 0
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self . late_rodata_alignment_from_content = False
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self . text_glabels = [ ]
self . fn_section_sizes = {
' .text ' : 0 ,
' .data ' : 0 ,
' .bss ' : 0 ,
' .rodata ' : 0 ,
' .late_rodata ' : 0 ,
}
self . fn_ins_inds = [ ]
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self . glued_line = ' '
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self . num_lines = 0
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def fail ( self , message , line = None ) :
context = self . fn_desc
if line :
context + = " , at line \" " + line + " \" "
raise Failure ( message + " \n within " + context )
def count_quoted_size ( self , line , z , real_line , output_enc ) :
line = line . encode ( output_enc ) . decode ( ' latin1 ' )
in_quote = False
num_parts = 0
ret = 0
i = 0
digits = " 0123456789 " # 0-7 would be more sane, but this matches GNU as
while i < len ( line ) :
c = line [ i ]
i + = 1
if not in_quote :
if c == ' " ' :
in_quote = True
num_parts + = 1
else :
if c == ' " ' :
in_quote = False
continue
ret + = 1
if c != ' \\ ' :
continue
if i == len ( line ) :
self . fail ( " backslash at end of line not supported " , real_line )
c = line [ i ]
i + = 1
# (if c is in "bfnrtv", we have a real escaped literal)
if c == ' x ' :
# hex literal, consume any number of hex chars, possibly none
while i < len ( line ) and line [ i ] in digits + " abcdefABCDEF " :
i + = 1
elif c in digits :
# octal literal, consume up to two more digits
it = 0
while i < len ( line ) and line [ i ] in digits and it < 2 :
i + = 1
it + = 1
if in_quote :
self . fail ( " unterminated string literal " , real_line )
if num_parts == 0 :
self . fail ( " .ascii with no string " , real_line )
return ret + num_parts if z else ret
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def align2 ( self ) :
while self . fn_section_sizes [ self . cur_section ] % 2 != 0 :
self . fn_section_sizes [ self . cur_section ] + = 1
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def align4 ( self ) :
while self . fn_section_sizes [ self . cur_section ] % 4 != 0 :
self . fn_section_sizes [ self . cur_section ] + = 1
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def add_sized ( self , size , line ) :
if self . cur_section in [ ' .text ' , ' .late_rodata ' ] :
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if size % 4 != 0 :
self . fail ( " size must be a multiple of 4 " , line )
if size < 0 :
self . fail ( " size cannot be negative " , line )
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self . fn_section_sizes [ self . cur_section ] + = size
if self . cur_section == ' .text ' :
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if not self . text_glabels :
self . fail ( " .text block without an initial glabel " , line )
self . fn_ins_inds . append ( ( self . num_lines - 1 , size / / 4 ) )
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def process_line ( self , line , output_enc ) :
self . num_lines + = 1
if line . endswith ( ' \\ ' ) :
self . glued_line + = line [ : - 1 ]
return
line = self . glued_line + line
self . glued_line = ' '
real_line = line
line = re . sub ( re_comment_or_string , re_comment_replacer , line )
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line = line . strip ( )
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line = re . sub ( r ' ^[a-zA-Z0-9_]+: \ s* ' , ' ' , line )
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changed_section = False
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emitting_double = False
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if line . startswith ( ' glabel ' ) and self . cur_section == ' .text ' :
self . text_glabels . append ( line . split ( ) [ 1 ] )
if not line :
pass # empty line
elif line . startswith ( ' glabel ' ) or ( ' ' not in line and line . endswith ( ' : ' ) ) :
pass # label
elif line . startswith ( ' .section ' ) or line in [ ' .text ' , ' .data ' , ' .rdata ' , ' .rodata ' , ' .bss ' , ' .late_rodata ' ] :
# section change
self . cur_section = ' .rodata ' if line == ' .rdata ' else line . split ( ' , ' ) [ 0 ] . split ( ) [ - 1 ]
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if self . cur_section not in [ ' .data ' , ' .text ' , ' .rodata ' , ' .late_rodata ' , ' .bss ' ] :
self . fail ( " unrecognized .section directive " , real_line )
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changed_section = True
elif line . startswith ( ' .late_rodata_alignment ' ) :
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if self . cur_section != ' .late_rodata ' :
self . fail ( " .late_rodata_alignment must occur within .late_rodata section " , real_line )
value = int ( line . split ( ) [ 1 ] )
if value not in [ 4 , 8 ] :
self . fail ( " .late_rodata_alignment argument must be 4 or 8 " , real_line )
if self . late_rodata_alignment and self . late_rodata_alignment != value :
self . fail ( " .late_rodata_alignment alignment assumption conflicts with earlier .double directive. Make sure to provide explicit alignment padding. " )
self . late_rodata_alignment = value
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changed_section = True
elif line . startswith ( ' .incbin ' ) :
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self . add_sized ( int ( line . split ( ' , ' ) [ - 1 ] . strip ( ) , 0 ) , real_line )
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elif line . startswith ( ' .word ' ) or line . startswith ( ' .float ' ) :
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self . align4 ( )
self . add_sized ( 4 * len ( line . split ( ' , ' ) ) , real_line )
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elif line . startswith ( ' .double ' ) :
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self . align4 ( )
if self . cur_section == ' .late_rodata ' :
align8 = self . fn_section_sizes [ self . cur_section ] % 8
# Automatically set late_rodata_alignment, so the generated C code uses doubles.
# This gives us correct alignment for the transferred doubles even when the
# late_rodata_alignment is wrong, e.g. for non-matching compilation.
if not self . late_rodata_alignment :
self . late_rodata_alignment = 8 - align8
self . late_rodata_alignment_from_content = True
elif self . late_rodata_alignment != 8 - align8 :
if self . late_rodata_alignment_from_content :
self . fail ( " found two .double directives with different start addresses mod 8. Make sure to provide explicit alignment padding. " , real_line )
else :
self . fail ( " .double at address that is not 0 mod 8 (based on .late_rodata_alignment assumption). Make sure to provide explicit alignment padding. " , real_line )
self . add_sized ( 8 * len ( line . split ( ' , ' ) ) , real_line )
emitting_double = True
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elif line . startswith ( ' .space ' ) :
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self . add_sized ( int ( line . split ( ) [ 1 ] , 0 ) , real_line )
elif line . startswith ( ' .balign ' ) or line . startswith ( ' .align ' ) :
align = int ( line . split ( ) [ 1 ] )
if align != 4 :
self . fail ( " only .balign 4 is supported " , real_line )
self . align4 ( )
elif line . startswith ( ' .asci ' ) :
z = ( line . startswith ( ' .asciz ' ) or line . startswith ( ' .asciiz ' ) )
self . add_sized ( self . count_quoted_size ( line , z , real_line , output_enc ) , real_line )
elif line . startswith ( ' .byte ' ) :
self . add_sized ( len ( line . split ( ' , ' ) ) , real_line )
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elif line . startswith ( ' .half ' ) :
self . align2 ( )
self . add_sized ( 2 * len ( line . split ( ' , ' ) ) , real_line )
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elif line . startswith ( ' . ' ) :
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# .macro, ...
self . fail ( " asm directive not supported " , real_line )
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else :
# Unfortunately, macros are hard to support for .rodata --
# we don't know how how space they will expand to before
# running the assembler, but we need that information to
# construct the C code. So if we need that we'll either
# need to run the assembler twice (at least in some rare
# cases), or change how this program is invoked.
# Similarly, we can't currently deal with pseudo-instructions
# that expand to several real instructions.
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if self . cur_section != ' .text ' :
self . fail ( " instruction or macro call in non-.text section? not supported " , real_line )
self . add_sized ( 4 , real_line )
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if self . cur_section == ' .late_rodata ' :
if not changed_section :
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if emitting_double :
self . late_rodata_asm_conts . append ( " .align 0 " )
self . late_rodata_asm_conts . append ( real_line )
if emitting_double :
self . late_rodata_asm_conts . append ( " .align 2 " )
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else :
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self . asm_conts . append ( real_line )
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def finish ( self , state ) :
src = [ ' ' ] * ( self . num_lines + 1 )
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late_rodata_dummy_bytes = [ ]
jtbl_rodata_size = 0
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late_rodata_fn_output = [ ]
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num_instr = self . fn_section_sizes [ ' .text ' ] / / 4
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if self . fn_section_sizes [ ' .late_rodata ' ] > 0 :
# Generate late rodata by emitting unique float constants.
# This requires 3 instructions for each 4 bytes of rodata.
# If we know alignment, we can use doubles, which give 3
# instructions for 8 bytes of rodata.
size = self . fn_section_sizes [ ' .late_rodata ' ] / / 4
skip_next = False
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needs_double = ( self . late_rodata_alignment != 0 )
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for i in range ( size ) :
if skip_next :
skip_next = False
continue
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# Jump tables give 9 instructions for >= 5 words of rodata, and should be
# emitted when:
# - -O2 or -O2 -g3 are used, which give the right codegen
# - we have emitted our first .float/.double (to ensure that we find the
# created rodata in the binary)
# - we have emitted our first .double, if any (to ensure alignment of doubles
# in shifted rodata sections)
# - we have at least 5 words of rodata left to emit (otherwise IDO does not
# generate a jump table)
# - we have at least 10 more instructions to go in this function (otherwise our
# function size computation will be wrong since the delay slot goes unused)
if ( not needs_double and state . use_jtbl_for_rodata and i > = 1 and
size - i > = 5 and num_instr - len ( late_rodata_fn_output ) > = 10 ) :
cases = " " . join ( " case {} : " . format ( case ) for case in range ( size - i ) )
late_rodata_fn_output . append ( " switch (*(volatile int*)0) { " + cases + " ; } " )
late_rodata_fn_output . extend ( [ " " ] * 8 )
jtbl_rodata_size = ( size - i ) * 4
break
dummy_bytes = state . next_late_rodata_hex ( )
late_rodata_dummy_bytes . append ( dummy_bytes )
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if self . late_rodata_alignment == 4 * ( ( i + 1 ) % 2 + 1 ) and i + 1 < size :
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dummy_bytes2 = state . next_late_rodata_hex ( )
late_rodata_dummy_bytes . append ( dummy_bytes2 )
fval , = struct . unpack ( ' >d ' , dummy_bytes + dummy_bytes2 )
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late_rodata_fn_output . append ( ' *(volatile double*)0 = {} ; ' . format ( fval ) )
skip_next = True
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needs_double = True
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else :
fval , = struct . unpack ( ' >f ' , dummy_bytes )
late_rodata_fn_output . append ( ' *(volatile float*)0 = {} f; ' . format ( fval ) )
late_rodata_fn_output . append ( ' ' )
late_rodata_fn_output . append ( ' ' )
text_name = None
if self . fn_section_sizes [ ' .text ' ] > 0 or late_rodata_fn_output :
text_name = state . make_name ( ' func ' )
src [ 0 ] = ' void {} (void) {{ ' . format ( text_name )
src [ self . num_lines ] = ' } '
instr_count = self . fn_section_sizes [ ' .text ' ] / / 4
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if instr_count < state . min_instr_count :
self . fail ( " too short .text block " )
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tot_emitted = 0
tot_skipped = 0
fn_emitted = 0
fn_skipped = 0
rodata_stack = late_rodata_fn_output [ : : - 1 ]
for ( line , count ) in self . fn_ins_inds :
for _ in range ( count ) :
if ( fn_emitted > MAX_FN_SIZE and instr_count - tot_emitted > state . min_instr_count and
( not rodata_stack or rodata_stack [ - 1 ] ) ) :
# Don't let functions become too large. When a function reaches 284
# instructions, and -O2 -framepointer flags are passed, the IRIX
# compiler decides it is a great idea to start optimizing more.
fn_emitted = 0
fn_skipped = 0
src [ line ] + = ' }} void {} (void) {{ ' . format ( state . make_name ( ' large_func ' ) )
if fn_skipped < state . skip_instr_count :
fn_skipped + = 1
tot_skipped + = 1
elif rodata_stack :
src [ line ] + = rodata_stack . pop ( )
else :
src [ line ] + = ' *(volatile int*)0 = 0; '
tot_emitted + = 1
fn_emitted + = 1
if rodata_stack :
size = len ( late_rodata_fn_output ) / / 3
available = instr_count - tot_skipped
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self . fail (
" late rodata to text ratio is too high: {} / {} must be <= 1/3 \n "
" add .late_rodata_alignment (4|8) to the .late_rodata "
" block to double the allowed ratio. "
. format ( size , available ) )
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rodata_name = None
if self . fn_section_sizes [ ' .rodata ' ] > 0 :
rodata_name = state . make_name ( ' rodata ' )
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src [ self . num_lines ] + = ' const char {} [ {} ] = {{ 1}}; ' . format ( rodata_name , self . fn_section_sizes [ ' .rodata ' ] )
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data_name = None
if self . fn_section_sizes [ ' .data ' ] > 0 :
data_name = state . make_name ( ' data ' )
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src [ self . num_lines ] + = ' char {} [ {} ] = {{ 1}}; ' . format ( data_name , self . fn_section_sizes [ ' .data ' ] )
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bss_name = None
if self . fn_section_sizes [ ' .bss ' ] > 0 :
bss_name = state . make_name ( ' bss ' )
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src [ self . num_lines ] + = ' char {} [ {} ]; ' . format ( bss_name , self . fn_section_sizes [ ' .bss ' ] )
fn = Function (
text_glabels = self . text_glabels ,
asm_conts = self . asm_conts ,
late_rodata_dummy_bytes = late_rodata_dummy_bytes ,
jtbl_rodata_size = jtbl_rodata_size ,
late_rodata_asm_conts = self . late_rodata_asm_conts ,
fn_desc = self . fn_desc ,
data = {
' .text ' : ( text_name , self . fn_section_sizes [ ' .text ' ] ) ,
' .data ' : ( data_name , self . fn_section_sizes [ ' .data ' ] ) ,
' .rodata ' : ( rodata_name , self . fn_section_sizes [ ' .rodata ' ] ) ,
' .bss ' : ( bss_name , self . fn_section_sizes [ ' .bss ' ] ) ,
} )
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return src , fn
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cutscene_data_regexpr = re . compile ( r " CutsceneData (.| \ n)* \ [ \ ] = { " )
float_regexpr = re . compile ( r " [-+]?[0-9]* \ .?[0-9]+([eE][-+]?[0-9]+)?f " )
def repl_float_hex ( m ) :
return str ( struct . unpack ( " >I " , struct . pack ( " >f " , float ( m . group ( 0 ) . strip ( ) . rstrip ( " f " ) ) ) ) [ 0 ] )
def parse_source ( f , opt , framepointer , input_enc , output_enc , print_source = None ) :
if opt in [ ' O2 ' , ' O1 ' ] :
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if framepointer :
min_instr_count = 6
skip_instr_count = 5
else :
min_instr_count = 2
skip_instr_count = 1
elif opt == ' g ' :
if framepointer :
min_instr_count = 7
skip_instr_count = 7
else :
min_instr_count = 4
skip_instr_count = 4
else :
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if opt != ' g3 ' :
raise Failure ( " must pass one of -g, -O1, -O2, -O2 -g3 " )
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if framepointer :
min_instr_count = 4
skip_instr_count = 4
else :
min_instr_count = 2
skip_instr_count = 2
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use_jtbl_for_rodata = False
if opt in [ ' O2 ' , ' g3 ' ] and not framepointer :
use_jtbl_for_rodata = True
state = GlobalState ( min_instr_count , skip_instr_count , use_jtbl_for_rodata )
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global_asm = None
asm_functions = [ ]
output_lines = [ ]
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is_cutscene_data = False
for line_no , raw_line in enumerate ( f , 1 ) :
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raw_line = raw_line . rstrip ( )
line = raw_line . lstrip ( )
# Print exactly one output line per source line, to make compiler
# errors have correct line numbers. These will be overridden with
# reasonable content further down.
output_lines . append ( ' ' )
if global_asm is not None :
if line . startswith ( ' ) ' ) :
src , fn = global_asm . finish ( state )
for i , line2 in enumerate ( src ) :
output_lines [ start_index + i ] = line2
asm_functions . append ( fn )
global_asm = None
else :
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global_asm . process_line ( raw_line , output_enc )
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else :
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if line in [ ' GLOBAL_ASM( ' , ' #pragma GLOBAL_ASM( ' ] :
global_asm = GlobalAsmBlock ( " GLOBAL_ASM block at line " + str ( line_no ) )
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start_index = len ( output_lines )
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elif ( ( line . startswith ( ' GLOBAL_ASM( " ' ) or line . startswith ( ' #pragma GLOBAL_ASM( " ' ) )
and line . endswith ( ' " ) ' ) ) :
fname = line [ line . index ( ' ( ' ) + 2 : - 2 ]
global_asm = GlobalAsmBlock ( fname )
with open ( fname , encoding = input_enc ) as f :
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for line2 in f :
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global_asm . process_line ( line2 . rstrip ( ) , output_enc )
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src , fn = global_asm . finish ( state )
output_lines [ - 1 ] = ' ' . join ( src )
asm_functions . append ( fn )
global_asm = None
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elif line . startswith ( ' #include " ' ) and line . endswith ( ' " EARLY ' ) :
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# C includes qualified with EARLY (i.e. #include "file.c" EARLY) will be
# processed recursively when encountered
fpath = os . path . dirname ( f . name )
fname = line [ line . index ( ' ' ) + 2 : - 7 ]
include_src = StringIO ( )
with open ( fpath + os . path . sep + fname , encoding = input_enc ) as include_file :
parse_source ( include_file , opt , framepointer , input_enc , output_enc , include_src )
output_lines [ - 1 ] = include_src . getvalue ( )
include_src . write ( ' #line ' + str ( line_no ) + ' \n ' )
include_src . close ( )
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else :
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# This is a hack to replace all floating-point numbers in an array of a particular type
# (in this case CutsceneData) with their corresponding IEEE-754 hexadecimal representation
if cutscene_data_regexpr . search ( line ) is not None :
is_cutscene_data = True
elif line . endswith ( " }; " ) :
is_cutscene_data = False
if is_cutscene_data :
raw_line = re . sub ( float_regexpr , repl_float_hex , raw_line )
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output_lines [ - 1 ] = raw_line
if print_source :
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if isinstance ( print_source , StringIO ) :
for line in output_lines :
print_source . write ( line + ' \n ' )
else :
for line in output_lines :
print_source . write ( line . encode ( output_enc ) + b ' \n ' )
print_source . flush ( )
if print_source != sys . stdout . buffer :
print_source . close ( )
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return asm_functions
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def fixup_objfile ( objfile_name , functions , asm_prelude , assembler , output_enc ) :
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SECTIONS = [ ' .data ' , ' .text ' , ' .rodata ' , ' .bss ' ]
with open ( objfile_name , ' rb ' ) as f :
objfile = ElfFile ( f . read ( ) )
prev_locs = {
' .text ' : 0 ,
' .data ' : 0 ,
' .rodata ' : 0 ,
' .bss ' : 0 ,
}
to_copy = {
' .text ' : [ ] ,
' .data ' : [ ] ,
' .rodata ' : [ ] ,
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' .bss ' : [ ] ,
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}
asm = [ ]
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all_late_rodata_dummy_bytes = [ ]
all_jtbl_rodata_size = [ ]
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late_rodata_asm = [ ]
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late_rodata_source_name_start = None
late_rodata_source_name_end = None
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# Generate an assembly file with all the assembly we need to fill in. For
# simplicity we pad with nops/.space so that addresses match exactly, so we
# don't have to fix up relocations/symbol references.
all_text_glabels = set ( )
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for function in functions :
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ifdefed = False
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for sectype , ( temp_name , size ) in function . data . items ( ) :
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if temp_name is None :
continue
assert size > 0
loc = objfile . symtab . find_symbol ( temp_name )
if loc is None :
ifdefed = True
break
loc = loc [ 1 ]
prev_loc = prev_locs [ sectype ]
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if loc < prev_loc :
raise Failure ( " Wrongly computed size for section {} (diff {} ). This is an asm-processor bug! " . format ( sectype , prev_loc - loc ) )
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if loc != prev_loc :
asm . append ( ' .section ' + sectype )
if sectype == ' .text ' :
for i in range ( ( loc - prev_loc ) / / 4 ) :
asm . append ( ' nop ' )
else :
asm . append ( ' .space {} ' . format ( loc - prev_loc ) )
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to_copy [ sectype ] . append ( ( loc , size , temp_name , function . fn_desc ) )
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prev_locs [ sectype ] = loc + size
if not ifdefed :
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all_text_glabels . update ( function . text_glabels )
all_late_rodata_dummy_bytes . append ( function . late_rodata_dummy_bytes )
all_jtbl_rodata_size . append ( function . jtbl_rodata_size )
late_rodata_asm . append ( function . late_rodata_asm_conts )
for sectype , ( temp_name , size ) in function . data . items ( ) :
if temp_name is not None :
asm . append ( ' .section ' + sectype )
asm . append ( ' glabel ' + temp_name + ' _asm_start ' )
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asm . append ( ' .text ' )
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for line in function . asm_conts :
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asm . append ( line )
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for sectype , ( temp_name , size ) in function . data . items ( ) :
if temp_name is not None :
asm . append ( ' .section ' + sectype )
asm . append ( ' glabel ' + temp_name + ' _asm_end ' )
if any ( late_rodata_asm ) :
late_rodata_source_name_start = ' _asmpp_late_rodata_start '
late_rodata_source_name_end = ' _asmpp_late_rodata_end '
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asm . append ( ' .rdata ' )
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asm . append ( ' glabel {} ' . format ( late_rodata_source_name_start ) )
for conts in late_rodata_asm :
asm . extend ( conts )
asm . append ( ' glabel {} ' . format ( late_rodata_source_name_end ) )
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o_file = tempfile . NamedTemporaryFile ( prefix = ' asm-processor ' , suffix = ' .o ' , delete = False )
o_name = o_file . name
o_file . close ( )
s_file = tempfile . NamedTemporaryFile ( prefix = ' asm-processor ' , suffix = ' .s ' , delete = False )
s_name = s_file . name
try :
s_file . write ( asm_prelude + b ' \n ' )
for line in asm :
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s_file . write ( line . encode ( output_enc ) + b ' \n ' )
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s_file . close ( )
ret = os . system ( assembler + " " + s_name + " -o " + o_name )
if ret != 0 :
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raise Failure ( " failed to assemble " )
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with open ( o_name , ' rb ' ) as f :
asm_objfile = ElfFile ( f . read ( ) )
# Remove some clutter from objdump output
objfile . drop_irrelevant_sections ( )
# Unify reginfo sections
target_reginfo = objfile . find_section ( ' .reginfo ' )
source_reginfo_data = list ( asm_objfile . find_section ( ' .reginfo ' ) . data )
data = list ( target_reginfo . data )
for i in range ( 20 ) :
data [ i ] | = source_reginfo_data [ i ]
target_reginfo . data = bytes ( data )
# Move over section contents
modified_text_positions = set ( )
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jtbl_rodata_positions = set ( )
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last_rodata_pos = 0
for sectype in SECTIONS :
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if not to_copy [ sectype ] :
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continue
source = asm_objfile . find_section ( sectype )
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assert source is not None , " didn ' t find source section: " + sectype
for ( pos , count , temp_name , fn_desc ) in to_copy [ sectype ] :
loc1 = asm_objfile . symtab . find_symbol_in_section ( temp_name + ' _asm_start ' , source )
loc2 = asm_objfile . symtab . find_symbol_in_section ( temp_name + ' _asm_end ' , source )
assert loc1 == pos , " assembly and C files don ' t line up for section " + sectype + " , " + fn_desc
if loc2 - loc1 != count :
raise Failure ( " incorrectly computed size for section " + sectype + " , " + fn_desc + " . If using .double, make sure to provide explicit alignment padding. " )
if sectype == ' .bss ' :
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continue
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target = objfile . find_section ( sectype )
assert target is not None , " missing target section of type " + sectype
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data = list ( target . data )
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for ( pos , count , _ , _ ) in to_copy [ sectype ] :
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data [ pos : pos + count ] = source . data [ pos : pos + count ]
if sectype == ' .text ' :
assert count % 4 == 0
assert pos % 4 == 0
for i in range ( count / / 4 ) :
modified_text_positions . add ( pos + 4 * i )
elif sectype == ' .rodata ' :
last_rodata_pos = pos + count
target . data = bytes ( data )
# Move over late rodata. This is heuristic, sadly, since I can't think
# of another way of doing it.
moved_late_rodata = { }
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if any ( all_late_rodata_dummy_bytes ) or any ( all_jtbl_rodata_size ) :
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source = asm_objfile . find_section ( ' .rodata ' )
target = objfile . find_section ( ' .rodata ' )
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source_pos = asm_objfile . symtab . find_symbol_in_section ( late_rodata_source_name_start , source )
source_end = asm_objfile . symtab . find_symbol_in_section ( late_rodata_source_name_end , source )
if source_end - source_pos != sum ( map ( len , all_late_rodata_dummy_bytes ) ) * 4 + sum ( all_jtbl_rodata_size ) :
raise Failure ( " computed wrong size of .late_rodata " )
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new_data = list ( target . data )
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for dummy_bytes_list , jtbl_rodata_size in zip ( all_late_rodata_dummy_bytes , all_jtbl_rodata_size ) :
for index , dummy_bytes in enumerate ( dummy_bytes_list ) :
pos = target . data . index ( dummy_bytes , last_rodata_pos )
# This check is nice, but makes time complexity worse for large files:
if SLOW_CHECKS and target . data . find ( dummy_bytes , pos + 4 ) != - 1 :
raise Failure ( " multiple occurrences of late_rodata hex magic. Change asm-processor to use something better than 0xE0123456! " )
if index == 0 and len ( dummy_bytes_list ) > 1 and target . data [ pos + 4 : pos + 8 ] == b ' \0 \0 \0 \0 ' :
# Ugly hack to handle double alignment for non-matching builds.
# We were told by .late_rodata_alignment (or deduced from a .double)
# that a function's late_rodata started out 4 (mod 8), and emitted
# a float and then a double. But it was actually 0 (mod 8), so our
# double was moved by 4 bytes. To make them adjacent to keep jump
# tables correct, move the float by 4 bytes as well.
new_data [ pos : pos + 4 ] = b ' \0 \0 \0 \0 '
pos + = 4
new_data [ pos : pos + 4 ] = source . data [ source_pos : source_pos + 4 ]
moved_late_rodata [ source_pos ] = pos
last_rodata_pos = pos + 4
source_pos + = 4
if jtbl_rodata_size > 0 :
assert dummy_bytes_list , " should always have dummy bytes before jtbl data "
pos = last_rodata_pos
new_data [ pos : pos + jtbl_rodata_size ] = \
source . data [ source_pos : source_pos + jtbl_rodata_size ]
for i in range ( 0 , jtbl_rodata_size , 4 ) :
moved_late_rodata [ source_pos + i ] = pos + i
jtbl_rodata_positions . add ( pos + i )
last_rodata_pos + = jtbl_rodata_size
source_pos + = jtbl_rodata_size
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target . data = bytes ( new_data )
# Merge strtab data.
strtab_adj = len ( objfile . symtab . strtab . data )
objfile . symtab . strtab . data + = asm_objfile . symtab . strtab . data
# Find relocated symbols
relocated_symbols = set ( )
for sectype in SECTIONS :
for obj in [ asm_objfile , objfile ] :
sec = obj . find_section ( sectype )
if sec is None :
continue
for reltab in sec . relocated_by :
for rel in reltab . relocations :
relocated_symbols . add ( obj . symtab . symbol_entries [ rel . sym_index ] )
# Move over symbols, deleting the temporary function labels.
# Sometimes this naive procedure results in duplicate symbols, or UNDEF
# symbols that are also defined the same .o file. Hopefully that's fine.
# Skip over local symbols that aren't used relocated against, to avoid
# conflicts.
new_local_syms = [ s for s in objfile . symtab . local_symbols ( ) if not is_temp_name ( s . name ) ]
new_global_syms = [ s for s in objfile . symtab . global_symbols ( ) if not is_temp_name ( s . name ) ]
for i , s in enumerate ( asm_objfile . symtab . symbol_entries ) :
is_local = ( i < asm_objfile . symtab . sh_info )
if is_local and s not in relocated_symbols :
continue
if is_temp_name ( s . name ) :
continue
if s . st_shndx not in [ SHN_UNDEF , SHN_ABS ] :
section_name = asm_objfile . sections [ s . st_shndx ] . name
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if section_name not in SECTIONS :
raise Failure ( " generated assembly .o must only have symbols for .text, .data, .rodata, ABS and UNDEF, but found " + section_name )
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s . st_shndx = objfile . find_section ( section_name ) . index
# glabel's aren't marked as functions, making objdump output confusing. Fix that.
if s . name in all_text_glabels :
s . type = STT_FUNC
if objfile . sections [ s . st_shndx ] . name == ' .rodata ' and s . st_value in moved_late_rodata :
s . st_value = moved_late_rodata [ s . st_value ]
s . st_name + = strtab_adj
if is_local :
new_local_syms . append ( s )
else :
new_global_syms . append ( s )
new_syms = new_local_syms + new_global_syms
for i , s in enumerate ( new_syms ) :
s . new_index = i
objfile . symtab . data = b ' ' . join ( s . to_bin ( ) for s in new_syms )
objfile . symtab . sh_info = len ( new_local_syms )
# Move over relocations
for sectype in SECTIONS :
source = asm_objfile . find_section ( sectype )
target = objfile . find_section ( sectype )
if target is not None :
# fixup relocation symbol indices, since we butchered them above
for reltab in target . relocated_by :
nrels = [ ]
for rel in reltab . relocations :
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if ( sectype == ' .text ' and rel . r_offset in modified_text_positions or
sectype == ' .rodata ' and rel . r_offset in jtbl_rodata_positions ) :
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# don't include relocations for late_rodata dummy code
continue
# hopefully we don't have relocations for local or
# temporary symbols, so new_index exists
rel . sym_index = objfile . symtab . symbol_entries [ rel . sym_index ] . new_index
nrels . append ( rel )
reltab . relocations = nrels
reltab . data = b ' ' . join ( rel . to_bin ( ) for rel in nrels )
if not source :
continue
target_reltab = objfile . find_section ( ' .rel ' + sectype )
target_reltaba = objfile . find_section ( ' .rela ' + sectype )
for reltab in source . relocated_by :
for rel in reltab . relocations :
rel . sym_index = asm_objfile . symtab . symbol_entries [ rel . sym_index ] . new_index
if sectype == ' .rodata ' and rel . r_offset in moved_late_rodata :
rel . r_offset = moved_late_rodata [ rel . r_offset ]
new_data = b ' ' . join ( rel . to_bin ( ) for rel in reltab . relocations )
if reltab . sh_type == SHT_REL :
if not target_reltab :
target_reltab = objfile . add_section ( ' .rel ' + sectype ,
sh_type = SHT_REL , sh_flags = 0 ,
sh_link = objfile . symtab . index , sh_info = target . index ,
sh_addralign = 4 , sh_entsize = 8 , data = b ' ' )
target_reltab . data + = new_data
else :
if not target_reltaba :
target_reltaba = objfile . add_section ( ' .rela ' + sectype ,
sh_type = SHT_RELA , sh_flags = 0 ,
sh_link = objfile . symtab . index , sh_info = target . index ,
sh_addralign = 4 , sh_entsize = 12 , data = b ' ' )
target_reltaba . data + = new_data
objfile . write ( objfile_name )
finally :
s_file . close ( )
os . remove ( s_name )
try :
os . remove ( o_name )
except :
pass
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def run_wrapped ( argv , outfile , functions ) :
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parser = argparse . ArgumentParser ( description = " Pre-process .c files and post-process .o files to enable embedding assembly into C. " )
parser . add_argument ( ' filename ' , help = " path to .c code " )
parser . add_argument ( ' --post-process ' , dest = ' objfile ' , help = " path to .o file to post-process " )
parser . add_argument ( ' --assembler ' , dest = ' assembler ' , help = " assembler command (e.g. \" mips-linux-gnu-as -march=vr4300 -mabi=32 \" ) " )
parser . add_argument ( ' --asm-prelude ' , dest = ' asm_prelude ' , help = " path to a file containing a prelude to the assembly file (with .set and .macro directives, e.g.) " )
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parser . add_argument ( ' --input-enc ' , default = ' latin1 ' , help = " Input encoding (default: latin1) " )
parser . add_argument ( ' --output-enc ' , default = ' latin1 ' , help = " Output encoding (default: latin1) " )
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parser . add_argument ( ' -framepointer ' , dest = ' framepointer ' , action = ' store_true ' )
parser . add_argument ( ' -g3 ' , dest = ' g3 ' , action = ' store_true ' )
group = parser . add_mutually_exclusive_group ( required = True )
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group . add_argument ( ' -O1 ' , dest = ' opt ' , action = ' store_const ' , const = ' O1 ' )
group . add_argument ( ' -O2 ' , dest = ' opt ' , action = ' store_const ' , const = ' O2 ' )
group . add_argument ( ' -g ' , dest = ' opt ' , action = ' store_const ' , const = ' g ' )
args = parser . parse_args ( argv )
opt = args . opt
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if args . g3 :
if opt != ' O2 ' :
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raise Failure ( " -g3 is only supported together with -O2 " )
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opt = ' g3 '
if args . objfile is None :
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with open ( args . filename , encoding = args . input_enc ) as f :
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return parse_source ( f , opt = opt , framepointer = args . framepointer , input_enc = args . input_enc , output_enc = args . output_enc , print_source = outfile )
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else :
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if args . assembler is None :
raise Failure ( " must pass assembler command " )
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if functions is None :
with open ( args . filename , encoding = args . input_enc ) as f :
functions = parse_source ( f , opt = opt , framepointer = args . framepointer , input_enc = args . input_enc , output_enc = args . output_enc )
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if not functions :
return
asm_prelude = b ' '
if args . asm_prelude :
with open ( args . asm_prelude , ' rb ' ) as f :
asm_prelude = f . read ( )
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fixup_objfile ( args . objfile , functions , asm_prelude , args . assembler , args . output_enc )
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def run ( argv , outfile = sys . stdout . buffer , functions = None ) :
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try :
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return run_wrapped ( argv , outfile , functions )
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except Failure as e :
print ( " Error: " , e , file = sys . stderr )
sys . exit ( 1 )
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if __name__ == " __main__ " :
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run ( sys . argv [ 1 : ] )