#!/usr/bin/env python
# -*- coding: utf-8 -*-
# This file is part of Beremiz, a Integrated Development Environment for
# programming IEC 61131-3 automates supporting plcopen standard and CanFestival.
#
# Copyright (C) 2007: Edouard TISSERANT and Laurent BESSARD
# Copyright (C) 2017: Paul Beltyukov
#
# See COPYING file for copyrights details.
#
# This program 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 2
# of the License, or (at your option) any later version.
#
# This program 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 this program; if not, write to the Free Software
# Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
import os
import re
import operator
import hashlib
import subprocess
import shlex
from functools import reduce
from util.ProcessLogger import ProcessLogger
includes_re = re.compile(r'\s*#include\s*["<]([^">]*)[">].*')
def compute_file_md5(filetocheck):
hasher = hashlib.md5()
with open(filetocheck, 'rb') as afile:
while True:
buf = afile.read(65536)
if len(buf) > 0:
hasher.update(buf)
else:
break
return hasher.hexdigest()
class toolchain_gcc(object):
"""
This abstract class contains GCC specific code.
It cannot be used as this and should be inherited in a target specific
class such as target_linux or target_win32
"""
def __init__(self, CTRInstance):
self.CTRInstance = CTRInstance
self.buildpath = None
self.SetBuildPath(self.CTRInstance._getBuildPath())
def getBuilderCFLAGS(self):
"""
Returns list of builder specific CFLAGS
"""
cflags = [self.CTRInstance.GetTarget().getcontent().getCFLAGS()]
if "CFLAGS" in os.environ:
cflags.append(os.environ["CFLAGS"])
if "SYSROOT" in os.environ:
cflags.append("--sysroot="+os.environ["SYSROOT"])
return cflags
def getBuilderLDFLAGS(self):
"""
Returns list of builder specific LDFLAGS
"""
ldflags = self.CTRInstance.LDFLAGS + \
[self.CTRInstance.GetTarget().getcontent().getLDFLAGS()]
if "LDLAGS" in os.environ:
ldflags.append(os.environ["LDLAGS"])
if "SYSROOT" in os.environ:
ldflags.append("--sysroot="+os.environ["SYSROOT"])
return ldflags
def getCompiler(self):
"""
Returns compiler
"""
return self.CTRInstance.GetTarget().getcontent().getCompiler()
def getLinker(self):
"""
Returns linker
"""
return self.CTRInstance.GetTarget().getcontent().getLinker()
def GetBinaryPath(self):
return self.bin_path
def _GetMD5FileName(self):
return os.path.join(self.buildpath, "lastbuildPLC.md5")
def ResetBinaryMD5(self):
self.md5key = None
try:
os.remove(self._GetMD5FileName())
except Exception:
pass
def GetBinaryMD5(self):
if self.md5key is not None:
return self.md5key
else:
try:
return open(self._GetMD5FileName(), "r").read()
except Exception:
return None
def SetBuildPath(self, buildpath):
if self.buildpath != buildpath:
self.buildpath = buildpath
self.bin = self.CTRInstance.GetProjectName() + self.extension
self.bin_path = os.path.join(self.buildpath, self.bin)
self.md5key = None
self.srcmd5 = {}
def append_cfile_deps(self, src, deps):
for l in src.splitlines():
res = includes_re.match(l)
if res is not None:
depfn = res.groups()[0]
if os.path.exists(os.path.join(self.buildpath, depfn)):
deps.append(depfn)
def concat_deps(self, bn):
# read source
src = open(os.path.join(self.buildpath, bn), "r").read()
# update direct dependencies
deps = []
self.append_cfile_deps(src, deps)
# recurse through deps
# TODO detect cicular deps.
return reduce(operator.concat, list(map(self.concat_deps, deps)), src)
def check_and_update_hash_and_deps(self, bn):
# Get latest computed hash and deps
oldhash, deps = self.srcmd5.get(bn, (None, []))
# read source
src = os.path.join(self.buildpath, bn)
# compute new hash
newhash = compute_file_md5(src)
# compare
match = (oldhash == newhash)
if not match:
# file have changed
# update direct dependencies
deps = []
self.append_cfile_deps(src, deps)
# store that hashand deps
self.srcmd5[bn] = (newhash, deps)
# recurse through deps
# TODO detect cicular deps.
return reduce(operator.and_, list(map(self.check_and_update_hash_and_deps, deps)), match)
def calc_source_md5(self):
wholesrcdata = ""
for _Location, CFilesAndCFLAGS, _DoCalls in self.CTRInstance.LocationCFilesAndCFLAGS:
# Get CFiles list to give it to makefile
for CFile, _CFLAGS in CFilesAndCFLAGS:
CFileName = os.path.basename(CFile)
wholesrcdata += self.concat_deps(CFileName)
return hashlib.md5(wholesrcdata).hexdigest()
def build(self):
# Retrieve compiler and linker
self.compiler = self.getCompiler()
self.linker = self.getLinker()
Builder_CFLAGS_str = ' '.join(self.getBuilderCFLAGS())
Builder_LDFLAGS_str = ' '.join(self.getBuilderLDFLAGS())
Builder_CFLAGS = shlex.split(Builder_CFLAGS_str)
Builder_LDFLAGS = shlex.split(Builder_LDFLAGS_str)
pattern = "{SYSROOT}"
if pattern in Builder_CFLAGS_str or pattern in Builder_LDFLAGS_str:
try:
sysrootb = subprocess.check_output(["arm-unknown-linux-gnueabihf-gcc","-print-sysroot"])
except subprocess.CalledProcessError:
self.CTRInstance.logger.write("GCC failed with -print-sysroot\n")
return False
except FileNotFoundError:
self.CTRInstance.logger.write("GCC not found\n")
return False
sysroot = sysrootb.decode().strip()
replace_sysroot = lambda l:list(map(lambda s:s.replace(pattern, sysroot), l))
Builder_CFLAGS = replace_sysroot(Builder_CFLAGS)
Builder_LDFLAGS = replace_sysroot(Builder_LDFLAGS)
# ----------------- GENERATE OBJECT FILES ------------------------
obns = []
objs = []
relink = not os.path.exists(self.bin_path)
for Location, CFilesAndCFLAGS, _DoCalls in self.CTRInstance.LocationCFilesAndCFLAGS:
if CFilesAndCFLAGS:
if Location:
self.CTRInstance.logger.write(".".join(map(str, Location))+" :\n")
else:
self.CTRInstance.logger.write(_("PLC :\n"))
for CFile, CFLAGS in CFilesAndCFLAGS:
if CFile.endswith(".c"):
bn = os.path.basename(CFile)
obn = os.path.splitext(bn)[0]+".o"
objectfilename = os.path.splitext(CFile)[0]+".o"
match = self.check_and_update_hash_and_deps(bn)
if match:
self.CTRInstance.logger.write(" [pass] "+bn+" -> "+obn+"\n")
else:
relink = True
self.CTRInstance.logger.write(" [CC] "+bn+" -> "+obn+"\n")
status, _result, _err_result = ProcessLogger(
self.CTRInstance.logger,
[self.compiler,
"-c", CFile,
"-o", objectfilename,
"-O2"]
+ Builder_CFLAGS
+ shlex.split(CFLAGS)
).spin()
if status:
self.srcmd5.pop(bn)
self.CTRInstance.logger.write_error(_("C compilation of %s failed.\n") % bn)
return False
obns.append(obn)
objs.append(objectfilename)
elif CFile.endswith(".o"):
obns.append(os.path.basename(CFile))
objs.append(CFile)
# ---------------- GENERATE OUTPUT FILE --------------------------
# Link all the object files into one binary file
self.CTRInstance.logger.write(_("Linking :\n"))
if relink:
self.CTRInstance.logger.write(" [CC] " + ' '.join(obns)+" -> " + self.bin + "\n")
status, _result, _err_result = ProcessLogger(
self.CTRInstance.logger,
[self.linker] + objs
+ ["-o", self.bin_path]
+ Builder_LDFLAGS
).spin()
if status:
return False
else:
self.CTRInstance.logger.write(" [pass] " + ' '.join(obns)+" -> " + self.bin + "\n")
# Calculate md5 key and get data for the new created PLC
self.md5key = compute_file_md5(self.bin_path)
# Store new PLC filename based on md5 key
f = open(self._GetMD5FileName(), "w")
f.write(self.md5key)
f.close()
return True