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userspace-header-gen.py
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userspace-header-gen.py
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#!/usr/bin/env python
# -*- coding: utf-8 -*-
# Copyright (c) 2016 embedded brains GmbH. All rights reserved.
#
# embedded brains GmbH
# Dornierstr. 4
# 82178 Puchheim
# Germany
# <rtems@embedded-brains.de>
#
# Redistribution and use in source and binary forms, with or without
# modification, are permitted provided that the following conditions
# are met:
# 1. Redistributions of source code must retain the above copyright
# notice, this list of conditions and the following disclaimer.
# 2. 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.
#
# THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``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 OR CONTRIBUTORS 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.
from __future__ import print_function, division
import argparse
import sys
from elftools.elf.elffile import ELFFile
import re
import copy
import os
VERBOSE_SOME = 1
VERBOSE_MORE = 2
VERBOSE_MOST = 3
class Error(Exception):
"""Base class for exceptions in this module."""
pass
class NoDwarfInfoError(Error):
"""Exception raised in case there is no DWARF information."""
def __init__(self):
super(NoDwarfInfoError, self).__init__("Input file has no DWARF info.")
class TypenameNotFoundError(Error):
"""Exception raised in case a die is not found like expected."""
pass
class AnonymousStructureError(Error):
"""Exception raised in case a die is not found like expected."""
pass
class VarnameNotFoundError(Error):
"""Exception raised in case a die is not found like expected."""
def __init__(self):
super(VarnameNotFoundError, self).__init__("Couldn't find the variables name.")
class HeaderGenCU:
"""Process a single CU"""
def __init__(self, cu, progname, lineprog, err = sys.stderr, verbose = 0,
filterre = re.compile('.*')):
self._rtems_port_names = []
self._rtems_port_names.append("_Linker_set_bsd_prog_%s_begin" % progname)
self._rtems_port_names.append("_Linker_set_bsd_prog_%s_end" % progname)
self._rtems_port_names.append("rtems_bsd_command_%s" % progname)
self._filter_special_vars = []
# Take some special care for some yacc variables. This matches the yyval
# and yylval. These two always make trouble in the generated headers.
# yyval is initialized by Yacc generated code so it's not
# necessary to move them into the copy back region. yylval is used only
# for transporting a value. It will be set when used.
self._filter_special_vars.append({
"re":re.compile('extern YYSTYPE .*val'),
"reason":"Lex / Yacc variable initialized by generated code",
"action":"no_section"
})
# Lex generates an external variable that shouldn't be extern. Move it
# to the current data header file.
self._filter_special_vars.append({
"re":re.compile('extern yy_size_t .*len'),
"reason":"Lex adds an extern to this variable that is not necessary.",
"action":"ignore_extern"
})
self._err = err
self._verbose = verbose
self._cu = cu
self._progname = progname
self._die_by_offset = {}
self._lineprogram = lineprog
self._filterre = filterre
self._namespace_prefix = "_bsd_%s_" % (self._progname)
self._fill_die_list()
if self._verbose >= VERBOSE_MOST:
print('DIE list: \n', self._die_by_offset)
def _fill_die_list(self, die = None):
if die is None:
die = self._cu.get_top_DIE()
# Use relative indices for the keys like they are used to reference
# inside one cu
offset = die.offset - self._cu.cu_offset
self._die_by_offset[offset] = die
for child in die.iter_children():
self._fill_die_list(child)
def _die_is_var(self, die):
return (die.tag == "DW_TAG_variable")
def _die_is_function(self, die):
return (die.tag == "DW_TAG_subprogram")
def _get_type(self, die, first_array = True):
"""Get the type of a variable DIE.
Returns two strings: one prefix and one postfix for the variable name"""
typepre = ""
typepost = ""
if self._verbose >= VERBOSE_MOST:
self._err.write('Search type for DIE with offset=%d\n' % \
(die.offset))
try:
typedie_offset = die.attributes["DW_AT_type"].value
except KeyError:
raise TypenameNotFoundError('Couldn\'t find the offset of the type DIE\n')
try:
typedie = self._die_by_offset[typedie_offset]
except KeyError:
raise TypenameNotFoundError('Couldn\'t find the DIE at offset %d\n' % \
(typedie_offset))
last = False
if (typedie.tag == "DW_TAG_const_type"):
typepre += "const "
elif (typedie.tag == "DW_TAG_array_type"):
for child in typedie.iter_children():
if child.tag == "DW_TAG_subrange_type":
if first_array == True:
arraysize = ""
first_array = False
else:
try:
upper_bound = child.attributes["DW_AT_upper_bound"].value
arraysize = "%d" % (upper_bound + 1)
except KeyError:
arraysize = ""
typepost += "[%s]" % arraysize
elif (typedie.tag == "DW_TAG_volatile_type"):
typepre += "volatile "
elif (typedie.tag == "DW_TAG_pointer_type"):
typepre += "*"
elif (typedie.tag == "DW_TAG_structure_type"):
typepre += "struct "
elif (typedie.tag == "DW_TAG_enumeration_type"):
typepre += "enum "
elif (typedie.tag == "DW_TAG_subroutine_type"):
typepre = "("
typepost = ")("
current_child = 0
for child in typedie.iter_children():
pre, post = self._get_type(child)
if (current_child > 0):
typepost += ", "
typepost += pre + post
current_child += 1
if current_child == 0:
typepost += "void"
typepost += ")"
if not "DW_AT_type" in typedie.attributes.keys():
typepre = "void " + typepre
last = True
elif (typedie.tag == "DW_TAG_typedef") or \
(typedie.tag == "DW_TAG_base_type"):
# nothing to do here than prevent the error
pass
else:
raise TypenameNotFoundError('Unknown tag: %s\n' % (typedie.tag))
if (typedie.tag == "DW_TAG_typedef") or \
(typedie.tag == "DW_TAG_base_type") or \
(typedie.tag == "DW_TAG_structure_type") or \
(typedie.tag == "DW_TAG_enumeration_type"):
last = True
try:
typepre += "%s " % \
typedie.attributes["DW_AT_name"].value.decode('ascii')
except KeyError:
if typedie.has_children:
message = 'Found an anonymous structure'
raise AnonymousStructureError(message)
else:
message = 'Couldn\'t get type name from DIE'
raise TypenameNotFoundError(message)
if last == False:
addpre, addpost = self._get_type(typedie, first_array)
typepre = addpre + typepre
typepost = typepost + addpost
if self._verbose >= VERBOSE_MOST:
self._err.write('Add prefix="%s", postfix="%s" for DIE with offset=%d\n' % \
(typepre, typepost, die.offset))
return typepre, typepost
def generate_header(self, data_out_filename, glob_data_out, namesp_out):
"""Find all top level (global) variables in the ELF file and generate
output that can be written in a header.
"""
top_die = self._cu.get_top_DIE()
try:
filename = top_die.attributes["DW_AT_name"].value.decode('ascii')
except KeyError:
filename = top_die.get_full_path()
self._err.write("WARNING: getting the filename failed. Use fallback.")
basename = os.path.basename(filename)
modulename = os.path.splitext(basename)[0]
my_data_out_filename = data_out_filename.replace("#MODULE#", modulename)
my_data_out = open(my_data_out_filename, "w")
glob_data_out.write("/* %s */\n" % (basename))
namesp_out.write("/* %s */\n" % (basename))
my_data_out.write("/* generated by userspace-header-gen.py */\n")
my_data_out.write("#include <rtems/linkersets.h>\n")
my_data_out.write('#include "%s"\n' % (glob_data_out.name))
my_data_out.write("/* %s */\n" % (basename))
self._process_die(top_die, my_data_out, glob_data_out, namesp_out)
def _is_constant(self, die):
is_constant = False
try:
type_offset = die.attributes["DW_AT_type"].value
typedie = self._die_by_offset[type_offset]
except KeyError:
self._err.write("WARNING: Could not find out whether DIE %d is const.\n" % \
die.offset)
pass
else:
if typedie.tag == "DW_TAG_const_type":
is_constant = True
return is_constant
def _write_list_to_file(self, l, f):
if l:
l.sort()
f.write('\n'.join(l) + '\n')
def _process_die(self, die, data_out, glob_data_out, namesp_out):
data_out_items = []
glob_data_out_items = []
namesp_out_items = []
for child in die.iter_children():
specdie = child
# get the name of the DIE
try:
varname = child.attributes["DW_AT_name"].value.decode('ascii')
except KeyError:
# this might is an external variable with a specification
# located elsewhere
try:
specification = child.attributes["DW_AT_specification"]\
.value
specdie = self._die_by_offset[specification]
varname = specdie.attributes["DW_AT_name"].value\
.decode('ascii')
except KeyError:
varname = None
# filter all none variable or function DIEs
is_function = False
if self._die_is_var(child):
if self._verbose >= VERBOSE_MORE:
self._err.write('Process variable DIE: tag=%s, name=%s\n' % \
(child.tag, varname))
elif self._die_is_function(child):
if self._verbose >= VERBOSE_MORE:
self._err.write('Process function DIE: tag=%s, name=%s\n' % \
(child.tag, varname))
if varname is None:
if self._verbose >= VERBOSE_MORE:
self._err.write('Skip function with no name.\n')
continue
is_function = True
else:
if self._verbose >= VERBOSE_MORE:
self._err.write('DIE is no variable or function: tag=%s, name=%s\n' % \
(child.tag, varname))
# FIXME: Check if this die has children and if one of the
# children is a function static variable
continue
# filter some special names that are used for porting
if varname in self._rtems_port_names:
self._err.write('Skip %s. It is a special object for porting.\n' % \
(varname))
continue
# check if it is an external variable
is_extern = False
try:
is_extern = (specdie.attributes["DW_AT_external"].value != 0)
except KeyError:
# if the key is not there it is not extern
is_extern = False
# check if it is an declaration
is_decl = False
try:
is_decl = (specdie.attributes["DW_AT_declaration"].value != 0)
except KeyError:
# if the key is not there it is not an declaration
is_decl = False
# filter declaration only lines (we only want the definitions)
if is_decl and specdie == child:
if self._verbose >= VERBOSE_MORE:
self._err.write('Skip extern variable "%s" because it is only a declaration.\n' % \
(varname))
continue
# filter constants
if (not is_function) and self._is_constant(specdie):
if self._verbose >= VERBOSE_SOME:
self._err.write('Skip const variable "%s" because it is a const.\n' % (varname))
continue
# Check if we haven't found a name earlier
if varname is None:
raise VarnameNotFoundError
# Fixup name (necessary if the script runs a second time)
varname = varname.replace(self._namespace_prefix, "")
# get file and line
try:
decl_file_idx = child.attributes["DW_AT_decl_file"].value - 1
decl_file = self._lineprogram['file_entry'][decl_file_idx].name.decode('ascii')
except KeyError:
decl_file = "<unknown>"
try:
decl_line = child.attributes["DW_AT_decl_line"].value
except KeyError:
decl_line = "<unknown>"
var_decl = "%s:%s" % (decl_file, decl_line)
if self._filterre.match(decl_file) is None:
if self._verbose >= VERBOSE_SOME:
self._err.write('Skip variable "%s" because it\'s declaration file (%s) doesn\'t match the filter\n' % \
(varname, var_decl))
continue
# get type for the variable
if not is_function:
try:
typepre, typepost = self._get_type(specdie)
except TypenameNotFoundError:
self._err.write('Couldn\'t find type for "%s" at %s\n' %
(varname, var_decl))
raise
except AnonymousStructureError:
self._err.write('ERROR: anonymous structure "%s" at %s\n' % \
(varname, var_decl))
raise
var_with_type = "%s%s%s" % (typepre, varname, typepost)
# check if it is a static or a extern
if not is_extern:
var_with_type = "static " + var_with_type
out_items = data_out_items
else:
self._err.write('WARNING: variable is not static: "%s" at %s\n' % \
(var_with_type, var_decl))
var_with_type = "extern " + var_with_type
out_items = glob_data_out_items
for flt in self._filter_special_vars:
if flt["re"].match(var_with_type) is not None:
if flt["action"] == "no_section":
self._err.write('Don\'t put "%s" into section. Reason: %s.\n' % \
(var_with_type, flt["reason"]))
out_items = None
if flt["action"] == "ignore_extern":
self._err.write('Ignore extern of variable "%s". Reason: %s.\n' % \
(var_with_type, flt["reason"]))
out_items = data_out_items
# write output
if self._verbose >= VERBOSE_SOME:
if not is_function:
self._err.write('Found a variable "%s" at %s (DIE offset %s); extern: %r\n' % \
(var_with_type, var_decl, child.offset, is_extern))
else:
self._err.write('Found a function "%s" at %s (DIE offset %s); extern: %r\n' % \
(varname, var_decl, child.offset, is_extern))
if (not is_function) and (out_items is not None):
out_items.append("RTEMS_LINKER_RWSET_CONTENT(bsd_prog_%s, %s);" % \
(self._progname, var_with_type))
if is_extern:
namesp_out_items.append("#define %s %s%s" % \
(varname, self._namespace_prefix, varname))
self._write_list_to_file(data_out_items, data_out)
self._write_list_to_file(glob_data_out_items, glob_data_out)
self._write_list_to_file(namesp_out_items, namesp_out)
class UserspaceHeaderGen:
def __init__(self, objfiles, progname, err = sys.stderr, verbose = 0,
filterre = re.compile(".*")):
self._err = err
self._verbose = verbose
self._objfiles = objfiles
self._progname = progname
self._filterre = filterre
def generate_header(self, data_out_filename, glob_data_out, namesp_out):
"""Find all top level (global) variables in the ELF file and generate
a header.
"""
glob_data_out.write("/* generated by userspace-header-gen.py */\n")
glob_data_out.write("#include <rtems/linkersets.h>\n")
namesp_out.write("/* generated by userspace-header-gen.py */\n")
for objfile in self._objfiles:
elffile = ELFFile(objfile)
if not elffile.has_dwarf_info():
raise NoDwarfInfoError()
# Don't relocate DWARF sections. This is not necessary for us but
# makes problems on ARM with current pyelftools (version 0.24)
dwarfinfo = elffile.get_dwarf_info(relocate_dwarf_sections=False)
for cu in dwarfinfo.iter_CUs():
if self._verbose >= VERBOSE_SOME:
self._err.write('Found a CU at offset %s, length %s\n' % \
(cu.cu_offset, cu['unit_length']))
lineprog = dwarfinfo.line_program_for_CU(cu)
headergen = HeaderGenCU(cu, self._progname, lineprog, self._err,
self._verbose, self._filterre);
headergen.generate_header(data_out_filename, glob_data_out,
namesp_out);
if __name__ == '__main__':
default_filter = '.*'
default_dataout = 'rtems-bsd-#PROGNAME#-#MODULE#-data.h'
default_globdataout = 'rtems-bsd-#PROGNAME#-data.h'
default_namespaceout = 'rtems-bsd-#PROGNAME#-namespace.h'
parser = argparse.ArgumentParser(
description=(
"Generate header files for porting FreeBSD user space tools to RTEMS."
"Takes an object file as input."
))
parser.add_argument(
"objfile",
help="Text arguments. One or more can be appended to the call.",
type=argparse.FileType("rb"),
nargs='+'
)
parser.add_argument(
"-f", "--filter",
help="Only process variables that are defined in files with a name " \
"matching the given regular expression. " \
"Default: '%s'" % default_filter,
dest="filter_string",
default=default_filter
)
parser.add_argument(
"-p", "--progname",
help="Name of the program. Default: MYPROG",
default="MYPROG"
)
parser.add_argument(
"-d", "--dataout",
help="Name of the output files where the section attributes will be " \
"added. '#PROGNAME#' will be replaced by the program name " \
"(set by parameter -p). '#MODULE#' will be replaced by the "
"current c modules base name. " \
"Default: '%s'" % (default_dataout),
default=default_dataout,
nargs="?"
)
parser.add_argument(
"-g", "--globdataout",
help="Name of the output files where the section attributes for " \
"global variables will be added. " \
"Default: '%s'" % (default_globdataout),
default=default_globdataout,
nargs="?"
)
parser.add_argument(
"-n", "--namespaceout",
help="Name of the output file where namespace definitions will be " \
"added. Default: '%s'" % (default_namespaceout),
default=default_namespaceout,
nargs="?"
)
parser.add_argument(
"-v", "--verbose",
help="Be more verbose. Can be used multiple times.",
default=0,
action="count"
)
args = parser.parse_args()
filterre = re.compile(args.filter_string)
globdataoutfilename = args.globdataout.replace("#PROGNAME#", args.progname)
globdataoutfile = open(globdataoutfilename, 'w')
namespaceoutfilename = args.namespaceout.replace("#PROGNAME#", args.progname)
namespaceoutfile = open(namespaceoutfilename, 'w')
dataoutfilename = args.dataout.replace("#PROGNAME#", args.progname)
uhg = UserspaceHeaderGen(objfiles = args.objfile,
verbose = args.verbose,
progname = args.progname,
filterre = filterre)
uhg.generate_header(dataoutfilename, globdataoutfile, namespaceoutfile)
# vim: set ts=4 sw=4 et: